CN110682997A - Ship anchor capable of preventing blocked stone from being broken - Google Patents

Abstract

The invention relates to the technical field of ship equipment, and discloses a ship anchor capable of preventing blocked stones from being cracked, which comprises an anchor rod, wherein the top of the anchor rod is fixedly connected with a lifting ring, the left side of the anchor rod is fixedly connected with an anchor head through an anchor arm, the bottom of the anchor rod is fixedly connected with a punch, the left side of a telescopic rod is fixedly connected with a pull rope below a compression spring, the left end of the pull rope is fixedly connected with a rotating wheel, the bottom of the connecting rod is rotatably connected with a push rod, the bottom of the push rod is fixedly connected with a lower backing plate, the top of the lower backing plate is fixedly connected with a bottom spring, the top of the bottom spring is fixedly connected with an upper backing plate, and the bottom of the lower backing plate penetrates through the punch and. This can prevent the cracked ship anchor of stone that is stuck to uses through the cooperation of fluke and telescopic link to reached can continue the effect of fixed ship anchor after the stone is cracked.

Description

Ship anchor capable of preventing blocked stone from being broken

Technical Field

The invention relates to the technical field of ship equipment, in particular to a ship anchor capable of preventing the fragmentation of a blocked stone block.

Background

The anchor is a main part of anchoring equipment, is an iron ship-stopping appliance, is connected to a ship by using an iron chain, is thrown to the bottom of the water, can make the ship stop stably, and puts higher requirements on anchoring along with the advance of ocean development to deep water.

In special sea areas, a large amount of stones exist on the sea bottom, the stones are large, small, hard and soft, if the ship wants to anchor in the sea area, the stones are used for clamping the anchor head, once the ship meets the condition of storm and heavy waves, the anchor needs to bear huge pulling force, if the stones are broken, the anchor needs to look for the stones again to be clamped, but the process can cause the ship to be subjected to huge inertia impact force, and the safety of the ship compressing the spring ship is greatly influenced.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the ship anchor capable of preventing the breakage of the blocked stone, which has the advantages of continuously fixing the ship anchor after the stone is broken and the like, and solves the problem that the traditional device can not continuously fix the ship anchor after the stone is broken.

(II) technical scheme

In order to achieve the aim of continuously fixing the ship anchor after the stone is broken, the invention provides the following technical scheme: a ship anchor capable of preventing blocked stones from being broken comprises an anchor rod, wherein a lifting ring is fixedly connected to the top of the anchor rod, the left side of the anchor rod is fixedly connected with an anchor head through an anchor arm, the bottom of the anchor rod is fixedly connected with a punch head, a telescopic rod is rotatably connected to the right side of the anchor rod, the right side of the anchor rod and the bottom of the telescopic rod are fixedly connected with an anchor hook through the anchor arm, a compression spring is connected between the telescopic rod and the anchor rod, a pull rope is fixedly connected to the left side of the telescopic rod and the lower side of the compression spring, a rotating wheel is fixedly connected to the left side of the pull rope, a connecting rod is fixedly connected to the inner part of the rotating wheel, a push rod is rotatably connected to the bottom of the connecting rod, a lower backing plate is fixedly connected to the bottom of the push rod, a bottom spring is, the bottom of the lower backing plate penetrates through the punch and is fixedly connected with a bearing rod.

Preferably, when the bottom spring reaches the maximum compression deformation amount, the compression spring is in the maximum contraction state, so that the elastic force of the compression spring is stored to the maximum.

Preferably, the compression spring is connected with the telescopic rod in a sliding mode, and the compression spring is fixedly connected with the anchor rod, so that the telescopic rod is jacked up by the compression spring to extend.

Preferably, the bottom spring is inclined to the left because the boat anchor is inclined when stuck with a rock.

Preferably, the telescopic rod is located between the anchor rod and the right anchor arm and is rotatably connected to the anchor rod and the right anchor arm through a rotating shaft.

Preferably, the inner rod of the telescopic rod is provided with a spring piece and a baffle, the spring piece is positioned at the bottom of one side of the compression spring, and the baffle is positioned below the spring piece.

Preferably, the bottom of the bearing rod is fixedly connected with a bearing plate for transmitting extrusion force to the bottom spring.

Preferably, the length of the bearing plate outside the punch is larger than the maximum deformation of the bottom spring, so that the extrusion force is prevented from being shared by the punch.

