CN205203291U - Kickboard of carrying cargo suitable for semi -submerged transport ship - Google Patents

Abstract

The utility model relates to a kickboard of carrying cargo suitable for semi -submerged transport ship belongs to semi -submerged transportation boats and ships technical field. A kickboard of carrying cargo suitable for semi -submerged transport ship, both ends are equipped with the lift flotation tank of symmetry respectively around the kickboard of carrying cargo to receive the main hull remote control to carry out the dive operation. The utility model discloses in, link to each other through coupling mechanism between the kickboard of carrying cargo and the main hull, and carry cargo and be equipped with the lift flotation tank in the kickboard, solved traditional semi -submerged transport ship and caused boats and ships acutely to rock in dive in -process stability with reserve buoyancy is not enough, and then solution operating personnel produces misoperation's problem easily for dive operation in -process crewman's safety guarantee obtains improvement by a wide margin, also reduces the insurance premium of insurance company to the operation simultaneously. And owing to carry cargo the kickboard and can throw off with the main hull, when carrying cargo the kickboard alongside when the pier loads and unloads the goods operation, other set tasks can be carried out to the main hull, have strengthened the flexibility greatly, improvement shipowner's earning ratio.

Description

A kind of loading kickboard being applicable to half latent carrier

Technical field

The utility model relates to half latent ships that transport technical field, particularly a kind of loading kickboard being applicable to half latent carrier.

Background technology

Half carrier of diving a kind ofly has huge deck-cargo space, has part dive ability, can transport and load and unload overlength, the overweight and special engineered ship of inseparable super large particular cargo, particularly ocean engineering platform.Its hull overwhelming majority when loading and unloading operation can be dived beneath the water, and is then in normal load draught state when navigating by water.Semi-submerged ship utilizes self ballasting system, and make the cargo deck dive of hull submerge in water, loading of entertaining is dragged to after above deck, then by ballasting system, hull is floated, and carrier is lifted out the water surface and is solid; After carrier transports to destination, sink with carrier, it is solid to separate open system, and after loading of entertaining is floated and is separated with semi-submerged ship, semi-submerged ship is withdrawn and floated voluntarily, and namely hauling operation has accused.The semi-submerged ship important equipment that still salvage engineering is indispensable under water, coordinates large-scale crane ship to carry out lifting salvaging, the advantages such as the raising with salvage pontoons than routine has more fast, safety.

Existing semi-submerged ship in dive process, within the short time of cargo deck immersion, along with the sharply reduction of waterplane, stability bust, and then can drive whole boats and ships that violent rolling can occur.Because dive process is a complicated process, need to operate according to blas more or less a hundred ballast tank, above objective factor can make the probability of human operational error increase.After cargo deck is submerged, waterplane only has a very little part, and at this moment, the water inlet of ballast tank can make boats and ships diving speed very fast, is similar to state during Ship's Sinking, causes very big fear to the psychology of crewman, cause very large threat to the safety of personnel.For above problem, current common method, one is arrange some buoyancy tanks at afterbody, to provide extra waterplane in the process of dive, in the hope of providing buoyancy reserve for full ship, improves stability.Two is the aboundance ratio by increasing foreship line style, reaches the object increasing water plane area, in the hope of improving full ship stability.

But loading kickboard part and the main body of existing half latent carrier are rigid unitaryization designs, after therefore its stability reduces, can related whole boats and ships generation rolling.Although arrange afterbody buoyancy tank can increase waterplane area, the water plane area anticlimax produced after comparing main deck immersion, ratio is still very little, so the effect that can play is extremely limited.In addition, if buoyancy tank yardstick is excessive, adverse influence can be produced again for handling goods.Even if the getting fat of foreship line style, the effect that the waterplane that it brings increases is also very limited.Meanwhile, if stem line style is too plentiful, during navigation, greatly can increase resistance, and then reduce the speed of a ship or plane, simultaneously unfavorable for operation of casting anchor.

Utility model content

The purpose of this utility model is for the problems referred to above, provide a kind of loading kickboard being applicable to half latent carrier, can throw off with main body when dive operation, the danger factor that loading kickboard is produced when operation can not involve personnel place main body, and then improve the safety control degree of crewman.

The purpose of this utility model is achieved in that

Be applicable to a loading kickboard for half latent carrier, it is characterized in that, the rear and front end of described loading kickboard is respectively equipped with symmetrical lifting buoyancy tank, and carries out dive operation by main body remote control.

Wherein, described loading kickboard is rectangular, and the corner of loading kickboard is respectively equipped with symmetrical lifting buoyancy tank.

Wherein, described lifting buoyancy tank is provided with satellite positioning device and power receiving system, and the bottom of described loading kickboard is also respectively equipped with the full circle swinging POD oar of data process system and telescoping near each lifting buoyancy tank place.

Wherein, the rear and front end of described loading kickboard is arranged with the peculiar to vessel standardized bindiny mechanism be connected with main body.

