CN111498062A

CN111498062A - Ship drowning rescue mechanical device

Info

Publication number: CN111498062A
Application number: CN202010345595.XA
Authority: CN
Inventors: 崔宣
Original assignee: Xihua University
Current assignee: Xihua University
Priority date: 2020-04-27
Filing date: 2020-04-27
Publication date: 2020-08-07
Anticipated expiration: 2040-04-27
Also published as: CN111498062B

Abstract

The invention discloses a ship drowning rescue mechanical device which comprises a device shell, a positioning mechanism, an operating rod, a flat transverse wheel, a device door, an accelerating mechanism, a rotary adjusting mechanism and a clamping and transmitting mechanism. This boats and ships rescue mechanical device that falls into water can be when casting the life buoy through the life buoy that sets up, put into the advancing device with the life buoy through the device door in, close the device door, press the switch, positioning mechanism fixes a position the life buoy between it and acceleration mechanism, acceleration mechanism rotates the life buoy with higher speed, positioning mechanism contact location, joint launching mechanism throws the life buoy fast, can effectively be with the life buoy grower of falling into water, the manpower weak point of solution is not enough.

Description

Ship drowning rescue mechanical device

Technical Field

The invention relates to the technical field of rescue machinery, in particular to a ship drowning rescue mechanical device.

Background

The lifebuoy is a kind of water life-saving equipment, and is usually made of cork, foamed plastic or other light materials with a small specific gravity, and canvas, plastic and the like are wrapped outside the lifebuoy. The life ring for swimming practice can also be made of rubber, filled with air and also called as a rubber ring. The color of the outer surface of the life buoy is orange red, and the life buoy has no color difference. The surface of the life buoy should have no unevenness and no cracking. And reverse reflective belts with the width of 50 mm are adhered around the four positions with equal intervals along the perimeter of the life buoy. The life buoy should be resistant to high and low temperatures without shrinkage, rupture, expansion and decomposition. After the life buoy is thrown from a specified height, the life buoy is not cracked or broken. The life buoy should be oil resistant and free of shrinkage, cracking, expansion and decomposition. The life buoy should be fire resistant and should not burn or continue to melt after passing a fire. The life buoy should be able to support a 14.5kg mass of iron floating in fresh water for 24 hours. The life buoy should be able to withstand a weight of 90kg for 30min without rupture and permanent deformation in the freely suspended condition. For a life buoy equipped with a self-generating smoke signal and a speed-throwing device attached to a self-illuminating floating light, the device should be triggered when released. When the lifebuoy is freely suspended, it should be capable of bearing a weight of ninety kilograms in thirty minutes, and during this time period the lifebuoy will not break, nor deform.

The existing ship personnel need to rescue when falling into water, but before rescue, the personnel falling into water can throw away the life buoy, but the manpower is limited, under the influence of various factors on the water surface, the life buoy can not be thrown towards the personnel falling into water accurately and powerfully, and the life safety and health of the personnel falling into water can be damaged to a certain extent, so that the invention of a ship falling into water rescue mechanical device is urgently needed.

Disclosure of Invention

The invention aims to provide a mechanical device for rescuing when a ship falls into water, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a boats and ships rescue mechanical device that falls into water, includes device shell, positioning mechanism, action bars, flat stabilizer, device door, acceleration mechanism, rotation adjustment mechanism and joint launching mechanism, device shell top fixed connection positioning mechanism bottom, device shell left side fixed connection action bars one end, device shell bottom left side fixed connection acceleration mechanism, device shell bottom is close to the rotatory adjustment mechanism top of acceleration mechanism fixed connection, device shell bottom is close to rotatory adjustment mechanism fixed connection joint launching mechanism top, device shell openly hinge device door one side, the device door is close to the inboard swing joint stabilizer of device shell.

