CN115246461A - Equipment anti-shake buffer base structure for marine vessel - Google Patents

Abstract

The invention discloses an anti-shake buffer base structure of equipment for a marine ship, when the marine ship equipment is installed and used, a clamping and abutting limiting structure during equipment installation is formed between two groups of equipment abutting and clamping assemblies which are opposite to two sides of a marine ship equipment installation base platform assembly, so that the equipment abutting and clamping assemblies at the end part of a top pushing plate are close to the bottom of the equipment and form a clamping and fixing structure, a buffer supporting arm leg structure of the marine ship equipment installation base assembly is formed between two groups of equipment buffer base supporting arm assemblies and spring damping hydraulic supporting rods at two sides of the same end, a first anti-shake ring platform plate is rotatably arranged on the outer side of a base connecting ball platform through a first shaft rod and a bearing seat, a second anti-shake ring platform plate is rotatably arranged on the outer side of the first anti-shake ring platform plate through a second shaft rod and a bearing seat, and through the cross-shaped rotating matching structure, meanwhile, the anti-shake performance of the ship equipment is realized through the weight pressure of the ship equipment on the marine ship equipment installation base assembly.

Description

Equipment anti-shake buffer base structure for marine vessel

Technical Field

The invention belongs to the technical field of marine ships, and particularly relates to an anti-shake buffer base structure of equipment for a marine ship.

Background

A ship is a vehicle which can be sailed or moored in a water area for transportation or operation, and has different technical performances, equipment and structural types according to different use requirements.

In order to ensure that the ship can sail smoothly, more ship equipment is required to be installed on the ship, the sea sailing stormy waves are large, the waves continuously impact the ship structure, the ship equipment is easy to vibrate, the existing ship equipment is fixedly installed on the ship structure through the base, the bases are simple in structure, anti-shaking and anti-seismic capabilities are lacked, the equipment is easy to damage after long-time operation, the service life of the equipment is shortened, and the safety and stability of the ship sailing at sea are directly influenced.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides an anti-shake buffer base structure of equipment for a marine ship, which has the characteristics of good anti-shake performance and good anti-vibration performance.

In order to achieve the purpose, the invention provides the following technical scheme:

an equipment anti-shake buffer base structure for a marine ship comprises a marine ship equipment installation base assembly, wherein a plurality of groups of equipment conflict clamping assemblies are rotatably arranged on table bodies on two sides of the marine ship equipment installation base assembly, equipment anti-shake assemblies are fixedly arranged at the tops of four corner table bodies of the marine ship equipment installation base assembly, an equipment buffer base supporting leg assembly is rotatably arranged at the outer side end of each equipment anti-shake assembly, a tension spring is hung between each marine ship equipment installation base assembly and each equipment conflict clamping assembly, and a spring damping hydraulic supporting rod is arranged between two groups of equipment buffer base supporting leg assemblies on two sides of the same end;

the marine ship equipment installation base platform assembly comprises a marine ship equipment installation base platform, supporting leg platforms are arranged at the four corners of the marine ship equipment installation base platform, fixed base platform supporting rods are fixedly arranged on the supporting leg platforms through reinforcing rib plates, a plurality of rotating side shaft tubes are rotatably arranged on platform bodies on the two sides of the marine ship equipment installation base platform through rotating side shaft rods, a top pushing top plate and a top pushing bottom plate are fixedly arranged at the top and the bottom of each rotating side shaft tube respectively, a U-shaped fixed bottom plate and a pushing wheel are fixedly arranged at the bottom of each top pushing bottom plate, a movable ball base tube is fixedly arranged at the top of each top pushing top plate through a top rib plate, and two tensioning pull rings are fixedly arranged on each movable ball base tube;

