CN111959718B - Escape type manned floating cabin for marine rescue - Google Patents

Abstract

The invention provides an escape type manned floating cabin for marine rescue, which comprises a transparent shell, a transparent inner chamber, a solar door panel, a sail lifting device, a ladder, a floor, an operating device, a power device, a storage battery, a stabilizing device, a connecting device and a telescopic driving device, wherein a plurality of water paddles are arranged outside the transparent shell, a gear groove is arranged inside the transparent shell, the middle section of the gear groove is in meshed connection with one end of the sail lifting device, the lower section of the gear groove is in meshed connection with the power device, one end of the sail lifting device is in meshed connection with the gear groove in the transparent shell, and the other end of the sail lifting device is in meshed connection with the transparent inner chamber. The spherical full-wrapping type wind wave generator is not required to worry about sinking when meeting large wind waves.

Description

Escape type manned floating cabin for marine rescue

Technical Field

The invention relates to the technical field of seawater rescue floating cabins, in particular to an escape type manned floating cabin for marine rescue.

Background

Various maritime lifeboats sold in the market at present have defects in different degrees, and most of the maritime lifeboats are of an open structure, cannot keep out wind and rain and sunlight in vast sea in hot summer, cannot resist the invasion of cold wind in cold winter, and do not have the function of preventing the storm wind and resisting the tsunami.

Disclosure of Invention

In order to solve the technical problem, the invention provides an escape type manned floating cabin for marine rescue, and aims to solve the problem.

The invention relates to a purpose and an effect of an escape type manned floating cabin for marine rescue, which are achieved by the following specific technical means: an escape type manned floating cabin for maritime rescue comprises a transparent shell, a transparent inner chamber, a solar door panel, a sail lifting device, a ladder, a floor, an operating device, a power device, a storage battery, a stabilizing device, a connecting device and a telescopic driving device, wherein a plurality of water paddles are arranged outside the transparent shell, a gear groove is formed in the transparent shell, the middle section of the gear groove is meshed with one end of the sail lifting device, the lower section of the gear groove is meshed with the power device, one end of the sail lifting device is meshed with the gear groove in the transparent shell, the other end of the sail lifting device is meshed with the transparent inner chamber, a solar door panel is arranged on the bright top of the inner chamber, the tail end of the solar door panel is fixedly connected with a movable shaft, the top end of the solar door panel is movably connected with the transparent inner chamber, the bottom of the top end of the solar door panel is vertically provided with the ladder, and the bottom of the ladder is fixedly connected with the floor, the upper part of the floor is fixedly connected with the operating device, a power device and a storage battery are arranged in a transparent inner chamber at the bottom of the floor, and a stabilizing device is fixedly connected to the bottom of the outer side of the transparent inner chamber.

Further, transparent inner room top is equipped with the solar door plant, and solar door plant afterbody fixedly connected with loose axle, loose axle and transparent inner room fixed connection, solar door plant head is equipped with the output post that charges, the ladder has been erect perpendicularly in the transparent inner room of solar door plant head below, the ladder top is equipped with the post fixed plate that charges, and charges post fixed plate top and the post fixed connection that charges, the post that charges runs through transparent inner room and the output post swing joint that charges, post and solar cable fixed connection charge.

Further, the power device is fixedly connected to the bottom of the transparent inner chamber through a fixed platform, the top of the fixed platform is fixedly connected with the bottom of the support frame, the top of the support frame is fixedly connected with a motor, the head of the motor is fixedly connected with an output cable, the tail of the motor is fixedly connected with a power transmission cabin, the tail of the motor extends out of a power shaft in the power transmission cabin, the tail of the power shaft is provided with power threads, a transmission shaft fixed shaft is fixedly connected in the corner end of the power transmission cabin, the shaft center of the transmission shaft fixed shaft is axially connected with the transmission shaft, the tail end of the transmission shaft head is provided with transmission shaft threads, the transmission shaft threads at the head of the transmission shaft are meshed with the power threads, the tail of the power transmission cabin is fixedly connected with a power gear shaft, the shaft center of the power gear shaft is axially connected with the power gear, and the middle of the power gear is provided with power wheel threads, and the power wheel thread is meshed with the transmission shaft thread at the tail part of the transmission shaft, and a plurality of power wheel teeth are arranged outside the power wheel.