Positioning mechanism is including location sight, location shell, fixed block, hydraulic little pole, rotary rod and locating wheel, location shell bottom fixed connection device shell top, the device shell is close to the location shell and has seted up first connecting port, the left side is close to first connecting port top fixed connection fixed block left side in the location shell, fixed block right side hinge joint rotary rod one end, rotary rod other end swing joint locating wheel, the rotary rod is close to fixed block one end hinge joint hydraulic little pole one end, hydraulic little pole other end hinge joint location shell inner wall top.

The accelerating mechanism comprises an accelerating wheel, an accelerating motor and a motor groove, the top of the motor groove is fixedly connected with the bottom of the shell, the shell is close to the motor groove and is provided with a second connector, the motor groove is fixedly connected with the accelerating motor, and the top of the accelerating motor is fixedly connected with the accelerating wheel in the shell.

Rotatory guiding mechanism includes fixed shell, fixed bolster, bearing, connecting block, first articulated piece, the articulated piece of second, connecting axle and fixed platform, connecting block top fixed connection device shell bottom, the first articulated piece top of connecting block bottom fixed connection, the articulated piece top of second of first articulated piece bottom hinge, the articulated piece top of fixed platform bottom fixed connection of second, fixed platform bottom fixed connection fixed platform top, fixed platform bottom fixed connection connecting axle top, connecting axle bottom interference fit bearing inner race, bearing outer race interference fit fixed bolster middle part, the fixed bolster outer fringe fixed connection fixed shell inner wall.

The launching mechanism comprises a pushing block, a blocking block, a connecting platform, a fixed plate, an air rod, an air cock, a tension spring, a launching shell and a third connector, wherein the bottom of the shell of the launching shell is fixedly connected with the bottom of the shell of the launching shell, the third connector is arranged close to the launching shell of the launching shell, the left side of the interior of the launching shell is provided with the pushing block, the bottom of the pushing block is hinged with the top of the platform, the connecting platform is close to the left side of the pushing block for fixedly connecting with the blocking block, the left side of the right side of the platform for fixedly connecting with the fixed plate, the left side of the fixed plate for fixedly connecting with the air rod, the right side of the fixed plate is close to the left end of the tension spring fixedly connected with the inner wall of the right side of the launching shell, the inner wall of.

Preferably, the fixed shell is provided with an air pump near the bottom of the fixed support, the right side of the air pump is fixedly connected with one end of an air pipe, and the other end of the air pipe is fixedly connected with an air faucet.

Preferably, air cock and air stem communicate with each other, the inside cavity of air stem, the air stem is provided with four sections, the air stem increases in proper order from left to right every section size, every section of air stem cup joints in proper order, the air stem cup joints one side fixed connection piston.

Preferably, the positioning shell and the first connecting port are arranged in the middle of the device shell, and the lifebuoy is directly arranged in the device shell through the accelerating wheels and the positioning wheels.

Preferably, the balance wheels are arranged on the right and distributed on two sides of the life buoy and are perpendicular to the accelerating wheels.

Preferably, the air lever and the tension spring are both provided with two springs which are distributed on two sides of the bottom of the device, and the tension spring is arranged between the air levers.

Preferably, the pushing block, the blocking block, the connecting table and the third connecting port are arranged in the middle of the bottom of the device shell, and the pushing block, the blocking block, the connecting table and the third connecting port are fixedly connected in the middle of the left side of the fixing plate.

Preferably, the fixed plate both sides all set up right extension spring and gas pole, and extension spring and gas pole distribution are on the fixed plate right side.

Preferably, the accelerating motor is in a model number of YE2/YE3-180M-4-18.5kw and has power of 18.5 kw.

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

1. this boats and ships rescue mechanical device that falls into water can be when throwing the life buoy through the life buoy that sets up, put into the advancing device with the life buoy through the device door in, close the device door, press the switch, positioning mechanism fixes a position the life buoy between it and acceleration mechanism, acceleration mechanism rotates the life buoy with higher speed, positioning mechanism contact location, joint launching mechanism throws the life buoy fast, can effectively with the life buoy roach personnel that fall into water, the insufficient weakness of manpower of solution.

