CN217100369U - High stability sea floating platform mooring system - Google Patents

Abstract

The utility model discloses a, high stability sea floating platform mooring system, be four hollow awl anchor including quantity, the bottom is connected with the mount table in the hollow awl anchor, be connected with the pivot on the mount table, fixedly connected with rim plate in the pivot, the top of rim plate is connected with the connecting rod, the top of rim plate is located the cover is equipped with the bearing on the connecting rod, the outside cover of bearing is equipped with the cross, four terminal all covers of cross are equipped with the lagging, the arc groove has been seted up on the rim plate, the bottom of lagging is located the slide bar is connected to the top in arc groove, the slide bar extends to on the rim plate the arc inslot, beneficial effect: through the rotation of motor, make the rim plate finally drive the lagging and stretch out and draw back on the cross plate to let the lagging extend to in the seabed ground, thereby increase the stability of hollow cone anchor, prevent to be driven by the rivers in the sea.

Description

High stability sea floating platform mooring system

Technical Field

The utility model relates to a field of mooring particularly, relates to a high stability sea floating platform mooring system.

Background

Some floating platforms can be arranged on some sea surfaces to provide rest and dining points for passengers, the rest landscape on the floating platforms can be still clear due to the sea surfaces, or some devices working on the sea surfaces are arranged on the floating platforms, waves can be generated on the sea surfaces, the floating platforms can float up and down due to the waves on the sea surfaces of general sea surface floating platforms, so that anchor chains and iron anchors can be tied on the floating platforms to fix the floating platforms, the anchors are generally directly thrown into the sea when the floating platforms are arranged, when the anchors reach the sea bottom, the floating platforms can be completely stabilized by moving a certain distance, sometimes, the anchors on the sea bottom can be driven by the floating platforms due to overlarge water waves, and the stability is poor.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

To the problem in the correlation technique, the utility model provides a high stability sea floating platform mooring system to overcome the above-mentioned technical problem that current correlation technique exists.

The technical scheme of the utility model is realized like this:

a high-stability sea floating platform mooring system comprises four hollow cone anchors, wherein the bottom ends of the hollow cone anchors are connected with an installation platform, a rotating shaft is connected onto the installation platform, a wheel disc is fixedly connected onto the rotating shaft, the top ends of the wheel disc are connected with connecting rods, bearings are sleeved on the connecting rods above the wheel disc, cross plates are sleeved on the outer sides of the bearings, sleeve plates are sleeved at the four tail ends of the cross plates, arc grooves are formed in the wheel disc, the bottom ends of the sleeve plates are located above the arc grooves and connected with sliding rods, the sliding rods extend into the arc grooves in the wheel disc, through grooves matched with the sleeve plates are formed in the same horizontal line of the sleeve plates on the hollow cone anchors, partition plates are connected above the connecting rods in the hollow cone anchors, and a motor I is installed in the middle parts of the top ends of the partition plates, and a sealing plate is connected above the first motor in the hollow cone anchor, and the connecting rod extends into the partition plate towards the direction of the first motor and is connected with the output end of the first motor.

Furthermore, the top end of the sealing plate is connected with a first anchor chain, the top end of the first anchor chain is connected with a gravity cylinder, and the top end of the gravity cylinder is connected with a second anchor chain.

Furthermore, the top end of the second anchor chain is connected with a floating platform body.

Further, a second motor is installed at a corner of the floating platform body, a roller is connected to the output end of the second motor, and a baffle is installed in the direction in which the roller is far away from the second motor.

Furthermore, a fixed hook is installed on the roller, and the anchor chain II is connected with the fixed hook.

Furthermore, a through hole is formed in the gravity cylinder, and two high-pressure ejectors are mounted in the through hole in opposite directions.

The utility model provides a high stability sea floating platform mooring system, beneficial effect as follows:

(1) the wheel disc finally drives the sleeve plate to stretch out and draw back on the cross plate through the rotation of the motor, so that the sleeve plate extends into the seabed ground, the stability of the hollow cone anchor is improved, and the sleeve plate is prevented from being driven by water flow in the sea.

(2) The sealing plate is connected through the first anchor chain, the gravity cylinder is connected to the other end of the sealing plate, the stability of the floating platform body is further improved, and the floating platform body is stabilized on the sea surface through the second anchor chain connected with the second floating platform body.

(3) The rotation of the rotary drum is driven through the rotation of the motor II, so that the fixing hook rotates on the rotary drum, the contraction of the anchor chain II is facilitated, the anchor chain is prevented from slipping off from the side of the rotary drum through the baffle, and the efficiency of the hollow cone anchor in water entering and recovery is improved through the high-pressure ejector.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a high stability offshore platform mooring system according to an embodiment of the present invention;

fig. 2 is an enlarged view of a portion of an anchor chain in a high stability offshore platform mooring system according to an embodiment of the present invention;

fig. 3 is a schematic diagram of an internal structure of a hollow cone anchor in a high-stability sea surface floating platform mooring system according to an embodiment of the present invention;

fig. 4 is a side view of the interior of a hollow cone anchor in a high stability surface floating platform mooring system in accordance with an embodiment of the present invention.