Wherein, described power receiving system is by wire circuit type of transmission or the transmission realizing electric energy between radio circuit type of transmission and main body.

Wherein, the radio circuit type of transmission of described power receiving system is the transmission of local wireless electric power or short-distance wireless power transmission;

When adopting the transmission of local wireless electric power, the receiving coil in power receiving system is arranged in bindiny mechanism;

When adopting short-distance wireless power transmission, the receiving coil in power receiving system is arranged on buoyancy tank.

The beneficial effects of the utility model are:

1) be connected by bindiny mechanism between loading kickboard with main body, and loading kickboard is provided with lifting buoyancy tank, solving tradition half latent carrier stability and reserve buoyance deficiency in dive process causes boats and ships acutely to rock, and then solve the problem that operating personal easily produces misoperation, the safety control of crewman in dive operation process is greatly enhanced, also reduces insurance company to the insurance premium of operation simultaneously.

2) because loading kickboard can be thrown off with main body, therefore when the alongside of loading kickboard carries out dress unloading operation at harbour, main body can perform other assigned tasks, greatly strengthen alerting ability, improves the earning rate of shipowner.

Accompanying drawing explanation

Fig. 1 is the front elevation of loading kickboard.

Fig. 2 is the lateral plan of loading kickboard.

Fig. 3 is the radio circuit transmission schematic diagram between power receiving system and main body.

Fig. 4 is the schematic diagram that loading kickboard carries out the transmission of local wireless electric power when being connected with main body.

Detailed description of the invention

Below in conjunction with specific embodiments and the drawings, set forth the utility model further.

As depicted in figs. 1 and 2, a kind of loading kickboard 1 being applicable to half latent carrier, be equipped with ballast chamber and Air compressor, by rear and front end, symmetrically arranged standardized bindiny mechanism 3 peculiar to vessel is connected between main body C.

The rear and front end of loading kickboard 1 is respectively equipped with symmetrical lifting buoyancy tank 2, and carries out dive operation by main body C remote control.Wherein loading kickboard 1 is specifically rectangular, is respectively equipped with symmetrical lifting buoyancy tank 2 in its corner.Lifting buoyancy tank 2 is provided with satellite positioning device and power receiving system, and the bottom of loading kickboard 1 is also respectively equipped with the full circle swinging POD oar of data process system and telescoping near each lifting buoyancy tank 2 place.

In the utility model, power receiving system by wire circuit type of transmission or the transmission realizing electric energy between radio circuit type of transmission and main body C, as shown in Figure 3.Particularly, radio circuit type of transmission is transmitted or short-distance wireless power transmission for selecting local wireless electric power.

When adopting the transmission of local wireless electric power, receiving coil in power receiving system is arranged in bindiny mechanism 3, corresponding transmitter coil is equipped with main body C, to realize carrying out the transmission of local wireless electric power when loading kickboard 1 is connected with main body C, as shown in Figure 4.When adopting short-distance wireless power transmission, the receiving coil in power receiving system is arranged on lifting buoyancy tank, main body C is also equipped with corresponding transmitter coil, to realize the short range power transmission between main body C.

Wherein, lifting buoyancy tank 2 can fluctuate, and in loading kickboard 1 dive process, accurately can determine each step displacement, make dive process (speed etc. as dive, floating) obtain controlling more accurately; Lifting buoyancy tank 2 can also drop to and keep smooth with deck plane simultaneously, improves the efficiency of handling goods.And the full circle swinging POD oar of telescoping is in conjunction with the application of satellite positioning device, the accurate location of loading kickboard 1 can be realized easily, meet the ship's fix operation of code requirement.

Claims (3)

1. be applicable to a loading kickboard for half latent carrier, it is characterized in that, the rear and front end of described loading kickboard is respectively equipped with symmetrical lifting buoyancy tank, and carries out dive operation by main body remote control;

Described loading kickboard is rectangular, and the corner of loading kickboard is respectively equipped with symmetrical lifting buoyancy tank;

Described lifting buoyancy tank is provided with satellite positioning device and power receiving system, and the bottom of described loading kickboard is also respectively equipped with the full circle swinging POD oar of data process system and telescoping near each lifting buoyancy tank place;

The rear and front end of described loading kickboard is arranged with the peculiar to vessel standardized bindiny mechanism be connected with main body.

2. a kind of loading kickboard being applicable to half latent carrier according to claim 1, it is characterized in that, described power receiving system is by wire circuit type of transmission or the transmission realizing electric energy between radio circuit type of transmission and main body.

3. a kind of loading kickboard being applicable to half latent carrier according to claim 2, is characterized in that, the radio circuit type of transmission of described power receiving system is the transmission of local wireless electric power or short-distance wireless power transmission;

When adopting the transmission of local wireless electric power, the receiving coil in power receiving system is arranged in bindiny mechanism;

When adopting short-distance wireless power transmission, the receiving coil in power receiving system is arranged on buoyancy tank.