CN114954826A

CN114954826A - Boats and ships water elasticity response data transceiver

Info

Publication number: CN114954826A
Application number: CN202210597293.0A
Authority: CN
Inventors: 刘娟; 秦闯; 李永正
Original assignee: Jiangsu University of Science and Technology
Current assignee: Jiangsu University of Science and Technology
Priority date: 2022-05-30
Filing date: 2022-05-30
Publication date: 2022-08-30
Anticipated expiration: 2042-05-30
Also published as: CN114954826B

Abstract

The invention discloses ship hydro-elastic response data transceiving equipment. Belong to water elasticity response data transceiver field, including underframe, equipment box, case lid, solar panel, motor, screw rod, threaded sleeve, mounting panel, aerogenerator, slide, opening, slider, and fixedly connected with push pedal on the slider, each the equal fixed mounting of one end that the push pedal was kept away from each other has signal transceiver, it changes the board to rotate to be connected with between threaded sleeve's the lateral surface and each push pedal, the equal fixed mounting in each side of equipment box has the cardboard, and is provided with between the inner wall of cardboard and underframe and clamps the mechanism. The device solves the problems that the existing hydro-elastic response data receiving and transmitting equipment is greatly influenced by wind waves, is easy to damage, is easy to be corroded by marine environment and is inconvenient to disassemble; the protection device has the characteristics of convenience in disassembly, assembly and maintenance, convenience in protecting the information receiving and transmitting equipment and easiness in avoiding damage to the information receiving and transmitting equipment in a storm environment.

Description

Boats and ships water elasticity response data transceiver

Technical Field

The invention belongs to the field of hydro-elastic response data transceiving equipment, and particularly relates to marine hydro-elastic response data transceiving equipment.

Background

Among the prior art, water elasticity response data, generally indicate under the water elasticity effect, the produced data of rocking of hull atress, but when detecting water elasticity response data on boats and ships, generally all use wireless device to transmit data, and current wireless device is sailing, receive the destruction of stormy waves easily and damage, and then reduce the life of equipment, simultaneously because boats and ships are sailing on the ocean, the data transceiver who has now to install through the bolt receives the corruption of sea water easily, and inconvenient dismantlement when the maintenance in later stage.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to provide ship hydro-elastic response data transceiver equipment, which solves the problems that the existing hydro-elastic response data transceiver equipment is greatly influenced by wind and waves, is easy to damage, is easy to corrode by marine environment and is inconvenient to disassemble.

The technical scheme is as follows: the invention relates to ship hydro-elastic response data transceiver, which comprises a bottom frame (1), an equipment box (2), a box cover (3) and a solar panel (4), wherein a motor (5) is installed on the lower inner wall of the equipment box (2), the output end of the motor (5) is fixedly connected with a screw rod (6), a threaded sleeve (7) is sleeved on the outer side surface of the screw rod (6) in a threaded manner, an installation plate (8) is fixedly connected to the upper end of the threaded sleeve (7), a wind driven generator (9) is installed on the installation plate (8), the wind driven generator (9) is fixedly connected with the box cover (3), each side surface of the equipment box (2) is provided with a slide way (11), a second opening (12) is arranged between the slide way (11) and the outer side surface of the equipment box (2), a slide block (15) is arranged in the slide way (11), and a push plate (13) is fixedly connected to the slide block (15), each equal fixed mounting of one end that push pedal (13) kept away from each other has signal transceiver equipment (14), it changes board (16) to rotate to be connected with between the lateral surface of threaded sleeve (7) and each push pedal (13), the equal fixed mounting of each side of equipment box (2) has cardboard (17), and is provided with between the inner wall of cardboard (17) and underframe (1) and clamps the mechanism.

Furthermore, an opening I (10) is formed in the upper end face of the equipment box (2), the upper end of the wind driven generator (9) penetrates through the opening I (10) and is fixedly connected with the lower end of the box cover (3), and a solar panel (4) is installed on the upper end face of the box cover (3).

