CN113622385A - Perforated ball-leaning horizontal plate and connection mode thereof - Google Patents

Abstract

The invention discloses a perforated backup ball horizontal plate and a connection mode thereof, wherein the horizontal plate is sequentially connected by utilizing a perforated backup ball, when the perforated backup ball is placed on a water surface, the horizontal plate and the perforated backup ball are utilized to absorb impact force generated by spray on the water surface, the horizontal plate and the perforated backup ball are fixed by utilizing an anchor chain rope, the perforated backup ball horizontal plate comprises rope perforations, and the rope perforations are uniformly arranged in the perforated backup ball at equal intervals. This trompil leans on ball horizontal plate and connected mode thereof, adopt neotype structural design, the trompil leans on the application of ball horizontal plate connected mode to make the advantages that the piecemeal connecting plate can exert the short slab (compare with the wavelength) when the shortwave is used, and can regard as the whole horizontal plate wave structure that disappears of trompil again when the long wave is used, the effect of the wave frequency of proper response effect is exerted, and the trompil leans on the ball can consume the collision energy between the two boards, prevent to hit and damage the horizontal plate structure, utilize its spherical structure can effectively prevent the collision that comes from all directions simultaneously, absorb the collision energy.

Description

Perforated ball-leaning horizontal plate and connection mode thereof

Technical Field

The invention relates to the technical field of ocean engineering structural form development and research, in particular to a perforated ball leaning horizontal plate and a connection mode thereof.

Background

In recent years, the horizontal plate wave dissipation structure has more related researches due to the advantages of good liquidity, good wave dissipation effect and the like, in the wave dissipation characteristic aspect, the horizontal plate has better wave dissipation effect on short waves, and the wave dissipation effect has larger correlation with the wave wavelength of acting waves, so that the horizontal plate structure is properly slotted (or holed) to have larger promotion effect on the wave dissipation effect of the horizontal plate under the action of the waves with different wavelengths, the proper slotting of the horizontal plate is equivalent to the splitting of the horizontal plate into a plurality of block plates, and the block plates are connected in a proper mode, so that the change of the wave period of acting waves can be effectively responded, and the wave dissipation effect is promoted.

But in actual use, general horizontal plate need can reach better unrestrained effect that disappears at its surperficial equidistant even fluting to the connection between the horizontal plate adopts rigid connection's mode to connect, because the beating of wave can produce the collision between the adjacent horizontal plate when using, causes the damage to the structure of horizontal plate.

In many published technical patents, cases and technical schemes for connecting the block plates by using the perforated leaning balls are not proposed, and the invention gives full play to the application value of the horizontal plate wave dissipation structure in the actual engineering, promotes the application range of the horizontal plate wave dissipation structure in the actual engineering and has important value for the promotion and application of the horizontal plate wave dissipation structure.

Disclosure of Invention

The invention aims to provide a perforated ball-leaning horizontal plate and a connection mode thereof, and aims to solve the problems that the horizontal plate design is troublesome and the horizontal plates are damaged due to collision in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a trompil leans on ball horizontal plate and connected mode thereof utilizes the trompil to lean on the ball to connect the horizontal plate in proper order, utilizes when putting it on the surface of water the horizontal plate with the trompil leans on the ball to absorb the produced impact force of wave flower on the surface of water, the horizontal plate with the trompil leans on and utilizes the anchor chain rope to fix between the ball, includes:

the rope through holes are uniformly arranged in the perforated leaning ball at equal intervals in a penetrating mode and are used for penetrating through the anchor chain ropes;

the fixing bolt is arranged in the middle of the side face of the opening close to the ball;

the rotating disc is rotatably arranged in the holed backup ball, an internal gear capable of limiting and fixing the rotating disc is fixedly arranged on the side surface of the rotating disc, and a return spring capable of generating extrusion force on the rotating disc is arranged on the rear side surface of the rotating disc;

the detachable screw thread is connected with the left side surface and the right side surface of the horizontal plate, and a movable block capable of driving the horizontal plate to stretch is arranged at the rear end of the connecting ring;

the clamping plates are movably arranged on the outer sides of the side faces of the horizontal plate, and the number of the clamping plates corresponds to the number of the opening leaning balls.