In the figure:

1. a hollow cone anchor; 2. an installation table; 3. a wheel disc; 4. a connecting rod; 5. a bearing; 6. a cross plate; 7. sheathing; 8. an arc groove; 9. a slide bar; 10. a through groove; 11. a partition plate; 12. a partition plate; 13. sealing plates; 14. a first anchor chain; 15. a gravity cylinder; 16. a second anchor chain; 17. a floating platform body; 18. a second motor; 19. a drum; 21. a high pressure ejector.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.

The invention will be further described with reference to the accompanying drawings and specific embodiments:

the first embodiment is as follows:

referring to fig. 1-4, a high-stability sea surface floating platform mooring system according to an embodiment of the present invention includes four hollow cone anchors 1, a mounting platform 2 is connected to an inner bottom end of each hollow cone anchor 1, a rotating shaft is connected to the mounting platform 2, a wheel disc 3 is fixedly connected to the rotating shaft, a connecting rod 4 is connected to a top end of the wheel disc 3, a bearing 5 is sleeved on the connecting rod 4 above the wheel disc 3, a cross plate 6 is sleeved on an outer side of the bearing 5, four ends of the cross plate 6 are all sleeved with a sleeve plate 7, an arc groove 8 is formed in the wheel disc 3, a sliding rod 9 is connected to a bottom end of the sleeve plate 7 above the arc groove 8, the sliding rod 9 extends into the arc groove 8 on the wheel disc 3, a through groove 10 matched with the sleeve plate 7 is formed in the hollow cone anchor 1 at the same horizontal line of the sleeve plate 7, the hollow cone anchor 1 is internally provided with a partition plate 11 above the connecting rod 4, a motor 12 is arranged in the middle of the top end of the partition plate 11, a sealing plate 13 is connected above the motor 12 in the hollow cone anchor 1, and the connecting rod 4 extends into the partition plate 11 towards the motor direction and is connected with the output end of the motor 12.

Through the above scheme of the utility model, the bottom end in the hollow cone anchor 1 is connected with the mounting platform 2, the mounting platform 2 is connected with the rotating shaft, the rotating shaft is fixedly connected with the wheel disc 3, the top end of the wheel disc 3 is connected with the connecting rod 4, the upper part of the wheel disc 3 is positioned on the connecting rod 4, the bearing 5 is sleeved with the cross plate 6, the four ends of the cross plate 6 are all sleeved with the sleeve plate 7, the wheel disc 3 is provided with the arc groove 8, the bottom end of the sleeve plate 7 is positioned above the arc groove 8 and is connected with the slide rod 9, the slide rod 9 extends into the arc groove 8 on the wheel disc 3, the hollow cone anchor 1 is positioned on the same horizontal line of the sleeve plate 7 and is provided with the through groove 10 matched with the sleeve plate 7, the hollow cone anchor 1 is positioned above the connecting rod 4 and is connected with the clapboard 11, the middle part at the top end of the clapboard 11 is provided with the motor 12, a sealing plate 13 is connected above the motor I12 in the hollow cone anchor 1, the connecting rod 4 extends into the partition plate 11 towards the motor and is connected with the output end of the motor I12, when the hollow cone anchor 1 falls into the seabed, the hollow cone anchor 1 can be embedded into the seabed ground due to the larger weight of the hollow cone anchor 1, the connecting rod 4 is driven to rotate by the rotation of the motor I12, the connecting rod 4 drives the turntable on the mounting table 2 to rotate, the sleeve plate 7 sleeved on the cross plate 6 slides in the arc groove 8 on the rotary disc 3 through the slide rod 9, so that the sleeve plate 7 is driven to stretch and retract, the sleeve plate 7 extends outwards through the through groove 10, the sleeve plate 7 can be embedded into the seabed ground when extending outwards, the stability of the fixing anchor is increased, the bearing 5 on the cross plate 6 prevents the motor from driving the cross rod to rotate, and the motor is prevented from being submerged by the matching of the partition plate 11 and the sealing plate 13, the structure of the system is simple, the wheel disc 3 finally drives the sleeve plate 7 to stretch out and draw back on the cross plate 6 through the rotation of the motor, so that the sleeve plate 7 extends into the seabed ground, the stability of the hollow cone anchor 1 is improved, and the hollow cone anchor is prevented from being driven by water flow in the sea.