(III) advantageous effects

Compared with the prior art, the invention provides the ship anchor capable of preventing the blocked stone from being cracked, and the ship anchor has the following beneficial effects:

1. the ship anchor capable of preventing the broken stone blocks from being blocked is used by matching an anchor hook with a telescopic rod and combining with the auxiliary use of a rotating wheel and a push rod, the ship anchor is dropped to the seabed in a sea area where a large amount of stone blocks exist, the anchor head of the ship anchor is blocked by the stone blocks and begins to incline along with the movement of a ship, a receiving rod is just vertical, then a bottom spring begins to be extruded by the downward extrusion force generated by the anchor head and the stone blocks, a lower backing plate moves upwards along with the bottom spring, the push rod is jacked upwards, the push rod is rotationally connected with a connecting rod in the rotating wheel, the rotating wheel begins to rotate anticlockwise to pull a pull rope, the other end of the pull rope is fixedly connected with an inner rod of the telescopic rod, the telescopic rod begins to contract, the compression spring is compressed, the compression spring is slidably connected with the telescopic rod, the inner rod of the compression spring stops after sliding to the upper part, so the anchor arm on the right side is pulled up, thereby the anchor hook is pulled up, the anchor head pulls the steamship, at the moment, as storm surge comes, the thrust of sea wave on the steamship is gradually increased, the pulling force of the anchor head of the submarine anchor on the stone is increased, when the force on the stone reaches a certain degree, the stone is cracked, the anchor loses fixation and starts moving, the bearing rod loses downward extrusion force, the bottom spring loses acting force and recovers the original length, the lower backing plate moves downward, the ejector rod pulls the connecting rod to enable the rotating wheel to rotate clockwise, the pull rope is released rightward, the angle between the compression spring and the telescopic rod is gradually larger than ninety degrees, the elastic force of the compression spring has downward component force, the compression spring crosses over to slide and finally abuts against the baffle, the anchor arm on the right side of the anchor rod rotates downward due to the elastic force of the compression spring, because the anchor hook is pressed into the bottom of the steamship anchor, therefore, the anchor hooks can hook other stone blocks again to fix the boat anchor again, and the effect that the boat anchor can be continuously fixed after the stone blocks are broken is achieved.

2. This can prevent the cracked ship anchor of stone that is stuck, use through the cooperation of telescopic link with compression spring, combine the cooperation of spring leaf and baffle to use, at the cracked back of stone, withstand the baffle through compression spring, make the expansion plate extension, and then make anchor arm clockwise rotation to reach and exert the effect of holding down pressure to the fluke.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an internal view of the wheel of the present invention;

FIG. 3 is a view of the connection between the pulling rope and the telescopic rod according to the present invention.

In the figure: 1-anchor rod, 2-anchor head, 3-anchor hook, 4-lifting ring, 5-telescopic rod, 6-compression spring, 7-pulling rope, 8-rotating wheel, 9-connecting rod, 10-ejector rod, 11-upper backing plate, 12-bottom spring, 13-lower backing plate, 14-bearing rod and 15-punch.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, a ship anchor capable of preventing the fragmentation of stuck stones comprises an anchor stem 1, wherein the anchor stem 1 is made of stainless steel, which can effectively prevent the corrosion of equipment, greatly prolong the service life of the equipment, reduce the production cost, and play an indispensable role in enterprises, a lifting ring 4 is fixedly connected to the top of the anchor stem 1, the left side of the anchor stem 1 is fixedly connected with an anchor head 2 through an anchor arm, a punch 15 is fixedly connected to the bottom of the anchor stem 1, a telescopic rod 5 is rotatably connected to the right side of the anchor stem 1, an inner rod of the telescopic rod 5 is provided with a spring leaf and a baffle plate, the spring leaf is positioned at the bottom of one end of a compression spring 6, the baffle plate is positioned below the spring leaf, the telescopic rod 5 is positioned between the anchor stem 1 and the right anchor arm and is rotatably connected to the anchor stem 1 and the right anchor arm through a rotating shaft, the right side of the anchor stem 1 and the bottom of the telescopic rod, the anchor hook 3 is made of stainless steel, so that the corrosion of equipment can be effectively prevented, the service life of the equipment is greatly prolonged, the production cost is reduced, and the anchor hook plays an indispensable role in enterprises, a compression spring 6 is connected between a telescopic rod 5 and an anchor rod 1, an inner rod of the telescopic rod 5 is provided with a spring piece and a baffle plate, the spring piece is positioned at the bottom of one side of the compression spring 6, the baffle plate is positioned below the spring piece, the compression spring 6 is in sliding connection with the telescopic rod 5 and is fixedly connected with the anchor rod 1, so that the telescopic rod 5 is jacked up and extended by the compression spring 6, a pull rope 7 is fixedly connected to the left side of the telescopic rod 5 and below the compression spring 6, a rotating wheel 8 is fixedly connected to the left end of the pull rope 7, a connecting rod 9 is fixedly connected to the inside of the rotating wheel 8, a top rod 10 is rotatably connected to the bottom of the connecting rod 9, bottom spring 12 inclines left side and places, be in the tilt state when because the ship anchor blocks with the stone, bottom spring 12 reaches the maximum compression deflection, compression spring 6 is in the biggest contraction state, bottom spring 12's top fixedly connected with upper padding plate 11, lower padding plate 13's bottom just passes drift 15 fixedly connected with adapting rod 14, adapting rod 14's material is the stainless steel, can effectively prevent that equipment from being corroded, very big extension the life of equipment, manufacturing cost has been reduced, there is the indispensable effect to the enterprise, adapting plate 14 is greater than bottom spring 12's maximum deflection at drift 15 outside length, adapting rod 14's bottom fixedly connected with adapting plate, for bottom spring 12 transmits the extrusion force, prevent that the extrusion force from being shared by drift 15.