2. This boats and ships rescue mechanical device that falls into water can aim person's position in the water through the location sight and the locating wheel through the location sight that set up after putting into the life buoy through the device door, and hydraulic pressure small-pole work drives the rotary rod rotatory simultaneously to drive locating wheel contact life buoy, can play good stable effect to the life buoy when the life buoy accelerates.

3. This boats and ships rescue mechanical device that falls into water is through the accelerating motor who sets up, places between accelerating pulley and locating wheel and when the contact at the life buoy, and accelerating motor work drives the life buoy rotation through accelerating pulley, and the flat transverse wheel in both sides further reaches the life buoy at the stability of accelerating the in-process, can make the life buoy can effectively resist the windage throwing the in-process through rotatory acceleration, reaches good range.

4. This boats and ships rescue mechanical device that falls into water passes through set up bearing, first articulated piece and the articulated piece of second, when aiming at the personnel that fall into water to the device, the bearing makes the device adjust about can, and the articulated piece of first articulated piece and second can adjust from top to bottom, can reach the multi-angle and adjust to accurate throw the life buoy to the personnel that fall into water.

5. The mechanical device for rescuing the ship falling into the water can rapidly inflate the air pump into the air rod before acceleration through the pushing block, the tension spring is driven to expand and tighten instantly, the pushing block is placed in the inner ring of the life buoy in advance, the air pump pumps air in the air rod instantly during launching, the tension spring retracts instantly, the pushing block is driven to move, meanwhile, the life buoy moves, and therefore the rotating life buoy is thrown out of the device.

Drawings

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

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

FIG. 3 is a schematic cross-sectional view of the rotation adjustment mechanism;

FIG. 4 is a schematic cross-sectional view of the device housing, the accelerating mechanism, the positioning mechanism and the clamping and launching mechanism;

FIG. 5 is a schematic sectional view of the positioning mechanism;

fig. 6 is a schematic sectional view of the launching mechanism.

In the figure: 1 device shell, 2 positioning mechanism, 21 positioning sight, 22 positioning shell, 23 first connecting port, 24 fixed block, 25 hydraulic small rod, 26 rotary rod, 27 positioning wheel, 3 operating rod, 4 flat transverse wheel, 5 device door, 6 accelerating mechanism, 61 accelerating wheel, 62 accelerating motor, 63 motor groove, 64 second connecting port, 7 rotary adjusting mechanism, 71 fixed shell, 72 fixed support, 73 bearing, 74 connecting block, 75 first hinged block, 76 second hinged block, 77 connecting shaft and 78 fixed platform, 8 clamping transmitting mechanism, 81 pushing block, 82 blocking block, 83 connecting platform, 84 fixed plate, 85 air rod, 851 piston, 852 air nozzle, 86 extension spring, 87 transmitting shell, 871 third connecting port, 88 air pump, 89 air pipe and 9 life buoy.

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. 1-6, the present invention provides a technical solution: a ship water falling rescue mechanical device comprises a device shell 1, a positioning mechanism 2, an operating rod 3, a flat transverse wheel 4, a device door 5, an accelerating mechanism 6, a rotary adjusting mechanism 7 and a clamping and launching mechanism 8, wherein the top of an air pump device shell 1 is fixedly connected with the bottom of the positioning mechanism 2, the left side of the air pump device shell 1 is fixedly connected with one end of the operating rod 3, the left side of the bottom of the air pump device shell 1 is fixedly connected with the accelerating mechanism 6, the bottom of the air pump device shell 1 is close to the top of the accelerating mechanism 6 and is fixedly connected with the rotary adjusting mechanism 7, the bottom of the air pump device shell 1 is close to the top of the clamping and launching mechanism 8, the front side of the air pump device shell 1 is hinged with one side of the device door 5 through a hinge, the air pump device door 5 is close to the inner side of the device shell 1 and is movably connected with a, through the life buoy 9 that sets up, can be when throwing life buoy 9, put into the entry device through device door 5 with life buoy 9, close device door 5, press the switch, positioning mechanism 2 is fixed a position life buoy 9 between it and acceleration mechanism 6, acceleration mechanism 6 rotates life buoy 9 with higher speed, positioning mechanism 2 removes the location, joint emission mechanism 8 throws life buoy 9 fast, can effectively be born the person in water with the life buoy, the not enough weakness of manpower of solution.

