KR100394816B1 - Press connection for connecting a pressure duct on a vessel to a floating duct - Google Patents

Abstract

The present invention relates to a press connection device for connecting the pressure pipe (2) of the vessel (1) to the floating pipe (3), the floating pipe is connected to one end of the cable 19, the other end of the cable (1) ) With the increase in the cable 19 load, the connecting cable is mounted on the piston rod 23 of the hydraulic cylinder 24 in such a way that the piston rod 23 is pushed into the cylinder 24. Extends beyond. The hydraulic medium in the cylinder is held pressurized by the compressed gas medium. This gaseous medium is housed in a container 28, which also includes hydraulic medium in a state separated by a membrane.

Description

PRESS CONNECTION FOR CONNECTING PRESSURE DUCT ON A VESSEL TO A FLOATING DUCT}

The present invention relates to a press connection device comprising at least one flexible part for connecting a pressure vessel of a ship to a floating vessel.

Such a press connection device is applicable, for example, to feeding sand from a stationary piston to a floating tube extending from where the sand should be loaded.

To date, stationary pistons can only be used at heights no higher than 2-3 meters. At higher waves, the flexible part actually made of rubber is subjected to particularly heavy loads.

The force acting on the press linkage between the piston and the float tube has a static component and a dynamic component. Stationary components occur as a result of the displacement of the ship due to water flow, wind and wave motion. Dynamic components arise as a result of the various movements that ships and floats interrelate by the flexibility of the connecting device and the collection of various elements.

Recently developed stop pistons work even in waves 4 to 5 meters high. However, due to the above causes, the forces that can be applied to the press connecting device can be increased strongly. Because of this, there is a great risk that the press linkage can be broken, especially since the flexible part is the most vulnerable link in the whole system and there is a risk of breaking. Since the press connecting device must be sufficiently flexible and especially flexible even in bad environments such as high waves, the flexible part strength of the press connecting device cannot be improved indefinitely.

It is an object of the present invention to eliminate this difficulty, for which purpose a floating pipe is connected to one end of the cable and the other end of the floating pipe is directly or indirectly connected to the ship under the intervention of a spring device, thereby providing It provides to prevent the flexible part of the press connecting device from being subjected to excessive load during the relative movement between the canisters.

By guiding the cable through the spring arrangement, it is achieved that the cable is not exposed to large impact loads. The displacement of the float tube relative to the vessel will be accepted gradually.

In particular, the spring device comprises a hydraulic cylinder connected to the cable, in which the piston rod is pushed into the cylinder as the load of the cable increases, and the hydraulic medium in the cylinder is kept compressed by the compressed gas medium.

To use the optimal stroke that the hydraulic cylinder can perform, the cable extends past the cable pulley mounted on the piston rod of the hydraulic cylinder, and the cable at a distance from the cable pulley mounted on the piston rod in close proximity to the cylinder. It extends past the pulley.

Thus, the difference in the working length of the cable is twice the piston rod displacement.

In order to keep as far as possible the space occupied by the hydraulic cylinders on the ship, the hydraulic cylinders are preferably provided to be arranged substantially perpendicular to the deck of the ship. Due to this point, it is likewise easy to fix the hydraulic cylinder to the ship's hull.

The invention will be explained in more detail by the embodiment shown in the drawings.

Shown in the figure is part of the floating dredger 1, on which a pressure tube 2 is arranged, through which a mixture of water and sand, for example, is transferred to the floating tube 3.

In the bent end portion 4 of the pressure tube, a flexible portion 5 terminated with the connecting portion 6 is provided in the pressure tube 2. In relation to the lateral flexibility, an unspecified rotating bush is mounted between the pressure tube 2 and the bent end portion 4. The angle formed by the axis perpendicular to the axis of the connecting portion 6 can be adjusted by the hydraulic cylinder 7.

The appropriate connection 8 of the press connection device 9 can be connected to the connection 6. This press connection device 9 comprises a first flexible pipe part 10 which is connected to the connection part 8 and provided with a floating member 11. For this reason, the pipe part 10 with the connection part 8 does not sink under water, especially when the connection part 8 is not connected with the connection part 6 as a result of the weight of a connection part part. The press connection device also comprises a flexible pipe part 12 connected to the pipe part 10 on one side and to a flexible pipe part 13 on the other side, the flexible pipe part 13 being attached again. It is connected to the bent part 4 of the oil pipe 3.