Example two:

as shown in fig. 1-3, the top end of the sealing plate 13 is connected with a first anchor chain 14, the top end of the first anchor chain 14 is connected with a gravity cylinder 15, the top end of the gravity cylinder 15 is connected with a second anchor chain 16, the top end of the second anchor chain 16 is connected with a floating platform body 17, the sealing plate 13 is connected through the first anchor chain 14, the other end of the floating platform body is connected with the gravity cylinder 15, the stability of the floating platform body 17 is further improved, and when the floating platform body 17 is connected through the second anchor chain 16, the floating platform body 17 is stabilized on the sea surface;

example three:

as shown in fig. 1-3, two motors 18 are installed at the corner of floating platform body 17, the output of two motors 18 is connected with cylinder 19, cylinder 19 is kept away from the baffle is installed to two motors 18's direction, install the fixed hook on the cylinder 19, two anchor chains 16 with the fixed hook is connected, the through-hole has been seted up on the gravity section of thick bamboo 15, the high pressure sprayer 21 that quantity is two is installed to the opposite direction in the through-hole, drives the rotation of cylinder 19 through two motors 18's rotation, makes the fixed hook rotate on cylinder 19 to be convenient for two 16 contractions of anchor chains, prevent anchor chain from the 19 avris landing of cylinder through the baffle, through high pressure sprayer 21, increase hollow cone anchor 1 efficiency when entrying and retrieving.

In practical application, the rotation of the connecting rod 4 is driven by the rotation of the motor I12, the connecting rod 4 drives the turntable to rotate on the mounting platform 2, the sleeve plate 7 sleeved on the cross plate 6 slides in the arc groove 8 on the wheel disc 3 through the slide rod 9, so that the sleeve plate 7 is driven to stretch and retract, the sleeve plate 7 extends outwards through the through groove 10, the sleeve plate 7 is embedded into a seabed ground when extending outwards, the stability of the fixing anchor is improved, the bearing 5 on the cross plate 6 prevents the motor from driving the cross rod to rotate, the motor is prevented from being submerged by seawater through the matching of the partition plate 11 and the sealing plate 13, the rotation of the roller 19 is driven by the rotation of the motor II 18, the fixing hook rotates on the roller 19, the contraction of the anchor chain II 16 is facilitated, the anchor chain is prevented from sliding off from the roller 19 through the baffle plate, the efficiency of the hollow cone anchor 1 in water entering and recovery is improved through the high-pressure ejector 21, the rotation of the motor leads the wheel disc 3 to finally drive the sleeve plate 7 to extend and retract on the cross plate 6, thereby leading the sleeve plate 7 to extend into the seabed ground, further increasing the stability of the hollow cone anchor 1 and preventing the hollow cone anchor from being driven by the current in the sea

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a high stability sea floating platform mooring system, its characterized in that includes that quantity is hollow awl anchor (1) of four, hollow awl anchor (1) inner bottom end is connected with mount table (2), be connected with the pivot on mount table (2), fixedly connected with rim plate (3) in the pivot, the top of rim plate (3) is connected with connecting rod (4), the top of rim plate (3) is located the cover is equipped with bearing (5) on connecting rod (4), the outside cover of bearing (5) is equipped with cross (6), four terminal all covers of cross (6) are equipped with lagging (7), arc groove (8) have been seted up on rim plate (3), the bottom of lagging (7) is located slide bar (9) is connected to the top of arc groove (8), slide bar (9) extend to in arc groove (8) on rim plate (3), lie in on hollow awl anchor (1) lagging (7) same water flat line set up with lagging (7) matched with lead to groove (10), lie in hollow awl anchor (1) the top of connecting rod (4) is connected with baffle (11), the mid-mounting on baffle (11) top has motor (12), lie in hollow awl anchor (1) the top of motor (12) is connected with closing plate (13), connecting rod (4) extend to motor direction in baffle (11) and with the output of motor (12) is connected.

2. A high stability offshore platform mooring system according to claim 1, wherein the top end of the sealplate (13) is connected with a first anchor chain (14), the top end of the first anchor chain (14) is connected with a gravity cylinder (15), and the top end of the gravity cylinder (15) is connected with a second anchor chain (16).

3. A high stability offshore platform mooring system according to claim 2 wherein a platform body (17) is attached to the top of the second anchor chain (16).

4. A high stability offshore platform mooring system according to claim 3, wherein a second motor (18) is mounted at a corner of the platform body (17), a roller (19) is connected to an output end of the second motor (18), and a baffle is mounted on the roller (19) in a direction away from the second motor (18).

5. A high stability offshore platform mooring system according to claim 4, wherein the roller (19) is provided with a fixed hook, and the second anchor chain (16) is connected with the fixed hook.

6. A high stability sea surface floating platform mooring system according to claim 5, wherein the gravity cylinder (15) is provided with a through hole, and two high pressure jets (21) are installed in the through hole in opposite directions.

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