The air pump positioning mechanism 2 comprises a positioning sight 21, a positioning shell 22, a fixing block 24, a hydraulic small rod 25, a rotating rod 26 and a positioning wheel 27, the bottom of the air pump positioning shell 22 is fixedly connected with the top of a device shell 1, the air pump device shell 1 is close to the positioning shell 22 and provided with a first connecting port 23, the left side in the air pump positioning shell 22 is close to the top of the first connecting port 23 and fixedly connected with the left side of the fixing block 24, the right side of the air pump fixing block 24 is hinged with one end of the rotating rod 26, the other end of the air pump rotating rod 26 is movably connected with the positioning wheel 27, one end of the air pump rotating rod 26 close to the fixing block 24 is hinged with one end of the hydraulic small rod 25, the other end of the air pump hydraulic small rod 25 is hinged with the top of the inner wall of the positioning shell 22, the positioning shell 22 and the first connecting port 23 are arranged in the middle of the device shell 1, a life buoy 9, and the power is 18.5kw, through the positioning sight 21 and the positioning wheel 27 that set up, can aim at the personnel position of falling into the water through the positioning sight 21 after putting into life buoy 9 through device door 5, hydraulic pressure small-stick 25 work simultaneously drives the rotary rod 26 and rotates to drive positioning wheel 27 contact life buoy 9, can play good stable effect to life buoy 9 when life buoy 9 accelerates.

Air pump acceleration mechanism 6 is including accelerating pulley 61, accelerating motor 62 and motor groove 63 air pump motor groove 63 top fixed connection device shell 1 bottom, air pump device shell 1 is close to motor groove 63 and has seted up second connector 64, fixed connection accelerating motor 62 in the air pump motor groove 63, accelerating motor 62 top fixed connection accelerating pulley 61 in the air pump device shell 1, through the accelerating motor 62 that sets up, place between accelerating pulley 61 and locating wheel 27 and when contacting at life buoy 9, accelerating motor 62 works and drives life buoy 9 rotation through accelerating pulley 61, the flat transverse wheel 4 in both sides further reaches life buoy 9 at the stability of acceleration in-process, can make life buoy 9 effectively resist the windage in the projection process through rotatory acceleration, reach good range.

The air pump rotation adjusting mechanism 7 comprises a fixed shell 71, a fixed support 72, a bearing 73, a connecting block 74, a first hinged block 75, a second hinged block 76, a connecting shaft 77 and a fixed platform 78, the top of the air pump connecting block 74 is fixedly connected with the bottom of the device shell 1, the bottom of the air pump connecting block 74 is fixedly connected with the top of the first hinged block 75, the bottom of the air pump first hinged block 75 is hinged with the top of the second hinged block 76, the bottom of the air pump second hinged block 76 is fixedly connected with the top of the fixed platform 78, the bottom of the air pump fixed platform 78 is fixedly connected with the top of the connecting shaft 77, the bottom of the air pump connecting shaft 77 is in interference fit with an inner ring of the bearing 73, an outer ring of the air pump bearing 73 is in interference fit with the middle of the fixed support 72, the outer edge of the air pump fixed support 72, air pump trachea 89 other end fixed connection air cock 852, through set up bearing 73, first articulated piece 75 and the articulated piece 76 of second, when aiming at the personnel that fall into water to the device, bearing 73 makes the device adjust about can, and first articulated piece 75 and the articulated piece 76 of second can adjust from top to bottom, can reach multi-angle regulation to accurate throw life buoy 9 to the personnel that fall into water.

