KR20240038799A - How to Pass a Submerged Box Culvert for a Silt Transport Pipeline - Google Patents

Abstract

The present invention discloses a method for passing a submerged box culvert of a silt transport pipeline, the method comprising: installing a first winch and a first directional wheel on the upper part of the box culvert on one side of a flood drainage station; Anchoring an anchor boat in a dredging lake and installing a second winch and a second directional wheel on the anchor boat; First, the diver connects one end of the nylon rope to the end of the first wire rope, then grabs the other end of the nylon rope and passes it from the box culvert on one side of the flood drainage station to one side of the dredging lake, and then wraps it around the second direction wheel and uses the second winch. winding step; Operating the second winch to allow the nylon rope to pass the end of the first wire rope from the box culvert on one side of the flood drainage station to one side of the dredging lake; Connecting the first wire rope and the second wire rope to the head and tail ends of the pipe, respectively, by an anchor boat assistant; And operating the first winch to cause the first wire rope to drag the pipe from the box culvert on one side of the dredge lake to one side of the flood drainage station, and straightening the pipe through the second wire rope. The present invention can prevent workers from entering and working in an underwater confined space.

Description

How to Pass a Submerged Box Culvert for a Silt Transport Pipeline

The present invention relates to dredging projects, and more particularly to methods for passing submerged box culverts of silt transport pipelines.

Environmentally friendly dredging is an effective project means to remove contaminated sediments from rivers and lakes. The contaminated sediments are dredged by a cutter suction dredger, and then the mud is transported to a storage or dewatering site by a sealed pipe for dewatering treatment and discharge. The residue is treated and released after reaching standards. In this process, the equipment used in the dredge, enrichment station, and dewatering station must be selected in advance, and pipelines must also be laid out before dredging construction. In certain dredging projects, sludge pipelines must be placed between the dredging area and the thickening station and between the thickening station and the dewatering station, with the road crossing between the dredging area and the thickening station so that the pipe cannot pass to the road above, and below the road. Along the box culvert, the pipe must pass through the catchment swamp of the flood drainage station to lead to the other side of the box culvert. The maximum height of the box culvert is -1m, and the normal water level of the dredging lake is more than 0.7m, so the box culvert is completely submerged in water. Therefore, how to allow pipes to pass through a box culvert that is completely submerged underwater and is 80 meters long is a technical challenge that project engineers must urgently solve.

In order to overcome the shortcomings of existing technologies, the present invention provides silt transport pipes that can ensure that sludge transport pipes are arranged in a straight line in long-distance underwater confined spaces, can prevent workers from entering and working in underwater confined spaces, and can reduce the workload of divers. The purpose is to provide a method for passing a submerged box culvert of a transportation pipeline.

The object of the present invention is realized as follows. Three through box culvert pipes are sent side by side through the box culvert on one side of the dredging lake and then exit through the box culvert on one side of the flood drainage station, and the box culvert has a length of L and passes through the underwater box culvert of the silt transport pipeline. As a method, the method includes:

Step 1: Open the sewage grid of the box culvert on one side of the dredging lake and the sewage grid of the box culvert on one side of the flood drainage station, remove the obstacles in the box culvert;

Step 2: Fix one first simple floating platform on the water surface of the catchment swamp on one side of the flood drainage station, install a steel structure bracket on the road immediately above the box culvert on one side of the flood drainage station, and install one first simple floating platform on the steel structure bracket. The winch is installed to be movable laterally, the lower end extends underwater, and the three first hangers located in the box culvert are connected side by side to the steel structure bracket, and one first hanger is installed at the bottom of each of the three first hangers. Equipped with a directional wheel;

Step 3: Fix one second simple floating platform in the dredging lake close to the box culvert, mount three elbows side by side on the second simple floating platform, and then attach the heads of the three floating pipes located on the water surface of the dredging lake. Connect the three elbows in a one-to-one correspondence and then fix the heads of the three floating pipes with 8-shaped anchors;

