CN211895695U - UUV hoisting accessory - Google Patents

Abstract

The utility model provides a UUV hoisting accessory, including hanging rack (1), buoyancy board (2), lift by crane couple (3), connecting pin (4), nut (5), mushroom cap hoisting point (6), it can not deviate from to guarantee to get up after hanging hook card targets in place through using the couple interval to hang the stores pylon as radial biarc circular arc plane shape, set up the design that the frame width of hoisting accessory is greater than two mushroom cap hoisting point circular cap excircles and guarantee that the couple can not deviate from under the specific angle condition, it has solved that the couple unhook exists danger in the high sea condition recovery task, need different kinds of hoisting accessory, operate too loaded down with trivial details problem, stable in structure, the operating mode is excellent.

Description

UUV hoisting accessory

Technical Field

The utility model relates to a UUV hoisting accessory belongs to and lays and retrieves technical field.

Background

The deployment and recovery technology is an important part of the unmanned underwater vehicle. The conventional unmanned underwater vehicle deployment and recovery modes mainly comprise four types, namely a floating dock type, a lifting platform type, a mother submarine type and a lifting device type.

The floating dock type and lifting platform type deployment and recovery modes are respectively that a lifting platform and a submersible platform which are arranged on a mother ship are used for carrying an unmanned underwater vehicle to go out of and enter water, so that the deployment and recovery tasks are completed. The mother submarine type deployment and recovery mode is to deploy and recover the unmanned underwater vehicle by taking a common submarine as a platform. The three methods have high requirements on the working environment and special equipment and are complicated to operate.

The hoisting device type distribution and recovery mode is strong in environmental adaptability and is a common method. The unmanned underwater vehicle is deployed and recovered by mainly utilizing a crane on a bank or a ship end, and the hoisting can be finished only by putting a boat down, assisting a frogman or automatically hooking and unhooking the boat. In high sea conditions, there is considerable danger from the boat crew or frogman manually hooking and unhooking. The existing automatic device generally needs two sets of different hoisting devices due to different hooking and unhooking mechanisms, and has complex mechanism and complex operation.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem be: aiming at the problems that in the prior art, hook unhooking is dangerous, different types of hoisting devices are needed, and operation is too complicated in a high sea condition recovery task, a UUV hoisting device is provided.

The utility model provides an above-mentioned technical problem realize through following technical scheme:

the utility model provides a UUV hoisting accessory which characterized in that: including hanging rack, buoyancy board, the couple of lifting by crane, connecting pin, nut, hanging rack is biarc triangle-shaped frame structure, and hanging rack top biarc structure intersection is fixed with the lifting rope, the couple of lifting by crane is fixed in hanging rack biarc both sides end through connecting pin and nut, and can rotate around the connecting pin, and the buoyancy board sets up in hanging rack biarc triangle-shaped frame, lifts by crane the process and provides buoyancy in aqueous for the thing that lifts by crane.

The mushroom cap hoisting point is matched with the hoisting frame to realize hoisting of the UUV device, and the mushroom cap hoisting point is arranged on two sides of the center of the back of the UUV device.

The mushroom cap hoisting point comprises a circular cap and a hoisting point support, wherein the hoisting point support is arranged in the center of the circular cap, and the pointing direction of the hoisting point support is perpendicular to the plane of the hanging rack.

The double-arc triangular frame structure is in a double-arc plane shape taking the distance between the hoisting hooks on the two sides as a radius.

The distance range of the hoisting hooks on the two sides is 300mm to 700 mm.

The width of the hanging rack is larger than the distance between the circular caps of the mushroom cap hanging points on the two sides.

The material of the buoyancy plate is polystyrene foam or polyurethane foam, and the density is less than 0.1 kg/L.

The distance between two lifting hooks of the lifting frame is the same as the lifting points of the two mushroom caps, and the width L between the lifting hooks is within the range of 300-700 mm.

After the width L is determined, the lifting point at the intersection of the double-arc structure at the top end can be determined according to the double-arc triangular frame structure of the hanging frame.

The integral structure range of the hanging frame, the buoyancy plate, the lifting hook, the connecting pin and the nut is 0.9-0.95kg/L, and the hanging frame can float after being put into water.

