CN112637460A

CN112637460A - Audio and video processing method based on big data

Info

Publication number: CN112637460A
Application number: CN202011497487.0A
Authority: CN
Inventors: 不公告发明人
Original assignee: Guangzhou Qianjin Intellectual Property Operation Co ltd
Current assignee: Guangzhou Qianjin Intellectual Property Operation Co ltd
Priority date: 2020-12-17
Filing date: 2020-12-17
Publication date: 2021-04-09

Abstract

The invention discloses a big data-based audio and video processing method in the technical field of audio and video processing, which comprises the following specific steps: the method comprises the following steps: fixedly installing an underwater monitoring device in an area to be shot; step two: triggering a fish school dispelling device when attacked by fish schools, and scaring away the attacked fish schools; step three: the help seeking color catching block is transmitted to the water surface, so that the staff can conveniently check and maintain; according to the invention, the movable plate and the elastic telescopic ring are arranged, the transmission shaft rotates to drive the movable plate to be thrown out outwards along the inner wall of the containing seat, so that the elastic telescopic ring is extruded, the pushed elastic telescopic ring enables the pushing plate and the expansion shell to move outwards, the inner wall of the elastic telescopic ring is sequentially pushed up along with the rotation of the movable plate, so that the pushing plate fixed on the surface of the elastic telescopic ring sequentially moves outwards, the expansion shell sequentially moves outwards, and the volume of the underwater monitoring device suddenly expands and continuously changes to scare away fish groups.

Description

Audio and video processing method based on big data

Technical Field

The invention relates to the technical field of audio-video processing, in particular to an audio-video processing method based on big data.

Background

The underwater camera adopts a high-quality cable as a video transmission control line, and is additionally provided with an underwater camera system consisting of auxiliary control equipment such as a control box, a paying-off winch and the like. The method is mainly applied to underwater fields such as petroleum, deep water exploration, underwater operation, marine fishery and the like.

In the case of the invention of a big data-based audio and video processing method disclosed in the prior art, a chinese patent with patent application number CN201922327098.2 is invented, and an underwater camera comprises a camera panel, a camera housing, a camera lens main body, a photosensitive chip and a power supply board, wherein the camera housing comprises an upper barrel housing arranged at an upper end part, a lower barrel housing arranged at a lower end part, and concave-convex internal and external threads connecting the upper barrel housing and the lower barrel housing together, and a gap space formed by the inner surface of the lower end of the camera panel, the outer surface of the camera lens main body and the inner surface of the upper barrel housing is filled with a potting colloid, so that the camera lens main body, the camera panel and the photosensitive chip are integrated.

When the underwater camera is installed for underwater shooting, the existing camera does not have the function of dispersing fish schools, and when underwater organisms such as fish schools attack, the camera lens and the shell can be damaged, so that the normal work of the camera is influenced.

Based on the above, the invention designs an audio and video processing method based on big data to solve the above problems.

Disclosure of Invention

The invention aims to provide an audio and video processing method based on big data, and aims to solve the problem that when an underwater camera is installed in underwater shooting, the normal operation of the camera is influenced because the lens and the shell of the camera are damaged when the existing camera is attacked by underwater organisms such as fish schools and the like because the existing camera does not have the function of dispersing the fish schools.

In order to achieve the purpose, the invention provides the following technical scheme: a big data-based audio-video processing method comprises the following specific steps:

the method comprises the following steps: fixedly installing an underwater monitoring device in an area to be shot;

step two: triggering a fish school dispelling device when attacked by fish schools, and scaring away the attacked fish schools;

step three: the help seeking color catching block is transmitted to the water surface, so that the staff can conveniently check and maintain;

wherein the underwater monitoring device in the first step to the third step comprises a camera, the bottom of the camera is fixedly connected with a mounting seat, the right side of the camera is fixedly connected with an ink-jet mechanism which sprays ink to scare and retreat fish schools, the right side of the ink-jet mechanism is fixedly connected with a support frame, the left side and the right side of the support frame are jointly and rotatably connected with a transmission shaft, the surface of the transmission shaft is fixedly connected with a containing seat, the inner wall of the containing seat is slidably connected with a movable plate, a first reset spring is jointly and fixedly connected between the movable plate and the containing seat, the left side and the right side of the support frame are jointly and slidably connected with an elastic telescopic ring, the movable plate is mutually contacted with the inner wall of the elastic telescopic ring, the outer wall of the elastic telescopic ring is fixedly connected with eight push plates which are uniformly distributed, the push plates penetrate, the power device for providing power for the transmission shaft is fixedly connected to the right side of the support frame;