Step 4: In the dredging lake, three through-box culvert pipes whose length is longer than the box culvert length L are connected, and a section of flexible pipe is installed in the middle part of each through-box culvert pipe, and each through-box culvert pipe is Both ends of the pipe are sealed with a sealing plate, and a water injection hole equipped with a water injection valve is installed on the sealing plate. Water is injected into the three through-box culvert pipes through the water injection hole, creating three through-box culvert pipes. Let it float in the water and then drag three through box culvert pipes near the box culvert via anchor boat;

Step 5: The anchor boat is anchored in the dredge near the box culvert, and a second winch is installed on the anchor boat, one with its lower end extending into the water and positioned flush with the lower ends of the three first hangers. A second hanger is connected to the anchor boat, one second direction wheel is mounted on the bottom of the second hanger, the second wire rope of the second winch is wound around the second direction wheel, and the anchor boat is moved to the second direction wheel. The second hanger and the first first hanger are positioned on the same vertical line, and the second direction wheel and the first direction wheel mounted at the bottom of the first first hanger are positioned on the same horizontal line;

Step 6: First, the diver winds the first wire rope of the first winch around the first first direction wheel, and then attaches one end of one nylon rope whose length is longer than the box culvert length L to the end of the first wire rope of the first winch. Connect, have the diver hold the other end of the nylon rope and pass it from the box culvert on one side of the flood drainage station to the box culvert on one side of the dredge lake, wind it around the second direction wheel, and then pass it to the assistant of the anchor boat. An assistant winds the nylon rope around the second winch and operates the second winch so that the nylon rope moves the end of the first wire rope of the first winch from the box culvert on one side of the flood drainage station to the box culvert on one side of the dredging lake. Pass it through and place it on the anchor boat, and then connect the first wire rope of the first winch to the head of the first through box culvert pipe by the anchor boat's assistant, and at the same time connect the second wire rope of the second winch to the first through box. Connected to the tail end of the culvert pipe;

Step 7: Operate the first winch to rewind the first wire rope so that the first wire rope drags the first through box culvert pipe from the box culvert on one side of the dredging lake to the box culvert on one side of the flood drainage station; , While dragging, open the water injection valve to continuously inject water into the through-box culvert pipe, allowing the first through-box culvert pipe to sink, and at the same time suspend the tail end of the first through-box culvert pipe through the second wire rope of the second winch. Straighten the first through box culvert pipe; When the first through-box culvert pipe is successfully penetrated and located on the preset axis, water is injected into the first through-box culvert pipe so that the first through-box culvert pipe is gently lowered to the bottom within the box culvert;

Step 8: Connect the head end of the first through box culvert pipe through the elbow to the first simple floating platform anchored in the reservoir on one side of the flood drainage station, and connect the tail end of the first through box culvert pipe through the elbow to the dredge lake. connected to a second anchored floating platform;

Step 9: Switch the first wire rope of the first winch from the first first direction wheel to the second first direction wheel while simultaneously moving the anchor boat so that the second hanger of the anchor boat and the second first direction wheel are mounted. 1 Make sure the hangers are on the same vertical line;

Step 10: Repeat steps 6 to 9 to sequentially introduce the second through box culvert pipe and the third through box culvert pipe into the box culvert; and

Step 11: Connect the tail ends of the three through box culvert pipes to the three elbows fixed to the second simple floating platform in one-to-one correspondence, and connect the head ends of the three through box culvert pipes to the first simple floating platform through the elbows. It includes tying to and easily connecting to shore pipes placed on one side of the flood drainage station.

In the above-described method of passing a submerged box culvert of a silt transport pipeline, when performing step 2, the first simple floating platform is fixed through three steel cables, and the free ends of the two steel cables are held through steel chisels. It is embedded in the coastal soil on one side of the flood drainage station, and the free end of the third steel cable is bound to a concrete block equipped with a hook and placed into the catchment swamp on one side of the flood drainage station.

In the above-described method of passing a silt transport pipeline through an underwater box culvert, when performing step 3, the second simple floating platform is fixed to the dredging lake through four simple anchors.

In the above-described method of passing a silt transport pipeline through an underwater box culvert, when performing step 4, underwater imaging equipment must also be tied to the heads of the three through box culvert pipes.

The method of passing a silt transport pipeline through an underwater box culvert of the present invention has the following features.