The working principle is as follows: the ship anchor is dropped to the seabed in a sea area with a large amount of stones, the anchor head 2 of the ship anchor is clamped by the stones and begins to incline along with the movement of the ship, the bearing rod 14 is just vertical, then the downward extrusion force generated by the anchor head 2 and the stones begins to extrude the bottom spring 12, the lower backing plate 13 moves upwards along with the movement of the ship, the ejector rod 10 is jacked upwards, the ejector rod 10 is rotationally connected with the connecting rod 9 in the rotating wheel 8, the rotating wheel 8 rotates anticlockwise, the pull rope 7 is pulled, the other end of the pull rope 7 is fixedly connected with the inner rod of the telescopic rod 5, the telescopic rod 5 begins to contract, the compression spring 6 is compressed, the compression spring 6 is slidably connected with the inner rod of the telescopic rod 5, the compression spring 6 stops after sliding to the upper part of the spring leaf, the right-side anchor arm of the telescopic rod 5 is rotationally connected with the right-side anchor arm of the anchor rod 1, so, anchor head 2 holds the steamer, and at this moment, because storm big waves come, the steamer receives the thrust grow gradually of wave for at the anchor head 2 of seabed ship anchor to the pulling force grow of stone, when the power that the stone received reaches certain degree, the stone appears cracked, the ship anchor loses

The fixing is removed, the bearing rod 14 loses downward extrusion force, the bottom spring 12 loses the action force and recovers the original length, the lower cushion plate 13 moves downwards, the ejector rod 10 pulls the connecting rod 9 to enable the rotating wheel 8 to rotate clockwise, the pull rope 7 is released rightwards, the angle between the compression spring 6 and the telescopic rod 5 is gradually larger than ninety degrees, downward component force is generated by the elastic force of the compression spring 6, the compression spring 6 slides across the spring piece and finally abuts against the baffle, the anchor arm on the right side of the anchor rod 1 is rotated downwards by the elastic force of the compression spring 6, and the anchor hook 3 is pressed into the bottom of the anchor, so the anchor hook 3 can hook another stone block again, and the anchor can be fixed again.