Preferably, the trompil leans on the ball to constitute by left hemisphere and right hemisphere two parts, just the left hemisphere with the right hemisphere passes through fixing bolt constitutes dismantlement mounting structure, can pull into left hemisphere and right hemisphere with the trompil when assembling to be convenient for penetrate the anchor chain rope.

Preferably, the rotating disc is internally provided with holes corresponding to the rope through holes, the rotating disc and the left hemisphere form an elastic structure through a return spring, and the rotating disc can be pressed inwards when an anchor chain rope penetrates through the elastic structure, so that the outer gear is disengaged from the inner gear.

Preferably, the rotating disc and the external gear form a meshing structure through the internal gear, and the external gear is in an incomplete gear-shaped structure which is symmetrical up and down, and the rotating disc is loosened after being rotated, and can be returned to the original position under the action of the return spring, so that the internal gear and the external gear are returned to the meshing state again.

Preferably, the grip block outside surface be with the trompil leans on the circular-arc structure of ball surface laminating, just the grip block pass through extrusion spring with the elastic construction is constituteed to the horizontal plate, utilizes the extrusion spring at grip block rear to produce the extrusion force to it to make the grip block lean on the ball centre gripping with the trompil in the middle of, prevent that it and horizontal plate from taking place relative displacement.

Preferably, the anchor chain rope is fixedly connected with the horizontal plate through the connecting ring, the connecting ring and the horizontal plate form a telescopic structure through the movable block, and the connecting ring can be pulled inwards through the movement of the movable block, so that the anchor chain rope is tensioned.

Preferably, the surface of the rear side of the movable block is rotatably provided with a push rod, the other end of the push rod is rotatably connected with a linear sliding block, and the push rod can be driven to rotate by the linear sliding block in the horizontal plate, so that the movable block is pushed to move in a telescopic manner.

Preferably, the linear sliding blocks and the horizontal plate form a sliding structure through a transmission screw rod, and the linear sliding blocks in threaded connection on the outer sides of the linear sliding blocks can be driven to synchronously slide in opposite directions by rotating the transmission screw rod.

The invention provides a connection mode of a perforated ball leaning horizontal plate, which specifically comprises the following steps:

s1: manufacturing a horizontal plate and a perforated backup ball according to preset specifications and requirements, then sequentially installing connecting rings on corresponding movable blocks on the side surfaces of the horizontal plate, and then fixedly connecting one end of an anchor chain rope with the connecting rings on one horizontal plate;

s2: rotating a fixing bolt in the perforated backup ball, splitting the perforated backup ball into a left hemisphere and a right hemisphere, then penetrating the other end of an anchor chain rope through a rope perforation arranged in the left hemisphere and penetrating out of a rotating disc in the perforated backup ball, if horizontal through connection is needed, sequentially penetrating the anchor chain rope through rope perforations corresponding to the right hemisphere, then fixing the left hemisphere and the right hemisphere by using the fixing bolt, thereby forming a complete perforated backup ball, if the anchor chain rope needs to be fixed in a cross manner, pressing the rotating disc to the inner side of the left hemisphere after penetrating through the rotating disc, disengaging an inner gear on the outer side of the rotating disc from an outer gear on the inner side of the left hemisphere, then rotating the rotating disc by 180 degrees, enabling the anchor chain rope to integrally rotate by 180 degrees, then loosening the rotating disc, and returning to the original position under the thrust action of a return spring, the inner gear and the outer gear are re-meshed, so that the rotating disc is limited and fixed, then the anchor chain rope penetrates through the right hemisphere, the anchor chain rope can be crossed and penetrated, and finally the other end of the anchor chain rope is fixedly connected with the connecting ring on the other horizontal plate;

s3: when utilizing the anchor chain rope to fix the trompil lean on the ball, put into between the left and right sides grip block of corresponding position with it, later rotate the inside transmission lead screw in horizontal plate side, the transmission lead screw drives the straight line slider in its outside in the pivoted and slides in opposite directions, thereby utilize the one end that straight line slider drove the catch bar to take place to rotate, the movable block with the catch bar other end to the inside pulling of horizontal plate, thereby it is taut with the anchor chain rope, prevent to produce relative displacement between the in-process trompil lean on ball and the horizontal plate using, and utilize grip block rear side surface extrusion spring's effect, make the grip block move further fixedly to the trompil lean on the ball, will assemble the device whole after the step about accomplishing and place on the surface of water and can use.

