CN113650739A

CN113650739A - Distributed cloud security system

Info

Publication number: CN113650739A
Application number: CN202110855275.3A
Authority: CN
Inventors: 马振雷
Original assignee: Shanghai Huidian Electric Power Equipment Engineering Co ltd
Current assignee: Shanghai Huidian Electric Power Equipment Engineering Co ltd
Priority date: 2021-07-28
Filing date: 2021-07-28
Publication date: 2021-11-16

Abstract

The invention discloses a distributed cloud safety system which comprises a floating shell, wherein a wave tide instrument is fixedly arranged on the top surface of the floating shell, a water storage cavity is arranged in the floating shell, and a first ball valve pipe is communicated and arranged in the bottom wall of the water storage cavity; after the device is placed into the sea, a plurality of tide instruments can form a monitoring network covering a large sea area, the tide instruments are used for monitoring the tide and the water discharge, ships invading the sea area can be detected according to the tide and the water discharge in the sea area near a monitoring point, the invisible ships avoiding radar scanning can be effectively monitored, a water storage cavity and an air bag are further arranged, the integral floating and submerging are completed by changing gravity and buoyancy, the ships submerge under the sea surface when encountering the large tide, the tide instruments are prevented from being damaged by the tide, garbage can be collected in a collection cavity through a collection device, the probability that a moving groove is blocked is reduced, and the garbage in the sea area can be cleaned.

Description

Distributed cloud security system

Technical Field

The invention relates to the technical field of safety systems, in particular to a distributed cloud safety system.

Background

Stealth ships mainly avoid radar by two methods: a specific outer shape, such that all radar signals it reflects rarely return to the radar device; the hull is covered with a coating that absorbs radar signals. Such ships having a radar stealth function cannot be detected by radar.

However, when the ship is sailing, the engine room needs to be started to run a large amount of equipment to provide power, electricity and the like for the ship, the equipment needs to be cooled by fresh water or lubricating oil, and the fresh water and the lubricating oil are recycled, so that another medium is needed to cool the cooling medium. Due to the environment of the ship, the seawater is used for cooling the fresh water and the like, so that the most economical and convenient way is provided, the ship can continuously drain and absorb water into the sea, the drainage quantity of places where the ship passes through can be obviously improved, and the invisible ship can be monitored through the point.

Disclosure of Invention

The present invention aims to provide a distributed cloud security system for overcoming the above-mentioned drawbacks of the prior art.

The distributed cloud safety system comprises a floating shell, wherein a wave tide instrument is fixedly arranged on the top surface of the floating shell, a water storage cavity is arranged in the floating shell, a first ball valve pipe is communicated and arranged in the bottom wall of the water storage cavity, a first water pump is connected below the first ball valve pipe, a three-way pipe is communicated and arranged below the first water pump, the other end of the three-way pipe is communicated and arranged with a second ball valve pipe, a second water pump is communicated and arranged between the second ball valve pipe and the water storage cavity, the bottom end of the three-way pipe is communicated and arranged with a connecting pipe, the bottom end of the connecting pipe is communicated and arranged with a reversing pipe, a reversing valve is arranged in the reversing pipe, a first water inlet pipe and a second water inlet pipe which penetrate through the bottom surface of the floating shell are communicated and arranged at the tail end of the reversing pipe, a reversing device capable of controlling the reversing valve to rotate is arranged in the reversing pipe, an air cavity is arranged on the right side of the water storage cavity, the air cavity and the water storage cavity are isolated by an isolating block made of transparent material, a plurality of air bags are fixedly arranged on the outer side surface of the floating shell, an air pump connected with the air cavity is arranged in the top wall of the air cavity, an air inlet pipe extending into the air bag is arranged on the air pump, an air outlet pipe communicated with the air bag is arranged in the top wall of the air cavity, an air valve is arranged on the air outlet pipe, the air cavity is connected with a piston in a sliding way, the water storage cavity is connected with a floating plate in a sliding way, the top surface of the floating plate is fixedly provided with a laser emitter, a receiver is arranged in the top of the isolation block, the bottom surface of the floating shell is fixedly connected with a collection box through a connecting rod, six sets of collecting devices capable of collecting garbage are arranged in the top face of the collecting box in an annular mode, a collecting cavity with a downward opening is formed in the collecting box, and a first sieve plate is rotatably connected to the opening of the collecting cavity.

