KR102111790B1 - Hydraulic hammer - Google Patents

Abstract

The present invention relates to a hydraulic hammer device for driving a deep sea, in detail, to provide a technique for driving a pile using a hammer in a state where the hydraulic hammer clamped on the pile is located on the ground below the water depth.
The composition is as follows.
The body 10 having a length vertically and a width horizontally,
The hammer 20 is supported on the main body 10, the hammer hammer 20 is located at the lower end of the hammer device 20, and the hammer hammer 21 clamps the pile 100 at the clamp portion 31. Or the clamp device 30 to release the clamp is fixed,
The body 10 is configured to form a wire connection portion 50 to which the wire descended from the crane 60 is connected.

Description

Deep-sea pile hydraulic hammer device {Hydraulic hammer}

The present invention relates to a hydraulic hammer device for driving a deep sea, and in detail, provides a technique for driving a pile using a hammer while the hydraulic hammer clamped on the pile is located on the ground below the water depth.

In order to drive the pile, it is a technology in which a water resistance plate is formed so that the hammer device body does not easily rise (float) from underwater to upper while the hammer device is in operation.

In addition, an infrared underwater camera connected by cable to the ship on the water surface is installed on the hammer device to watch the piling process with the monitor on the ship.

In addition, the depth measuring device checks the depth. One of the reasons for the depth check is to calculate the cost of piling according to the depth with the fishermen.

In general, seaweed is a kind of sea horse and contains a lot of carbohydrates and proteins. In particular, it has been used because it has a good taste of amino acids glycine and alanine with sweetness and Jimmy, so it cannot be satisfied by natural breeding alone. I have been doing artificial farming since early.

Since spores grow in the winter and spring season around October, such plants are grown in the sea by planting plants that will spore in the fall and grow them by raising them. It is well-produced, but in artificial farming, a lot of bamboo-patterned or synthetic fiber nets are used.

In addition, as a suitable place for farming, it is installed only in the inner bay where the waves are calm and the tide is well communicated. In this case, it is necessary to pay special attention to the water depth, where water temperature or roughness is important as development conditions.

In order to fix the drainboard, a pile is placed on the coast to fix the drainboard.

Since the pile is offshore, it is used by hand in the ear layer on the boat.

However, in the above Kim Yang-sik (including seaweed kelp abalone, etc.), the temperature of water has risen due to global warming.

Also, due to marine debris, it is no longer possible to cultivate Kim on the coast.

Because of this problem, some fishermen have reached the bottom of the sea with a depth of at least 30 meters.

To pile the pile, hit the pile with a heavy pipe on the surface of the water to drive the pile.

However, it turns out that there is no way to check whether or not a pile is being nailed, and even if it is, it is inefficient.

The fishermen who watched these piled up work cannot evade the work method and are avoiding the work method.

In order to solve the above-mentioned problems, the present invention is an object to provide a technique for driving a pile using a hammer while the hydraulic hammer clamped on the pile is located on the ground below the water depth.

In order to achieve the above object, it is preferable to form a water resistance plate so that the hammer device body does not easily rise from underwater to the upper part while the hammer device is in operation.

In addition, it is a task to install the infrared underwater camera connected to the ship on the water surface with a cable to the hammer device and watch the piling process from the ship to the monitor.

Also, a depth measuring device is installed to check the depth.

Looking at the configuration by the accompanying drawings,

The body (10) having a length vertically and a width horizontally

The hammer device 20 is supported on the main body 10, the hammer hammer 20 is located at the lower end of the hammer device 20, and the hammer hammer part 21 has the stake 100 in the clamp part 31. The clamp device 30 for clamping or releasing the clamp is fixed,

The body 10 includes a configuration in which a water resistance plate 40 is inserted horizontally and vertically in a plane and a wire connection portion 50 to which a wire descended from the crane 60 is connected.

The water resistance plate 40 is formed on the body 10 and is characterized in that the center of gravity of the body 10 is directed downward.

The clamp device 30 is configured such that the clamp device 30 is detachably connected to the hammer strike portion 21 so that the clamp device 30 can be replaced according to the size of the pile 200.

It is configured to form a wall 41 facing upward on the edge of the water resistance plate 40 to further receive water resistance.

In order to solve the above-mentioned problems, the present invention has the advantage of being able to firmly drive a pile by providing a technique of driving a pile using a hammer while the hydraulic hammer clamping the pile is located on the ground below the water depth. have.

In addition, a water resistance plate was formed to prevent the hammer device body from easily rising (floating) from the water to the top while the hammer device was in operation.

Due to this, the body of the hammer device is resistant to water and cannot be easily elevated, making it easy to block the pile.

If the body rises due to the recoil caused by the hammer work, there is a difficulty in driving the pile.

In addition, by installing an infrared underwater camera connected to the ship on the water surface with a cable to the hammer device, the process of piling can be monitored on the ship.

