CN113694410A

CN113694410A - High-altitude rapid rescue sliding device

Info

Publication number: CN113694410A
Application number: CN202111024207.9A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-02
Filing date: 2021-09-02
Publication date: 2021-11-26

Abstract

The invention discloses a high-altitude rapid rescue sliding device which comprises a supporting clamp frame and a buffering sliding structure, wherein the supporting clamp frame is provided with a solid stabilizing frame, one side of the solid stabilizing frame is provided with a supporting ejection platform, the bottom end of the supporting ejection platform is provided with a supporting ejection structure, the other side of the supporting ejection structure is movably provided with the buffering sliding structure, the buffering sliding structure is provided with a plurality of buffering supporting frames and a sliding telescopic structure, the buffering supporting frames are arranged on two sides of the top end of the sliding telescopic structure, one end of each buffering supporting frame is provided with an ejection supporting rod, and each ejection supporting rod is provided with a first ejection rod. Has the advantages that: the support clamping frame can be adapted to windows or railings with different widths, the stability of the whole device in the sliding process is improved, the overturning is prevented, the sliding telescopic structure generates upward movement speed at the initial time of taking off, the parabolic movement is carried out, the sliding stability and the falling time of the device are improved, and the protection of the head of a human body can be achieved.

Description

High-altitude rapid rescue sliding device

Technical Field

The invention relates to the technical field of life jackets, in particular to a high-altitude rapid rescue sliding device.

Background

Rescue refers to a whole process of implementing rescue actions when a person or people and rescue machinery encounter disasters or other abnormal conditions (including natural disasters, accidents, sudden dangerous events and the like); the rescue career refers to the affairs that the rescue can be perfectly prepared for a long time and rescue actions can be timely implemented at any time and any place; the rescue industry is an industrial economy which takes a perfect system, a system or a chain as a platform, takes self systematic large-scale modeling and the like as a basis, can perfectly prepare for a long time, implements rescue actions anytime and anywhere and finally realizes the benefit and income of each party. The existing rescue equipment can not be conveyed to the side of a person to be rescued during high-altitude rescue, so that the rescue often belongs to passive rescue, the rescue time is delayed, the traditional high-altitude rescue is too complex in rescue equipment and inconvenient to use by the person to be rescued, and the problem is solved by urgently needing a high-altitude unmanned aerial vehicle rescue device.

An effective solution to the problems in the related art has not been proposed yet.

SUMMARY OF THE PATENT FOR INVENTION

Aiming at the problems in the related art, the invention provides a high-altitude rapid rescue sliding device to overcome the technical problems in the prior related art.

Therefore, the invention adopts the following specific technical scheme:

the utility model provides a high altitude is rescue slide device rapidly, includes and supports clamping frame and buffering slide structure, it is equipped with the solid steady rest to support the clamping frame, one side of solid steady rest is equipped with supports the ejection platform, the bottom that supports the ejection platform is equipped with supports ejection structure, the opposite side activity that supports ejection structure is equipped with buffering slide structure.

Further, the solid steady rest is equipped with a plurality of first stable splint, evenly be equipped with first stable expansion plate between the first stable splint, the bottom activity of first stable splint is equipped with flexible stable splint, the fixed solid connection horizontal pole that is equipped with in top of first stable splint, the central point that the horizontal pole was connected to the solid puts and is equipped with the flexible connection horizontal pole, the top central point that the flexible connection horizontal pole put and is equipped with first transmission link, the both ends of flexible connection horizontal pole activity respectively are equipped with horizontal pole and solid connection outer horizontal pole in the solid connection, the solid is connected the other side bottom of outer horizontal pole and is fixed and is equipped with a plurality of second and stabilizes splint, evenly be equipped with the stable expansion plate of a plurality of that second between the second stable splint.

Further, support and launch the platform and be equipped with and support and wait the bottom plate, support one side top of waiting the bottom plate in splint fixed connection is stabilized to the second, the central point that supports and wait the bottom plate puts and evenly is equipped with a plurality of pressure relief vents, the opposite side top of supporting and waiting the bottom plate is equipped with supports the handrail frame, the central point that supports the handrail frame puts and is equipped with the connection bar, the other end of connecting the bar in splint fixed connection is stabilized to the second, the top of supporting the handrail frame is close to one side that the splint is stabilized to the second is equipped with horizontal bar, be equipped with the voice broadcast ware in the horizontal bar, the both sides of supporting and waiting the bottom plate all are equipped with the bottom and connect the fixed plate, the bottom connect the fixed plate with support and launch structure fixed connection.