when the underwater camera is installed in underwater shooting, because the existing camera does not have the function of dispersing fish swarms, when the underwater camera is attacked by underwater organisms such as fish swarms, the lens and the shell of the camera can be damaged, the normal work of the camera is influenced, when the camera detects that the fish swarms are attacked, the power device is started to drive the transmission shaft to rotate, the transmission shaft drives the containing seat to synchronously rotate, the movable plate sliding on the inner wall of the containing seat moves outwards under the action of centrifugal force to push the elastic telescopic ring to bulge outwards so as to drive the push plate and the expansion shell to move outwards, the elastic telescopic ring sequentially bulges outwards and then resets at each position along with the continuous rotation of the movable plate, so that the expansion shell sequentially moves outwards and automatically resets, the continuously telescopic expansion shell can continuously change the volume of the underwater monitoring device, thereby scaring away the fish swarms and avoiding the fish swarms from continuing attack, the invention sets a movable plate and an elastic telescopic ring, a transmission shaft rotates to drive the movable plate to throw out along the inner wall of a containing seat, so as to extrude the elastic telescopic ring, the pushed elastic telescopic ring enables a pushing plate and an expansion shell to move outwards, the inner wall of the elastic telescopic ring is sequentially pushed up along with the rotation of the movable plate, so that the pushing plate fixed on the surface of the elastic telescopic ring sequentially moves outwards, the expansion shell sequentially moves outwards, the volume of the underwater monitoring device is suddenly expanded and continuously changed, the fish school is scared out through the dynamic change of one shell, and the effect of dispelling the fish school is achieved.

As a further scheme of the invention, the ink jet mechanism comprises a launching box, the launching box is fixedly connected to the left side of a support frame, the inner wall of the launching box is connected with a lifting plate in a sliding manner, the lifting plate and the bottom of the launching box are fixedly connected with a second return spring together, the bottom of the lifting plate is fixedly connected with a first rack, the left end of the surface of a transmission shaft is fixedly connected with a special-shaped gear, the first rack is meshed with teeth on the left side of the special-shaped gear, the left side of the support frame is fixedly connected with a sealing shell, the sealing shell is provided with a launching port at a position corresponding to the launching box, the sealing shell is connected with a sealing device for closing the launching port, the top of the launching box is fixedly connected with a communicating pipe corresponding to the position of the launching port, an ink bag is placed at the top of; when the device works, the transmission shaft rotates to drive the special-shaped gear to synchronously rotate, the special-shaped gear drives the meshed first rack to move downwards, the first rack drives the lifting plate to synchronously move downwards, the second return spring is compressed, the sealing device opens the emission opening, the special-shaped gear continuously rotates along with the special-shaped gear and is not meshed with the first rack, the second return spring rebounds to push the lifting plate to quickly return, the lifting plate quickly pushes the ink pack out of the emission opening, the ink pack is cut by the blade when the ink pack is ejected along the communicating pipe, so that ink in the ink pack is scattered and diffused into surrounding water, the underwater monitoring device is hidden, and fish swarms are prevented from being continuously attacked. The second reset spring kick-backs rapidly to throw away the china ink package fast, the china ink package is making being cut apart by the blade passing through communicating pipe, thereby realizes that the china ink package throws the quick diffusion of ink behind the aquatic, and the china ink package that jets out suddenly explodes out the ink on the one hand and can frighten the shoal of fish, and on the other hand ink diffusion can hide monitoring device under water in the aquatic, avoids the shoal of fish to continue the attack.

As a further scheme of the invention, the sealing mechanism comprises a sealing door, the sealing door is slidably connected to a sealing shell, the left side of the launching box is fixedly connected with a limiting frame, the inner wall of the limiting frame is slidably connected with a limiting plate, the fixed bottom of the limiting plate is fixedly connected to the left end of the first rack, the right end of the limiting plate is in contact with the left end of the sealing door, the sealing door and the sealing shell are fixedly connected with a third return spring together, and the third return spring is stretched; when the ink jet mechanism is triggered by fish attack, the sealing door is opened immediately along with the downward movement of the first rack, so that the ink bag can be conveniently projected.