Further, the battery top is equipped with solar cable, and solar cable run through floor, the inside and last and the post bottom fixed connection that charges of ladder, both ends are equipped with output cable about the battery, and output cable end and motor fixed connection, the battery bottom is equipped with input cable, and input cable end and stabilising arrangement fixed connection.

Further, stabilising arrangement passes through the fixed connection post and the transparent inner room bottom fixed connection at top, the inside generator that is equipped with of stabilising arrangement, and the generator four sides all with bull stick bottom swing joint, bull stick top and pivot fixed connection, and five flowing water fans of fixedly connected with in the pivot, generator top and input cable fixed connection, and input cable run through fixed connection post and battery fixed connection.

Further, the sail lifting device penetrates through the transparent inner chamber and the inside of the transparent shell, fixed plates are fixedly connected to two sides of the transparent inner chamber, the middle sections of the fixed plates are fixedly connected with a cable runner, two ends of each fixed plate are fixedly connected with the fixed blocks, the tops of the fixed blocks are fixedly connected with fixed block fixing rods, the inner sides of the fixed block fixing rods are fixedly connected with one ends of telescopic rods, three-stage telescopic rods, two-stage telescopic rods and one-stage telescopic rods are arranged in the telescopic rods, the outer portions of the three-stage telescopic rods are sleeved with the two-stage telescopic rods, the two-stage telescopic rods are sleeved with the one-stage telescopic rods, tooth grooves are formed in the upper ends and the lower ends of the two-stage telescopic rods and the three-stage telescopic rods, a telescopic driving device is vertically erected in the telescopic rods, one ends of the telescopic rods are fixedly connected with the fixed block fixing rods, the other ends of the telescopic rods are fixedly connected with gear fixing rods, and gear shafts are arranged in the gear fixing rods, and gear shaft bottom and with gear shaft nature connection, the gear shaft surface is equipped with gear shaft screw thread, the inside front end fixedly connected with connecting device of telescopic link, and the outside fixedly connected with a plurality of cable guide pulleys of telescopic link, cable guide pulley and cable swing joint, the one end and the flexible drive arrangement fixed connection of cable, the other end and cable runner fixed connection.

Further, the cable hole has been seted up to connecting device's inner wall middle section both sides, and inner wall upper segment both sides fixedly connected with connecting axle, connecting axle and connecting rod fixed connection, and connecting rod upper end and reset spring fixed connection, connecting rod one end and connecting axle fixed connection, the other end and fifth wheel fixed connection, the cable groove has been seted up to the fifth wheel inside, and the fifth wheel outer lane is equipped with the fifth wheel screw thread.

Further, both ends are passed through the actuating lever fixed axle and are fixed inside the telescopic link about flexible drive arrangement, actuating lever fixed axle center department is connected with actuating lever axiality, and the actuating lever hypomere is equipped with ascending fluted disc, the actuating lever upper segment is equipped with decurrent fluted disc, and actuating lever center section fixedly connected with cable ring, the inside rotatory machine spring that is equipped with of actuating lever fixed axle, and the one end and the actuating lever fixed connection of rotatory machine spring, the other end and machine spring spliced pole fixed connection.

Has the advantages that:

(1) the water flow fan is driven to rotate by the flow of water flow when the water flow fan is in water, so that the rotating rod rotates to drive the generator in the stabilizing device to generate power.

(2) Through being equipped with the solar door plant, absorb the solar energy source daytime and store inside the battery and play the effect of sunshade.

(3) Through being equipped with the sail device that rises, will drive the telescopic link when the sail device that rises starts and stretch out and draw back to upwards outwards rise transparent shell, realize forming the effect of sail with transparent shell.

(4) By arranging the spherical transparent inner chamber, the solar water heater cannot sink when meeting wind and waves.

Drawings

FIG. 1 is a schematic side view of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic view of the sail lifting effect of the present invention.