Furthermore, the supporting ejection structure is provided with a supporting ejection shell, the horizontal position of one end of the supporting ejection shell close to the first stable clamping plate is lower than the horizontal position of one end of the supporting ejection shell far away from the first stable clamping plate, the center of the supporting ejection shell is fixedly connected with the bottom connecting and fixing plate, an ejection switch opening is arranged on one side of the top end of the supporting ejection shell, a supporting pillar is arranged on one side of the ejection switch opening, a supporting shaft plate is arranged at the top end of the supporting pillar, a supporting warped plate is movably clamped at the central position of the supporting shaft plate, an ejection trigger plate is fixedly arranged at the top end of the supporting warped plate, the bottom end of one side of the ejection trigger plate is provided with an ejection trigger convex body positioned above the ejection switch opening, the center position of the support ejection shell is provided with a support ejection cavity, and one end of the support ejection cavity, which is far away from the ejection switch opening, is provided with an ejection spring.

Further, the buffering sliding structure is equipped with a plurality of buffering support frames and slides extending structure, the buffering support frame is located slide extending structure's top both sides, the one end of buffering support frame is equipped with launches the bracing piece, it is equipped with first bullet pole to launch the bracing piece, first bullet pole is kept away from slide extending structure's one side top is equipped with elasticity and accomodates the groove, the groove is accomodate to elasticity is kept away from slide extending structure's one section activity is equipped with the elasticity wane, the opposite side top of elasticity wane is equipped with elasticity locking piece, first bullet pole is kept away from slide extending structure's the other end is fixed to be equipped with the second and to eject the pole, the second is ejected the pole and is kept away from slide extending structure's one side is fixed to be equipped with the spring and blocks the piece.

Further, the main part of the telescopic structure that slides adopts prevents wind the cloth, it is equipped with slides and supports a bag to slide the telescopic structure, the central point that slides and supports a bag puts and is equipped with the rescue cabin body, the top inner wall of the rescue cabin body is equipped with flexible cloth of keeping out the wind, the inner wall of flexible cloth of keeping out the wind is equipped with taut rope, the one end activity of taut rope is equipped with adjusts the press button, the bottom of the rescue cabin body is equipped with flexible upper part of the body protective sheath bag, the bottom of flexible upper part of the body protective sheath bag is equipped with prevents falling at the bottom of the pocket, the both sides of preventing falling at the bottom of the pocket all are equipped with the shank and shelve the mouth, the inside top of upper part protective sheath bag is equipped with first gas tank, the bottom of first gas tank be equipped with prevent falling at the bottom of the pocket first gas stay cord of top fixed connection.

Further, be equipped with between the buffering support frame run through in slide the head protection shrink bag of support top bag both sides, the bottom of head protection shrink bag is equipped with the support that opens and shuts, the both sides of the support that opens and shuts are equipped with gaseous the strip of accomodating, the inside of gaseous the strip of accomodating is equipped with the magnet piece of inhaling mutually respectively, be equipped with a plurality of folded sheets between the both ends of the support that opens and shuts, the central point of folded sheet puts and is equipped with folding arm-tie, the top of folding arm-tie is equipped with flexible air-stay, the top of flexible air-stay with the top fixed connection of head protection shrink bag.

Further, the buffering support frame is located the central point that slides and supports a bag both sides puts and is equipped with the direction handle, one side of direction handle is equipped with the second and aerifys the stay cord, the bottom that the stay cord was aerifyd to the second is equipped with and is located slide the second aeration tank that supports a bag both sides, the bottom of second aeration tank is equipped with the curling flight wing, the other end that supports the wane is located the top of curling flight wing, the inside both sides of curling flight wing all are equipped with one-way curling leather strap, the top of one-way curling leather strap is the arc structure, and the top cloth length of curling flight wing is greater than the length of the bottom cloth of curling flight wing.