1) It can ensure that the sludge transport pipe is arranged in a straight line in an underwater long-distance enclosed space,

2) In addition to inspection by professional divers, construction safety can be improved by preventing workers from entering and working in confined underwater spaces.

Figure 1 is a state diagram when performing step 6 of the method for passing a submerged box culvert of a silt transport pipeline according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

Referring to Figure 1, the method of passing the underwater box culvert of the silt transport pipeline of the present invention involves sending three through box culvert pipes side by side through the box culvert on one side of the dredging lake and then exiting the box culvert on one side of the flood drainage station. Let's go out, but the length of the box culvert 100 is L = 80m.

The method of the present invention includes the following steps.

In step 1, the sewage grid 200 of the box culvert on one side of the dredging lake and the sewage grid 200 of the box culvert on one side of the flood drainage station are opened, and obstacles in the box culvert are removed.

In step 2, a first simple floating platform is fixed to the water surface of the catchment swamp 301 on one side of the flood drainage station 300, wherein the first simple floating platform is fixed through three steel cables, two of which are steel cables. The free end of the cable is driven into the coastal soil on the flood drainage station side through a steel chisel, and the free end of the third steel cable is bound to a concrete block with a hook installed and put into the catchment swamp 301 on the flood drainage station side. become; A steel structure bracket (10) is installed on the road immediately above the box culvert on one side of the flood drainage station (300), and a first winch (20) is installed on the steel structure bracket (10) so that it can move laterally, The three first hangers, the bottom of which extends underwater and are located in the box culvert, are connected side by side to the steel structure bracket 10, and one first direction wheel 30 is mounted on the bottom of each of the three first hangers. .

In step 3, a second simple floating platform is fixed to the dredging lake close to the box culvert, wherein the second simple floating platform is fixed to the dredging lake through four simple anchors; After mounting three elbows side by side on the second simple floating platform, connect the heads of the three floating pipes located on the surface of the dredge lake to the three elbows in a one-to-one correspondence, and then connect the heads of the three floating pipes through an 8-shaped anchor. Fix the hem.

In Step 4, three through-box culvert pipes 40 whose length is longer than the box culvert length L are connected in the dredging lake, and a section of flexible pipe is installed in the middle of each through-box culvert pipe 40. , both ends of each through-box culvert pipe 40 are sealed through a sealing plate, and a water injection hole equipped with a water injection valve is installed in the sealing plate, and the head portion of the three through-box culvert pipes 40 After tying the underwater imaging equipment to the water injection hole, water is injected into the three through box culvert pipes (40) to cause the three through box culvert pipes (40) to float in the water, and then the three through anchor boat (50). Drag two through box culvert pipes (40) near the box culvert.

In step 5, the anchor boat 50 is anchored in the dredged lake near the box culvert, and a second winch 60 is installed on the anchor boat 50, the lower end of which extends into the water to form three first winches. A second hanger located at the same height as the bottom of the hanger is connected to the anchor boat 50, a second directional wheel 70 is mounted on the bottom of the second hanger, and a second winch 60 is installed. ) of the second wire rope is wound around the second direction wheel 70 and the anchor boat 50 is moved so that the second hanger and the first first hanger are located on the same vertical line, and the second direction wheel 70 and the first hanger are positioned on the same vertical line. The first direction wheels 30 mounted at the bottom of the first hanger are positioned on the same horizontal line.

In step 6, the diver first winds the first wire rope of the first winch 20 around the first first direction wheel 30, and then wraps one end of one nylon rope whose length is longer than the box culvert length L into the first winch ( 20) is connected to the end of the first wire rope, and the diver holds the other end of the nylon rope and passes it from the box culvert on one side of the flood drainage station 300 to the box culvert on one side of the dredging lake, and the second direction wheel After winding it around (70), it is delivered to the assistant of the anchor boat (50), and the assistant of the anchor boat (50) winds the nylon rope around the second winch (60) and operates the second winch (60) to make the nylon rope. The end of the first wire rope of the first winch 20 is passed from the box culvert on one side of the flood drainage station 300 to the box culvert on one side of the dredging lake, and the end of the first wire rope is placed on the anchor boat 50. Then, the first wire rope of the first winch 20 is connected to the head of the first through box culvert pipe 40 by the assistant of the anchor boat 50, and the second wire rope of the second winch 60 is connected at the same time. Connect the wire rope to the tail end of the first through box culvert pipe (40).