As a further scheme of the invention, a supporting box is fixedly connected to the rear side of the launching box, a color catching block is placed at the top of the supporting box, a supporting column is fixedly connected to the rear end of the supporting box, an L-shaped connecting rod is slidably connected to the surface of the supporting column, a sliding block for pushing the color catching block to move forward is fixedly connected to the transverse end of the L-shaped connecting rod, a fourth reset spring is fixedly connected between the vertical end of the L-shaped connecting rod and the supporting box, and a second rack is fixedly connected to the bottom of the vertical end of the L-shaped connecting rod; when the underwater monitoring device is in work, a person needs to be sent to inspect and maintain the underwater monitoring device after the underwater monitoring device is attacked by a fish school, the area of a water area is large, the position of the underwater monitoring device cannot be conveniently confirmed, time is needed to check, after an ink pack is projected, the special-shaped gear continues to rotate, when the special-shaped gear is meshed with the second rack, the second rack is driven to move forwards, the second rack pushes the sliding block to move forwards through the L-shaped connecting rod, the sliding block pushes the color catching block to the lifting plate from the top of the supporting box, the color catching block is projected out after the special-shaped gear is meshed with the first rack next time, the color catching block floats to the water surface, and a worker can conveniently find the attacked underwater monitoring device and inspect and maintain the underwater monitoring device, waiting next time the special-shaped gear and first rack meshing to throw away the colour seizure piece fast through the lifter plate, the colour seizure piece sinks beside monitoring device, makes things convenient for workman personnel to look for the monitoring device under water who is attacked, and inspect and maintain reduce search time.

As a further scheme of the invention, the turnover mechanism comprises a turnover seat, the turnover seat is fixedly connected to the surface of the expansion shell, the top of the turnover seat is fixedly connected with bilaterally symmetrical rotating bases, the two rotating bases are jointly and rotatably connected with a turnover shaft, two ends of the surface of the turnover shaft are fixedly connected with turnover gears, the outer wall of the support frame is fixedly connected with a third rack, the third rack is mutually meshed with the turnover gears, the surface of the turnover shaft is fixedly connected with a turnover plate, and the other end of the turnover plate is rotatably connected with an ejection mechanism for further dispersing fish stocks; when the underwater monitoring device works, the expansion shell moves outwards to drive the turnover seat to move synchronously, the turnover gear rotates when moving upwards along the third rack, so that the turnover plate is driven to rotate through the turnover shaft, the turnover plate swings back and forth along with the lifting of the expansion shell, the dynamic effect of the underwater monitoring device during volume expansion is further improved, and the effect of dispersing fish schools is improved.

As a further scheme of the invention, the ejection mechanism comprises ejection bases which are respectively fixedly connected to the left side and the right side of the turnover plate, the two ejection bases are jointly and rotatably connected with an ejection shaft, the surface of the ejection shaft is fixedly connected with an ejection plate, the left side and the right side of the ejection plate are respectively and rotatably connected with a roller, the outer wall of the ejection base is fixedly connected with a sealing ring, the sealing ring and the surface of the ejection shaft are jointly and fixedly connected with a reset elastic sheet, the reset elastic sheet is in a force storage state at the moment, the outer side of the sealing ring is fixedly connected with a sealing cover, the two sides of the ejection shaft are respectively and fixedly connected with a; when the turnover plate is turned outwards, the reset elastic pieces drive the ejection shafts to rotate, the ejection shafts drive the ejection plates to turn, the synchronizing rods can only rotate for a certain angle and do not rotate under the action of the limiting blocks, so that the ejection plates can only rotate for a certain angle, when the turnover plate turns inwards, the rollers roll along the surface of the turnover seat to drive the ejection plates to rotate to complete storage, and the reset elastic pieces store force.

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

1. according to the underwater monitoring device, the movable plate and the elastic telescopic ring are arranged, the transmission shaft rotates to drive the movable plate to be thrown out outwards along the inner wall of the containing seat, so that the elastic telescopic ring is extruded, the pushed elastic telescopic ring enables the pushing plate and the expansion shell to move outwards, the inner wall of the elastic telescopic ring is sequentially pushed up along with the rotation of the movable plate, so that the pushing plate fixed on the surface of the elastic telescopic ring sequentially moves outwards, the expansion shell sequentially moves outwards, the volume of the underwater monitoring device is suddenly expanded and continuously changes, fish groups are scared away through the dynamic change of one shell, and the effect of dispersing the fish groups is achieved.

2. According to the invention, the special-shaped gear, the first rack and the second return spring are arranged, the special-shaped gear rotates along with the transmission shaft to drive the first rack to move downwards, the second return spring stores power, when the special-shaped gear is separated from the first rack, the second return spring rebounds rapidly, so that an ink bag is rapidly projected out, the ink bag enters the communicating pipe to be cut by the blade, and the ink is rapidly diffused after the ink bag is projected into water, so that on one hand, the suddenly projected ink bag bursts out of the ink to threaten fish shoals, on the other hand, the ink diffuses into the water to hide an underwater monitoring device, and the fish shoals are prevented from being continuously attacked.