Fig. 4 is a schematic structural diagram of a sail raising device of the invention.

FIG. 5 is an enlarged view of the invention at A in FIG. 1.

FIG. 6 is a schematic view of the power plant of the present invention.

FIG. 7 is a schematic view of the structure of the stabilizing device of the present invention.

FIG. 8 is a schematic view of the connecting device of the present invention.

Fig. 9 is a schematic view of a driving rod fixing shaft according to the present invention.

In fig. 1 to 9, the correspondence between the component names and the reference numbers is:

1-transparent shell, 101-paddle, 102-gear groove, 2-transparent inner chamber, 3-solar door panel, 301-movable shaft, 302-charging output column, 4-sail lifting device, 401-guy cable rotating wheel, 402-fixing plate, 403-fixing block, 404-telescopic rod, 405-gear, 406-fixing block fixing rod, 407-primary telescopic rod, 408-secondary telescopic rod, 409-tertiary telescopic rod, 410-gear fixing rod, 411-gear shaft, 412-tooth space, 413-guy cable, 414-guy cable guide wheel, 415-gear shaft thread, 5-ladder, 501-charging column, 502-charging column fixing plate, 6-floor, 7-operating device, 8-power device, 801-motor, 801-guy cable, 2-transparent inner chamber, 3-solar door panel, and the like, 802-support frame, 803-fixed platform, 804-power shaft, 805-power thread, 806-transmission shaft, 807-transmission shaft fixed shaft, 808-power wheel, 809-power wheel thread, 810-transmission shaft thread, 811-power gear tooth, 812-power transmission cabin, 813-power gear shaft, 9-storage battery, 901-output cable, 902-input cable, 903-solar cable, 10-stabilizing device, 1001-rotating rod, 1002-rotating shaft, 1003-water flow fan, 1004-fixed connecting column, 1005-generator, 11-connecting device, 1101-inner wall, 1102-connecting shaft, 1103-connecting rod, 1104-guy cable hole, 1105-reset spring, 1106-connecting wheel, 1107-guy cable groove, 1108-connecting wheel screw thread, 12-telescopic driving device, 1201-driving rod fixed shaft, 1202-fluted disc, 1203-driving rod, 1204-pulling rope ring, 1205-rotating mechanical spring and 1206-mechanical spring connecting column.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Example (b):

as shown in figures 1 to 9: an escape type manned floating cabin for maritime rescue comprises a transparent shell 1, a transparent inner chamber 2, a solar door panel 3, a sail lifting device 4, a ladder 5, a floor 6, an operating device 7, a power device 8, a storage battery 9, a stabilizing device 10, a connecting device 11 and a telescopic driving device 12, wherein a plurality of paddles 101 are arranged outside the transparent shell 1, a gear groove 102 is arranged inside the transparent shell 1, the middle section of the gear groove 102 is meshed and connected with one end of the sail lifting device 4, the lower section of the gear groove 102 is meshed and connected with the power device, one end of the sail lifting device 4 is meshed and connected with the gear groove 102 in the transparent shell 1, the other end of the sail lifting device is meshed and connected with the transparent inner chamber 2, the solar door panel 3 is arranged at the top of the transparent inner chamber 2, the tail end of the solar door panel 3 is fixedly connected with a movable shaft 301, the top end of the solar door panel 3 is movably connected with the transparent inner chamber 2, the ladder 5 is vertically arranged at the bottom of the top end of the solar door panel 3, the bottom of the ladder 5 is fixedly connected with a floor 6, the upper part of the floor 6 is fixedly connected with an operating device 7, a power device 8 and a storage battery 9 are arranged inside the transparent inner chamber 2 at the bottom of the floor 6, and a stabilizing device 10 is fixedly connected to the bottom of the outer side of the transparent inner chamber 2.