Compared with the prior art, the utility model the advantage lie in:

the utility model provides a pair of UUV hoisting accessory, utilize the guide effect of lifting by crane the special plane shape of stores pylon, do not need put the boat when laying the recovery to the UUV device, the frogman is supplementary or modes such as automatic carry out couple and unhook, just can accomplish the hoist and mount, through using the couple interval to guarantee arbitrary one to lift by crane the couple card back that targets in place as radial biarc plane shape hanging rack, wholly can not deviate from, and put the frame width through setting up the hoist and mount and be greater than the interval of two mushroom cap hoisting point circular cap excircles, guarantee under the specific angle condition, it can not deviate from to lift by crane the couple, guarantee zero buoyancy of hoisting accessory through adopting the buoyancy board simultaneously, structural stability is higher.

Drawings

Fig. 1 is a schematic structural view of a hoisting device provided by the utility model;

fig. 2 is a schematic diagram of a hoisting flow of a UUV device provided by the utility model;

fig. 3 is a schematic view of a process of guiding a hook by a hanging rack provided by the utility model;

fig. 4 is a schematic diagram of an unhooking process provided by the utility model;

Detailed Description

A UUV lifting device is shown in figure 1 and mainly comprises a lifting frame 1, a buoyancy plate 2, a lifting hook 3, a connecting pin 4, a nut 5 and a mushroom cap lifting point 6, wherein the lifting frame 1 is of a double-arc triangular frame structure and mainly guides the lifting process of a lifted object, a lifting rope is fixed at the intersection of the double-arc structure at the top end of the lifting frame 1, an external mechanism lifts through the lifting rope, the lifting hook 3 is fixed at the tail ends of two sides of the double-arc of the lifting frame 1 through the connecting pin 4 and the nut 5 to carry the lifted object, the lifting hook 3 can rotate around the connecting pin 4 as required, the buoyancy plate 2 is adopted in the double-arc triangular frame of the lifting frame 1 as a filling plate surface, and the buoyancy plate 2 can provide buoyancy for the lifted object in water;

the mushroom cap hanging points 6 are arranged on two sides of the hanging rack 1 and mainly comprise circular caps and hanging point pillars, the hanging point pillars are arranged in the centers of the circular caps, and the pointing directions of the hanging point pillars are vertical to the plane of the hanging rack 1;

the arc triangular frame structure is a double-arc plane shape taking the distance between the hoisting hooks 3 at two sides as the radius

Wherein the distance between the hoisting hooks 3 on the two sides ranges from 300mm to 700 mm; the width of the hanging rack 1 is larger than the distance between the circular caps of the mushroom cap hanging points 6 on the two sides, the buoyancy plate 2 is made of polystyrene foam or polyurethane foam, and the density is less than 0.1 kg/L; the distance between two lifting hooks 3 of the lifting frame 1 is the same as the distance between two mushroom cap lifting points 6, and the width L range between the lifting hooks 3 is between 300 and 700 mm;

after the width L is determined, the lifting point at the intersection of the double-arc structure at the top end can be determined according to the double-arc triangular frame structure of the hanging frame 1, and meanwhile, the whole structure range formed by the hanging frame 1, the buoyancy plate 2, the lifting hook 3, the connecting pin 4 and the nut 5 is 0.9-0.95kg/L, and the floating hanger can float after being put into water.

The following is further illustrated with reference to specific examples:

in this embodiment, as shown in fig. 2, when the UUV device needs to be deployed, the hanging frame 1 firstly passes through the middle of the mushroom cap hanging point 6 at the back of the UUV, and the lifting hook 3 is hung on the hanging point for hanging and deploying. After the UUV enters the water surface, the lifting device can be kept in a horizontal state under the action of the buoyancy material, at the moment, the relative position between the UUV and the lifting device is adjusted by controlling the movement of the UUV or controlling the movement of the lifting device through a cable, so that the hook is separated from a mushroom cap lifting point 6 at the back of the UUV, and unhooking action is completed. When the UUV needs to be recovered and lifted, the operation process is similar to the laying process. Firstly, a bank or ship end hoisting device is placed to the water surface, the hoisting device keeps a state parallel to the water surface under the action of gravity and buoyancy, the relative position of the UUV and the hoisting device is adjusted, a hoisting rope fixing point passes through the middle of two mushroom cap hoisting points 6, the hoisting rope is continuously recovered, the motion state of the UUV is controlled, the mushroom cap hoisting points 6 are hung by a hoisting hook 3 under the guide of a double-arc structure of a hanging frame 1, the hook action is completed, and then hoisting recovery can be carried out.