3. According to the invention, by arranging the turnover gear and the third rack, the turnover gear rotates to drive the turnover plate to rotate when the expansion shell moves in the opposite direction, the expansion shell resets inwards, the turnover gear rotates in the opposite direction to drive the turnover plate to rotate in the opposite direction, so that the turnover plate swings back and forth along with the expansion shell, the dynamic effect of the underwater monitoring device is enhanced when the volume of the underwater monitoring device expands, fish schools can be effectively scared away due to the multi-directional change of the shell, and the underwater monitoring device is prevented from being continuously attacked by the fish schools.

Drawings

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

FIG. 1 is a flow chart of the method of the present invention;

FIG. 2 is a schematic view of the overall structure of the apparatus of the present invention;

FIG. 3 is a schematic view of the connection between the storage seat and the movable plate (cut-away support frame) in the present invention;

FIG. 4 is a schematic view of a supporting frame according to the present invention;

FIG. 5 is a schematic diagram of the connection between a limiting plate and a sealing plate (with the sealing shell cut open) in the present invention;

FIG. 6 is a schematic view showing the connection of the communicating pipe and the launch box according to the present invention;

FIG. 7 is a schematic view of the inner structure of the launch box of the present invention (the launch box is cut away);

FIG. 8 is a schematic view of the connection between the sealing case and the sealing door according to the present invention;

FIG. 9 is an enlarged view taken at A in FIG. 8;

FIG. 10 is a schematic view of the structure of the turnover mechanism of the present invention;

FIG. 11 is an enlarged view of FIG. 10 at B;

FIG. 12 is an enlarged view at C of FIG. 11;

FIG. 13 is an enlarged view (hidden sealing cap) at C of FIG. 11;

fig. 14 is an enlarged view of fig. 6 at D.

In the drawings, the components represented by the respective reference numerals are listed below:

the device comprises a camera 1, a mounting seat 2, a support frame 3, a transmission shaft 4, a containing seat 5, a movable plate 6, a first return spring 7, an elastic telescopic ring 8, a pushing plate 9, an expansion shell 10, a power device 11, a launching box 12, a lifting plate 13, a second return spring 14, a first rack 15, a special-shaped gear 16, a sealing shell 17, a launching port 18, a communicating pipe 19, an ink bag 20, a blade 21, a sealing door 22, a limiting frame 23 and a limiting plate 24, the device comprises a third return spring 25, a support box 26, a color catching block 27, a support column 28, an L-shaped connecting rod 29, a sliding block 30, a fourth return spring 31, a second gear rack 32, a turnover seat 33, a rotating base 34, a turnover shaft 35, a turnover gear 36, a third gear rack 37, a turnover plate 38, an ejection base 39, an ejection shaft 40, an ejection plate 41, a roller 42, a sealing ring 43, a return elastic sheet 44, a sealing cover 45, a synchronizing rod 46 and a limiting block 47.

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. 1-14, the present invention provides a technical solution: a big data-based audio-video processing method comprises the following specific steps:

wherein the underwater monitoring device in the first step to the third step comprises a camera 1, the bottom of the camera 1 is fixedly connected with a mounting seat 2, the right side of the camera 1 is fixedly connected with an ink-jet mechanism which sprays ink to scare and retreat fish schools, the right side of the ink-jet mechanism is fixedly connected with a support frame 3, the left side and the right side of the support frame 3 are jointly and rotatably connected with a transmission shaft 4, the surface of the transmission shaft 4 is fixedly connected with a receiving seat 5, the inner wall of the receiving seat 5 is slidably connected with a movable plate 6, a first reset spring 7 is jointly and fixedly connected between the movable plate 6 and the receiving seat 5, the left side and the right side of the support frame 3 are jointly and slidably connected with an elastic expansion ring 8, the movable plate 6 is mutually contacted with the inner wall of the elastic expansion ring 8, the outer wall of the elastic expansion ring 8 is fixedly connected with eight push plates 9, the right side of the support frame 3 is fixedly connected with a power device 11 for providing power for the transmission shaft 4;