In step 7, the first winch 20 is operated to rewind the first wire rope so that the first wire rope drags the first through box culvert pipe 40 from the box culvert on one side of the dredge lake to the flood drainage station on one side. Drag it to the box culvert, and while dragging, open the water injection valve to continue injecting water into the through box culvert pipe (40) to allow the first through box culvert pipe (40) to sink, while at the same time holding the second winch (60). 2 Straighten the first through box culvert pipe (40) by hanging the tail end of the first through box culvert pipe (40) through a wire rope; ensuring that the first through-box culvert pipe (40) is located on the preset axis after being successfully penetrated; The state of the first penetrating box culvert pipe (40) being penetrated is monitored in real time with underwater imaging equipment, and when it is discovered that the front is almost colliding with the wall of the box culvert, the first winch (20) is immediately sent through a walkie-talkie. notify the operator of and the operator of the second winch 60 to stop operating the equipment to prevent the first through box culvert pipe 40 from colliding with the wall of the box culvert 100; When the first through box culvert pipe 40 is successfully penetrated and located on the preset axis, water is injected into the first through box culvert pipe 40 so that the first through box culvert pipe 40 is positioned at the bottom within the box culvert. Allow it to descend gently.

In step 8, the head end of the first through box culvert pipe is connected through the elbow to the first simple floating platform anchored in the reservoir on one side of the flood drainage station, and the tail end of the first through box culvert pipe is connected through the elbow to the dredge lake. It is connected to the second simple floating platform anchored at.

In step 9, switch the first wire rope of the first winch from the first first direction wheel to the second first direction wheel and simultaneously move the anchor boat so that the second hanger of the anchor boat and the second first direction wheel are mounted. Ensure that the first hanger is located on the same vertical line.

In step 10, steps 6 through 9 are repeated to sequentially introduce the second through box culvert pipe and the third through box culvert pipe into the box culvert.

In step 11, the tail ends of the three through box culvert pipes are connected in one-to-one correspondence to the three elbows fixed to the second simple floating platform, and the head ends of the three through box culvert pipes are connected to the first simple floating platform through the elbows. It is tied to the platform and easily connected to the shore pipe placed on one side of the flood drainage station.

The above-described embodiments are only for illustrating the present invention, but the present invention is not limited thereto, and those skilled in the art may make various modifications or changes without departing from the spirit and scope of the present invention, so all equivalents Technical solutions fall within the scope of the present invention and should be defined by the scope of each claim.

Claims (4)

