KR100746854B1 - Moving under water imaginary base ground - Google Patents

Abstract

A movable underwater imaginary foundation ground is provided to reduce the time and cost required for construction and dismantlement works by executing the works on the water and excluding the works on the bottom of the sea using increase and decrease of buoyancy and weight. Disclosed is the movable underwater imaginary foundation ground for constructing the foundation ground of an underwater structure for maritime work using buoyancy of seawater. The upper foundation ground(10) formed as the foundation ground of a waterborne structure and the lower foundation ground(20) settled on the bottom of the sea to fix the position of the upper foundation ground are formed in a weight container enabling to increase and decrease buoyancy and weight by water inlets and outlets(11,21) and air inlets and outlets(14,24) to make construction and dismantlement possible on the water. Hereon the lower foundation ground is divided into two compartment spaces(20a,20b), and the lower compartment space is filled with weight materials(22) having high specific gravity, but doing no harm to the sea such as rubble, gravel and sand to be weighted and the upper compartment space is provided with an empty space to increase and decrease buoyancy and weight by letting water and air in and out through the water inlet and outlet and the air inlet and outlet using a water supply and drainage device(51) and an air supply device(52).

Description

     Movable under water imaginary base ground

     1 is a configuration diagram of a state injured in the sea before construction of the present invention

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     Figure 2 is a state in which the lower base of the present invention is fixed to the sea bottom

Figure 2a is a plan view of the state in which the present invention injured in the water.
Figure 3 is a state diagram raised the upper structure of the present invention

     Figure 4 is a state diagram submerged in water the upper foundation ground of the present invention

     Figure 5 is a state in which the lower base ground is injured for the demolition of the present invention

     6 is a state diagram in which the foundation ground is constructed in a conventional manner;

     7 is a state diagram in which the foundation ground is constructed in another conventional manner

     8 is a state diagram in which the virtual foundation is established in the manner in which the applicant has registered

Description of the main parts of the drawing

     10: upper base ground 11: water inlet and outlet

     14: air inlet and outlet 15: space

     20: lower base ground 20a, 20b: compartment space

     21: water inlet and outlet 22: weight

     23: anti-skid protrusion 24: air inlet and outlet

     25: space

     30: winch 40: cable

     50: working table 51: water supply and drainage

     52: air pump and supply 53: generator

     54: support

    The present invention relates to an underwater virtual foundation ground to form the foundation ground of a water structure by using buoyancy when constructing a structure in the water surface for sea works. It can be greatly shortened, as well as easy to dismantle and move is characterized in that it is formed to be removable to reuse in other sea areas.

    In addition, the construction and demolition work of virtual foundations in the water will be possible, and sampling will be made possible to check the seabed geological status in the water.

    In general, when constructing a structure in the water phase for sea works, the basic structure of the water structure should be pre-constructed in water, and the conventional method for constructing such a foundation structure is shown in FIG. 6. 100) by dropping a large amount to be piled up to a certain height of the ground to build the foundation ground, or as shown in Figure 7 to pile the pile 200 to a certain height of the underwater on the sea floor and the base ground (300) ) Was to be built in a fixed way.

    However, since all of the conventional basic ground construction methods are constructed at the bottom of the sea, there is an uneconomical problem due to the burden of prolonged construction period as well as the input of a large number of equipments and experts for the bottom construction. However, there is a problem that safety is not secured for depths above the limit depth.

    Therefore, in Utility No. 266845, filed by the applicant as a utility model in 2001, the present inventors artificially construct a virtual foundation ground using buoyancy in water and utilize it as the foundation ground of the floating structure to simplify the construction of the lower foundation work. We have proposed a technology that enables more economical foundation work to minimize construction time.

    That is, in this case, the underwater virtual foundation ground constructed is the buoyancy 400 which is the foundation ground of the water structure as shown in FIG. 8 is increased or decreased buoyancy in the state anchored at a certain position on the sea bottom by the fixture 500. It is to be settled to the position of the desired depth by this, the fixture 500 is to be settled by anchoring deeply to the bottom using a separate anchor 600 because it is difficult to fix itself on the bottom.