In conclusion, the ship anchor capable of preventing the broken of the blocked stone blocks is dropped to the seabed in a sea area where a large amount of stone blocks exist by the ship anchor through the matching use of the anchor hooks 3 and the telescopic rods 5 and the auxiliary use of the rotating wheels 8 and the ejector rods 10, the anchor head 2 of the ship anchor is blocked by the stone blocks and begins to incline along with the movement of the ship, the receiving rods 14 are just vertical, then the downward extrusion force generated by the anchor head 2 and the stone blocks begins to extrude the bottom springs 12, the lower backing plate 13 moves upwards along with the downward extrusion force, the ejector rods 10 are jacked upwards, the ejector rods 10 are rotationally connected with the connecting rods 9 in the rotating wheels 8, the rotating wheels 8 begin to rotate anticlockwise, the pulling ropes 7 are pulled, the other ends of the pulling ropes 7 are fixedly connected with the inner rods of the telescopic rods 5, the telescopic rods 5 begin to contract, the compression springs 6 are compressed, and the compression springs 6 are connected, the compression spring 6 stops after sliding to the upper part of the spring piece, as the telescopic link 5 is rotationally connected with the anchor arm on the right side of the anchor rod 1, the anchor arm on the right side is pulled up, so that the anchor hook 3 is pulled up, the ship is pulled by the anchor head 2, at the moment, as storm and heavy wave come, the thrust of the ship on sea wave is gradually increased, so that the pulling force of the anchor head 2 of the ship anchor on the seabed on the stone is increased, when the force on the stone reaches a certain degree, the stone is cracked, the ship anchor loses fixation and starts to move, the receiving rod 14 loses downward extrusion force, so that the bottom spring 12 loses acting force and recovers the original length, the lower cushion plate 13 moves downwards, the ejector rod 10 pulls the connecting rod 9 to enable the rotating wheel 8 to rotate clockwise, the pull rope 7 is released rightwards, the angle between the compression spring 6 and the telescopic link 5 is gradually larger than ninety degrees, and the elastic force of the compression spring, the compression spring 6 slides across the spring piece and finally abuts against the baffle plate, the anchor arm on the right side of the anchor stem 1 is rotated downwards by the elastic force of the compression spring 6, and the anchor hooks 3 can be pressed into the bottom of the ship anchor, so that the anchor hooks 3 can hook other stone blocks again to fix the ship anchor again, and the effect of continuously fixing the ship anchor after the stone blocks are cracked is achieved.

The telescopic rod 5 is matched with the compression spring 6, the spring piece is matched with the baffle plate for use, the baffle plate is propped against the compression spring 6 after the stone is cracked, the telescopic plate extends, and then the anchor arm rotates clockwise, so that the effect of applying downward pressure to the anchor hook 3 is achieved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Ship anchor capable of preventing the fragmentation of stuck stones, comprising an anchor stem (1), characterized in that: the top fixedly connected with rings (4) of the anchor rod (1), the left side of the anchor rod (1) is fixedly connected with an anchor head (2) through an anchor arm, the bottom fixedly connected with punch (15) of the anchor rod (1), the right side of the anchor rod (1) is rotatably connected with a telescopic rod (5), the right side of the anchor rod (1) is positioned at the bottom of the telescopic rod (5) and is fixedly connected with an anchor hook (3) through the anchor arm, a compression spring (6) is connected between the telescopic rod (5) and the anchor rod (1), the left side of the telescopic rod (5) is positioned below the compression spring (6) and is fixedly connected with a stay rope (7), the left end of the stay rope (7) is fixedly connected with a runner (8), the inner part of the runner (8) is fixedly connected with a connecting rod (9), the bottom of the connecting rod (9) is rotatably connected with a push rod (10), the bottom of the push rod (, the top fixedly connected with bottom spring (12) of lower bolster (13), the top fixedly connected with upper padding plate (11) of bottom spring (12), the bottom of lower bolster (13) just passes drift (15) fixedly connected with bolster (14).

2. A boat anchor to prevent chipping of trapped rock mass as claimed in claim 1 wherein: when the bottom spring (12) reaches the maximum compression deformation amount, the compression spring (6) is in the maximum contraction state.

3. A boat anchor to prevent chipping of trapped rock mass as claimed in claim 1 wherein: the compression spring (6) is connected with the telescopic rod (5) in a sliding mode, and the compression spring (6) is fixedly connected with the anchor rod (1).

4. A boat anchor to prevent chipping of trapped rock mass as claimed in claim 1 wherein: the bottom spring (12) is placed obliquely to the left.

5. A boat anchor to prevent chipping of trapped rock mass as claimed in claim 1 wherein: the telescopic rod (5) is located between the anchor rod (1) and the right anchor arm and is rotatably connected to the anchor rod (1) and the right anchor arm through a rotating shaft.

6. A boat anchor to prevent chipping of trapped rock mass as claimed in claim 1 wherein: the inner rod of the telescopic rod (5) is provided with a spring piece and a baffle, the spring piece is positioned at the bottom of one side of the compression spring (6), and the baffle is positioned below the spring piece.

7. A boat anchor to prevent chipping of trapped rock mass as claimed in claim 1 wherein: the bottom of the bearing rod (14) is fixedly connected with a bearing plate.

8. A boat anchor to prevent chipping of trapped rock mass as claimed in claim 1 wherein: the length of the bearing plate (14) outside the punch (15) is greater than the maximum deformation of the bottom spring (12).

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