The air pump launching mechanism 8 comprises a pushing block 81, a blocking block 82, a connecting platform 83, a fixing plate 84, an air rod 85, an air nozzle 852, a tension spring 86, a launching shell 87 and a third connector 871, the top of the air pump launching shell 87 is fixedly connected with the bottom of the device shell 1, the air pump device shell 1 is provided with the third connector 871 close to the launching shell 87, the left side in the air pump launching shell 87 is provided with the pushing block 81, the bottom of the air pump pushing block 81 is hinged with the top of the connecting platform 83, the air pump connecting platform 83 is fixedly connected with the blocking block 82 close to the left side of the pushing block 81, the right side of the air pump connecting platform is fixedly connected with the left side of the fixing plate 84, the right side of the air pump fixing plate 84 is fixedly connected with the left side of the air rod 85, the right side of the air pump fixing plate 84 is fixedly connected with the left end of the, the outer wall of the right side of the air pump launching shell 87 is close to the left side of the air rod 85 and is fixedly connected with the air faucet 852, the air pump air faucet 852 is communicated with the air rod 85, the air pump air rod 85 is hollow, four sections of the air pump air rod 85 are arranged, the size of each section of the air pump air rod 85 is sequentially increased from left to right, each section of the air pump air rod 85 is sequentially sleeved, one side of the air pump air rod 85 is fixedly connected with the piston 851, two sections of the air rod 85 and the tension spring 86 are respectively arranged at two sides of the bottom of the device, the tension spring 86 is arranged between the air rods 85, the pushing block 81, the blocking block 82, the connecting table 83 and the third connector 871 are arranged in the middle of the bottom of the device shell 1, the pushing block 81, the blocking block 82, the connecting table 83 and the third connector 871 are fixedly connected in the middle of the left side of the fixing plate 84, the two sides of the, before acceleration, the air pump 88 can quickly inflate the air rod 85 to drive the tension spring 86 to instantly expand and tighten, the pushing block 81 is placed in the inner ring of the life buoy 9 in advance, the air pump 88 instantly pumps air in the air rod 85 during launching, the tension spring 86 instantly retracts to drive the pushing block 81 to move, and meanwhile, the life buoy 9 moves, so that the rotating life buoy 9 is thrown out of the device.

When the life buoy is used, the life buoy 9 is placed into the device through the device door 5, the switch is pressed, the device door 5 is closed, the air pump 88 quickly inflates the air rod 85 before acceleration, the tension spring 86 is driven to instantly expand and tighten, the push block 81 is placed at the inner ring of the life buoy 9 in advance, the positioning sight 21 aims at the position of a person falling into the water, the hydraulic small rod 25 works to drive the rotating rod 26 to rotate, so as to drive the positioning wheel 27 to contact the life buoy 9, when the life buoy 9 is placed between the accelerating wheel 61 and the positioning wheel 27 and is contacted, the accelerating motor 62 works to drive the life buoy 9 to rotate through the accelerating wheel 61, the bearing 73 enables the device to be adjusted left and right, the first hinge block 75 and the second hinge block 76 can be adjusted up and down, so as to achieve multi-angle adjustment, when the air pump 88 instantly pumps air in the air rod 85 during emission, the tension spring 86 instantly retracts to drive the push block 81 to move, thereby throwing the rotating lifebuoy 9 out of the device.

In conclusion, the mechanical device for ship water-fall rescue can be used for placing the lifebuoy 9 into the device through the device door 5 when the lifebuoy 9 is thrown through the arranged lifebuoy 9, the device door 5 is closed, the switch is pressed, the lifebuoy 9 is positioned between the device door and the accelerating mechanism 6 by the positioning mechanism 2, the accelerating mechanism 6 is used for rotating and accelerating the lifebuoy 9, the positioning mechanism 2 is used for removing the positioning, the clamping and transmitting mechanism 8 is used for rapidly throwing the lifebuoy 9 out, the lifebuoy can be effectively born to the person falling into the water, and the problem of insufficient manpower is solved.