    Therefore, the anchoring work of such a fixture is also performed by mobilizing specialized personnel and equipment on the sea floor, so that the construction period and construction cost can be shortened to some extent than in the case of the conventional ground foundation construction, Considering the construction period and construction cost required for construction, it is insignificant.

    In addition, these underwater virtual foundations are to be anchored on the bottom of the sea, so the demolition work should be done after the completion of the sea work.In this case, the anchored anchor on the sea bottom should be separated by manpower and equipment. Therefore, in consideration of the cost and construction period required for this, it is often left as it is in the water is a situation that causes the marine waste.

    Therefore, the present invention enables the construction at the work site where the sea works are undertaken without the construction of specialized personnel or equipment for the sea floor work, thereby greatly shortening the overall construction period and economic efficiency of the sea works, and at the same time, The constructed virtual foundation ground is to provide an underwater virtual foundation ground that can solve all the above-mentioned problems by retreating immediately after completion of the sea construction and moving to another sea area.

    To this end, the present invention forms a lower base ground that is settled on the sea bottom for fixing the upper foundation ground and the upper foundation ground, which are the foundation grounds of the waterborne structure, so that the buoyancy and the weight can be added or subtracted to add or subtract the buoyancy and weight. Construction in the water, as well as demolition and movement by the lifting and lowering in the water is to be possible.

    In addition, a work platform that can be moved to the upper and lower sides of the support for the construction and removal of water from the upper base is constructed. The upper base and the lower base are penetrated through sampling and sampling tools to check the seabed geological status. It is a space that can be made.

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

    As shown in FIG. 1, the present invention provides a water inlet and outlet through the lower foundation ground 20 which is settled on the sea bottom for fixing the position of the upper foundation ground 10 and the upper foundation ground 10 serving as the foundation ground of the water structure. 11) (21) and the air inlet and outlet (14, 24) by the buoyancy and weight can be added or subtracted by the weight enclosure to be able to build and dismantle in the water by raising and lowering in water.

     At this time, the lower base ground 20 is located below the upper base ground 10 at all times in an injured state by being smaller than the buoyancy of the upper base ground 10 even when the buoyancy recovers, and simultaneously with the loss of buoyancy. It is made of a weight box having a weight receiving space so that a sense of weight is added to have a weight greater than the buoyancy of the upper base 10 so that it can be fixed to the sea bottom.

     To this end, the lower base ground 20 is formed of a housing having a wider bottom surface than a side surface, and provides two partition spaces 20a and 20b partitioned up and down, and thus has a crushed stone in the lower partition space 20b. , Sea gravel, gravel, sand, etc. have a specific gravity and no harm to the sea to fill the weight (22) to have a sense of weight, the upper compartment space (20a) through the water inlet and outlet 21 and the air inlet and outlet (24) In and out of water and air is made of an empty space to enable the addition and subtraction of buoyancy and weight.

     At this time, the water input and output operations for the upper base 10 and the lower base 20 is as follows.

     First, the water inlet and outlet operations for the upper base ground (10) injects water through the water inlet and outlet (11) using the water supply and drainage device (51), the water supply outlet while opening the water inlet and outlet (11) By blowing air through the air inlet and outlet 14 using the device 52, the water inside is drained from the water phase through the water inlet and outlet 11 and the water supply and drainage 51 to the outside.

     At this time, the water supply and drainage device 51 and the air supply device 52 is provided with a workbench 50 on the upper base ground 10 to be mounted on the workbench 50 to allow water in and out work In the virtual ground foundation construction work of the present invention to enable.

    At this time, the work table 50 is fixed to the support base 54 having a predetermined height on both sides of the upper side of the upper base 10, so that the support base 54 is bound through both sides of the work table 50, the upper base ground It is to be provided in the (10), the work table 50 bound to the support 54 is required to change the position according to the inundation or injury of the upper base ground 10 in accordance with the construction and demolition work of the present invention virtual base ground It is to be able to move by using a variety of known moving means to the upper and lower sides of the support (54).