Further, the clamping mechanism comprises a sliding rod (18), a side plate (19), a top plate (20), a spring (21), a clamping tooth (22) and a sliding hole (23), the sliding hole (23) is formed in each side face of the bottom frame (1), the sliding rod (18) is arranged in the sliding hole (23) in a sliding mode, the side plate (19) is fixedly connected to the outer side of the bottom frame (1) through the sliding rod (18), the top plate (20) is fixedly connected to the inner side of the bottom frame (1), the spring (21) is sleeved on the surface of each sliding rod (18), and the clamping tooth (22) is arranged on one side, close to the clamping plate (17), of the top plate (20) in a matched mode.

Furthermore, each push plate (13) and the sliding blocks (15) fixedly connected with the two sides of the push plate are arranged in the respective slide ways (11) on one side in a sliding mode, and the end, far away from each other, of each push plate (13) arranged in an array is fixedly provided with a signal receiving and transmitting device (14).

Furthermore, the signal transceiving equipment (14) is arranged in the slide ways (11) on one side in a sliding mode, and extends outside the equipment box (2) through the openings (12) on one side.

Furthermore, a rotating plate (16) is rotatably connected between the lower side surface of one end, close to each other, of each push plate (13) and the lower end of the outer side surface of the threaded sleeve (7).

Furthermore, the lower end of the equipment box (2) is arranged in the bottom frame (1) in a sliding mode, and each sliding rod (18) penetrates through a sliding hole (23) on one side of each sliding rod and extends to the inner side and the outer side of the bottom frame (1).

Furthermore, each slide bar (18) is sleeved with a spring (21) on the surface of the inner side of the bottom frame (1), and the clamping plates (17) and the top plate (20) are arranged in a corresponding array mode on each side face of the equipment box (2).

Furthermore, the adjacent clamping plates (17) and the top plate (20) are correspondingly matched with each other through clamping teeth (22) arranged on one side close to each other, and are limited in a one-way mode.

Has the advantages that: compared with the prior art, the invention has the characteristics that: 1. the invention provides ship hydro-elastic response data receiving and transmitting equipment, which drives a screw rod to rotate through a machine so as to drive a threaded sleeve to move upwards to drive a rotating plate to rotate, and pushes each push plate and the signal receiving and transmitting equipment to be away from each other, so that the signal receiving and transmitting equipment can be far away from a sliding chute and an opening to the outer side of an equipment box to obtain a better signal angle; 2. the ship hydro-elastic response data receiving and transmitting equipment provided by the invention has the advantages that the top plate and the clamping plate can be pushed to be tightly clamped through the matching of the clamping teeth under the action of the spring, the lower side of the equipment box only needs to be pushed into the bottom frame when the equipment box is installed in the bottom frame, each side plate is pulled to drive the sliding rod and the top plate to be away from each other during disassembly, the spring is further compressed, the clamping position of the top plate and the clamping plate through the matching of the clamping teeth is cancelled, the disassembly and the assembly can be flexibly carried out, and the later maintenance is convenient.

Drawings

FIG. 1 is a cross-sectional view of the general construction of the present invention;

fig. 2 is a sectional view of a top view of the signal transceiver device of the present invention;

FIG. 3 is a cross-sectional view of a top view of the bottom frame of the present invention;

FIG. 4 is a cross-sectional view of the deployed configuration of the present invention;

in the figure, 1 is a bottom frame, 2 is an equipment box, 3 is a box cover, 4 is a solar panel, 5 is a motor, 6 is a screw rod, 7 is a threaded sleeve, 8 is a mounting plate, 9 is a wind driven generator, 10 is a first opening, 11 is a slide way, 12 is a second opening, 13 is a push plate, 14 is a signal receiving and sending device, 15 is a slide block, 16 is a rotating plate, 17 is a clamping plate, 18 is a slide rod, 19 is a side plate, 20 is a top plate, 21 is a spring, 22 is a clamping tooth, and 23 is a slide hole.