the equipment anti-shake assembly comprises a base connecting ball table, a first anti-shake ring bedplate is arranged on the outer side of the base connecting ball table in a rotating mode through a first shaft lever and a bearing seat, a second anti-shake ring bedplate is arranged on the outer side of the first anti-shake ring bedplate in a rotating mode through a second shaft lever and the bearing seat, and a third shaft lever is fixedly arranged on the second anti-shake ring bedplate through a shaft lever reinforcing rib plate;

the supporting leg arm component of the equipment buffering base comprises a supporting leg arm at the bottom of the base, the supporting leg arm at the top of the supporting leg arm at the bottom of the base is rotatably provided with a supporting leg arm at the top of the base, the bottom of the supporting leg arm at the bottom of the base is rotatably provided with a rotating leg arm side plate, the bottom of the rotating leg arm side plate is fixedly provided with an installation base transverse plate, and both ends of the installation base transverse plate are provided with leg arm installation screw holes;

the equipment conflict centre gripping subassembly includes the equipment grip block of contradicting, equipment conflict grip block back is provided with conflict grip block activity bulb through conflict grip block back of the body pole is fixed, and equipment conflict grip block back is fixed and is provided with two balanced pull rings, the fixed rubber protection pad that is provided with on the terminal surface before the equipment conflict grip block.

Preferably, the equipment anti-shaking assemblies are arranged above four corners of the table body of the marine ship equipment installation base table assembly, and the top of the supporting rod of the fixed base table is fixedly connected with the base connection ball table.

Preferably, the movable ball head of the abutting clamping plate on the abutting clamping assembly of the equipment moves in all directions in the movable ball seat pipe on the side face of the installation seat platform assembly of the marine ship equipment, and two ends of the tensioning spring are hung on the balance pull ring and the tensioning pull ring.

Preferably, a clamping and abutting limiting structure during equipment installation is formed between two groups of equipment abutting clamping components which are opposite to two sides of the marine ship equipment installation seat platform component.

Preferably, the wedge-shaped guide rail block at the bottom of the telescopic cylinder pushes and presses the pushing wheels at the bottoms of the pushing bottom plates at two sides.

Preferably, each group of the equipment anti-shaking assembly is provided with a group of equipment buffering base supporting leg assemblies outside, and the third shaft rod is rotatably connected with the top arm body of the base top supporting leg arm through a bearing seat.

Preferably, the spring damping hydraulic support rod is rotatably installed between the two side equipment buffering base support leg assemblies at the same end of the marine ship equipment installation base platform assembly, and two groups of equipment buffering base support leg assemblies at the same end and two sides form a buffering support arm leg structure of the marine ship equipment installation base platform assembly between the two side equipment buffering base support leg assemblies and the spring damping hydraulic support rod.

Preferably, the bottom of the supporting leg arm assembly of the equipment buffering base is detachably mounted on the hull structure through a leg arm mounting screw hole at the end part of the mounting base transverse seat plate and a ship fastening bolt.

Compared with the prior art, the invention has the beneficial effects that:

1. when the marine ship equipment installation base platform is installed and used, ship equipment needs to be fixed on the marine ship equipment installation base platform, a plurality of rotating side shaft tubes are rotatably arranged on platform bodies on two sides of the marine ship equipment installation base platform through rotating side shafts, a top pushing plate and a bottom pushing plate are respectively and fixedly arranged at the top and the bottom of each rotating side shaft tube, an equipment abutting clamping component is movably arranged at the top of each pushing plate, a clamping abutting limiting structure during equipment installation is formed between two groups of equipment abutting clamping components which are opposite to each other on two sides of the marine ship equipment installation base platform component, when the clamping device is used for clamping and mounting, the wedge-shaped guide rail block at the bottom of the telescopic cylinder pushes and supports pushing wheels at the bottoms of the pushing bottom plates at two sides, the pushing top plate at the top is pushed and extruded inwards through pushing of the pushing bottom plate, and the equipment abutting clamping assembly at the end part of the pushing top plate is close to the bottom of the equipment and forms a clamping and fixing structure through pushing of the pushing top plate, so that abutting clamping during equipment mounting is realized, and the stability of the equipment after mounting is improved;