Compared with the prior art, the invention has the beneficial effects that: this trompil leans on ball horizontal plate and connected mode thereof, adopt neotype structural design, the trompil leans on the application of ball horizontal plate connected mode to make the advantages that the piecemeal connecting plate can exert the short slab (compare with the wavelength) when the shortwave is used, and can regard as the whole horizontal plate wave structure that disappears of trompil again when the long wave is used, the effect of the wave frequency of proper response effect is exerted, and the trompil leans on the ball can consume the collision energy between the two boards, prevent to hit and damage the horizontal plate structure, utilize its spherical structure can effectively prevent the collision that comes from all directions simultaneously, absorb the collision energy.

1. The trompil is leaned on the concatenation installation in turn between ball and the horizontal plate, utilizes the trompil to lean on ball horizontal plate connected mode effectively to cut apart the horizontal plate, and the purpose of wave energy in the wider frequency range of elimination that can be fine utilizes the structure of whole horizontal plate to effectively eliminate the long wave promptly when the long wave effect, and the trompil leans on the ball position to be equivalent to the fluting during the short wave effect, can effectively eliminate the short wave.

2. This trompil leans on ball horizontal plate connected mode when reaching elimination broad band within range wave energy, also will prevent the collision between the horizontal plate better, absorbs the collision energy, utilizes the trompil to lean on the ball to connect two adjacent horizontal plates promptly, avoids the direct contact between the horizontal plate to can absorb the impact energy, prevent that the damage from appearing in the horizontal plate.

3. During this trompil leans on ball horizontal plate connected mode, the trompil leans on the ball also can play certain effect of subducing the wave, and the trompil leans on the ball along horizontal and vertical certain open pore structure that forms, and the effective consumption wave energy utilizes the trompil to lean on the spherical structure of ball promptly can effectively prevent the collision that comes from all directions, absorbs the collision energy.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 5 is a schematic view of the front view cross section of the left hemisphere of the present invention;

FIG. 6 is a schematic side view of the left hemisphere of the present invention;

FIG. 7 is a schematic top view of a horizontal plate according to the present invention.

In the figure: 1. a horizontal plate; 2. opening a hole for leaning on the ball; 201. a left hemisphere; 202. a right hemisphere; 3. an anchor chain rope; 4. perforating the rope; 5. fixing the bolt; 6. rotating the disc; 7. a connecting ring; 8. a clamping plate; 9. a compression spring; 10. an internal gear; 11. an outer gear; 12. a return spring; 13. a movable block; 14. a push rod; 15. a linear slider; 16. and (5) a transmission screw rod.

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. 1-7, the present invention provides a technical solution: the utility model provides a trompil leans on ball horizontal plate and connected mode thereof utilizes the trompil to lean on ball 2 to connect with horizontal plate 1 in proper order, utilizes horizontal plate 1 and trompil to lean on ball 2 to absorb the produced impact force of wave on the surface of water when putting it on the surface of water, and horizontal plate 1 and trompil lean on utilizing anchor chain rope 3 to fix between the ball 2, include:

the rope through holes 4 are uniformly arranged in the perforated backup ball 2 at equal intervals in a penetrating manner, and the rope through holes 4 are used for penetrating the anchor chain ropes 3;

the fixing bolt 5 is arranged in the middle of the side surface of the opening leaning ball 2;

the rotating disc 6 is rotatably arranged in the holed backup ball 2, the side surface of the rotating disc 6 is fixedly provided with an inner gear 10 which can limit and fix the rotating disc, and the rear side surface of the rotating disc 6 is provided with a return spring 12 which can generate extrusion force on the rotating disc;

the connecting ring 7 is detachably connected to the left side surface and the right side surface of the horizontal plate 1 through threads, and a movable block 13 capable of driving the connecting ring 7 to stretch is arranged at the rear end of the connecting ring;

and the clamping plates 8 are movably arranged on the outer side of the side surface of the horizontal plate 1, and the number of the clamping plates 8 corresponds to the number of the opening leaning balls 2.