Detailed Description

In order to more clearly illustrate the technical solution of the present invention, the following detailed description is made with reference to the accompanying drawings:

the ship hydro-elastic response data transceiver comprises a bottom frame 1, an equipment box 2, a box cover 3, a solar panel 4 and other equipment;

a motor 5 is installed on the lower inner wall of the equipment box 2, a screw 6 is fixedly connected with the output end of the motor 5, a threaded sleeve 7 is sleeved on the outer side surface of the screw 6 in a threaded manner, a mounting plate 8 is fixedly connected with the upper end of the threaded sleeve 7, a wind driven generator 9 is installed on the mounting plate 8, the wind driven generator 9 is fixedly connected with the box cover 3, a slide 11 is arranged on each side surface of the equipment box 2, an opening two 12 is arranged between the slide 11 and the outer side surface of the equipment box 2, a slide block 15 is arranged in the slide 11 in a sliding manner, a push plate 13 is fixedly connected on the slide block 15, a signal receiving and transmitting device 14 is fixedly installed at one end, away from each other, of each push plate 13, a rotating plate 16 is rotatably connected between the outer side surface of the threaded sleeve 7 and each push plate 13, and a clamping plate 17 is fixedly installed on each side surface of the equipment box 2, and a clamping mechanism is arranged between the clamping plate 17 and the inner wall of the bottom frame 1.

Furthermore, an opening I10 is formed in the upper end face of the equipment box 2, the upper end of the wind driven generator 9 penetrates through the opening I10 to be fixedly connected with the lower end of the box cover 3, and the solar panel 4 is installed on the upper end face of the box cover 3.

Furthermore, the clamping mechanism comprises a slide bar 18, a side plate 19, a top plate 20, a spring 21, a clamping tooth 22, a slide hole 23 and the like,

each side of the bottom frame 1 is provided with a slide hole 23, a slide rod 18 is arranged in the slide hole 23 in a sliding mode, the slide rod 18 is fixedly connected with a side plate 19 on the outer side of the bottom frame 1, a top plate 20 is fixedly connected to the inner side of the bottom frame 1, a spring 21 is sleeved on the surface of each slide rod 18, and a latch 22 is arranged on one side, close to each other, of each top plate 20 and a corresponding clamping plate 17 in a matched mode.

Furthermore, each push plate 13 and the sliding blocks 15 fixedly connected with the two sides of the push plate are arranged in the respective slide ways 11 on one side in a sliding manner, and the end, far away from each other, of each push plate 13 arranged in an array is fixedly provided with a signal receiving and transmitting device 14.

Furthermore, the signal transceiver 14 is slidably disposed in the slideway 11 on one side, and extends outside the equipment box 2 through the opening 12 on one side.

Furthermore, a rotating plate 16 is rotatably connected between the lower side surface of one end, close to each other, of each push plate 13 and the lower end of the outer side surface of the threaded sleeve 7.

Further, the lower end of the equipment box 2 is slidably disposed in the bottom frame 1, and each of the slide bars 18 extends through the slide hole 23 on one side of the bottom frame 1 on both the inside and the outside.

Further, each slide bar 18 is sleeved with a spring 21 on the surface of the inner side of the bottom frame 1, and the catch plate 17 and the top plate 20 are correspondingly arranged in an array on each side surface of the equipment box 2.

Furthermore, the latch 22 disposed on one side of the adjacent clamping plate 17 and the top plate 20 close to each other is correspondingly disposed and is limited in one direction.

The first embodiment is as follows:

as shown in fig. 1-4, the ship hydroelasticity response data transceiver device comprises a bottom frame 1, a device box 2, a box cover 3 and a solar panel 4, wherein a motor 5 is installed on the lower inner wall of the device box 2, a screw 6 is fixedly connected to the output end of the motor 5, a threaded sleeve 7 is sleeved on the outer side surface of the screw 6 in a threaded manner, an installation plate 8 is fixedly connected to the upper end of the threaded sleeve 7, a wind driven generator 9 is installed on the installation plate 8, the wind driven generator 9 is fixedly connected with the box cover 3, a slide way 11 is arranged on each side surface of the device box 2, a second opening 12 is arranged between the slide way 11 and the outer side surface of the device box 2, a slide block 15 is arranged in the slide way 11 in a sliding manner, push plates 13 are fixedly connected to the slide block 15, a signal transceiver device 14 is fixedly installed at the ends of the push plates 13, a rotating plate 16 is rotatably connected between the outer side surface of the threaded sleeve 7 and the push plates 13, each side of the equipment box 2 is fixedly provided with a clamping plate 17, a clamping mechanism is arranged between the clamping plate 17 and the inner wall of the bottom frame 1, the upper end surface of the equipment box 2 is provided with an opening I10, the upper end of a wind driven generator 9 passes through the opening I10 to be fixedly connected with the lower end of the box cover 3, the upper end surface of the box cover 3 is provided with a solar panel 4, the clamping mechanism comprises a slide rod 18, a side plate 19, a top plate 20, a spring 21, a latch 22 and a slide hole 23, each side of the bottom frame 1 is provided with a slide hole 23, the slide rod 18 is arranged in the slide hole 23 in a sliding manner, the slide rod 18 is fixedly connected with the side plate 19 at the outer side of the bottom frame 1, the inner side of the bottom frame 1 is fixedly connected with the top plate 20, the surface of each slide rod 18 is sleeved with the spring 21, one side, which is close to the clamping plate 20 and the clamping plate 17 are provided with the latch 22 in a matching manner, each push plate 13 and a slide block 15 fixedly connected with the two sides thereof are arranged in a sliding manner in a slide way 11 of the respective one side, the equal fixed mounting of the one end that each array set up the push pedal 13 kept away from each other has signal transceiver equipment 14, and signal transceiver equipment 14 slides and sets up in the slide 11 of one side separately, and passes the opening two 12 of one side separately and extend in the outside of equipment box 2, all is connected with the commentaries on classics board 16 between the lower extreme that each push pedal 13 is close to the downside of one end and the screw sleeve 7 lateral surface each other rotatably.

In the embodiment, a slideway 11 is arranged on each side surface of the equipment box 2, a push plate 13 is fixedly connected on a slide block 15 which slides in the slideway 11, a signal transceiver 14 is fixedly arranged at one end, away from each other, of each push plate 13, the signal transceiver 14 is arranged in the slideway 11 in a sliding way, a motor 5 is arranged on the lower inner wall of the equipment box 2, a threaded sleeve 7 is sleeved on the outer side surface of a screw 6 fixedly connected with the output end of the motor 5 in a threaded way, a rotating plate 16 is rotatably connected between the threaded sleeve 7 and the lower side surface of one end, close to each push plate 13, of each push plate, a wind driven generator 9 is fixedly arranged at the upper end of the threaded sleeve 7 through a mounting plate 8, the wind driven generator 9 penetrates through an opening one 10 formed in the upper side surface of the equipment box 2 to be fixedly connected with the box cover 3, and a solar panel 4 is arranged on the upper end surface of the box cover 3, so that when wind waves are small, can be driven screw rod 6 by motor 5 and rotate, and drive threaded sleeve 7 and move up, rotate with driving commentaries on classics board 16, promote each push pedal 13 and signal transceiver 14 and keep away from each other, and then signal transceiver 14 can keep away from the outside of roll-off slide 11 and opening 10 to equipment box 2, in order to obtain better signal angle, mounting panel 8 this moment, aerogenerator 9, case lid 3 will be followed and moved up, aerogenerator 9 can move up department equipment box 2 and cooperate solar panel 4 to carry out clean energy power generation like this, when the stormy waves are great, it can to withdraw each equipment structure through the reversal of motor 5, make the protection to signal transceiver increased, the energy consumption has still been reduced.

Example two:

as shown in fig. 1-4, on the basis of the first embodiment, the present invention provides a technical solution: the lower extreme of equipment box 2 slides and sets up in underframe 1, every slide bar 18 all runs through the slide opening 23 of one side separately and extends in underframe 1's inside and outside both sides, every slide bar 18 all overlaps on underframe 1 inboard surface and is equipped with spring 21, cardboard 17 all corresponds the array setting with roof 20 in each side of equipment box 2, adjacent cardboard 17 corresponds the cooperation setting mutually with roof 20 near the latch 22 that one side set up mutually, and one-way spacing.