when the underwater camera is installed in underwater shooting, because the existing camera does not have the function of dispersing fish schools, when the underwater camera is attacked by underwater organisms such as fish schools, the lens and the shell of the camera can be damaged, the normal work of the camera is affected, when the camera 1 detects the attack of the fish schools, the power device 11 is started to drive the transmission shaft 4 to rotate, the transmission shaft 4 drives the containing seat 5 to synchronously rotate, the movable plate 6 sliding on the inner wall of the containing seat 5 moves outwards under the action of centrifugal force, the elastic telescopic ring 8 is pushed to protrude outwards, so that the pushing plate 9 and the expansion shell 10 are driven to move outwards, each part of the elastic telescopic ring 8 sequentially protrudes outwards and resets along with the continuous rotation of the movable plate 6, so that the expansion shell 10 sequentially moves outwards and automatically resets, the volume of the underwater monitoring device can be continuously changed by the continuously telescopic expansion shell 10, and fish schools are threatened, the invention prevents the shoal from continuously attacking, and simultaneously starts the ink-jet mechanism to jet out ink to further disperse the shoal, through arranging the movable plate 6 and the elastic telescopic ring 8, the transmission shaft 4 rotates to drive the movable plate 6 to be thrown out along the inner wall of the containing seat 5, so as to extrude the elastic telescopic ring 8, the jacked elastic telescopic ring 8 enables the pushing plate 9 and the expansion shell 10 to move outwards, along with the rotation of the movable plate 6, the inner wall of the elastic telescopic ring 8 is jacked up in sequence, so that the pushing plate 9 fixed on the surface of the elastic telescopic ring 8 moves outwards in sequence, the expansion shell 10 moves outwards in sequence, the volume of the underwater monitoring device expands suddenly and changes continuously, the shoal is scared away through the dynamic change of one shell, and the effect of dispersing the shoal is achieved.

As a further scheme of the invention, the ink jet mechanism comprises a transmitting box 12, the transmitting box 12 is fixedly connected to the left side of a support frame 3, the inner wall of the transmitting box 12 is connected with a lifting plate 13 in a sliding manner, the bottoms of the lifting plate 13 and the transmitting box 12 are fixedly connected with a second return spring 14 together, the bottom of the lifting plate 13 is fixedly connected with a first rack 15, the left end of the surface of a transmission shaft 4 is fixedly connected with a special-shaped gear 16, the first rack 15 is meshed with the left teeth of the special-shaped gear 16, the left side of the support frame 3 is fixedly connected with a sealing shell 17, the sealing shell 17 is provided with a transmitting port 18 corresponding to the position of the transmitting box 12, the sealing shell 17 is connected with a sealing device for closing the transmitting port 18, the top of the transmitting box 12 is fixedly connected with a communicating pipe 19 corresponding to the position of the transmitting port; when the device works, the transmission shaft 4 rotates to drive the special-shaped gear 16 to synchronously rotate, the special-shaped gear 16 drives the meshed first rack 15 to move downwards, the first rack 15 drives the lifting plate 13 to synchronously move downwards, the second return spring 14 is compressed, the sealing device opens the emission opening 18, the special-shaped gear 16 continuously rotates and is not meshed with the first rack 15, the second return spring 14 rebounds to push the lifting plate 13 to quickly return, the lifting plate 13 quickly pushes the ink pack 20 out of the emission opening 18, the blade 21 cuts the ink pack 20 when the ink pack is ejected out along the communicating pipe 19, so that ink in the ink pack 20 is scattered and diffused into surrounding water, the underwater monitoring device is hidden, and fish shoals are prevented from being continuously attacked, through the arrangement of the special-shaped gear 16, the first rack 15 and the second return spring 14, the special-shaped gear 16 rotates along with the transmission shaft 4 to drive the first rack 15 to move downwards, make second reset spring 14 accumulate power, break away from with first rack 15 when special-shaped gear 16, second reset spring 14 kick-backs rapidly to throw away ink bag 20 fast, ink bag 20 makes by blade 21 and cuts apart in advancing communicating pipe 19, thereby realizes that ink bag 20 projects the quick diffusion of back ink in the aquatic, and the ink bag 20 that jets out suddenly explodes out the ink on the one hand and can frighten the shoal of fish, and on the other hand ink diffusion can hide monitoring device under water in the aquatic, avoids the shoal of fish to continue to attack.

As a further scheme of the invention, the sealing mechanism comprises a sealing door 22, the sealing door 22 is slidably connected to a sealing shell 17, the left side of the launching box 12 is fixedly connected with a limiting frame 23, the inner wall of the limiting frame 23 is slidably connected with a limiting plate 24, the fixed bottom of the limiting plate 24 is fixedly connected to the left end of the first rack 15, the right end of the limiting plate 24 is in contact with the left end of the sealing door 22, the sealing door 22 and the sealing shell 17 are fixedly connected with a third return spring 25, and the third return spring 25 is stretched; when the ink jet mechanism works, the first rack 15 moves downwards to drive the limiting plate 24 to move synchronously, when the limiting plate 24 moves downwards to be separated from the sealing door 22, the stretched third return spring 25 rebounds to drive the sealing door 22 to move leftwards, so that the emission port 18 is opened, and the ink pack 20 is convenient to emit.