Wherein, 2 tops in transparent inner room are equipped with solar door plant 3, and 3 afterbody fixedly connected with loose axle 301 of solar door plant, loose axle 301 and transparent inner room 2 fixed connection, 3 heads of solar door plant are equipped with the output post 302 that charges, ladder 5 has been erect perpendicularly in the transparent inner room 2 of 3 heads below of solar door plant, ladder 5 top is equipped with the post fixed plate 502 that charges, and the post fixed plate 502 top and the post 501 fixed connection that charges charge, the post 501 that charges runs through transparent inner room 2 and the output post 302 swing joint that charges, the post 501 and the solar cable 903 fixed connection that charges. When personnel need to enter the solar energy door panel 3, the solar energy door panel 3 is lifted upwards by using the movable shaft, when the solar energy door panel 3 floats on the sea, the sunlight is shielded by the solar energy door panel 3 to prevent the personnel from being exposed, the sunlight is converted into energy and is transmitted to the charging post 501 on the charging post fixing plate 502 from the charging output post 302, and finally the energy is stored in the storage battery 9 through the solar cable 903 at the bottom of the charging post 501.

Wherein, the power device 8 is fixedly connected with the bottom of the transparent inner chamber 2 through a fixed platform 803, the top of the fixed platform 803 is fixedly connected with the bottom of a support frame 802, the top of the support frame 802 is fixedly connected with a motor 801, the head of the motor 801 is fixedly connected with an output cable 901, the tail of the motor 801 is fixedly connected with a power transmission cabin 812, the tail of the motor 801 extends out of a power shaft 804 to be in the power transmission cabin 812, the tail of the power shaft 804 is provided with power threads 805, the corner end of the power transmission cabin 812 is fixedly connected with a transmission shaft fixed shaft 807, the axle center of the transmission shaft fixed shaft 807 is axially connected with a transmission shaft 806, the head and the tail of the transmission shaft 806 is provided with transmission shaft threads 810, the transmission shaft threads 810 at the head of the transmission shaft 806 are meshed with the power threads 805, the tail of the power transmission cabin 812 is fixedly connected with a power gear shaft, and the axle center of the power gear shaft 813 is axially connected with a power wheel 808, a power wheel thread 809 is arranged in the middle of the power wheel 808, the power wheel thread 809 is meshed with a transmission shaft thread 810 at the tail of the transmission shaft 806, and a plurality of power wheel teeth 811 are arranged outside the power wheel 808. The motor 801 in the power device 8 is meshed with the transmission shaft thread 810 at the upper end of the transmission shaft 806 by using the power thread 805 on the power shaft 804 to rotate, the transmission shaft thread 810 at the lower end of the transmission shaft 806 is meshed with the power wheel thread 809 on the power wheel 808 to rotate, the power transmission is realized, the power gear teeth 811 on the power wheel 808 are meshed with the gear grooves 102 in the transparent shell, the transparent shell 1 is driven to rotate when the power wheel 808 rotates, and the forward and steering power is provided for the invention by using the paddle 101 outside the transparent shell.

Wherein, the top of battery 9 is equipped with solar cable 903, and solar cable 903 runs through floor 6, the inside and last and the post 501 bottom fixed connection that charges of ladder 5, and both ends are equipped with output cable 901 about battery 9, and the terminal and the motor 801 fixed connection of output cable 901, and battery 9 bottom is equipped with input cable 902, and the terminal and the stabilising arrangement 10 fixed connection of input cable 902. The storage battery 9 transmits and stores energy generated by the solar door panel 3 by using the solar cable 903 at the top, transmits and stores current generated by the generator 1005 in the stabilizing device 10 by using the input cable 902 at the bottom of the storage battery 9, and the storage battery 9 supplies the stored electric energy to the two power devices through the output cables 901 at the two sides.

Wherein, stabilising arrangement 10 is through the fixed connection post 1004 and the transparent interior 2 bottom fixed connection at top, and stabilising arrangement 10 is inside to be equipped with generator 1005, and generator 1005 all with bull stick 1001 bottom swing joint on four sides, bull stick 1001 top and pivot 1002 fixed connection, and five flowing water fans 1003 of fixedly connected with on the pivot 1002, generator 1005 top and input cable 902 fixed connection, and input cable 902 runs through fixed connection post 1004 and battery 9 fixed connection. The stabilizing device 10 is sunk into water to provide stability for the invention, and simultaneously, when water flows through or the power generated during the operation of the stabilizing device is used for rotating the water flow fan 1003 in the stabilizing device 10, the rotating rod 1001 is driven to rotate to drive the internal generator 1005 to generate electricity while the water flow fan 1003 rotates, and the generated electric energy is transmitted to the storage battery 9 through the input cable 902 at the top.