Three through-through box culvert pipes are introduced side by side through a box culvert on one side of the dredging lake and then exit through a box culvert on one side of the flood drainage station. The length of the box culvert is L. An underwater box of the silt transport pipeline. As a method of passing through a culvert,
The method is:
Step 1: Open the sewage grid of the box culvert on one side of the dredging lake and the sewage grid of the box culvert on one side of the flood drainage station, remove the obstacles in the box culvert;
Step 2: Fix one first simple floating platform on the water surface of the catchment swamp on one side of the flood drainage station, install a steel structure bracket on the road immediately above the box culvert on one side of the flood drainage station, and install one first simple floating platform on the steel structure bracket. The winch is installed to be movable laterally, the lower end extends underwater, and the three first hangers located in the box culvert are connected side by side to the steel structure bracket, and one first hanger is installed at the bottom of each of the three first hangers. Equipped with a directional wheel;
Step 3: Fix a second simple floating platform in the dredging lake close to the box culvert, mount three elbows side by side on the second simple floating platform, and then attach the heads of the three floating pipes located on the water surface of the dredging lake. Connect the three elbows in a one-to-one correspondence and then fix the heads of the three floating pipes with 8-shaped anchors;
Step 4: In the dredging lake, three through-box culvert pipes whose length is longer than the box culvert length L are connected, and a section of flexible pipe is installed in the middle of each through-box culvert pipe, and each through-box culvert pipe is Both ends of the pipe are sealed with a sealing plate, and a water injection hole equipped with a water injection valve is installed on the sealing plate. Water is injected into the three through-box culvert pipes through the water injection hole, creating three through-box culvert pipes. Let it float in the water and then drag three through box culvert pipes near the box culvert via anchor boat;
Step 5: The anchor boat is anchored in the dredge near the box culvert, and a second winch is installed on the anchor boat, one with its lower end extending into the water and positioned flush with the lower ends of the three first hangers. A second hanger is connected to the anchor boat, one second direction wheel is mounted on the bottom of the second hanger, the second wire rope of the second winch is wound around the second direction wheel, and the anchor boat is moved to the second direction wheel. The second hanger and the first first hanger are positioned on the same vertical line, and the second direction wheel and the first direction wheel mounted at the bottom of the first first hanger are positioned on the same horizontal line;
Step 6: First, the diver winds the first wire rope of the first winch around the first first direction wheel, and then attaches one end of one nylon rope whose length is longer than the box culvert length L to the end of the first wire rope of the first winch. Connect, have the diver hold the other end of the nylon rope and pass it from the box culvert on one side of the flood drainage station to the box culvert on one side of the dredge lake, wind it around the second direction wheel, and then pass it to the assistant of the anchor boat. An assistant winds the nylon rope around the second winch and operates the second winch so that the nylon rope moves the end of the first wire rope of the first winch from the box culvert on one side of the flood drainage station to the box culvert on one side of the dredging lake. Pass it through and place it on the anchor boat, and then connect the first wire rope of the first winch to the head of the first through box culvert pipe by the anchor boat's assistant, and at the same time connect the second wire rope of the second winch to the first through box. Connected to the tail end of the culvert pipe;
Step 7: Operate the first winch to rewind the first wire rope so that the first wire rope drags the first through box culvert pipe from the box culvert on one side of the dredging lake to the box culvert on one side of the flood drainage station; , while dragging, open the water injection valve and continue to inject water into the through-box culvert pipe so that the first through-box culvert pipe sinks, while at the same time, the tail of the first through-box culvert pipe through the second wire rope of the second winch 50 Straighten the first through-box culvert pipe by suspending the stage; When the first through-box culvert pipe is successfully penetrated and located on the preset axis, water is injected into the first through-box culvert pipe so that the first through-box culvert pipe is gently lowered to the bottom within the box culvert;
Step 8: Connect the head end of the first through box culvert pipe through the elbow to the first simple floating platform anchored in the reservoir on one side of the flood drainage station, and connect the tail end of the first through box culvert pipe through the elbow to the dredge lake. connected to a second anchored floating platform;
Step 9: Switch the first wire rope of the first winch from the first first direction wheel to the second first direction wheel while simultaneously moving the anchor boat so that the second hanger of the anchor boat and the second first direction wheel are mounted. 1 Make sure the hangers are on the same vertical line;
Step 10: Repeat steps 6 to 9 to sequentially introduce the second through box culvert pipe and the third through box culvert pipe into the box culvert; and
Step 11: Connect the tail ends of the three through box culvert pipes to the three elbows fixed to the second simple floating platform in one-to-one correspondence, and connect the head ends of the three through box culvert pipes to the first simple floating platform through the elbows. A method of passing a submerged box culvert for a silt transport pipeline, comprising tying it to and easily connecting it to a shore pipe disposed on one side of a flood drainage station. According to paragraph 1,
When carrying out step 2, the first simple floating platform is fixed through three steel cables, the free ends of the two steel cables are driven into the coastal soil on one side of the flood drainage station through a steel chisel, and the third steel cable is A method of passing through an underwater box culvert of a silt transport pipeline, characterized in that the free end of the is bound to a single concrete block equipped with a hook and inserted into the catchment swamp on one side of the flood drainage station. According to paragraph 1,
When performing step 3, the second simple floating platform is fixed to the dredging lake through four simple anchors. According to paragraph 1,
When performing step 4, the underwater box culvert passage method of the silt transport pipeline is characterized in that underwater imaging equipment is also tied to the head portion of the three through box culvert pipes.

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