CN105610152B - Ocean power Transmission equipment and its implementation - Google Patents

Abstract

Marine power transmission equipment, including roadbed area, ocean area and transformer transmission tower, the transformer transmission tower is installed in the roadbed area, and the transformer, control cabinet and cable connection end are installed in the transformer transmission tower in sequence from top to bottom , characterized in that floating platforms are evenly distributed in the ocean area, and equipment boxes are installed on the floating platforms. Beneficial effects of the present invention: (1) Transmission function: The power transmission platform can be erected in sea areas where it is inconvenient to erect and the installation cost is high, and can be connected by a number of devices, and then connected to the transmission towers on both banks. The platform and the seabed are fixed with chains to prevent excessive drift out of the specified range.

Description

Marine power transmission equipment and its implementation method

technical field

The invention relates to a marine electric power transmission device and a realization method thereof, and belongs to the technical field of power grid erection.

Background technique

The whole composed of substations of various voltages and transmission and distribution lines in the power system is called the power network, or power grid for short. It includes three units of power transformation, power transmission and power distribution. The task of the power grid is to transmit and distribute electrical energy and to change the voltage.

For example, the application number CN203278103U discloses a kind of electric power overhead line traction device. A guide line is set between the two poles with insulators installed, and a running car is hung on the guide line through a hook. The running car is equipped with wheels, and a storage battery and a controller are installed on the running car. The controller of the running car is equipped with a power module, a speed change module, a safety locking module and a forward and reverse running module, and the operation of the running car is controlled through signal transmission between the remote control device and the controller. The utility model can improve the efficiency and safety of aerial work, ensure the personal safety of operators, avoid electric shock or high-altitude falling accidents, save manpower and material resources, reduce the cost of power grid erection, and especially realize the erection of transmission lines across obstacles. It is suitable for application as an overhead line traction device in the field of power transmission.

Another example is that an application number is CN101073187, a kind of ship (10) for docking at the dock, more specifically, an offshore electric power supply for container cargo ships, RoRo (roll-on-roll-off ships), tourist passenger ships, or any other M/V ships A supply system (MPS) including a cable management system (15). The cable management system (15) has at least one power cable assembly (16) having at a first end a first connection means for connecting the power cable assembly (16) to the ship (10) and at an opposite The second end has second connection means for connecting the power cable assembly (16) to a pier adjacent power source (24); and a reel (18) for winding at least one power cable assembly (16) thereon, and for releasing at least one power cable assembly (16) therefrom. According to an important aspect of the invention, the cable management system (15) is provided in a stackable power supply container (14) placed on board the ship (10).

For the erection of offshore cables, there are currently two options: 1. Use offshore erection of transmission towers, which can be satisfied for short distances, but for long-distance deep seas, this method is difficult to construct, with long construction periods and high construction costs; 2. Submarine power 1. It is difficult to find the fault point of the communication cable, the construction cost is expensive, and the fault repair cost is high and time-consuming.

Contents of the invention

The invention overcomes the problems existing in the prior art, and proposes a marine power transmission device and its realization method. The device and its processing technology have low cost, low construction difficulty and convenient maintenance.

Concrete technical scheme of the present invention is as follows:

Marine power transmission equipment, including roadbed area, ocean area and transformer transmission tower, the transformer transmission tower is installed in the roadbed area, and the transformer, control cabinet and cable connection end are installed in the transformer transmission tower in sequence from top to bottom , characterized in that floating platforms are evenly distributed in the ocean area, and equipment boxes are installed on the floating platforms, pressure generating plates are installed around the equipment boxes, and springs are installed on the pressure generating plates; above the floating platforms are also installed There is a hinge shaft, one end of the sea wave pressure generating rod is connected to a spring, the other end is installed on the hinge shaft, and the third end is connected to a buoy rod; a battery cabinet is installed in the equipment box, and a pressure generating board is connected to the battery cabinet. For the power transmission line group, a hook is installed at the bottom of the floating platform, and the cables are hung on the hooks and connected to the cable connection ends.

