KR20100131619A - Pile driver for excavator - Google Patents

Abstract

PURPOSE: A pile driver for an excavator is provided to reduce manufacturing costs by effectively driving a pile into the ground using the vibration of a vibrator and a vibration body. CONSTITUTION: A pile driver for an excavator comprises a housing(100), vibration bodies, and a vibrator(120). The housing is connected to an arm unit(11) of an excavator(10). The vibration bodies are arranged inside and generate vibration. The vibrator is formed between the vibration bodies and generates vibration. The vibrator comprises a cylinder and a piston. The cylinder is located between the vibration bodies.

Description

Anti-Punching Device for Excavators {Pile Driver for Excavator}

The present invention relates to an anti-pitting device for an excavator, and more particularly, to enable more effective anti-pitting work.

In general, a variety of heavy equipment is used at the construction site or civil engineering site, the excavator is used a lot of such heavy equipment to crush the rock or existing concrete structure of the construction site.

Such excavators may be equipped with a breaker to break through a power source such as hydraulic pressure, to form a hole in the ground, or to excavate a groove.

However, the conventional breaker has a piston inside the main body, and combines a chisel at the front end of the main body to move the piston up and down by hydraulic pressure, and strikes the upper end of the chisel coupled to the lower part of the piston during the downward movement of the piston. To shred the crushed object. Detailed structure and operation of the breaker is known in the art, so the following detailed description is omitted.

However, such a breaker has a function of simply crushing by hitting the piston by the vertical movement of the hydraulic pressure, so that the hydraulic capacity of the hydraulic device must be increased in order to have a considerable crushing capacity, it becomes expensive equipment.

In addition, the conventional breaker coupled to the excavator is merely responsible for the crushing function, there was also a disadvantage that can not be used for other purposes.

On the other hand, when excavating the ground in civil engineering or construction work, a pile (pile) is put in the ground to be excavated at regular intervals.

In the operation of embedding such piles into the ground, conventionally, the ground is drilled by using an auger, and then a clamp is installed on the excavator so that the pile is driven.

However, when the file is put using the auger device, the auger device is an expensive device, and the size of the device is large, and thus the handling is not easy.

Accordingly, the present invention has been invented to solve the conventional problems as described above, while being connected to an excavator while effectively clamping the pile through the clamp, the pile is effectively put on the ground through the blow motion raised by the breaker and the vibrating body. It is an object of the invention to provide an anti-punching device for an excavator to enable.

The present invention for achieving the above object is an anti-punching device mounted on an excavator, the anti-punching device, the housing is connected to the arm portion of the excavator;

A vibrating body provided inside the housing to generate vibration;

It is made of a vibrator for generating vibration while being provided between the vibrating body,

The vibrator is characterized by consisting of a cylinder positioned between the vibrating body and a piston to be blown through the up and down movement while being in the cylinder.

The lower part of the vibrator is provided with a connecting member to be coupled to the jaw, the connecting member has a structure in which at least one long hole is formed in the circumferential surface thereof, and is coupled to the vibrator by a fastening member through the long hole.

Inside the connection member is a structure provided with an elastic member to give elasticity during the up, down movement of the piston.

In addition, the elastic member is provided between the upper surface of the cylinder and the inner surface of the housing.

In addition, a cover member is coupled to the casing surface constituting the vibrating body, and the cover member has a structure in which a plurality of protrusions are formed at intervals to prevent the operating fluid in the casing from being overheated.

In addition, a bracket having a long hole is fixed to an upper portion of the cylinder constituting the vibrator, and a bracket having a long hole is fixed to the bottom of the housing while being in contact with the bracket.

As described above, the present invention is used when the pile is embedded in the ground at the construction site, and the vibration of the vibrating body and the vibrator is added to the ground even though the device is not large.

In addition, since the apparatus is not large, there is an effect that the manufacturing cost is reduced by that much.

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

1 is a view showing the overall structure of the present invention.

Figure 2 is an enlarged partial cross-sectional view of the anti-punching apparatus of the present invention.

FIG. 3 is a partial cross-sectional view illustrating the piston descending and hitting the vibrator in the state of FIG. 2.

4 is a partially enlarged cross-sectional view showing the coupling structure of the upper portion of the cylinder constituting the vibrator of the present invention.

5 is a partial cross-sectional view according to another embodiment of the present invention.