2. equipment anti-shake assemblies are arranged above four corners of a platform body of the marine ship equipment installation base platform assembly, a group of equipment buffering base supporting leg assemblies are arranged outside each group of equipment anti-shake assemblies, a third shaft rod is rotatably connected with a top arm body of the top supporting leg arm of the base through a bearing seat, a spring damping hydraulic supporting rod is rotatably installed between the two equipment buffering base supporting leg assemblies at the same end of the marine ship equipment installation base platform assembly, a buffering supporting arm leg structure of the marine ship equipment installation base platform assembly is formed between the two groups of equipment buffering base supporting leg assemblies at two sides of the same end and the spring damping hydraulic supporting rod, buffering when the marine ship equipment installation base platform assembly is used for supporting is realized through the matching of the structures, and vibration caused by external impact to equipment can be effectively relieved after installation;

3. the top of the fixed seat table supporting rod is fixedly connected with a base connecting ball table, a first anti-shaking ring table plate is arranged on the outer side of the base connecting ball table in a rotating mode through a first shaft rod and a bearing seat, a second anti-shaking ring table plate is arranged on the outer side of the first anti-shaking ring table plate in a rotating mode through a second shaft rod and the bearing seat, and through the cross-shaped rotating fit structure, when an external vibration state is transmitted to the equipment anti-shaking assembly through the third shaft rod, through the cross-shaped rotating fit structure, the weight pressure of ship equipment on the marine ship equipment mounting seat table assembly is guaranteed, the equipment is guaranteed to be kept in a vertically downward state all the time when in work, the influence of ship shaking on the equipment is reduced, and the shaking of the equipment caused by the influence of external force when the ship navigates is avoided;

4. all-round activity in the activity ball seat pipe of conflict grip block activity bulb on equipment conflict centre gripping subassembly in marine vessel equipment fixing seat platform subassembly side, establish on balanced pull ring and taut pull ring are hung at the both ends of taut spring, through this kind of mode, make equipment conflict grip block with push away and form the changeable structure of angle between the roof, when pushing away the roof top and drawing close the centre gripping inwards, the conflict that equipment conflict grip block can be fine is attached in the outside of equipment, through this kind of structural style, form effectual conflict centre gripping mounting structure when can be fine to boats and ships equipment fixing, carry out effectual fixed to equipment after the installation simultaneously, improve the stability of equipment work.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view from another perspective of the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is a perspective view of the marine vessel equipment mounting pedestal assembly and the equipment interference gripping assembly of the present invention;

FIG. 5 is an exploded view of the marine vessel equipment mounting pedestal assembly of the present invention;

FIG. 6 is a perspective view of the marine vessel equipment mounting pedestal assembly of the present invention;

FIG. 7 is a perspective view of an interference gripping assembly of the apparatus of the present invention;

FIG. 8 is a perspective view of the anti-shake apparatus and the support leg assembly of the buffer base of the present invention;

FIG. 9 is a perspective view of an anti-shake assembly of the apparatus of the present invention;

FIG. 10 is a perspective view of a support leg assembly of the apparatus buffer base of the present invention;

in the figure: 1. a marine vessel equipment mounting block assembly; 101. a marine vessel equipment mounting base table; 102. supporting the foot platen; 103. reinforcing rib plates; 104. a fixed seat stand support bar; 105. rotating the side shaft lever; 106. rotating the side shaft tube; 107. pushing the bottom plate; 108. a top rib plate; 109. a movable ball seat tube; 110. tensioning the pull ring; 111. pushing the top plate; 112. a U-shaped fixed bottom plate; 113. a push wheel; 114. a telescopic cylinder; 115. a wedge-shaped guide rail block; 2. an equipment anti-shake assembly; 201. the base is connected with the table; 202. a first shaft lever; 203. a first anti-shake ring platen; 204. a second shaft lever; 205. a second anti-shake ring platen; 206. a third shaft lever; 207. a shaft lever reinforcing rib plate; 3. the equipment buffer base supports the arm component; 301. a base bottom support leg arm; 302. rotating the leg arm side plate; 303. mounting a bottom transverse seat plate; 304. a base top support leg arm; 305. the foot arm is provided with a screw hole; 4. the equipment abuts against the clamping component; 401. the equipment is abutted against the clamping plate; 402. abutting against the back bar of the clamping plate; 403. the movable ball head is abutted against the clamping plate; 404. a rubber protective pad; 405. a balance pull ring; 5. tensioning the spring; 6. spring shock attenuation hydraulic support pole.