When securing the connection between the press connection device 9 and the pressure pipe 2 of the ship 1, a cable extending toward the winch, not shown, to bring the connection part 8 connected to the pipe to the connection part 6. The axis of the connection part 6 is arranged in a substantially vertical direction by means of the hydraulic cylinder 7 so that the pipe part 10 can be wound up substantially vertically upwards by means of 15, wherein the parts are mutually interrelated. It is fastened to make. Thereafter, the hydraulic cylinder can be brought into a pressureless state so that the connecting portion 6 can take the required position. In order to prevent excessive tensile loads on the flexible portions 5, 13, the tension receiving portion 16 can be mounted thereon in a known manner.

In order to prevent overload of the press connecting device 9, a part 18 of the floating tube 3 is provided with a member 18, to which one end of the cable 19 can be connected. The other end of the cable 19 is connected to the member 20 fixedly connected to the vessel 1. The member 20 may be a fixed mount on the ship, so the cable may be of the required length. The cable 19 extends past two cable pulleys 21 rotatably connected to the vessel 1 and beyond the cable pulley 22 mounted on the piston rod 23 of the hydraulic cylinder 24. The cable 19 also extends past two cable pulleys 25 rotatably mounted to a support 26 extending obliquely upward from the vessel 1.

The piston of the hydraulic cylinder 24, not shown in detail, holds the hydraulic medium. Through the tube 27 the cylinder communicates with the container 28, in which a membrane 29 is arranged which separates the hydraulic medium from the compressed gas medium in the other part of the container 28. In particular, nitrogen is employed as the gas medium. Instead of a membrane, it is also possible to use a cylinder in which the piston can move freely. The piston will then separate the hydraulic medium from the gas medium.

When the water is still, the vessel 1 and the floating tube 3 take a position relative to the level of water as shown in the figure. When the waves are generated by the force of the wind, the ship and the floating pipe cause relative motion with respect to each other in the vertical and horizontal directions. Marked with a dashed line indicates the path of the press connection device under various circumstances. Here, the cable 19 is pulled completely tight in the press connecting device, as a result of which a large load is continually prevented from being applied to the flexible portion 12. With an increase in the distance between the vessel 1 and the floating pipe 3, the piston rod 23 is pushed deep into the hydraulic cylinder 24 and applied to the hydraulic medium by the gas medium in the container 28. The losing pressure will only rise slightly. Due to this, the force generated between the vessel 1 and the floating tube 3 never exceeds a certain limit value.

Only one embodiment of the device according to the invention is shown in the drawings and described above, and it will be apparent that various modifications may be made without departing from the spirit of the invention.

The accompanying drawings are schematic diagrams of a dredger and a floating pipe having a press connection device according to the present invention.

Brief description of the main symbols in the drawings

1. Dredger 2. Pressure tube

3. Floating pipe 6. Connection

7. Hydraulic cylinder 8. Connection

9. Press connection device 19. Cable

21. Cable Pulley 22. Cable Pulley

24. Hydraulic cylinder 25. Cable pulley

Claims (4)

In a press connecting device comprising at least one flexible part (10, 13) and connecting the pressure pipe (2) of the vessel (1) to the floating pipe (3), The floating pipe 3 is connected to one end of the cable 19, and the other end of the cable is directly or indirectly connected to the ship 1 through the intervention of the piston rod 23 and the hydraulic cylinder 24, so that the ship 1 Press connection device, characterized in that the flexible part (10, 13) of the press connection device (9) is prevented from being excessively loaded during the relative movement between the floating pipe (3) and the floating pipe (3). 2. The spring device according to claim 1, wherein the spring device comprises a hydraulic cylinder (24), which is connected to the cable (19) in such a way that the piston rod (23) is pushed into the cylinder with increasing cable load. Wherein the hydraulic medium in the hydraulic cylinder (24) is held pressurized by the compressed gas medium. The cable pulley according to claim 2, wherein the connecting cable (19) extends past the cable pulley (22) mounted on the piston rod (23) of the hydraulic cylinder (24). Press connection device, characterized in that it extends beyond a cable pulley (21) located at a distance from and located proximate to the hydraulic cylinder (24). 4. Press connection device according to claim 2 or 3, characterized in that the hydraulic cylinder (24) is arranged substantially perpendicular to the deck of the ship (1).