FIG. 6 is a partial cross-sectional view illustrating the piston descending and hitting the vibrator in the state of FIG. 5.

It is a longitudinal cross-sectional view of the vibrating body of this invention of FIG.

8 is a side cross-sectional view of FIG. 7.

As shown in the figure, the present invention is an anti-punching device mounted on the excavator 10 to put the pile (P) on the ground, the anti-punching device is a housing connected to the arm portion 11 of the excavator 10 (100), a vibrator (110) for generating vibration while being provided inside the housing (100), a vibrator (120) for generating vibration while being provided between the vibrator (110), and the vibrator ( It is connected to the lower portion of the 120 is a structure consisting of a jaw (130) to clamp and put the pile (P).

Both sides of the vibrating body 110 is provided with a dustproof member (110a) to absorb the vibration in the lateral direction.

The dustproof member 110a may be made of rubber or may have a structure in which a spring is built into the pocket of the rubber.

As shown in FIGS. 7 and 8, the vibrating body 110 has a working fluid (usually oil) A stored in the casing 111, and a dotted line on the back surface of the casing 111 in the drawing. A pair of gears 113 and 114 and a rotating piece 115 and 116 that are rotated by the motor 112 shown in FIG. 2 are provided inside the casing 111 to prevent rotation of the rotating pieces 115 and 116. This causes the operating fluid A to oscillate to generate vibration.

In addition, the cover member 117 is coupled to and fixed to the outer surface of the casing 111 of the vibrating body 100. The outer surface of the cover member 117 is external to heat generated inside the casing 111 during vibration. A plurality of protrusions 117a are formed at intervals so that they can be quickly released.

In addition, a space portion 117b is formed on the inner surface of the cover member 117 to have a state in which the working fluid A is filled, and thus cooling can be more effectively performed.

In addition, the upper portion of the housing 100 has a structure formed with a bracket 101 connected to the arm 11 of the excavator 10, and the pivot portion 102 connected to the bracket 101.

The revolving part 102 is provided with a motor 103 for driving the revolving part 102.

In addition, the vibrator 120 has a structure similar to that of a conventional breaker, and forms a cylinder 121 to be positioned and fixed between the vibrating bodies 110 while forming an appearance, and is provided inside the cylinder 121. While the end is exposed to the outside of the cylinder 121, the structure is composed of a piston 122 to move up, down by hydraulic pressure.

One side of the cylinder 121 is provided with a control valve 140 for controlling the hydraulic pressure from the excavator 10 with respect to the piston (122).

The cylinder 121 has an upper compartment 123, a lower compartment 124, a low pressure chamber 125, and a switching chamber 126, through which the hydraulic pressure controlled from the control valve 140 flows in and out, to operate the piston 122. The gas chamber 127 is formed at the upper end position of the piston 122 while being in the upper portion of the cylinder 121.

The control valve 140 is connected to the hydraulic supply source, the valve body 141 is installed so as to reciprocate, the piston switching chamber 142, the valve body communicating with the upper compartment 123 of the cylinder 121 Valve hydraulic pressure chamber 143 for applying hydraulic pressure to 141, the high pressure chamber 144 connected to the lower compartment 124 of the cylinder 121 and connected to the input side of the hydraulic supply source and the low pressure chamber 145 in communication with the discharge side And a valve switching chamber 146 connected to the switching chamber 126 of the cylinder 121, the control valve 140 is formed with a high-pressure chamber 148 to which the accumulator 147 is connected, and the accumulator ( 147 is connected to the lower compartment 124 of the cylinder 121.

In addition, the jaw 130 is a structure consisting of a fixed jaw 131 and a moving jaw 132, the same as the configuration of a general jaw, similar.

In addition, as a means for coupling the jaw 130 with the vibrator 120, a connecting member 150 is provided, at least one long hole 151 is formed on the peripheral surface of the connecting member 150, the long hole It is a structure coupled to the vibrator 120 to the fastening member 152, such as a bolt through the (151).

The jaw 130 may be used by combining a suitable clamp according to the shape of the pile to be embedded in the ground.

In addition, in the present invention, one or more brackets 121a are formed at an upper end of the cylinder 121, and the bracket 104 is extended and formed on the bottom surface of the housing 100 while being between the brackets 121a. 105) has a structure combined.