     In addition, the water input and output operation for the lower base ground 20 is automatically in the water under water using the automatic opening and closing device of the water inlet and outlet 21 attached to the water supply and drainage device 51 located on the workbench 50. When the water is filled, the water filled in the air through the air inlet and outlet 24 by using the air supply unit 52 when draining automatically filled with water inside the water through the water inlet and outlet 21 To be drained.

     In addition, in consideration of the weight of the weight body 22 accommodated in the lower compartment 20b of the lower base ground 20, the degree of buoyancy can be applied to a certain degree even when the weight body 22 is filled. The space to be provided is to be provided, the upper compartment 20a is to be provided to have a water receiving space that can be settled on the sea floor by applying a greater weight than buoyancy due to the complete loss of buoyancy when water is injected.

    At this time, the amount of water to be injected in order to fix the lower base ground 20 to the sea bottom can be easily obtained through a known equation, the water of the lower base ground 20 in consideration of the amount of water calculated in this way It is possible to design the upper partition space (20a) for providing the accommodation space.

    At this time, the amount of water required for the settlement of the seabed of the lower base ground 20 should be larger than the amount of water calculated as a calculated value in consideration of the action of variables such as the depth of the seabed to be constructed and the surrounding conditions such as waves. It is to be designed as an accommodation space beyond the accommodation space, and it is to be designed in consideration of the maximum depth of the sea floor to be used for reuse in other sea areas.

    In addition, the lower base of the lower base 20 is more excellent by mounting the non-slip projections (23) having a lower point is pointed to prevent the activity on the sea floor by the force lowered when descending for settlement on the sea bottom It is possible to have a fixed force.

   In addition, between the upper base 10 and the lower base 20 is connected to the cable 40 to be wound or unwound according to the lifting of the lower base 20 is connected, the cable 40 is the upper base It is released by the operation of the winch 30 formed in the ground (10) is the lower base plate 20 is settled on the sea bottom, the lower base ground 20 is fixed and the cable 40 pulled and the upper By lowering the buoyancy through the water inlet and outlet 11 of the foundation ground 10 is to settle the upper foundation ground 10 to the desired depth position in the water.

    On the other hand, construction work in the water phase using the work bench 50 is possible by using the self-power source using the generator 53.

     In addition, in the center of the upper base 10 and the lower base 20, a space 15, 25 through which upper and lower holes are secured so as to penetrate sampling sampling tools for checking the state of the seabed surface is secured. To enable drilling at.

     Accordingly, the underwater virtual foundation ground of the present invention configured as described above uses the tugboat to the position of the sea area where the virtual foundation ground is to be installed, as shown in FIG. 1 by using the upper foundation ground 10 and the lower foundation ground 20. If the position is fixed by towing, the upper base 10 and the lower base 20 are floated on the water surface in a stacked state by buoyancy, in which water is injected into the lower base 20 in this state. As shown in FIG. 2, the buoyancy of the lower foundation ground 20 is lost and is lowered to the sea bottom due to the weight of water gradually injected. After the work table 50 is raised to the desired height of the support table 54 as shown in FIG. 3 before the position of the design buoyancy can be exerted, the lower base ground 20 is lowered. When the cable 40 is pulled up by operating the winch 30, the weight of the lower foundation ground 20 is greater than the buoyancy of the upper foundation ground 10 so that the upper foundation ground 10 is desired as shown in FIG. 4. The construction is completed by having the water settle in the depth position.

At this time, the work table 50 is to be raised to a predetermined position of the support 54 using the moving means, wherein the moving means is operated hydraulically by using a generator so that the work table 50 is moved up and down By adjusting, such a method of moving the workbench will be omitted in the technical field to which the present invention belongs, that is, a conventional technique that is conventionally used until now when construction is done at sea.
In this case, if the gravity of the lower base ground 20 is less than the buoyancy of the upper base 10, it is to be constructed by injecting water into the upper base 10 to reduce the buoyancy.