Through the location sight 21 and the locating wheel 27 that set up, can aim the personnel position that falls into water through location sight 21 after putting into life buoy 9 through device door 5, hydraulic pressure small-stick 25 work simultaneously drives the rotary rod 26 rotatory to drive locating wheel 27 contact life buoy 9, can play good stable effect to life buoy 9 when life buoy 9 accelerates.

Through the accelerating motor 62 who sets up, place between accelerating pulley 61 and locating wheel 27 and when the contact at life buoy 9, accelerating motor 62 work drives life buoy 9 through accelerating pulley 61 and rotates, and the flat transverse wheel 4 in both sides further reaches life buoy 9 at the stability of acceleration in-process, can make life buoy 9 can effectively resist the windage throwing the in-process through rotatory acceleration, reaches good range.

Through setting up bearing 73, first articulated piece 75 and the articulated piece 76 of second, when aiming at the personnel of falling into water to the device, bearing 73 makes the device adjust about can, and first articulated piece 75 and the articulated piece 76 of second can adjust from top to bottom, can reach multi-angle regulation to accurate throw life buoy 9 to the personnel of falling into water.

Through the pushing block 81, the tension spring 86 and the air rod 85, the air pump 88 can rapidly inflate the air rod 85 before acceleration, the tension spring 86 is driven to instantly expand and tighten, the pushing block 81 is placed in the inner ring of the life buoy 9 in advance, the air pump 88 instantly inflates air in the air rod 85 during launching, the tension spring 86 instantly retracts to drive the pushing block 81 to move, meanwhile, the life buoy 9 moves, and therefore the rotating life buoy 9 is thrown out of the device.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a boats and ships rescue mechanical device that falls into water, includes device shell (1), positioning mechanism (2), action bars (3), flat horizontal wheel (4), device door (5), acceleration mechanism (6), rotatory guiding mechanism (7) and joint launching mechanism (8), its characterized in that: the top of the device shell (1) is fixedly connected with the bottom of the positioning mechanism (2), the left side of the device shell (1) is fixedly connected with one end of the operating rod (3), the left side of the bottom of the device shell (1) is fixedly connected with the accelerating mechanism (6), the bottom of the device shell (1) is close to the top of the accelerating mechanism (6) and is fixedly connected with the rotary adjusting mechanism (7), the bottom of the device shell (1) is close to the top of the rotary adjusting mechanism (7) and is fixedly connected with the clamping and launching mechanism (8), the front side of the device shell (1) is hinged with one side of the device door (5) through a hinge, and the device door (5) is close to the inner side of the device shell (1;

the positioning mechanism (2) comprises a positioning sight (21), a positioning shell (22), a fixing block (24), a small hydraulic rod (25), a rotating rod (26) and a positioning wheel (27), the bottom of the positioning shell (22) is fixedly connected with the top of a device shell (1), the device shell (1) is close to the positioning shell (22) and is provided with a first connecting port (23), the left side in the positioning shell (22) is close to the left side of the first connecting port (23) top and is fixedly connected with the fixing block (24), the right side of the fixing block (24) is hinged with one end of the rotating rod (26), the other end of the rotating rod (26) is movably connected with the positioning wheel (27), the rotating rod (26) is close to one end of the fixing block (24) and is hinged with one end of the small hydraulic rod (25), and the other end of the small hydraulic rod (25;

the accelerating mechanism (6) comprises an accelerating wheel (61), an accelerating motor (62) and a motor groove (63), the top of the motor groove (63) is fixedly connected with the bottom of the device shell (1), the device shell (1) is provided with a second connecting port (64) close to the motor groove (63), the accelerating motor (62) is fixedly connected in the motor groove (63), and the top of the accelerating motor (62) in the device shell (1) is fixedly connected with the accelerating wheel (61);