Wherein, the sail lifting device 4 penetrates through the transparent inner chamber 2 and the inside of the transparent shell, two sides of the transparent inner chamber 2 are fixedly connected with a fixed plate 402, the middle section of the fixed plate 402 is fixedly connected with a guy cable runner 401, two ends of the fixed plate 402 are fixedly connected with a fixed block 403, the top of the fixed block 403 is fixedly connected with a fixed block fixing rod 406, the inner side of the fixed block fixing rod 406 is fixedly connected with one end of a telescopic rod 404, the inside of the telescopic rod 404 is provided with a three-stage telescopic rod 409, a two-stage telescopic rod 408 and a one-stage telescopic rod 407, the outside of the three-stage telescopic rod 409 is sleeved with the two-stage telescopic rod 408, the two-stage telescopic rod 408 is sleeved with the one-stage telescopic rod 407, the upper and lower ends of the two-stage telescopic rod 408 and the three-stage telescopic rod 409 are both provided with tooth sockets 412, a telescopic driving device 12 is vertically erected inside the telescopic rod 404, one end of the telescopic rod 404 is fixedly connected with the fixed block fixing rod 406, the other end is fixedly connected with a gear fixing rod 410, gear shaft 411 is arranged inside gear fixing rod 410, and gear shaft 411 bottom with gear 405 axial connection, gear shaft 411 surface is equipped with gear shaft screw thread 415, the inside front end fixedly connected with connecting device 11 of telescopic link 404, and the outside fixedly connected with of telescopic link 404 a plurality of cable guide wheels 414, cable guide wheel 414 and cable 413 swing joint, the one end and the flexible drive arrangement 12 fixed connection of cable 413, the other end and cable runner 402 fixed connection. When the cable wheel 401 in the sail raising device 4 is shaken, the cable 413 is contracted along the cable guide wheel 414, when the cable 413 is contracted and straightened, the connecting device 11 is triggered, and the cable ring 1204 in the telescopic driving device 12 rotates to release the cable 413.

Wherein, cable hole 1104 has been seted up to connecting device 11's inner wall 1101 middle section both sides, and inner wall 1101 upper segment both sides fixedly connected with connecting axle 1102, connecting axle 1102 and connecting rod 1103 fixed connection, and connecting rod 1103 upper end and reset spring 1105 fixed connection, connecting rod 1103 one end and connecting axle 1102 fixed connection, the other end and fifth wheel 1106 fixed connection, cable groove 1107 has been seted up to fifth wheel 1106 inside, and the fifth wheel 1106 outer lane is equipped with fifth wheel screw 1108. When the cable runner 401 in the sail raising device 4 is shaken, the cable 413 can be contracted along the cable guide wheel 414, when the cable 413 is contracted, the connecting device 11 is triggered when the cable 413 is stretched, the cable 413 in the connecting device 11 pulls the connecting wheel 1106 downwards by using the cable groove 1107, the connecting wheel 1106 moves downwards by using the connecting shafts 1102 on two sides and is meshed with the gear shaft thread 415 on the gear shaft 411 by using the connecting wheel thread 1108, and when the cable 413 is loosened, the connecting rod 1103 is pulled up by using the return spring 1105, so that the connecting wheel 1106 is disconnected from the gear shaft 411.