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. 1-10, the present invention provides the following technical solutions: an equipment anti-shake buffer base structure for a marine ship comprises a marine ship equipment installation base assembly 1, wherein a plurality of groups of equipment conflict clamping assemblies 4 are rotatably arranged on table bodies on two sides of the marine ship equipment installation base assembly 1, equipment anti-shake assemblies 2 are fixedly arranged at the tops of four corner table bodies of the marine ship equipment installation base assembly 1, an equipment buffer base supporting leg assembly 3 is rotatably arranged at the outer side end of each equipment anti-shake assembly 2, a tension spring 5 is hung between the marine ship equipment installation base assembly 1 and the equipment conflict clamping assemblies 4, and a spring damping hydraulic supporting rod 6 is arranged between the two groups of equipment buffer base supporting leg assemblies 3 on two sides of the same end;

the marine vessel equipment installation base platform assembly 1 comprises a marine vessel equipment installation base platform 101, supporting leg platforms 102 are arranged at four corners of the marine vessel equipment installation base platform 101, fixed base platform supporting rods 104 are fixedly arranged on the supporting leg platforms 102 through reinforcing rib plates 103, a plurality of rotating side shaft tubes 106 are rotatably arranged on platform bodies on two sides of the marine vessel equipment installation base platform 101 through rotating side shaft rods 105, the top and the bottom of each rotating side shaft tube 106 are respectively and fixedly provided with a jacking top plate 111 and a jacking bottom plate 107, the bottom of each jacking bottom plate 107 is fixedly provided with a U-shaped fixed bottom plate 112 and a pushing wheel 113, the top of each jacking top plate 111 is fixedly provided with a movable ball seat tube 109 through a top rib plate 108, and two tensioning pull rings 110 are fixedly arranged on each movable ball seat tube 109;

the equipment anti-shake assembly 2 comprises a base connecting ball table 201, a first anti-shake ring bedplate 203 is arranged on the outer side of the base connecting ball table 201 through a first shaft rod 202 and a bearing seat in a rotating mode, a second anti-shake ring bedplate 205 is arranged on the outer side of the first anti-shake ring bedplate 203 through a second shaft rod 204 and a bearing seat in a rotating mode, and a third shaft rod 206 is fixedly arranged on the second anti-shake ring bedplate 205 through a shaft rod reinforcing rib plate 207;

the equipment buffer base supporting leg arm component 3 comprises a base bottom supporting leg arm 301, a base top supporting leg arm 304 is rotatably arranged at the top of the base bottom supporting leg arm 301, a rotating leg arm side plate 302 is rotatably arranged at the bottom of the base bottom supporting leg arm 301, an installation base transverse seat plate 303 is fixedly arranged at the bottom of the rotating leg arm side plate 302, and leg arm installation screw holes 305 are formed in two ends of the installation base transverse seat plate 303;

equipment conflict grip assembly 4 includes equipment conflict grip block 401, and equipment conflict grip block 401 back is provided with conflict grip block activity bulb 403 through conflict grip block back of the body pole 402 is fixed, and the fixed two balanced pull rings 405 that are provided with in equipment conflict grip block 401 back, and the fixed rubber protection that is provided with fills up 404 on the terminal surface before the equipment conflict grip block 401.