In this embodiment, as shown in FIG. The bracket 121a is coupled and fixed to form a pair at intervals, and the bracket 104 extending from the housing 100 is inserted between the pair of brackets 121a and coupled to the fastening member 105.

In addition, it is preferable to install the pair of brackets 121a and brackets 104 in a pair.

The fastening member 105 is a bolt and a nut is used.

In addition, the brackets 121a and 104 are formed with long holes 121b and 104a, respectively, through which the fastening member 105 is coupled to the long holes 121b and 104a.

Meanwhile, as another embodiment of the present invention, as shown in FIGS. 5 and 6, the elastic member 160 is provided inside the connection member 150 to increase elasticity when the piston 122 moves up and down. Give it.

When the elastic member 160 is installed inside the connection member 150, an insertion tube 180 is formed to protrude from the inner bottom of the connection member 150 to a predetermined length to accommodate the elastic member 160. It is.

In addition, a support piece 181 protrudes and is formed on the bottom surface of the insertion tube 180 to more stably support the elastic member 160.

In addition, at least one elastic member 170 is provided between the upper surface of the cylinder 121 and the inner surface of the housing 100 to give elasticity.

The elastic members 160 and 170 may be a leaf spring or a coil spring.

The present invention has been described in the coupling structure between the upper end of the cylinder 121 and the housing 100 through the bracket and the fastening member, the coupling structure of the bracket and the fastening member is the same in the other embodiment shown in FIG. It can be installed so that the detailed description and drawings will be omitted below.

The present invention having such a configuration, as shown in Figure 1, connected to the arm 11 of the excavator 10 is used during construction to put the pile (P) in the ground, which is provided at the tip of the device of the present invention After clamping the pile P through the jaw 130, and operating the vibrator 120, the piston P is positioned below the piston 122 by the up and down movement of the piston 122 inside the cylinder 121. The hitting force is directly transmitted to the pile (P) by hitting the connecting member 150 can be embedded in the ground.

2 and 3, the vibrating body 110 is provided at both upper portions of the cylinder 121 constituting the vibrator 120, so that the piston 122 of the vibrator 120 is provided. In addition to the vibration by, the vibration of the vibrating body 110 is added to hit the pile (P) with a more powerful vibration force can be more easily embedded in the ground.

As shown in FIG. 7, the vibrating body 110 has an oil, which is a working fluid A, stored in the casing 111 constituting the exterior, and is connected to the gears 113 and 114 concentrically. As the rotating pieces 115 and 116 rotate, the oil is oscillated to generate vibration, and the vibration force is transmitted to the cylinder 121 to be combined with the striking motion of the vibrator 120 to double the vibration force.

Therefore, even if rocks or the like appear in the ground during the process of putting the pile P on the ground, the rock can be driven while being crushed by the strong vibration force, and thus it can be very useful for various civil works.

In addition, as shown in FIG. 4, the upper portion of the cylinder 121 is fastened through the bracket 104 and the fastening member 105 extending from the bottom of the housing 100 through the bracket 121a to more reliably. The coupled state can be maintained, and furthermore, the long holes 121b and 104a are formed in the brackets 121a and 104, respectively, so that the vibration of the cylinder 121 is smoothly performed.

In addition, the connecting member 150 is coupled through the fastening member 152 along the circumference of the cylinder 121, the long hole 151 is formed in the connecting member 150 through the long hole 151 The fastening member 152 is penetrated and coupled.

Therefore, when hitting the piston 122 provided in the cylinder 121 by the up and down movement, the connecting member 150 and the jaw 130 connected to the lower portion is a blow movement while moving the pile more effectively You can put (P).

In addition, as shown in Figure 8, the cover member 117 is coupled to the front surface of the casing 111 of the vibrating body 110, the cover member 117 is provided with a plurality of protrusions 117a at intervals. It is formed, the heat generated by the flow of oil in the interior of the casing 111 through the ambient air is lowered by causing the flow of air by the protrusion 117a at the time of vibration and heat exchange is made inside the casing 111 Do not overheat the oil, which is the working fluid (A).

Accordingly, gears and rotating pieces provided in the casing 111 can be normally operated without being damaged.