Wherein, both ends are fixed inside telescopic link 404 through drive lever fixed axle 1201 about flexible drive arrangement 12, drive lever fixed axle 1201 axle center department is connected with drive lever 1203 axiality, and the drive lever 1203 hypomere is equipped with ascending fluted disc 1202, the drive lever 1203 upper segment is equipped with decurrent fluted disc 1203, and drive lever 1203 center section fixedly connected with cable circle 1204, the inside rotatory motor spring 1205 that is equipped with of drive lever fixed axle 1201, and the one end and the drive lever 1203 fixed connection of rotatory motor spring 1205, the other end and motor spring spliced pole 1206 fixed connection. When the cable wheel 401 in the sail lifting device 4 is shaken, the cable 413 contracts along the cable guide wheel 414, and the cable ring 1204 in the telescopic driving device 12 rotates to release the cable 413, the cable ring 1204 rotates to drive the driving rod 1203 to rotate, and the fluted disc 1202 on the driving rod 1203 is meshed with the toothed groove 412 to rotate so as to extend the secondary telescopic rod 408 and the tertiary telescopic rod 409, the rotating spring 1205 inside the driving rod fixing shaft 1201 at the upper end and the lower end of the driving rod 1203 rotates to contract, when the cable 413 is loosened when the cable wheel 401 rotates reversely, the rotating spring 1205 inside the driving rod fixing shaft 1201 revolves to withdraw the redundant cable 413 into the cable ring 1204.

The working principle is as follows: when a person needs to enter the solar energy door panel 3, the solar energy door panel 3 is lifted upwards by using the movable shaft, when the solar energy door panel 3 floats on the sea, the person is prevented from being exposed to the sun by shielding the sun, the sun is converted into energy and is transmitted to the charging post 501 on the charging post fixing plate 502 from the charging output post 302, finally the energy is stored in the storage battery 9 through the solar cable 903 at the bottom of the charging post 501, the stabilizing device 10 sinks into the water to provide stability for the solar energy door panel, meanwhile, when the water flows or the solar energy door panel runs, the power generated by the solar energy door panel is used for rotating the water flow 1003 fan in the stabilizing device 10, the rotating rod 1001 is driven to rotate to enable the internal generator 1005 to generate electricity while the water flow fan 1003 rotates, and the generated electric energy is transmitted to the storage battery 9 through the input cable 902 at the top.

When the invention needs to advance or turn, the two power devices 8 are controlled by the operating device 7 to supply power for operation, a motor 801 in the power device 8 is meshed with a transmission shaft thread 810 at the upper end of a transmission shaft 806 by using a power thread 805 on a power shaft 804 to rotate, the transmission shaft thread 810 at the lower end of the transmission shaft 806 is meshed with a power wheel thread 809 on a power wheel 808 to rotate, power transmission is realized, a power gear tooth 811 on the power wheel 808 is meshed with a gear groove 102 in a transparent shell, the transparent shell 1 is driven to rotate when the power wheel 808 rotates, and the forward and turning power is provided for the invention by using a paddle 101 outside the transparent shell.

When the electric energy is used up or the wind direction is consistent with the advancing direction, the transparent shell 2 can be converted into a sail, when a cable rotating wheel 401 in the sail lifting device 4 is shaken, a cable 413 can contract along a cable guide wheel 414, when the cable 413 contracts and stretches, the connecting device 11 is triggered, a cable ring 1204 in the telescopic driving device 12 is enabled to rotate and release the cable 413, when the cable ring 1204 rotates, a driving rod 1203 is driven to rotate, a fluted disc 1202 on the driving rod 1203 is meshed with a fluted disc 412 to rotate, a secondary telescopic rod 408 and a tertiary telescopic rod 409 are enabled to extend out, when the driving rod 1203 rotates, a rotating spring 1205 inside a driving rod fixing shaft 1201 at the upper end and the lower end is enabled to contract, when the cable 413 is stretched, the cable 413 inside the connecting device 11 utilizes a cable groove 1107 to pull a connecting wheel 1106 downwards, the connecting wheel 1106 utilizes connecting shafts 1102 at two sides to move downwards and utilizes connecting wheel threads 1108 to mesh with gear shaft threads 415 on a gear shaft 411 to rotate, the transparent shell 2 is lifted outwards and upwards to form a sail, when the guy cable rotating wheel 401 rotates reversely, the rotating spring 1205 in the driving rod fixing shaft 1201 rotates back when the guy cable 413 is loosened, the redundant guy cable 413 is retracted into the guy cable ring 1204, the second-stage telescopic rod 408 and the third-stage telescopic rod 409 are retracted into the telescopic rod 404, when the guy cable 413 is loosened, the reset spring 1105 pulls up the connecting rod 1103, the connecting wheel 1106 is disconnected from the gear shaft 411, and the transparent shell 2 returns to the original position.