In addition, it is possible to check the depth by installing a depth measuring device, so it is easy to calculate the cost of piling according to the depth later.

1 is a perspective view of a deep-sea pile hydraulic hammer device of the present invention,
Figure 2 is an enlarged view of the lower part of Figure 1,
Figure 3 is a perspective view from the bottom of Figure 1,
4 is an embodiment of the present invention,
5 is a perspective view of another embodiment of the present invention.

Let's look at the configuration by the drawings and look at the embodiment according to the configuration.

The body (10) having a length vertically and a width horizontally

The hammer device 20 is supported on the main body 10, the hammer hammer 20 is located at the lower end of the hammer device 20, and the hammer hammer part 21 has the stake 100 in the clamp part 31. The clamp device 30 for clamping or releasing the clamp is fixed,

The body 10 includes a configuration that has a water resistance plate 40 placed horizontally and vertically in a plane and forms a wire connection portion 50 to which a wire descended from the crane 60 is connected.

The water resistance plate 40 is formed on the upper side of the body 10, so that the center of gravity of the body 10 is directed downward.

The clamping device 30 is configured such that the clamping device 30 is detachably connected to the hammer striking portion 21 so that the clamping device 30 can be replaced according to the size of the pile 100.

Looking at the embodiment of the configuration is as follows.

After winding the wire to the ship (not shown) or connecting the crane to release it from the winder (not shown), clamp the pile 100 vertically to the clamp part 31, and then start to unwind the wire (A) from the winder. When the lower body 100 along with the pile (100) goes down underwater.

In the process, when the end under the pile 100 reaches the ground, the wire A is loosened. At this time, the loose wire (A) is rewound and tightened, and then, by supplying hydraulic pressure to the hammer device 20, the hammer striking portion 21 strikes the pile 100, and the pile 100 digs into the surface. The wire begins to unwind during the process.

As the work continues, the piles dig underground.

After that, the worker stops the piling work considering the wire loosening condition,

The clamp device 30 is operated hydraulically to release the clamp from the pile 100.

Then, the body 10 is returned to its original position on the surface of the water and the next pile operation is performed.

When the water resistance plate 40 is further described, the water resistance plate 40 is formed on the body 10 so that the body 10 to be raised when hitting a pile receives the water resistance. It is a configuration that prevents the body from rising.

The reason for forming the water resistance plate 40 on the upper side of the body 10 is as follows.

If, when the water resistance plate 40 is at the midpoint in the longitudinal direction of the body 10, the center of gravity of the body 10 is bisected so that the water resistance plate 40 receives a flow rate.

This increases the probability that the body 10 will tilt.

It is configured to form a wall 41 facing upward on the edge of the water resistance plate 40 to further receive water resistance.

As described above, when the wall 41 is formed on the rim, the water resistance plate 40 retreats at the moment when the hammer strikes, and at this time, the water does not deviate from the rim and receives more water resistance.

And, as shown in Figure 5, the water resistance plate 40 in the longitudinal direction of the body 10

It was allowed to move (fixed by a fixing bolt after moving).

That is, it is characterized by a configuration that can selectively move the water resistance plate in the longitudinal direction of the body.

The reason is, when the water depth is low, the water resistance plate 40 is lowered to the bottom of the body, and is intended to work to drive the pile 100.

In this embodiment, if the water resistance plate 40 is close to the water surface when the waves strike heavily, the body 10 may fall over the resistance of the waves or tilt the pile vertically while the wire A is loosened. This is because it can be cumbersome to drive.

The following is the installation of the camera on the body.

Infrared underwater camera 70 is installed on the lower part of the body 10 and the underwater image obtained from the underwater camera 70 can be checked through a monitor (not shown) on the shelf. And the monitor are connected by a cable (not shown).

And the depth measuring device (not shown) checks the depth. One of the reasons for the depth check is to calculate the cost of piling according to the depth with the fishermen.

The depth measuring device is described in the registration number 10-1384752, detailed description is omitted.

Another depth check can check the depth by calculating the loosening state of the wire.

10: body 20: hammer device
21: hammer strike part 30: clamp device
31: clamp part 40: water resistance plate
41: wall 50: connection
60: crane 70: underwater camera
100: pile A: wire

Claims (3)

The body 10 having a length vertically and a width horizontally,
The hammer device 20 is supported on the main body 10, and a hammer hammer part 21 is positioned at a lower end of the hammer device 20, and the hammer strike part 21 holds the pile 100 from the clamp part 31. The clamp device 30 for clamping or releasing the clamp is fixed,
The body 10 is connected to the wire from the crane 60 is down
The water resistance plate 40 is formed on the body 10 to prevent the body from rising by forming the water resistance plate 40 to receive water resistance to the body 10 to be raised when hitting a pile. Deep hammer piling machine. delete According to claim 1,
Deep hammer piling hydraulic hammer device, characterized in that the configuration that can selectively move the water resistance plate (40) in the longitudinal direction of the body (10).

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