Meanwhile, in the present invention, as shown in FIGS. 5 and 6, both the upper and lower portions of the vibrator 120 or the elastic member 160 or the elastic member 170 are provided on either side. When the member 170 is hit by the piston 122 of the vibrator 120, when there is a rock in the ground, the member 170 may absorb the impact force, thereby preventing damage to the device, and the lower portion and the connection of the cylinder 121. The elastic member 160 provided inside the member 150 is compressed when the piston 122 descends, and is repulsed by the repulsive force of the compressed elastic member 160 when the piston 122 which is lowered after the impact is raised again. The ascent is to be made easily.

The jaw 130 may be used by combining a jaw suitable for the structure of the pile used at the time of construction, the operation of the jaw 130 is provided with a cylinder (not shown) therein, one side of the moving jaw (by hydraulic) 132 is to be moved to the clamping, it is a general technical content and will not be described in detail below.

Although the present invention has been described for the embodiments of the present invention based on the accompanying drawings for convenience, it is obvious that various modifications and changes are possible within the scope of the technical idea of the present invention.

1 is a view showing an installation state of the present invention.

Figure 2 is an enlarged partial cross-sectional view of the anti-punching apparatus of the present invention.

FIG. 3 is a partial cross-sectional view illustrating the piston descending and hitting the vibrator in the state of FIG. 2.

Figure 4 is a partially enlarged cross-sectional view showing a coupling structure of the upper portion of the cylinder constituting the vibrator of the present invention.

5 is a partial cross-sectional view according to another embodiment of the present invention.

FIG. 6 is a partial cross-sectional view illustrating the piston descending and hitting the vibrator in the state of FIG. 5.

It is a longitudinal cross-sectional view of the vibrating body of this invention of FIG.

8 is a side cross-sectional view of FIG. 7.

[Code Description in Drawings]

A: working fluid

P: file

10: excavator

11: arm

100: housing

101: bracket

102: turning part

103: motor

104: bracket

104a: Longevity

105: fastening member

110: vibrating body

110a: dustproof member

111: casing

112: motor

113,114: Gear

115,116: Meeting

117: cover member

117a: projection

117b: space part

120: vibrator

121: cylinder

121a: Bracket

121b: Longevity

122: piston

123: upper compartment

124: lower compartment

125: low pressure chamber

126: switching room

127: gas chamber

130: Joo

131: stationary nail

132: mobile jaws

140: control valve

141: valve body

142: piston switching chamber

143: valve hydraulic chamber

144: high pressure chamber

145: low pressure chamber

146: valve switching room

147: Accumulator

148: high pressure chamber

150: connecting member

151: longevity

152: fastening member

160,170: elastic member

180: insertion tube

181: support piece

Claims (6)

As an anti-punching device mounted to the excavator 10, The anti-punching device, A housing 100 connected to the arm portion 11 of the excavator 10; A vibrating body 110 provided inside the housing 100 to generate vibration; It is made of a vibrator 120 to generate a vibration while being provided between the vibrating body 110, The vibrator 120 is composed of a cylinder 121 positioned between the vibrating body 110 and a piston 122 to be blown through the up and down movement while being in the cylinder 121. Anti-pitting device for an excavator, characterized in that. The method according to claim 1, The lower portion of the vibrator 120 is provided with a connecting member 150 to be coupled to the jaw 130, the connecting member 150 is formed with one or more long holes 151 on the circumferential surface, this long hole Anti-pulling device for an excavator, characterized in that coupled to the vibrator 120 to the fastening member 152 through (151). The method according to claim 2, An anti-expansion device for an excavator, characterized in that the elastic member 160 is fixed to the inside of the connecting member 150 to give elasticity during the up and down movement of the piston (122). The method according to claim 1 or 3, Anti-explosion device for an excavator, characterized in that the elastic member 170 is fixed between the upper surface of the cylinder 121 and the inner surface of the housing 100. The method according to claim 1, The cover member 117 is coupled to the surface of the casing 111 constituting the vibrating body 110, and the cover member 117 has a protrusion to prevent the operating fluid A inside the casing 111 from being overheated. 117a) is an anti-pitting device for an excavator, characterized in that a plurality, formed at intervals. The method according to claim 1, The bracket 121a having the long hole 121b is fixed to the upper portion of the cylinder 121 constituting the vibrator 120, and the bracket having the long hole 104a formed while contacting the bracket 121a at the bottom of the housing 100. An anti-expansion device for an excavator, characterized in that the cylinder (121) is fixed to the fastening member (105) is coupled to the housing (100).

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