Claims (4)

1. The utility model provides a marine rescue floats cabin with escape type manned, includes transparent shell (1), transparent inner room (2), solar door plant (3), rises sail device (4), ladder (5), floor (6), controlling means (7), power device (8), battery (9), stabilising arrangement (10), connecting device (11), flexible drive arrangement (12), its characterized in that: the solar energy sail lifting device is characterized in that a plurality of paddles (101) are arranged outside the transparent shell (1), a gear groove (102) is arranged inside the transparent shell (1), the middle section of the gear groove (102) is meshed and connected with one end of a sail lifting device (4), the lower section of the gear groove (102) is meshed and connected with a power device, one end of the sail lifting device (4) is meshed and connected with the gear groove (102) in the transparent shell (1), the other end of the sail lifting device is meshed and connected with the transparent inner chamber (2), a solar door panel (3) is arranged at the top of the transparent inner chamber (2), the tail end of the solar door panel (3) is fixedly connected with a movable shaft (301), the top end of the solar door panel (3) is movably connected with the transparent inner chamber (2), a ladder (5) is vertically arranged at the bottom of the top end of the solar door panel (3), the bottom of the ladder (5) is fixedly connected with a floor (6), the upper portion of the floor (6) is fixedly connected with an operating device (7), a power device (8) and a storage battery (9) are arranged inside a transparent inner chamber (2) at the bottom of a floor (6), a stabilizing device (10) is fixedly connected to the bottom of the outer side of the transparent inner chamber (2), the power device (8) is fixedly connected to the bottom of the transparent inner chamber (2) through a fixing platform (803), the top of the fixing platform (803) is fixedly connected to the bottom of a support frame (802), the top of the support frame (802) is fixedly connected to a motor (801), the head of the motor (801) is fixedly connected to an output cable (901), the tail of the motor (801) is fixedly connected to a power transmission cabin (812), a power shaft (804) extends out of the tail of the motor (801) to be in the power transmission cabin (812), a power thread (805) is arranged at the tail of the power shaft (804), and a transmission shaft fixing shaft (807) is fixedly connected to the corner end of the power transmission cabin (812), the axle center of the transmission shaft fixing shaft (807) is axially connected with the transmission shaft (806), the head end and the tail end of the transmission shaft (806) are provided with transmission shaft threads (810), the transmission shaft threads (810) at the head of the transmission shaft (806) are meshed with the power threads (805), the tail of the power transmission cabin (812) is fixedly connected with a power gear shaft (813), the axle center of the power gear shaft (813) is axially connected with a power wheel (808), the middle of the power wheel (808) is provided with power wheel threads (809), the power wheel threads (809) are meshed with the transmission shaft threads (810) at the tail of the transmission shaft (806), the outside of the power wheel (808) is provided with a plurality of power wheel teeth (811), the sail lifting device (4) penetrates through the transparent inner chamber (2) and the inside of the transparent shell, the two sides of the transparent inner chamber (2) are fixedly connected with fixing plates (402), and the middle section of a guy cable of the fixing plates (402) is fixedly connected with a rotating wheel (401), the two ends of the fixing plate (402) are fixedly connected with the fixing block (403), the top of the fixing block (403) is fixedly connected with a fixing block fixing rod (406), the inner side of the fixing block fixing rod (406) is fixedly connected with one end of a telescopic rod (404), a three-level telescopic rod (409), a two-level telescopic rod (408) and a one-level telescopic rod (407) are arranged in the telescopic rod (404), the outer part of the three-level telescopic rod (409) is sleeved with the two-level telescopic rod (408), the two-level telescopic rod (408) is sleeved with the one-level telescopic rod (407), tooth sockets (412) are respectively arranged at the upper end and the lower end of the two-level telescopic rod (408) and the three-level telescopic rod (409), a telescopic driving device (12) is vertically erected in the telescopic rod (404), one end of the telescopic rod (404) is fixedly connected with the fixing block fixing rod (406), and the other end is fixedly connected with a gear fixing rod (410), the gear fixing rod (410) is internally provided with a gear shaft (411), the bottom of the gear shaft (411) is axially connected with a gear (405), gear shaft threads (415) are arranged on the surface of the gear shaft (411), the front end inside the telescopic rod (404) is fixedly connected with a connecting device (11), the outside of the telescopic rod (404) is fixedly connected with a plurality of cable guide wheels (414), the cable guide wheels (414) are movably connected with a cable (413), one end of the cable (413) is fixedly connected with a telescopic driving device (12), the other end of the cable (413) is fixedly connected with a cable rotating wheel (401), cable holes (1104) are formed in two sides of the middle section of the inner wall (1101) of the connecting device (11), connecting shafts (1102) are fixedly connected to two sides of the upper section of the inner wall (1101), the connecting shafts (1102) are fixedly connected with connecting rods (1103), and the upper ends of the connecting rods (1103) are fixedly connected with a reset spring (1105), one end of the connecting rod (1103) is fixedly connected with the connecting shaft (1102), the other end of the connecting rod is fixedly connected with the connecting wheel (1106), a cable groove (1107) is formed in the connecting wheel (1106), connecting wheel threads (1108) are formed in the outer ring of the connecting wheel (1106), the upper end and the lower end of the telescopic driving device (12) are fixed in the telescopic rod (404) through a driving rod fixing shaft (1201), the axis of the driving rod fixing shaft (1201) is axially connected with a driving rod (1203), an upward fluted disc (1202) is arranged on the lower section of the driving rod (1203), a downward fluted disc (1202) is arranged on the upper section of the driving rod (1203), a cable pulling ring (1204) is fixedly connected with the central section of the driving rod (1203), a rotary spring (1205) is arranged in the driving rod fixing shaft (1201), one end of the rotary spring (1205) is fixedly connected with the driving rod (1203), the other end is fixedly connected with a machine spring connecting column (1206).