In this embodiment, preferably, the equipment anti-shake assemblies 2 are disposed above four corners of the platform body of the marine vessel equipment mounting base assembly 1, and the top of the fixed base support rod 104 is fixedly connected to the base connection ball table 201.

In this embodiment, preferably, the movable ball head 403 of the abutting clamping plate on the equipment abutting clamping assembly 4 moves in all directions in the movable ball seat tube 109 on the side of the marine vessel equipment mounting seat platform assembly 1, and both ends of the tension spring 5 are hung on the balance pull ring 405 and the tension pull ring 110.

In this embodiment, preferably, a clamping and abutting limiting structure during equipment installation is formed between two sets of equipment abutting clamping components 4 which are opposite to two sides of the marine vessel equipment installation seat platform component 1.

In this embodiment, preferably, the wedge-shaped guide rail block 115 at the bottom of the telescopic cylinder 114 pushes and presses the pushing wheels 113 at the bottom of the pushing bottom plate 107 at two sides.

In this embodiment, preferably, a set of device buffering base supporting leg assemblies 3 is disposed outside each set of device anti-shake assemblies 2, and the third shaft rod 206 is rotatably connected to the top arm body of the base top supporting leg arm 304 through a bearing seat.

In this embodiment, preferably, the spring damping hydraulic support rod 6 is rotatably installed between the two side device buffering base support leg assemblies 3 at the same end of the marine vessel device mounting base assembly 1, and a buffering support arm leg structure of the marine vessel device mounting base assembly 1 is formed between the two sets of device buffering base support leg assemblies 3 at the same end and the spring damping hydraulic support rod 6.

In this embodiment, preferably, the bottom of the supporting arm assembly 3 of the equipment buffering base is detachably mounted on the hull structure through a supporting arm mounting screw hole 305 at the end of the mounting base transverse plate 303 and a ship fastening bolt.

In another embodiment of the invention, the pushing bottom plate 107 and the bottom end surface of the marine vessel equipment installation base platform 101 are both provided with pull rings, and a tension spring is hung between the two pull rings, so that the pushing bottom plate 107 is in an inward closing state in a natural state through the matching of the above structures, the pushing wheels 113 are always abutted against the wedge-shaped guide rail block 115, and the pushing top plate 111 is in an opening state, thereby facilitating the placement of vessel equipment during installation.

The spring damping hydraulic support rod 6 of the present invention is a well-known technique that has been disclosed and is widely used in daily life, and is of the type jz-10.

The working principle and the using process of the invention are as follows:

when the marine ship equipment installation base platform is installed and used, ship equipment needs to be fixed on the marine ship equipment installation base platform 101, a plurality of rotating side shaft tubes 106 are rotatably arranged on platform bodies on two sides of the marine ship equipment installation base platform 101 through rotating side shaft rods 105, the top and the bottom of the rotating side shaft tubes 106 are respectively and fixedly provided with a top pushing plate 111 and a bottom pushing plate 107, the top of the top pushing plate 111 is movably provided with an equipment pushing and clamping assembly 4, a clamping and pushing limiting structure during equipment installation is formed between two groups of equipment pushing and clamping assemblies 4 which are just opposite to two sides of the marine ship equipment installation base platform assembly 1, and during clamping installation, a wedge-shaped guide rail block 115 at the bottom of a telescopic cylinder 114 pushes and pushes pushing wheels 113 at the bottoms of the two side pushing plates 107, the top pushing plate 111 at the top is pushed and extruded inwards, and the equipment clamping assembly 4 at the end part of the top pushing plate 111 is drawn close to the bottom of the equipment to form a clamping and fixing structure through pushing of the top pushing plate 111, so that the equipment is butted and the stability after equipment installation is improved;