As a further scheme of the present invention, a supporting box 26 is fixedly connected to the rear side of the launching box 12, a color catching block 27 is placed on the top of the supporting box 26, a supporting column 28 is fixedly connected to the rear end of the supporting box 26, an L-shaped connecting rod 29 is slidably connected to the surface of the supporting column 28, a slider 30 for pushing the color catching block 27 to move forward is fixedly connected to the transverse end of the L-shaped connecting rod 29, a fourth return spring 31 is fixedly connected between the vertical end of the L-shaped connecting rod 29 and the supporting box 26, and a second rack 32 is fixedly connected to the bottom of the vertical end of the L-shaped connecting rod 29; when the underwater monitoring device is operated, a person needs to be sent to inspect and maintain the underwater monitoring device after the underwater monitoring device is attacked by a fish school, the area of a water area is large, the position of the underwater monitoring device cannot be conveniently confirmed, time is needed to check, after the ink pack 20 is projected, the special-shaped gear 16 continuously rotates, after the special-shaped gear 16 is meshed with the second rack 32, the second rack 32 is driven to move forwards, the second rack 32 pushes the sliding block 30 to move forwards through the L-shaped connecting rod 29, the sliding block 30 pushes the color catching block 27 onto the lifting plate 13 from the top of the supporting box 26, the color catching block 27 is projected out after the special-shaped gear 16 is meshed with the first rack 15 next time, the color catching block 27 floats to the water surface, and the worker can conveniently find the attacked underwater monitoring device and inspect and maintain the underwater monitoring device by arranging the second rack 32, the special-shaped gear 16 is meshed with the second rack 32 after the ink pack 20 is projected to push the second rack 32 to, the second rack 32 pushes the slider 30 to be pushed onto the lifting plate 13 from the top of the supporting box 26 through the L-shaped connecting rod 29, and the special-shaped gear 16 is meshed with the first rack 15 when the next time, so that the color capturing block 27 is rapidly projected out through the lifting plate 13, the color capturing block 27 sinks beside the monitoring device, workers can conveniently find the attacked underwater monitoring device, the underwater monitoring device is checked and maintained, and the searching time is shortened.

As a further scheme of the invention, the turnover mechanism comprises a turnover seat 33, the turnover seat 33 is fixedly connected to the surface of the expansion shell 10, the top of the turnover seat 33 is fixedly connected with bilaterally symmetrical rotating bases 34, the two rotating bases 34 are jointly and rotatably connected with a turnover shaft 35, two ends of the surface of the turnover shaft 35 are fixedly connected with turnover gears 36, the outer wall of the support frame 3 is fixedly connected with a third rack 37, the third rack 37 is mutually meshed with the turnover gears 36, the surface of the turnover shaft 35 is fixedly connected with a turnover plate 38, and the other end of the turnover plate 38 is rotatably connected with an ejection mechanism for further dispersing fish schools; when in work, the expansion shell 10 moves outwards to drive the overturning seat 33 to move synchronously, the overturning gear 36 rotates when moving upwards along the third rack 37, thereby, the turning plate 38 is driven to rotate by the turning shaft 35, the turning plate 38 swings back and forth along with the lifting of the expansion shell 10, the dynamic effect of the underwater monitoring device during the volume expansion is further increased, and the effect of dispersing fish shoals is improved, the invention realizes that when the expansion shell 10 moves, the turnover gear 36 rotates to drive the turnover plate 38 to rotate, the expansion shell 10 is reset inwards, the turnover gear 36 rotates reversely to drive the turnover plate 38 to rotate reversely, therefore, the turnover plate 38 swings back and forth along with the lifting of the expansion shell 10, the dynamic effect of the underwater monitoring device during volume expansion is enhanced, fish schools can be effectively scared away due to the multidirectional change of the shell, and the fish schools are prevented from continuously attacking the underwater monitoring device.