Optionally, the reversing device comprises an installation box, a buffer groove is arranged in the installation box, a first connecting groove is arranged in the top wall of the buffer groove in a communicated manner, a second connecting groove is arranged in the bottom wall of the buffer groove in a communicated manner, the buffer groove is communicated with the reversing pipe through the first connecting groove and the second connecting groove, a second sieve plate is connected in the buffer groove in a sliding manner, the top surface of the second sieve plate is fixedly connected with the top wall of the buffer groove through a first spring, the left side surface of the second sieve plate is provided with a locking groove with a leftward opening, a first sliding groove is arranged in the left wall of the buffer groove in a communicated manner, a locking block is connected in the first sliding groove in a sliding manner, the left side surface of the locking block is fixedly connected with the left wall of the first sliding groove through a second spring, an electromagnet is arranged in the left wall of the first sliding groove, and a second sliding groove is arranged in the right wall of the buffer groove in a communicated manner, sliding connection has according to the briquetting in the second sliding tray, according to briquetting right flank with through third spring fixed connection between the second sliding tray right wall, the switching-over valve below is equipped with rotates the chamber, according to briquetting right flank set firmly extend to rotate the rack board of intracavity, the control shaft of switching-over valve extends to rotate the intracavity, rotate on the chamber set firmly with rack board engaged gear.

Optionally, the collecting device comprises a fixed casing fixedly arranged in the collecting box, a moving groove with an outward opening is arranged in the fixed casing, a first motor is arranged in the side wall of the moving groove close to the connecting rod, a spiral propeller extending into the moving groove is arranged on the left side surface of the first motor, a falling groove communicated with the collecting cavity is arranged in the bottom wall of the movable groove, an arc-shaped cover is fixedly arranged on the side surface of the fixed shell far away from the connecting rod, a rotating groove is arranged in the arc-shaped cover, a second motor is arranged in the side wall of the rotating groove, a rotating shaft extending into the rotating groove is arranged on the second motor, the rotating shaft is provided with extending plates at equal intervals, the tail ends, far away from the rotating shaft, of the extending plates are rotatably connected with hook blocks through coil springs, and the rotating grooves are close to the side walls of the fixed shell, and blocking blocks are fixedly arranged on the side walls of the rotating grooves.

Optionally, the first screen deck may close the collection chamber.

Optionally, an O-ring is fixed in the annular surface of the floating plate.

Optionally, the wave tide meter utilizes wireless transmission technology to transmit data with a computer in real time.

The invention has the beneficial effects that:

firstly, after the ship is placed in the sea, a plurality of tide meters can form a monitoring network covering a large sea area, the tide meters are used for monitoring the tide and the water discharge, the ship invading the sea area can be detected according to the tide and the water discharge in the sea area near a monitoring point, and the invisible ship avoiding radar scanning can be effectively monitored;

secondly, the invention is provided with the water storage cavity and the air bag, the integral floating and submerging are completed by changing the gravity and the buoyancy, and the water storage cavity can submerge under the sea surface when meeting a large wave, thereby avoiding the wave tide instrument from being damaged by the wave tide;

thirdly, the garbage collector is provided with the collecting device, so that garbage can be collected in the collecting cavity, the probability of blockage of the moving groove is reduced, and meanwhile, the garbage in the sea area can be cleaned.