    Therefore, it is possible to construct a virtual foundation in the water without anchoring work on the sea floor.

    In addition, after completion of the seabed construction, if water is drawn out through the water inlet and outlet 21 from the lower base ground 20 that has been settled on the sea bottom, and blows air through the air inlet and outlet 24, as shown in FIG. As the buoyancy of the lower base ground 20 is restored and rises above the water surface, the virtual base ground can be demolished in the water without anchoring and dismantling work on the sea bottom.

    Therefore, the virtual foundation ground floating in the water will be able to move to another sea area using the traction ship.

    In addition, the equipment to be provided at the offshore construction can be mounted on the workbench 50, so that the construction and demolition work of the virtual foundation can be conveniently performed in the water, as well as the equipment required for drilling work to be installed on the workbench 50. As shown in FIG. 4, through the space 15 and 25 formed at the center of the upper base 10 and the lower base 20, the sampling sampling tool 60 for checking the state of the seabed surface is penetrated. It is possible to do drilling at sea.

    As described above, the virtual foundation ground of the present invention can be easily installed and removed from the water surface by fixing and floating the bottom surface of the lower foundation ground by adding or subtracting buoyancy and weight, so that construction and demolition work on the bottom surface is unnecessary. The cost and construction time required for the construction and demolition work of the conventional virtual foundation ground can be greatly reduced, and the virtual foundation ground of such a structure can be moved to another offshore work area by using the waterborne path while being removed. Therefore, there is a feature that has excellent economical efficiency that can reduce the cost of the entire offshore construction by repeated use.

    In addition, it is easy to construct and dismantle the virtual foundation ground in the water because of the work table, and it is possible to perform drilling at sea through sampling to check the seabed geological state in the water.

Claims (7)

     The upper foundation ground, which is the foundation ground of the aquatic structure, is formed as a buoyancy enclosure so that the foundation ground can be constructed by buoyancy, and the lower foundation ground is settled on the sea bottom to fix the position of the upper foundation ground 10. (20) is formed of a weight box having a weight receiving space so as to lose buoyancy due to water injection and at the same time have a greater gravity than the buoyancy of the upper base ground, so that the buoyancy and the lifting effect in the water by the addition and subtraction of weight A mobile underwater virtual foundation that is characterized by construction and demolition in the water.     According to claim 1, wherein the weight box for forming the lower base ground 20 is made of a wider bottom surface than the side, both sides of the operation of the winch 30 is located on both sides of the upper base ground (10). The mobile underwater virtual foundation, which is connected to the cable 40 to be unwound or wound by being pulled up and down.     3. The mobile underwater virtual foundation according to claim 1 or 2, wherein an upper side of the upper base is provided with a working platform (50) which is movable up and down of a support (54) having a lower end bound thereto.     According to claim 1 or claim 2, wherein the interior of the lower base is formed into two compartment space divided into the upper and lower weight receiving space, the lower compartment is filled with a weight body, the upper compartment is water inlet and outlet And a mobile underwater virtual foundation having a structure consisting of an empty space capable of entering and exiting water and air through the air inlet and outlet.     [3] The mobile underwater virtual foundation of claim 1 or 2, wherein the lower base foundation is provided with an automatic opening and closing device of the water inlet and outlet to the water supply and drainage system so that the water entry and exit is automatically performed in the water.     According to claim 1 or claim 2, The lower base of the base 20 is movable underwater virtual equipped with a non-slip projections having a sharp bottom point is fixed to the bottom of the sea floor by the downward force to prevent the sliding activity Foundation ground. According to claim 1 or claim 2, wherein the center of the upper base and the lower base is a space for penetrating sampling tools for investigating the seabed geological surface is secured to enable drilling at sea Removable underwater virtual foundations.

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