2. The escape manned floating module for marine rescue according to claim 1, characterized in that: transparent inner room (2) top is equipped with solar door panel (3), and solar door panel (3) afterbody fixedly connected with loose axle (301), loose axle (301) and transparent inner room (2) fixed connection, solar door panel (3) head is equipped with charging output post (302), ladder (5) have been erect perpendicularly in transparent inner room (2) of solar door panel (3) head below, ladder (5) top is equipped with charging post fixed plate (502), and charging post fixed plate (502) top and charging post (501) fixed connection, charging post (501) run through transparent inner room (2) and charging output post (302) swing joint, charging post (501) and solar cable (903) fixed connection.

3. The escape manned floating module for marine rescue according to claim 1, characterized in that: the solar charging device is characterized in that a solar cable (903) is arranged at the top of the storage battery (9), the solar cable (903) penetrates through the floor (6) and the inside of the ladder (5) and is fixedly connected with the bottom of the charging column (501), output cables (901) are arranged at the left end and the right end of the storage battery (9), the tail ends of the output cables (901) are fixedly connected with a motor (801), an input cable (902) is arranged at the bottom of the storage battery (9), and the tail end of the input cable (902) is fixedly connected with a stabilizing device (10).

4. The escape manned floating module for marine rescue according to claim 1, characterized in that: stabilising arrangement (10) are through fixed connection post (1004) and transparent inner chamber (2) bottom fixed connection at top, stabilising arrangement (10) inside is equipped with generator (1005), and generator (1005) four sides all with bull stick (1001) bottom swing joint, bull stick (1001) top and pivot (1002) fixed connection, and five flowing water fans (1003) of fixedly connected with on pivot (1002), generator (1005) top and input cable (902) fixed connection, and input cable (902) run through fixed connection post (1004) and battery (9) fixed connection.

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