Drawings

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

FIG. 1 is a schematic structural diagram of a distributed cloud security system of the present invention;

FIG. 2 is a schematic view of the internal structure of the floating hull of FIG. 1;

FIG. 3 is a schematic view of the reversing device of FIG. 2;

FIG. 4 is a schematic view of the structure of the collection tank of FIG. 1;

FIG. 5 is a schematic view of the arc-shaped cover of FIG. 4;

FIG. 6 is a schematic view of the structure at A-A in FIG. 5;

fig. 7 is a schematic view of the structure at B-B in fig. 4.

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1-7, a distributed cloud security system according to an embodiment of the present invention includes a floating housing 12, a wave tide instrument 11 is fixedly disposed on a top surface of the floating housing 12, a water storage cavity 13 is disposed in the floating housing 12, a first ball valve pipe 18 is disposed in a bottom wall of the water storage cavity 13 in a communicating manner, a first water pump 20 is connected below the first ball valve pipe 18, a three-way pipe 21 is disposed below the first water pump 20 in a communicating manner, a second ball valve pipe 32 is disposed at another end of the three-way pipe 21 in a communicating manner, a second water pump 34 is disposed between the second ball valve pipe 32 and the water storage cavity 13 in a communicating manner, a connecting pipe 23 is disposed at a bottom end of the three-way pipe 21 in a communicating manner, a reversing pipe 25 is disposed at a bottom end of the connecting pipe 23 in a communicating manner, a reversing valve 24 is disposed in the reversing pipe 25, a first water inlet pipe 19 and a second water inlet pipe 33 penetrating through a bottom surface of the floating housing 12 are disposed at a tail end of the reversing pipe 25 in a communicating manner, a reversing device 101 capable of controlling the reversing valve 24 to rotate is installed in the reversing pipe 25, an air cavity 35 is arranged on the right side of the water storage cavity 13, the air cavity 35 and the water storage cavity 13 are isolated by an isolation block 14 made of transparent materials, a plurality of air bags 31 are fixedly arranged on the outer side surface of the floating shell 12, an air pump 39 connected with the air cavity 35 is installed in the top wall of the air cavity 35, an air inlet pipe 29 extending into the air bags 31 is installed on the air pump 39, an air outlet pipe 28 communicated with the air bags 31 is installed in the top wall of the air cavity 35, an air valve 37 is installed on the air outlet pipe 28, a piston 36 is connected in the air cavity 35 in a sliding manner, a floating plate 16 is connected in the water storage cavity 13 in a sliding manner, a laser emitter 15 is fixedly arranged on the top surface of the floating plate 16, a receiver 22 is installed in the top of the isolation block 14, and a collection box 41 is fixedly connected with the bottom surface of the floating shell 12 through a connecting rod 75, six sets of collecting devices 102 capable of collecting garbage are arranged in the top surface of the collecting box 41 in an inner ring mode, a collecting cavity 64 with a downward opening is formed in the collecting box 41, and a first sieve plate 65 is rotatably connected to the opening of the collecting cavity 64.