In this embodiment, the bottom frame 1 is sleeved with the equipment box 2, each side surface of the bottom frame 1 is provided with a slide hole 23, the slide rod 18 slidably arranged in the slide hole 23 extends from the inner side to the outer side of the bottom frame 1, the inner side extension end is fixedly connected with a top plate 20, the outer side extension end is fixedly connected with a side plate 19, each side surface of the equipment box 2 is fixedly connected with a snap plate 17, the snap plate 17 and the top plate 20 are correspondingly provided with snap teeth 22 between the side surfaces close to each other, the snap teeth are matched with each other in one-way, meanwhile, the surface of one end of the slide rod 18 in the bottom frame 1 is sleeved with a spring 21, so that the top plate 20 and the snap plate 17 are pushed to be matched with each other to be tightly clamped through the snap teeth 22 under the action of the spring 21, and when the equipment box 2 is installed in the bottom frame 1, only the lower side of the equipment box needs to be pushed into the bottom frame 1, and when the equipment box is disassembled, each side plate 19 is pulled to drive the slide rod 18, Roof 20 keeps away from each other, and then compression spring 21, cancels roof 20 and cardboard 17 and passes through latch 22 complex screens, can be nimble carry out the dismouting, makes things convenient for the maintenance in later stage.

The working principle of the invention is as follows: when the device is installed and used, each side surface of the equipment box 2 is provided with a slide way 11, a slide block 15 which slides in the slide way 11 is fixedly connected with a push plate 13, one end of each push plate 13 which is far away from each other is fixedly provided with a signal transceiver 14, meanwhile, the signal transceiver 14 is arranged in the slide way 11 in a sliding way, the lower inner wall of the equipment box 2 is provided with a motor 5, the outer side surface of a screw rod 6 which is fixedly connected with the output end of the motor 5 is sleeved with a threaded sleeve 7 through a thread, a rotating plate 16 is rotatably connected between the threaded sleeve 7 and the lower side surface of one end, close to each other, of each push plate 13, the upper end of the threaded sleeve 7 is fixedly provided with a wind driven generator 9 through a mounting plate 8, the wind driven generator 9 passes through an opening one 10 which is arranged on the upper side of the equipment box 2 and is fixedly connected with the box cover 3, the upper end surface of the box cover 3 is provided with a solar panel 4, thus, when the wind waves are small, the screw rod 6 can be driven by the motor 5 to rotate, the threaded sleeve 7 is driven to move upwards to drive the rotating plate 16 to rotate, each push plate 13 and the signal transceiver 14 are pushed to be away from each other, and then the signal transceiver 14 can be far away from the sliding chute 11 and the opening I10 to the outer side of the equipment box 2 to obtain a better signal angle, at the moment, the mounting plate 8, the wind driven generator 9 and the box cover 3 move upwards along with the sliding chute 11, so that the wind driven generator 9 can move upwards to the equipment box 2 and cooperate with the solar panel 4 to perform clean energy power generation, when stormy waves are large, all equipment structures can be withdrawn by reversing the motor 5, the protection on the signal transceiver is increased, and the energy consumption is also reduced; the equipment box 2 is sleeved in the bottom frame 1, each side surface of the bottom frame 1 is provided with a sliding hole 23, a sliding rod 18 arranged in the sliding hole 23 in a sliding mode extends to the inner side and the outer side of the bottom frame 1, the extending end on the inner side is fixedly connected with a top plate 20, the extending end on the outer side is fixedly connected with a side plate 19, each side surface of the equipment box 2 is fixedly connected with a clamping plate 17, clamping teeth 22 are correspondingly arranged between the clamping plate 17 and the top plate 20 close to one side surface, the clamping teeth 22 are matched with each other and clamped in a one-way mode, meanwhile, the surface of one end, in the bottom frame 1, of the sliding rod 18 is sleeved with a spring 21, the top plate 20 and the clamping plate 17 are pushed to be matched and clamped tightly through the clamping teeth 22 under the action of the spring 21, when the equipment box 2 is installed in the bottom frame 1, only the lower side of the bottom frame 1 needs to be pushed, when the equipment box is disassembled, each side plate 19 is pulled to drive the sliding rod 18 and the top plate 20 to be far away from each other, and then compression spring 21 cancels roof 20 and cardboard 17 and passes through the complex screens of latch 22, can be nimble dismantle and assemble, makes things convenient for the maintenance in later stage.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may be made by those skilled in the art without departing from the principle of the invention.