the rotary adjusting mechanism (7) comprises a fixed shell (71), a fixed bracket (72), a bearing (73), a connecting block (74), a first hinged block (75), a second hinged block (76), a connecting shaft (77) and a fixed platform (78), the top of the connecting block (74) is fixedly connected with the bottom of the device shell (1), the bottom of the connecting block (74) is fixedly connected with the top of the first hinged block (75), the bottom of the first hinge block (75) is hinged with the top of the second hinge block (76), the bottom of the second hinged block (76) is fixedly connected with the top of the fixed platform (78), the bottom of the fixed platform (78) is fixedly connected with the top of a connecting shaft (77), the bottom of the connecting shaft (77) is in interference fit with the inner ring of the bearing (73), the outer ring of the bearing (73) is in interference fit with the middle part of the fixed bracket (72), the outer edge of the fixed bracket (72) is fixedly connected with the inner wall of the fixed shell (71);

the launching mechanism (8) comprises a pushing block (81), a blocking block (82), a connecting table (83), a fixing plate (84), an air rod (85), an air nozzle (852), a tension spring (86), a launching shell (87) and a third connector (871), the top of the launching shell (87) is fixedly connected with the bottom of the device shell (1), the device shell (1) is close to the launching shell (87) and is provided with the third connector (871), the left side in the launching shell (87) is provided with the pushing block (81), the bottom of the pushing block (81) is hinged with the top of the connecting table (83), the connecting table (83) is close to the left side of the pushing block (81) and is fixedly connected with the blocking block (82), the right side of the connecting table is fixedly connected with the left side of the fixing plate (84), the right side of the fixing plate (84) is fixedly connected with the left side of the air rod (85), the right side of the fixing plate (84) is close to, extension spring (86) right-hand member fixed connection launch shell (87) right side inner wall, launch shell (87) right side inner wall is close to extension spring (86) fixed connection air lever (85) right side, launch shell (87) right side outer wall is close to air lever (85) fixed connection air cock (852) left side.

2. The mechanical device for rescuing in overboard of a ship as claimed in claim 1, wherein: fixed shell (71) are close to fixed bolster (72) bottom and are provided with air pump (88), air pump (88) right side fixed connection trachea (89) one end, trachea (89) other end fixed connection air cock (852).

3. The mechanical device for rescuing in overboard of a ship as claimed in claim 1, wherein: air cock (852) and gas pole (85) communicate with each other, the inside cavity of gas pole (85), gas pole (85) are provided with four sections, gas pole (85) from left to right every section size increases in proper order, every section of gas pole (85) cup joints in proper order, gas pole (85) cup joints one side fixed connection piston (851).

4. The mechanical device for rescuing in overboard of a ship as claimed in claim 1, wherein: the positioning shell (22) and the first connecting port (23) are arranged in the middle of the device shell (1), and the lifebuoys (9) are directly arranged in the device shell (1) through the accelerating wheels (61) and the positioning wheels (27).

5. The mechanical device for rescuing in overboard of a ship as claimed in claim 1, wherein: the balance wheels (4) are arranged on the right and distributed on two sides of the life buoy (9) and are mutually perpendicular to the accelerating wheels (61).

6. The mechanical device for rescuing in overboard of a ship as claimed in claim 1, wherein: the gas lever (85) and the tension spring (86) are both provided with two springs which are distributed on two sides of the bottom of the device, and the tension spring (86) is arranged between the gas lever (85).

7. The mechanical device for rescuing in overboard of a ship as claimed in claim 1, wherein: the pushing block (81), the blocking block (82), the connecting table (83) and the third connecting port (871) are arranged in the middle of the bottom of the device shell (1), and the pushing block (81), the blocking block (82), the connecting table (83) and the third connecting port (871) are fixedly connected to the middle of the left side of the fixing plate (84).

8. The mechanical device for rescuing in overboard of a ship as claimed in claim 1, wherein: the fixed plate (84) both sides all set up right extension spring (86) and gas pole (85), and extension spring (86) and gas pole (85) distribute in fixed plate (84) right side.

9. The mechanical device for rescuing in overboard of a ship as claimed in claim 1, wherein: the accelerating motor (62) is in a model number of YE2/YE3-180M-4-18.5kw and has power of 18.5 kw.