Preferably, the reversing device 101 includes an installation box 26, a buffer slot 43 is arranged in the installation box 26, a first connection slot 42 is arranged in the top wall of the buffer slot 43 in a communicating manner, a second connection slot 50 is arranged in the bottom wall of the buffer slot 43 in a communicating manner, the buffer slot 43 is communicated with the reversing pipe 25 through the first connection slot 42 and the second connection slot 50, a second sieve plate 52 is connected in the buffer slot 43 in a sliding manner, the top surface of the second sieve plate 52 is fixedly connected with the top wall of the buffer slot 43 through a first spring 44, the left side surface of the second sieve plate 52 is provided with a locking slot 49 with a leftward opening, a first sliding slot 46 is connected in the left wall of the buffer slot 43 in a communicating manner, a locking block 45 is connected in the first sliding slot 46 in a sliding manner, the left side surface of the locking block 45 is fixedly connected with the left wall of the first sliding slot 46 through a second spring 48, an electromagnet 47 is arranged in the left wall of the first sliding slot 46, a second sliding groove 54 is arranged in the right wall of the buffer groove 43 in a communicating manner, a pressing block 53 is connected in the second sliding groove 54 in a sliding manner, the right side surface of the pressing block 53 is fixedly connected with the right wall of the second sliding groove 54 through a third spring 55, a rotating cavity 57 is arranged below the reversing valve 24, a rack plate 56 extending into the rotating cavity 57 is fixedly arranged on the right side surface of the pressing block 53, a control shaft 59 of the reversing valve 24 extends into the rotating cavity 57, a gear 58 engaged with the rack plate 56 is fixedly arranged on the rotating cavity 57, when excessive dirt exists on the inner bottom surface of the buffer groove 43 below the second sieve plate 52, the second sieve plate 52 is blocked, the water flow is reduced, at the moment, the second sieve plate 52 moves upwards, the pressing block 53 is moved to drive the pressing block 53 after the second sieve plate 52 moves upwards, the pressing block 53 drives the rack plate 56 to move rightwards, press block 53 to drive gear 58 and rotate, gear 58 drives control shaft 59 and rotates, control shaft 59 rotates the back and drives switching-over valve 24 and commutate, intake through inlet tube 33 No. two this moment, after second sieve 52 rebound to locking groove 49 aligns with first sliding tray 46, locking block 45 can move to locking groove 49 under the effect of second spring 48 in, avoid second sieve 52 to move down under first spring 44 effect, and electromagnet 47 starts the back and can attract locking block 45 to move left, after locking block 45 withdraws from locking groove 49 completely, second sieve 52 can move down under first spring 44 effect and reset.

Preferably, the collecting device 102 comprises a fixed casing 74 fixedly arranged in the collecting box 41, a moving groove 62 with an outward opening is arranged in the fixed casing 74, a first motor 60 is arranged in the side wall of the moving groove 62 close to the connecting rod 75, a screw propeller 63 extending into the moving groove 62 is arranged on the left side surface of the first motor 60, a dropping groove 61 communicated with the collecting cavity 64 is arranged in the bottom wall of the moving groove 62, an arc-shaped cover 67 is fixedly arranged on the side surface of the fixed casing 74 far from the connecting rod 75, a rotating groove 68 is arranged in the arc-shaped cover 67, a second motor 73 is arranged in the side wall of the rotating groove 68, a rotating shaft 72 extending into the rotating groove 68 is arranged on the second motor 73, an extending plate 71 is annularly arranged on the rotating shaft 72 at equal intervals, and a hook block 69 is rotatably connected to the tail end of the extending plate 71 far from the rotating shaft 72 through a coil spring 70, the side wall of the rotating groove 68 close to the fixed shell 74 is fixedly provided with a stop block 66, the second motor 73 drives the rotating shaft 72 to rotate after being started, the rotating shaft 72 drives the extension plate 71 to rotate, the extension plate 71 drives the hook block 69 to rotate, the hook block 69 can drive nearby garbage and drive the garbage to do circular motion around the rotating shaft 72 due to buoyancy of the garbage, when the extension plate 71 rotates to the stop block 66, the stop block 66 can stop the hook block 69 to rotate and enable the hook block 69 to rotate, the garbage is limited by the hook block 69 to move towards the moving groove 62 due to inertia, and after the extension plate 71 rotates over the stop block 66, the hook block 69 rotates and resets under the action of a coil spring 70, meanwhile, the first motor 60 is started to drive the screw propeller 63 to rotate, the screw propeller 63 drives water to move towards the moving groove 62 after rotating, the moving groove 62 can drive the garbage to move towards the moving groove 62, and through the drop chute 61 into the collection chamber 64, the refuse will be retained in the collection chamber 64 by the first screen 65, and water will be able to pass freely through the first screen 65.