The opening leaning ball 2 is composed of a left hemisphere 201 and a right hemisphere 202, the left hemisphere 201 and the right hemisphere 202 form a dismounting and mounting structure through the fixing bolt 5, and after the opening leaning ball 2 is split into the left hemisphere 201 and the right hemisphere 202, the anchor chain rope 3 conveniently penetrates through the left hemisphere 201 and the right hemisphere 202 in sequence, so that the opening leaning ball 2 is mounted.

The hole that corresponds each other to rope perforation 4 position is seted up to rolling disc 6 inside, and rolling disc 6 passes through reset spring 12 and left hemisphere 201 constitution elastic construction, and after passing anchor chain rope 3 rolling disc 6, through inwards pressing rolling disc 6 and rotating it, can make it drive anchor chain rope 3 whole emergence rotation to realize anchor chain rope 3 alternately to run through fixedly.

The rotating disc 6 and the outer gear 11 form a meshing structure through the inner gear 10, and the outer gear 11 is in an incomplete gear-shaped structure which is symmetrical up and down, so that after the rotating disc 6 is released from being pressed, the inner gear 10 on the outer side of the rotating disc can be pushed to a position meshed with the outer gear 11 under the action of the return spring 12 on the rear side of the rotating disc, and the rotating disc 6 is limited and fixed by means of meshing.

The outside surface of grip block 8 is the circular arc structure of leaning on ball 2 surface laminating with the trompil, and grip block 8 forms elastic construction through extrusion spring 9 and horizontal plate 1, utilizes 8 rear extrusion springs 9 of grip block to its squeezing action, can make the circular arc structure of its surface hug closely the surface that the trompil leaned on ball 2 to the realization leans on ball 2's centre gripping to the trompil, prevents to appear relative displacement with horizontal plate 1 when using.

The anchor chain rope 3 is fixedly connected with the horizontal plate 1 through a connecting ring 7, and the connecting ring 7 and the horizontal plate 1 form a telescopic structure through a movable block 13.

The surface of the rear side of the movable block 13 is rotatably provided with a push rod 14, the other end of the push rod 14 is rotatably connected with a linear slider 15, the linear slider 15 forms a sliding structure with the horizontal plate 1 through a transmission screw rod 16, the linear sliders 15 on the outer side can synchronously slide in opposite directions by rotating the transmission screw rod 16 inside the side surface of the horizontal plate 1, so that one end of the push rod 14 is driven to rotate, finally the push rod 14 is utilized to drive the movable block 13 to move in a telescopic manner, the connecting ring 7 arranged on the outer side of the movable block is utilized to tension the anchor chain rope 3 which passes through the opening leaning ball 2, and the fixing of the opening leaning ball 2 is strengthened.

The invention provides a connection mode of a perforated ball-leaning horizontal plate, which specifically comprises the following steps:

s1: manufacturing a horizontal plate 1 and a perforated backup ball 2 according to preset specifications and requirements, then sequentially installing connecting rings 7 on corresponding movable blocks 13 on the side surfaces of the horizontal plate 1, and then fixedly connecting one end of an anchor chain rope 3 with the connecting rings 7 on one horizontal plate 1;