Preferably, fixed bolts are installed at the bottom of the floating platform, and the fixed bolts are provided with anchor chains driven into the seabed. There are four fixed bolts and corresponding anchor chain data, and the fixed bolts are evenly distributed along the floating platform.

Preferably, a warning light is installed on the top of the floating platform, and a balance column is installed on the bottom.

In addition, the present invention also provides a method for implementing offshore power transmission, which is characterized in that it includes the following steps,

1) Build transformer transmission towers on both sides of the ocean area, and install transformers, control cabinets and cable connection terminal equipment on the transformer transmission towers;

2) Assemble the floating platform, and then use GPS positioning technology to spread the floating platform evenly in the ocean area;

3) Connect the fixed bolt of the floating platform to the anchor chain to fix the floating platform, and carry out equipment debugging on the floating platform to ensure that the warning lights operate normally;

4) The ship is used to set out the line, and the construction personnel dive into the water and hang the transmission line group on the hook;

5) Connect the transmission line group to the cable connection end, and the construction is completed.

Beneficial effects of the present invention:

(1) Transmission function: The power generation transmission platform can set up a transmission platform in sea areas where it is inconvenient to erect and the installation cost is high, and can be connected by a number of devices, and then connected to the transmission towers on both sides of the strait. The platform and the seabed are fixed with chains to prevent excessive drift out of the specified range.

(2) Power generation function: With the ebb and flow of the tide, the waves fluctuate up and down, causing the platform and the buoy to move relatively. The equipment in the house and the battery cabinet are processed, and the generated power is transmitted to the transformer transmission tower on the shore when needed.

(3) Warning and anti-collision function: The high place of the power generation transmission platform has a navigation warning light. The warning light can not only generate power from waves, but also obtain the required power from the transmission line. When sailing at night, it can remind the ship to prevent hitting the power generation transmission platform. At the same time, the wave pressure power generation buoy increases the straight-line distance of the surrounding level.

Description of drawings

Fig. 1 is a structural schematic diagram of the marine power transmission equipment of the present invention;

Fig. 2 is the structural representation of floating platform;

Fig. 3 is a schematic diagram of another view direction of the floating platform;

Figure 4 is a schematic diagram of further disassembly of the floating platform;

Figure 5 is a top view of the floating platform.

Detailed ways

As shown in the figure, the marine power transmission equipment includes a roadbed area 19, a marine area 17, and a transformer transmission tower 13. The transformer transmission tower 13 is installed on the roadbed area 19, and the transformer transmission tower 13 is sequentially arranged from top to bottom. A transformer 14, a control cabinet 15 and a cable connection terminal 16 are installed, and a floating platform 5 is arranged in the marine area 17, and an equipment box 3 is installed on the floating platform 5, and a pressure generating plate 9 is installed around the equipment box 3. , The spring 10 is mounted on the pressure generating plate 9 . A warning light 1 is installed on the top of the floating platform 5, and a balance column 6 is installed on the bottom. The warning light 1 is used to warn the ship, and the balance column 6 is used to balance the entire floating platform 5 .

A hinge shaft 11 is also installed on the floating platform 5, one end of the wave pressure generating rod 2 is connected to a spring 10, the other end is installed on the hinge shaft 11, and the third end is connected to a buoy rod; a battery cabinet 12 is installed in the equipment box 3, A power transmission line group is connected between the pressure generating board 9 and the battery cabinet 12 , a hook is installed at the bottom of the floating platform 5 , and the cable 7 is hung on the hook and connected to the cable connection end 16 . The buoy bar will swing up and down when it is beaten by the waves, so that the wave pressure generating rod 2 will constantly act on the pressure generating plate 9 to generate electricity, and the battery cabinet 12 will be charged by the line group.