Claims

1. The ship hydro-elastic response data transceiver is characterized by comprising a bottom frame (1), an equipment box (2), a box cover (3) and a solar panel (4);

the lower end of the equipment box (2) is arranged in the bottom frame (1) in a sliding manner, a motor (5) is arranged on the lower inner wall of the equipment box (2), a screw rod (6) is fixedly connected to the output end of the motor (5), a threaded sleeve (7) is sleeved on the outer side surface of the screw rod (6) in a threaded manner, a mounting plate (8) is fixedly connected to the upper end of the threaded sleeve (7), a wind driven generator (9) is arranged on the upper end of the mounting plate (8),

each side surface of the equipment box (2) is provided with a slideway (11), an opening II (12) is arranged between the slideway (11) and the outer side surface of the equipment box (2),

a rotating plate (16) is rotatably connected between the outer side surface of the threaded sleeve (7) and each push plate (13), a clamping plate (17) is fixedly arranged on each side surface of the equipment box (2),

a clamping mechanism is arranged between the clamping plate (17) and the inner wall of the bottom frame (1).

2. The marine hydro-elastic response data transceiving equipment according to claim 1, wherein an opening I (10) is formed at an upper end surface of the equipment box (2),

the box cover (3) is arranged at the upper end of the equipment box (2), and the upper end of the wind driven generator (9) penetrates through the first opening (10) to be fixedly connected with the lower end of the box cover (3);

and a solar panel (4) is arranged on the upper end face of the box cover (3).

3. The marine hydro-elastic response data transceiving equipment according to claim 1,

the clamping mechanism comprises a slide bar (18), a side plate (19), a top plate (20), a spring (21), a clamping tooth (22) and a slide hole (23),

each side surface of the bottom frame (1) is provided with a sliding hole (23), a sliding rod (18) penetrates through the sliding hole (23) in a sliding manner, the sliding rod (18) is fixedly connected with a side plate (19) at the outer side of the bottom frame (1),

a top plate (20) is fixedly connected with the inner side of the bottom frame (1),

a top plate (20) is arranged at one end of the sliding rod (18) in the bottom frame (1),

clamping teeth (22) are arranged on one side, close to each other, of each top plate (20) and each clamping plate (17) in a matched mode;

cardboard (17) all correspond the array setting with roof (20) at each side of equipment box (2).

4. The marine hydro-elastic response data transceiving equipment according to claim 1,

slide (11) are slided and are provided with slider (15) fixedly connected with push pedal (13) on slider (15), every push pedal (13) and both sides fixed connection's slider (15) all slide and set up in slide (11) of one side separately, and the equal fixed mounting of one end that each array set up push pedal (13) kept away from each other has signal transceiver equipment (14).

5. Marine hydroelastic response data transceiver apparatus according to claim 4,

the signal transceiving equipment (14) is arranged in the slide ways (11) on one side of each equipment in a sliding mode, and extends outside the equipment box (2) through the openings (12) on one side of each equipment.

6. Marine hydroelastic response data transceiver apparatus according to claim 4, characterized in that a rotating plate (16) is rotatably connected between the lower side of the end of each push plate (13) adjacent to each other and the lower end of the outer side of the threaded sleeve (7).

7. A marine hydro-elastic response data transceiving apparatus according to claim 3, wherein each of the sliding rods (18) extends through a sliding hole (23) on one side thereof on both the inside and the outside of the bottom frame (1).

8. A ship hydro-elastic response data transceiver device according to claim 7, characterized in that a spring (21) is sleeved on the surface of each slide bar (18) inside the bottom frame (1).

9. The marine hydro-elastic response data transceiver device of claim 3, wherein the latch teeth (22) of the adjacent catch plates (17) and the top plate (20) close to each other are correspondingly arranged and unidirectionally limited.