Preferably, the first screen 65 is able to close the collection chamber 64.

Preferably, an O-ring 17 is fixedly arranged in the annular surface of the floating plate 16, and the O-ring 17 can prevent water from entering the water storage cavity 13 above the floating plate 16 from the water storage cavity 13 below the floating plate 16 during the moving process of the floating plate 16.

Preferably, the wave tide meter 11 transmits data in real time with a computer by using a wireless transmission technology.

In the initial state, the coil spring 70 is in a stretched state, the first spring 44 is not stressed, the locking block 45 is in a compressed state, the third spring 55 is in a compressed state, and the direction changing pipe 25 is communicated with the connecting pipe 23.

When safety monitoring work is required, the invention is put into the sea and fixed on the surface of the place through a rope, a monitoring net covering a large sea area can be formed by installing a plurality of tide meters 11, and the tide and the water discharge are monitored through the tide meters 11;

when the tide instrument 11 finds that the water displacement changes obviously, it indicates that a ship passes through the sea area, and transmits data to the cloud to remind a user of confirming identity in time, and when a large wave is detected, the first water pump 20 is started to discharge seawater into the water storage cavity 13 through the reversing pipe 25, the connecting pipe 23, the three-way pipe 21 and the first ball valve pipe 18, so that the gravity of the floating shell 12 is increased, the water in the water storage cavity 13 is increased to drive the floating plate 16 to move upwards, the floating plate 16 drives the laser emitter 15 to move upwards, after the receiver 22 receives the signal of the laser emitter 15, the air pump 39 is controlled to be started, the air pump 39 sucks the air in the air bag 31 into the air cavity 35 through the air inlet pipe 29, the air pressure of the air cavity 35 above the piston 36 is increased to drive the piston 36 to move downwards, the volume of the air bag 31 is reduced after the air in the air bag 31 is discharged into the air cavity 35, at the moment, the floating shell 12 can move downwards to the position below the water surface due to the increase of gravity and the reduction of buoyancy, so that the floating shell is prevented from being flapped by waves and damaged, after the waves pass, the second water pump 34 is started to discharge seawater in the water storage cavity 13 through the second ball valve pipe 32, the three-way pipe 21, the connecting pipe 23 and the reversing pipe 25, meanwhile, the air valve 37 is opened, and due to the fact that the air pressure below the air cavity 35 is high, the piston 36 can be driven to move upwards to squeeze the air into the air bag 31, so that the air bag 31 is expanded, the buoyancy is increased, at the moment, the buoyancy is increased due to the decrease of gravity of the floating shell 12, the floating shell can float upwards again to sleep, and monitoring work is continued;

if the second sieve plate 52 is blocked after too much dirt exists on the inner bottom surface of the buffer groove 43 below the second sieve plate 52, the water flow is reduced, at the moment, the second sieve plate 52 moves upwards to drive the reversing valve 24 to reverse, water enters through the second water inlet pipe 33, the second motor 73 and the first motor 60 are started to collect the garbage in the collection cavity 64, the probability that the moving groove 62 is blocked is reduced, and meanwhile the garbage in the sea area can be cleaned.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A distributed cloud security system comprising a floating enclosure, characterized in that: the wave tide instrument is fixedly arranged on the top surface of the floating shell, a water storage cavity is arranged in the floating shell, a first ball valve pipe is communicated and arranged in the bottom wall of the water storage cavity, a first water pump is connected below the first ball valve pipe, a three-way pipe is communicated and arranged below the first water pump, a second ball valve pipe is communicated and arranged at the other end of the three-way pipe, a second water pump is communicated and arranged between the second ball valve pipe and the water storage cavity, a connecting pipe is communicated and arranged at the bottom end of the three-way pipe, a reversing pipe is communicated and arranged at the bottom end of the connecting pipe, a reversing valve is arranged in the reversing pipe, a first water inlet pipe and a second water inlet pipe penetrating through the bottom surface of the floating shell are communicated and arranged at the tail end of the reversing pipe, a reversing device capable of controlling the reversing valve to rotate is arranged in the reversing pipe, an air cavity is arranged on the right side of the water storage cavity, and the air cavity and the water storage cavity are isolated by an isolating block made of transparent material, the utility model discloses a garbage collection device, including showy casing, air cavity roof, water storage chamber, air cavity, air pump, receiver, connecting rod fixedly connected with collecting box, showy casing lateral surface has set firmly a plurality of gasbags, install in the air cavity roof the air pump that the air cavity links to each other, install on the air pump and extend to intake pipe in the gasbag, install in the air cavity roof with the outlet duct of gasbag intercommunication, install the pneumatic valve on the outlet duct, sliding connection has the piston in the air cavity, sliding connection has showy board in the water storage chamber, showy board top surface has set firmly laser emitter, install the receiver in the spacing block top, showy casing underrun through connecting rod fixedly connected with collecting box, the collection box top surface inner ring is equipped with six collection device that can collect garbage, be equipped with the collection chamber that the opening is down in the collecting box, it rotates and is connected with first sieve to collect the chamber opening part.