As a further scheme of the invention, the ejection mechanism comprises ejection bases 39, the ejection bases 39 are respectively and fixedly connected to the left side and the right side of the turnover plate 38, two ejection bases 39 are jointly and rotatably connected with an ejection shaft 40, the surface of the ejection shaft 40 is fixedly connected with an ejection plate 41, the left side and the right side of the ejection plate 41 are respectively and rotatably connected with rollers 42, the outer wall of the ejection base 39 is fixedly connected with a sealing ring 43, the surfaces of the sealing ring 43 and the ejection shaft 40 are jointly and fixedly connected with a reset elastic sheet 44, the reset elastic sheet 44 is in a force storage state at the moment, the outer side of the sealing ring 43 is fixedly connected with a sealing cover 45, the two sides of the ejection; when the turnover plate 38 is turned over outwards in operation, the reset spring piece 44 drives the ejection shaft 40 to rotate, the ejection shaft 40 drives the ejection plate 41 to turn over, under the action of the limiting block 47, the synchronous rod 46 can only rotate for a certain angle and does not rotate any more, so that the ejection plate 41 can only rotate for a certain angle, when the turnover plate 38 turns inwards, the roller 42 rolls along the surface of the turnover seat 33 to drive the ejection plate 41 to rotate and finish storage, the reset elastic sheet 44 stores the force, the turnover plate 38 turns outwards by arranging the reset elastic sheet 44 and the ejection plate 41, the reset elastic sheet 44 storing the force drives the ejection plate 41 to rapidly eject and turn over through the ejection shaft 40, therefore, the ejection plate 41 which is ejected quickly is added when the turnover plate 38 swings, the turnover effect of the turnover plate 38 is improved, the dynamic change of the shell of the underwater monitoring device is increased, fish schools are scared away, and the fish schools are prevented from continuously attacking the underwater monitoring device.

The working principle is as follows: when the camera 1 detects that a fish school is attacked, the power device 11 is started to drive the transmission shaft 4 to rotate, the transmission shaft 4 drives the containing seat 5 to synchronously rotate, the movable plate 6 sliding on the inner wall of the containing seat 5 moves outwards under the action of centrifugal force to push the elastic expansion ring 8 to protrude outwards, so as to drive the pushing plate 9 and the expansion shell 10 to move outwards, each part of the elastic expansion ring 8 sequentially protrudes outwards and resets along with the continuous rotation of the movable plate 6, so that the expansion shell 10 sequentially moves outwards and automatically resets, the expansion shell 10 which continuously stretches and contracts can continuously change the volume of the underwater monitoring device, so as to scare away the fish school, avoid the fish school from continuously attacking, and simultaneously, the ink is ejected from the ink jet mechanism to further disperse the fish school, the movable plate 6 and the elastic expansion ring 8 are arranged, the transmission shaft 4 rotates to drive the movable plate 6 to throw out along the inner wall of the containing seat, thereby extrusion elastic expansion ring 8, the elastic expansion ring 8 by the jack-up makes catch bar 9 and expansion shell 10 outwards remove, along with the rotation of fly leaf 6, the 8 inner walls of elastic expansion ring are by the jack-up in proper order, thereby make the catch bar 9 of 8 fixed surface of elastic expansion ring outwards remove in proper order, make expansion shell 10 outwards remove in proper order, cause the sudden expansion of monitoring device volume under water and enlarge and constantly change, frighten back the shoal of fish through a shell dynamic change, play the effect of dispelling the shoal of fish.

As a further scheme of the invention, the ink jet mechanism comprises a transmitting box 12, the transmitting box 12 is fixedly connected to the left side of a support frame 3, the inner wall of the transmitting box 12 is connected with a lifting plate 13 in a sliding manner, the bottoms of the lifting plate 13 and the transmitting box 12 are fixedly connected with a second return spring 14 together, the bottom of the lifting plate 13 is fixedly connected with a first rack 15, the left end of the surface of a transmission shaft 4 is fixedly connected with a special-shaped gear 16, the first rack 15 is meshed with the left teeth of the special-shaped gear 16, the left side of the support frame 3 is fixedly connected with a sealing shell 17, the sealing shell 17 is provided with a transmitting port 18 corresponding to the position of the transmitting box 12, the sealing shell 17 is connected with a sealing device for closing the transmitting port 18, the top of the transmitting box 12 is fixedly connected with a communicating pipe 19 corresponding to the position of the transmitting port; during operation, the transmission shaft 4 rotates to drive the special-shaped gear 16 to synchronously rotate, the special-shaped gear 16 drives the meshed first rack 15 to move downwards, the first rack 15 drives the lifting plate 13 to synchronously move downwards, the second reset spring 14 is compressed, the sealing device opens the launching port 18, the special-shaped gear 16 continuously rotates and is not meshed with the first rack 15 any more, the second reset spring 14 rebounds to push the lifting plate 13 to reset quickly, the lifting plate 13 pushes the ink pack 20 out of the launching port 18 quickly, the blade 21 cuts the ink pack 20 when the ink pack is ejected out along the communicating pipe 19, so that ink in the ink pack 20 is scattered and diffused into water around, the underwater monitoring device is hidden, and continuous attack of fish schools is avoided.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A big data-based audio-video processing method is characterized in that: the method comprises the following specific steps:

wherein the underwater monitoring device comprises a camera (1), the bottom of the camera (1) is fixedly connected with a mounting seat (2), the right side of the camera (1) is fixedly connected with an ink-jet mechanism which sprays ink to scare and retreat fish schools, the right side of the ink-jet mechanism is fixedly connected with a support frame (3), the left side and the right side of the support frame (3) are jointly and rotatably connected with a transmission shaft (4), the surface of the transmission shaft (4) is fixedly connected with a containing seat (5), the inner wall of the containing seat (5) is slidably connected with a movable plate (6), a first reset spring (7) is jointly and fixedly connected between the movable plate (6) and the containing seat (5), the left side and the right side of the support frame (3) are jointly and slidably connected with an elastic telescopic ring (8), the movable plate (6) is mutually contacted with the inner wall of the elastic telescopic ring (8), and the outer wall of the elastic telescopic ring, support frame (3) is passed in kickboard (9), kickboard (9) outer wall fixedly connected with expands shell (10), expansion shell (10) surface is provided with the tilting mechanism that is used for dispelling the shoal of fish, support frame (3) right side fixed connection has power device (11) that provides power for transmission shaft (4).

2. The big-data-based audio-visual processing method according to claim 1, wherein: the ink jet mechanism comprises a transmitting box (12), the transmitting box (12) is fixedly connected to the left side of a support frame (3), the inner wall of the transmitting box (12) is connected with a lifting plate (13) in a sliding mode, the bottoms of the lifting plate (13) and the transmitting box (12) are fixedly connected with a second reset spring (14) together, the bottom of the lifting plate (13) is fixedly connected with a first rack (15), the left end of the surface of a transmission shaft (4) is fixedly connected with a special-shaped gear (16), the first rack (15) is meshed with the left side teeth of the special-shaped gear (16), the left side of the support frame (3) is fixedly connected with a sealing shell (17), a transmitting opening (18) is formed in the position, corresponding to the transmitting box (12), the sealing shell (17) is connected with a sealing device for closing the transmitting opening (18), the top of the transmitting box (12) is fixedly connected with a communicating pipe (19) corresponding to, an ink bag (20) is placed at the top of the lifting plate (13), and a blade (21) used for cutting the ink bag (20) is fixedly connected to the inner wall of the communicating pipe (19).

3. A big data based audio-visual processing method according to claim 2, wherein: sealing mechanism includes sealing door (22), sealing door (22) sliding connection is on seal housing (17), spacing frame (23) of launching box (12) left side fixedly connected with, spacing frame (23) inner wall sliding connection has limiting plate (24), limiting plate (24) fixed bottom fixed connection is at first rack (15) left end, limiting plate (24) right-hand member and sealing door (22) left end contact each other, sealing door (22) and the common fixedly connected with third reset spring (25) of seal housing (17), third reset spring (25) are stretched.

4. A big data based audio-visual processing method according to claim 2, wherein: launch box (12) rear side fixedly connected with support box (26), colored seizure piece (27) have been placed at support box (26) top, support box (26) rear end fixedly connected with support column (28), sliding connection has L type connecting rod (29) on the surface of support column (28), the horizontal fixedly connected with of L type connecting rod (29) is used for promoting colored seizure piece (27) slider (30) that move forward, common fixedly connected with fourth reset spring (31) between L type connecting rod (29) vertical end and support box (26), L type connecting rod (29) vertical end bottom fixedly connected with second rack (32).

5. The big-data-based audio-visual processing method according to claim 1, wherein: tilting mechanism includes upset seat (33), upset seat (33) fixed connection is on expansion shell (10) surface, the rotating base (34) of upset seat (33) top fixedly connected with bilateral symmetry, two rotating base (34) rotate jointly and are connected with trip shaft (35), the equal fixedly connected with turnover gear (36) in turnover shaft (35) surface both ends, support frame (3) outer wall fixedly connected with third rack (37), third rack (37) and turnover gear (36) intermeshing, turnover shaft (35) fixed surface is connected with returning face plate (38), returning face plate (38) other end rotates and is connected with the ejection mechanism that further dispels the shoal.

6. A big data based audio-visual processing method according to claim 5, characterized in that: the ejection mechanism is including launching base (39), launch base (39) fixed connection respectively in the returning face plate (38) left and right sides, two launch base (39) and rotate jointly and be connected with ejection axle (40), launch axle (40) fixed surface and be connected with ejection board (41), launch board (41) left and right sides and all rotate and be connected with gyro wheel (42), launch base (39) outer wall fixedly connected with sealing ring (43), sealing ring (43) and launch axle (40) fixed surface and reset shell fragment (44) with fixed surface, reset shell fragment (44) this moment is in and hold the power state, sealing ring (43) outside fixedly connected with seals lid (45), launch the equal fixedly connected with synchronizing bar (46) in axle (40) both sides, sealed lid (45) outer wall fixedly connected with stopper (47).