s2: rotating a fixing bolt 5 in the perforated backup ball 2, splitting the perforated backup ball 2 into a left hemisphere 201 and a right hemisphere 202, then penetrating the other end of a chain cable 3 through a cable through hole 4 formed in the left hemisphere 201 and penetrating out of a rotating disc 6 in the perforated backup ball, if horizontal through connection is required, sequentially penetrating the chain cable 3 through the cable through holes 4 corresponding to the right hemisphere 202, then fixing the left hemisphere 201 and the right hemisphere 202 by using the fixing bolt 5 to form the complete perforated backup ball 2, if the chain cable 3 is required to be fixed in a crossed manner, after penetrating through the rotating disc 6, pressing the rotating disc 6 to the inner side of the left hemisphere 201, at the moment, disengaging an inner gear 10 on the outer side of the rotating disc from an outer gear 11 on the inner side of the left hemisphere 201, then rotating the rotating disc 6 by 180 degrees, so that the chain cable 3 rotates by 180 degrees integrally, then, the rotating disc 6 is loosened, and returns to the original position under the thrust action of the return spring 12, so that the inner gear 10 and the outer gear 11 are re-meshed, the rotating disc 6 is limited and fixed, then the anchor chain rope 3 penetrates through the right hemisphere 202, the anchor chain rope 3 can be crossed and penetrated, and finally the other end of the anchor chain rope 3 is fixedly connected with the connecting ring 7 on the other horizontal plate 1;

s3: when utilizing anchor chain rope 3 to run into opposite directions hole and lean on ball 2 to fix, it puts into between the left and right sides grip block 8 of corresponding position, later rotate the inside transmission lead screw 16 in horizontal plate 1 side, transmission lead screw 16 drives the straight line slider 15 in its outside in the pivoted and slides in opposite directions, thereby utilize straight line slider 15 to drive the one end of catch bar 14 and take place to rotate, draw the movable block 13 of the catch bar 14 other end to horizontal plate 1 is inside, thereby take-up anchor chain rope 3, prevent to produce relative displacement between the in-process trompil that uses and lean on ball 2 and horizontal plate 1, and utilize the effect of grip block 8 rear side surface extrusion spring 9, make grip block 8 further fixed the hole lean on ball 2, will assemble the device that is whole to place on the surface of water and can use after accomplishing about the step.

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 (9)

1. The utility model provides a trompil leans on ball horizontal plate, utilizes trompil to lean on ball (2) to connect horizontal plate (1) in proper order, utilizes when putting it on the surface of water again horizontal plate (1) with the trompil leans on ball (2) to absorb the produced impact force of wave flower on the surface of water, horizontal plate (1) with the trompil leans on utilizing anchor chain rope (3) to fix between ball (2), its characterized in that includes:

the rope through holes (4) are uniformly formed in the perforated backup ball (2) at equal intervals in a penetrating mode, and the rope through holes (4) are used for penetrating through the anchor chain ropes (3);

the fixing bolt (5) is arranged in the middle of the side face of the opening leaning ball (2);

the rotary disc (6) is rotatably arranged in the hole-opening leaning ball (2), an internal gear (10) capable of limiting and fixing the rotary disc (6) is fixedly arranged on the side face of the rotary disc (6), and a return spring (12) capable of generating extrusion force on the rotary disc (6) is arranged on the rear side surface of the rotary disc (6);

the connecting ring (7) is detachably connected to the left side surface and the right side surface of the horizontal plate (1) in a threaded manner, and a movable block (13) capable of driving the connecting ring (7) to stretch is arranged at the rear end of the connecting ring;

the clamping plates (8) are movably mounted on the outer side of the side face of the horizontal plate (1), and the number of the clamping plates (8) corresponds to the number of the opening leaning balls (2).

2. The perforated horizontal plate for a ball bearing according to claim 1, wherein: the opening leaning ball (2) is composed of a left hemisphere (201) and a right hemisphere (202), and the left hemisphere (201) and the right hemisphere (202) form a dismounting and mounting structure through the fixing bolt (5).

3. The perforated horizontal plate for a ball bearing according to claim 1, wherein: holes corresponding to the rope through holes (4) are formed in the rotating disc (6), and the rotating disc (6) and the left hemisphere (201) form an elastic structure through a return spring (12).