2. A distributed cloud security system according to claim 1, wherein: the reversing device comprises an installation box, a buffer groove is arranged in the installation box, a first connecting groove is arranged in the top wall of the buffer groove in a communicated manner, a second connecting groove is arranged in the bottom wall of the buffer groove in a communicated manner, the buffer groove is communicated with the reversing pipe through the first connecting groove and the second connecting groove, a second sieve plate is connected in the buffer groove in a sliding manner, the top surface of the second sieve plate is fixedly connected with the top wall of the buffer groove through a first spring, the left side surface of the second sieve plate is provided with a locking groove with a leftward opening, a first sliding groove is arranged in the left wall of the buffer groove in a communicated manner, a locking block is connected in the first sliding groove in a sliding manner, the left side surface of the locking block is fixedly connected with the left wall of the first sliding groove through a second spring, an electromagnet is arranged in the left wall of the first sliding groove, and a second sliding groove is arranged in the right wall of the buffer groove in a communicated manner, sliding connection has according to the briquetting in the second sliding tray, according to briquetting right flank with through third spring fixed connection between the second sliding tray right wall, the switching-over valve below is equipped with rotates the chamber, according to briquetting right flank set firmly extend to rotate the rack board of intracavity, the control shaft of switching-over valve extends to rotate the intracavity, rotate on the chamber set firmly with rack board engaged gear.

3. A distributed cloud security system according to claim 1, wherein: the collecting device comprises a fixed shell fixedly arranged in the collecting box, a moving groove with an outward opening is arranged in the fixed shell, a first motor is arranged in the side wall of the moving groove close to the connecting rod, a spiral propeller extending into the moving groove is arranged on the left side surface of the first motor, a falling groove communicated with the collecting cavity is arranged in the bottom wall of the movable groove, an arc-shaped cover is fixedly arranged on the side surface of the fixed shell far away from the connecting rod, a rotating groove is arranged in the arc-shaped cover, a second motor is arranged in the side wall of the rotating groove, a rotating shaft extending into the rotating groove is arranged on the second motor, the rotating shaft is provided with extending plates at equal intervals, the tail ends, far away from the rotating shaft, of the extending plates are rotatably connected with hook blocks through coil springs, and the rotating grooves are close to the side walls of the fixed shell, and blocking blocks are fixedly arranged on the side walls of the rotating grooves.

4. A distributed cloud security system according to claim 1, wherein: the first screen deck is capable of closing the collection chamber.

5. A distributed cloud security system according to claim 1, wherein: an O-shaped ring is fixedly arranged in the annular surface of the floating plate.

6. A distributed cloud security system according to claim 1, wherein: the wave tide instrument utilizes a wireless transmission technology and a computer to transmit data in real time.