equipment anti-shake components 2 are arranged above four corners of a platform body of a marine ship equipment installation platform component 1, a group of equipment buffering base supporting leg components 3 are arranged outside each group of equipment anti-shake components 2, a third shaft rod 206 is rotatably connected with a top arm body of a base top supporting leg 304 through a bearing seat, a spring damping hydraulic supporting rod 6 is rotatably arranged between the two groups of equipment buffering base supporting leg components 3 at the same end of the marine ship equipment installation platform component 1, a buffering supporting arm leg structure of the marine ship equipment installation platform component 1 is formed between the two groups of equipment buffering base supporting leg components 3 at two sides of the same end and the spring damping hydraulic supporting rod 6, buffering during supporting and using of the marine ship equipment installation platform component 1 is realized through the cooperation of the structures, and vibration caused by external impact to equipment can be effectively relieved after installation;

the top of the fixed seat table supporting rod 104 is fixedly connected with the base connecting ball table 201, a first anti-shaking ring table plate 203 is arranged on the outer side of the base connecting ball table 201 through a first shaft rod 202 and a bearing seat in a rotating mode, a second anti-shaking ring table plate 205 is arranged on the outer side of the first anti-shaking ring table plate 203 through a second shaft rod 204 and a bearing seat in a rotating mode, and through the cross-shaped rotating fit structure, when an external vibration state is transmitted to the equipment anti-shaking assembly 2 through a third shaft rod 206, through the cross-shaped rotating fit structure, the weight pressure of the ship equipment on the marine ship equipment mounting seat table assembly 1 is used, the equipment is guaranteed to be always kept in a vertically downward state when in work, the influence of ship shaking on the equipment is reduced, and the shaking of the equipment caused by the influence of external force when the ship sails is avoided;

all-round activity in the activity ball seat pipe 109 of conflict grip block 403 on the equipment conflict grip block 4 side at marine vessel equipment fixing seat platform subassembly 1 side, establish on balanced pull ring 405 and taut pull ring 110 are hung at the both ends of taut spring 5, through this kind of mode, make equipment conflict grip block 4 and push away and form the changeable structure of angle between the roof 111, when pushing away the roof 111 top and drawing close the centre gripping inwards, equipment conflict grip block 4 can be fine conflict attached in the outside of equipment, through this kind of structural style, form effectual conflict centre gripping mounting structure when installing boats and ships equipment that can be fine, carry out effectual fixed to equipment after the installation simultaneously, improve equipment job stabilization nature.

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. The utility model provides an equipment anti-shake buffering base structure for marine vessel, includes marine vessel equipment fixing base platform subassembly (1), its characterized in that: a plurality of groups of equipment abutting clamping assemblies (4) are rotatably arranged on the table bodies on two sides of the marine ship equipment mounting base table assembly (1), equipment anti-shaking assemblies (2) are fixedly arranged at the tops of the four corner table bodies of the marine ship equipment mounting base table assembly (1), equipment buffering base supporting leg assemblies (3) are rotatably arranged at the outer side ends of the equipment anti-shaking assemblies (2), tensioning springs (5) are hung between the marine ship equipment mounting base table assembly (1) and the equipment abutting clamping assemblies (4), and spring damping hydraulic supporting rods (6) are arranged between two groups of equipment buffering base supporting leg assemblies (3) on two sides of the same end;

the marine vessel equipment installation base platform assembly (1) comprises a marine vessel equipment installation base platform (101), supporting leg platforms (102) are arranged at four corners of the marine vessel equipment installation base platform (101), fixed base platform supporting rods (104) are fixedly arranged on the supporting leg platforms (102) through reinforcing rib plates (103), a plurality of rotating side shaft tubes (106) are rotatably arranged on platform bodies on two sides of the marine vessel equipment installation base platform (101) through rotating side shaft rods (105), a pushing top plate (111) and a pushing bottom plate (107) are fixedly arranged at the top and the bottom of each rotating side shaft tube (106), a U-shaped fixed bottom plate (112) and a pushing wheel (113) are fixedly arranged at the bottom of the pushing bottom plate (107), a movable ball base tube (109) is fixedly arranged at the top of the pushing top plate (111) through a top rib plate (108), and two tensioning pull rings (110) are fixedly arranged on the movable ball base tube (109);