As shown in fig. 3, a process of guiding the lifting hook 3 by the lifting frame 1 will be explained. Bank or ship end hoisting accessory transfer to the surface of water after be parallel state with the surface of water, pass from two mushroom cap hoisting points 6 middles when the lifting rope fixed point, when continuing to adjust UUV and hoisting accessory's relative position, after mushroom cap hoisting point 6 is hung to lifting hook 3 of one side, draw the lifting rope along the direction of drawing in the figure, UUV will use the focus as centre of a circle anticlockwise rotation this moment, hoisting accessory will use the hoisting point of hanging as centre of a circle clockwise rotation, another hoisting point will slide to the couple department at the guide of stores pylon 1, thereby accomplish the couple action.

As shown in fig. 4, the principle of the present invention for ensuring non-unhooking and the unhooking process will be described. In the lifting process, the lifting frame 1 is approximately in a vertical state due to the action of gravity, the angle alpha between the lifting hook 3 and the lifting frame 1 is larger than 90 degrees, and the opening direction of the lifting hook 3 is obliquely upward, so that the unhooking phenomenon cannot occur in a normal lifting state. When the factor interference such as rock, gust, the UUV can take place to rock, it can use connecting pin 4 as the rotation of axes to lift by crane couple 3 this moment, when rotatory to and the angle between the stores pylon 1 is less than 90, the opening direction of the couple 3 that lifts by crane can become oblique below, the UUV has the trend along 3 opening direction movements of couple that lift by crane this moment, can see from figure 4, because hoisting accessory frame width is greater than the interval of two mushroom cap hoisting point 6 excircles, consequently stores pylon 1 can break away from on lifting by crane couple 3 to preventing mushroom cap hoisting point 6, play the effect of mousing-hook. According to the lifting device, only when the lifting hanger 1 and the lifting hook 3 are in the same plane, namely in a horizontal unhooking state, the lifting hook can be separated from the mushroom cap lifting point, and unhooking action is completed.

The details not described in the present specification are well known to those skilled in the art.

Claims (10)

1. The utility model provides a UUV hoisting accessory which characterized in that: including hanging rack (1), buoyancy board (2), lift by crane couple (3), connecting pin (4), nut (5), hanging rack (1) is biarc triangle-shaped frame structure, and hanging rack (1) top biarc structure intersection is fixed with the lifting rope, it is terminal that hanging rack (1) biarc both sides are fixed in through connecting pin (4) and nut (5) to lift by crane couple (3), and can rotate around connecting pin (4), and buoyancy board (2) set up in hanging rack (1) biarc triangle-shaped frame, lifts by crane the process and provides buoyancy in aqueous for lifting by crane the thing.

2. The UUV lifting device of claim 1, wherein: still include and realize mushroom cap hoisting point (6) that the UUV device hoisted with hanging frame (1) matching, mushroom cap hoisting point (6) set up in UUV device back central point and put both sides.

3. The UUV lifting device of claim 2, wherein: the mushroom cap hanging point (6) comprises a circular cap and a hanging point support, the hanging point support is arranged in the center of the circular cap, and the pointing direction of the hanging point support is perpendicular to the plane of the hanging frame (1).

4. The UUV lifting device of claim 1, wherein: the double-arc triangular frame structure is in a double-arc plane shape taking the distance between the lifting hooks (3) at two sides as a radius.

5. The UUV lifting device of claim 1, wherein: the distance range of the lifting hooks (3) on the two sides is 300mm to 700 mm.

6. The UUV lifting device of claim 2, wherein: the width of the hanging rack (1) is larger than the distance between the circular caps of the mushroom cap hanging points (6) on the two sides.

7. The UUV lifting device of claim 1, wherein: the buoyancy plate (2) is made of polystyrene foam or polyurethane foam, and the density is less than 0.1 kg/L.

8. The UUV lifting device of claim 2, wherein: the distance between the two lifting hooks (3) of the lifting frame (1) is the same as the distance between the two mushroom cap lifting points (6), and the width L range between the lifting hooks (3) is between 300 and 700 mm.

9. The UUV lifting device of claim 8, wherein: after the width L is determined, the lifting point at the intersection of the double-arc structure at the top end can be determined according to the double-arc triangular frame structure of the hanging frame (1).

10. The UUV lifting device of claim 1, wherein: the integral structure range of the hanging frame (1), the buoyancy plate (2), the hanging hook (3), the connecting pin (4) and the nut (5) is 0.9-0.95kg/L, and the hanging frame can float after being put into water.

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