4. The perforated horizontal plate for a ball bearing according to claim 3, wherein: the rotating disc (6) and the external gear (11) form a meshing structure through the internal gear (10), and the external gear (11) is in an incomplete gear-shaped structure which is symmetrical up and down.

5. The perforated horizontal plate for a ball bearing according to claim 1, wherein: the outside surface of grip block (8) is with the trompil leans on the circular-arc structure of ball (2) surface laminating, just grip block (8) through extrusion spring (9) with the elastic construction is constituteed in horizontal plate (1).

6. The perforated horizontal plate for a ball bearing according to claim 1, wherein: the anchor chain rope (3) is fixedly connected with the horizontal plate (1) through the connecting ring (7), and the connecting ring (7) forms a telescopic structure through the movable block (13) and the horizontal plate (1).

7. The perforated horizontal plate for a ball bearing according to claim 6, wherein: the back side surface of the movable block (13) is rotatably provided with a push rod (14), and the other end of the push rod (14) is rotatably connected with a linear sliding block (15).

8. The perforated horizontal plate for a ball bearing according to claim 7, wherein: the linear sliding block (15) and the horizontal plate (1) form a sliding structure through a transmission screw rod (16).

9. The connection mode of the perforated horizontal plate for leaning on the ball as claimed in claim 1, which comprises the following steps:

s1: manufacturing a horizontal plate (1) and a perforated backup ball (2) according to preset specifications and requirements, sequentially installing connecting rings (7) on movable blocks (13) corresponding to the side surfaces of the horizontal plate (1), and then fixedly connecting one end of an anchor chain rope (3) with the connecting rings (7) on one horizontal plate (1);

s2: rotating a fixing bolt (5) in the perforated backup ball (2), splitting the perforated backup ball (2) into a left hemisphere (201) and a right hemisphere (202), then penetrating the other end of a chain cable (3) through a cable through hole (4) formed in the left hemisphere (201) and penetrating out of a rotating disc (6) in the perforated backup ball, if horizontal through connection is needed, then sequentially penetrating the chain cable (3) through the cable through hole (4) corresponding to the right hemisphere (202), then fixing the left hemisphere (201) and the right hemisphere (202) by using the fixing bolt (5), thereby forming the complete perforated backup ball (2), if the chain cable (3) needs to be fixed in a crossed manner, after penetrating the chain cable through the rotating disc (6), pressing the rotating disc (6) to the inner side of the left hemisphere (201), and then disengaging an inner gear (10) on the outer side of the chain cable from an outer gear (11) on the inner side of the left hemisphere (201), then, the rotating disc (6) is rotated by 180 degrees, so that the anchor chain rope (3) integrally rotates by 180 degrees, then the rotating disc (6) is loosened and returns to the original position under the thrust action of the return spring (12), the inner gear (10) and the outer gear (11) are re-meshed, the rotating disc (6) is limited and fixed, then the anchor chain rope (3) penetrates through the right hemisphere (202), the anchor chain rope (3) can be crossed and penetrated, and finally the other end of the anchor chain rope (3) is fixedly connected with a connecting ring (7) on the other horizontal plate (1);

s3: when the open hole leaning ball (2) is fixed by using the anchor chain rope (3), the open hole leaning ball is placed between the left and right clamping plates (8) at the corresponding positions, then the transmission screw rod (16) in the side surface of the horizontal plate (1) is rotated, the transmission screw rod (16) drives the linear slide blocks (15) at the outer sides to slide oppositely while rotating, thereby utilizing the linear sliding block (15) to drive one end of the push rod (14) to rotate, pulling the movable block (13) at the other end of the push rod (14) towards the inside of the horizontal plate (1), thereby tensioning the anchor chain rope (3) and preventing the relative displacement between the open-hole leaning ball (2) and the horizontal plate (1) in the using process, and the action of the spring (9) is pressed by the back side surface of the clamping plate (8), the clamping plate (8) further fixes the open-hole leaning ball (2), and the assembled device can be integrally placed on the water surface to be used after the left step and the right step are completed.

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