A fixed bolt 4 is installed on the bottom of the floating platform 5, and the fixed bolt 4 is provided with an anchor chain 8 driven into the seabed. There are four fixed bolts 4 and corresponding anchor chains 8 , and the fixed bolts 4 are evenly distributed along the floating platform 5 . Under harsh conditions such as typhoons, the anchor chain 8 can hold the floating platform 5 still.

In addition, the present invention also provides a method for implementing offshore power transmission, which is characterized in that it includes the following steps,

1) Build a transformer transmission tower 13 on the banks of both sides of the ocean area 17, and install a transformer 14, a control cabinet 15 and a cable connection terminal 16 equipment on the transformer transmission tower 13;

2) Assemble the floating platform 5, and then use the GPS positioning technology to evenly lay the floating platform 5 in the ocean area 17;

3) Connect the fixed bolt 4 of the floating platform 5 to the anchor chain 8 to fix the floating platform 5, and carry out equipment debugging on the floating platform 5 to ensure that the warning light 1 operates normally;

4) The ship is used to set out the line, and the construction personnel dive into the water and hang the transmission line group on the hook;

5) Connect the transmission line group to the cable connection end 16, and the construction is completed.

In addition to the above-mentioned embodiments, the present invention can also have other implementations. All technical solutions formed by equivalent replacement or equivalent transformation fall within the scope of protection required by the present invention.

Claims (5)

1. ocean power Transmission equipment, including roadbed area (19), ocean province (17) and transformation transmission tower (13), the transformation transmission Tower (13) is installed on roadbed area (19), and the transformation transmission tower (13) is sequentially installed with transformer (14), switch board from top to bottom (15) and cable connecting pin (16), it is characterised in that is laid with floating platform (5), floating platform in the ocean province (17) (5) equipment box (3) is installed, equipment box (3) surrounding is provided with pressure electricity-generating plate (9), and spring (10) is installed on pressure on On power generation plate (9)；The floating platform (5) is also equipped with hinge axis (11), wave pressure electricity-generating bar (2) one end connection bullet above Spring (10), the other end are installed on hinge axis (11), and the 3rd end is connected with floating drum rod；Wave pressure electricity-generating bar（2）Constantly effect In pressure electricity-generating plate（9）It is set to generate electricity；Battery cupboard (12), pressure electricity-generating plate (9) and institute are installed in the equipment box (3) State and be connected with transmission line of electricity group between battery cupboard (12), floating platform (5) bottom is provided with suspension hook, and cable (7) is hung in It is connected on hook with cable connecting pin (16).

2. power Transmission equipment in ocean as claimed in claim 1, it is characterised in that floating platform (5) bottom is provided with Fixing bolt (4), the fixing bolt (4) squeeze into seabed equipped with anchor chain (8).

3. power Transmission equipment in ocean as claimed in claim 2, it is characterised in that the fixing bolt (4) and corresponding anchor chain (8) data are four, and fixing bolt (4) is uniformly arranged along floating platform (5).

4. power Transmission equipment in ocean as claimed in claim 1, it is characterised in that be provided with the top of the floating platform (5) Warning lamp (1), bottom are provided with balance columns (6).

A kind of 5. implementation method of ocean power Transmission equipment as claimed in claim 1, it is characterised in that comprise the following steps,

1) transformation transmission tower (13) is built on the bank of ocean province (17) both sides, and in transformation transmission tower (13) installation transformer (14), switch board (15) and cable connecting pin (16) equipment；

2) floating platform (5) is assembled, recycles GPS positioning technology to be uniformly laid with floating platform (5) in ocean province (17)；

3) make floating platform (5) fixed on fixing bolt (4) the connection anchor chain (8) of floating platform (5), floating platform (5) is carried out Equipment debugging, it is ensured that warning lamp (1) normal operation；

4) unwrapping wire is carried out using ship, construction personnel, which dives beneath the water, hangs over transmission line of electricity group on suspension hook；

5) transmission line of electricity group connection cables connecting pin (16), construction are completed.