the equipment anti-shake component (2) comprises a base connecting ball table (201), a first anti-shake ring bedplate (203) is arranged on the outer side of the base connecting ball table (201) in a rotating mode through a first shaft rod (202) and a bearing seat, a second anti-shake ring bedplate (205) is arranged on the outer side of the first anti-shake ring bedplate (203) in a rotating mode through a second shaft rod (204) and the bearing seat, and a third shaft rod (206) is fixedly arranged on the second anti-shake ring bedplate (205) through a shaft rod reinforcing rib plate (207);

the supporting leg arm component (3) of the equipment buffer base comprises a base bottom supporting leg arm (301), the top of the base bottom supporting leg arm (301) is rotatably provided with a base top supporting leg arm (304), the bottom of the base bottom supporting leg arm (301) is rotatably provided with a rotating leg arm side plate (302), the bottom of the rotating leg arm side plate (302) is fixedly provided with an installation base transverse seat plate (303), and two ends of the installation base transverse seat plate (303) are respectively provided with a leg arm installation screw hole (305);

equipment conflict centre gripping subassembly (4) are including equipment conflict grip block (401), equipment conflict grip block (401) back is provided with conflict grip block activity bulb (403) through conflict grip block back of the body pole (402) is fixed, and equipment conflict grip block (401) back is fixed and is provided with two balanced pull rings (405), fixed rubber protection pad (404) that is provided with on the terminal surface before equipment conflict grip block (401).

2. The anti-shake buffer base structure for the marine vessel according to claim 1, wherein: the marine vessel equipment installation base platform assembly is characterized in that equipment anti-shaking assemblies (2) are arranged above four corners of a platform body of the marine vessel equipment installation base platform assembly (1), and the tops of the fixed base platform supporting rods (104) are fixedly connected with a base connecting ball platform (201).

3. The anti-shake buffer base structure for the marine vessel according to claim 1, wherein: the equipment props movable bulb (403) of the conflict grip block on the grip block (4) and moves in all directions in the movable bulb seat tube (109) on the side of the marine vessel equipment installation seat platform assembly (1), and two ends of the tension spring (5) are hung on the balance pull ring (405) and the tension pull ring (110).

4. The anti-shake buffer base structure for the marine vessel according to claim 1, wherein: a clamping and abutting limiting structure used in equipment installation is formed between two sets of equipment abutting clamping components (4) which are opposite to two sides of the marine ship equipment installation seat platform component (1).

5. The anti-shake buffer base structure for the marine vessel according to claim 1, wherein: the wedge-shaped guide rail block (115) at the bottom of the telescopic cylinder (114) pushes and presses the pushing wheels (113) at the bottoms of the pushing bottom plates (107) at two sides.

6. The anti-shake buffer base structure for the marine vessel according to claim 1, wherein: and a group of equipment buffering base supporting foot arm assemblies (3) are arranged outside each group of equipment anti-shaking assemblies (2), and the third shaft lever (206) is rotatably connected with the top arm body of the base top supporting foot arm (304) through a bearing seat.

7. The anti-shake buffer base structure for the marine vessel according to claim 1, wherein: the device is characterized in that the spring damping hydraulic support rod (6) is rotatably installed between two lateral device damping base support leg assemblies (3) at the same end of the marine vessel device installation base platform assembly (1), and two sets of device damping base support leg assemblies (3) at the same end and two sides of the same end form a damping support leg structure of the marine vessel device installation base platform assembly (1) between the spring damping hydraulic support rod (6).

8. The anti-shake buffer base structure for the marine vessel according to claim 1, wherein: the bottom of the supporting leg arm assembly (3) of the equipment buffer base is detachably mounted on a hull structure through a leg arm mounting screw hole (305) at the end part of a mounting base transverse seat plate (303) and a ship fastening bolt.

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