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

1. drive through remote control unmanned aerial vehicle and support the holder and cushion sliding structure and transport the target location that needs the rescue, avoid when the unable problem of implementing of rescue work because the condition of traffic congestion leads to, after meeting the victim receives the support holder, with first stable splint and the stable splint of second on the wall or the railing of locating the position, because the solid steady rest is equipped with a plurality of first stable splint, evenly be equipped with first stable expansion plate between the first stable splint, the bottom activity of first stable splint is equipped with flexible stable splint, the fixed solid connection horizontal pole that is equipped with in top of first stable splint, the central point that the horizontal pole was connected to the solid puts and is equipped with the flexible connection horizontal pole, can make the window or the railing of support holder adaptation different width.

2. Because the both ends of flexible connection horizontal pole are the activity respectively and are equipped with horizontal pole and the outer horizontal pole of solid connection in the solid connection, the solid is connected the other side bottom end of outer horizontal pole and is fixed and be equipped with a plurality of second and stabilize the splint, evenly be equipped with the stable expansion plate of a plurality of those second between the second is stabilized, can avoid the problem that the position that the victim is located is fixed unstable for the fence, simultaneously can effectively alleviate the weight and the flight resistance of support clamp frame in the transportation process through vertically and horizontally staggered's bracing piece, after the victim is fixed with fixed clamp frame, climb out of the window or outside the fence through horizontal bar, because be equipped with the voice broadcast ware in the horizontal bar, can guide the victim to squat and sit on supporting and waiting for the bottom plate, provide safe guidance, steady victim's mood.

3. Because the supporting handrail frame is arranged at the top end of the other side of the supporting waiting bottom plate, the safety of the victim in the waiting process can be improved, the victim is prevented from falling, the connecting handrail rod is arranged at the central position of the supporting handrail frame, and the stability of the supporting handrail frame is improved.

4. After the elastic seesaw reaches the ejection switch opening arranged on one side of the top end of the support ejection shell, the elastic seesaw is clamped in the ejection switch opening under the action of the elastic force, so that the ejection support rod is stably connected with the stable support frame.

5. Insert the shank through the victim and shelve the mouth in with both feet, receive dragging of bottom when flexible upper part of the body protective sheath bag, thereby make first inflation stay cord tighten the back and make first gas tube aerify the support top bag that slides, after flexible upper part of the body protective sheath in-band is stably arranged in to the human body, only leave the shoulder and be located the top of the support top bag that slides, make whole focus arrange in the center below position of the support top bag that slides, improved the stability of integrated device at the in-process that slides, prevent the upset.

6. Aerify the wing that contracts of curling through the second gas tank, because the top of the wing that contracts of curling is located to the other end that supports the wane, consequently, the one end perk that the support wane is close to the wing that contracts of curling is prized, thereby pop out the support frame, because the horizontal position that the support ejection shell is close to first stable splint one end is less than the horizontal position that the support ejection shell kept away from first stable splint one end, make and slide extending structure and produce ascending velocity of motion when taking off the initial, thereby carry out the parabolic motion, the stability of sliding and the down time of this device have been improved.

7. After the sliding telescopic structure flies out, the air enters the head protection telescopic bag because the bottom end of the head protection telescopic bag is provided with the opening and closing support, so that the head protection telescopic bag is opened, the telescopic pull rod is pulled to move upwards, the folding plate is pulled to be folded, and the gas accommodating strips are respectively provided with the magnet pieces which are attracted mutually, so that the gas is stored in the head protection telescopic bag, and the head of a human body is protected.

Drawings

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

Fig. 1 is a schematic structural diagram of a high-altitude rapid rescue sliding device according to an embodiment of the invention;

FIG. 2 is a side view of a cushioned glide configuration according to the present invention;

FIG. 3 is a top view of a cushioned glide configuration according to the present invention;

FIG. 4 is an enlarged view of a portion of the structure at A in FIG. 3;

figure 5 is a cross-sectional view of a support ejection structure according to the present invention;

FIG. 6 is a partial schematic structural view of the opening and closing stand according to the present invention;

FIG. 7 is a schematic view of the deployment of a crimped flying wing according to the present invention.

In the figure:

1. supporting the clamping frame; 2. a buffer sliding structure; 3. a solid stabilizing frame; 4. supporting the ejection platform; 5. supporting the ejection structure; 6. a first stabilizing splint; 7. a telescopic stable splint; 8. a solid connecting cross bar; 9. the cross rods are connected in a telescopic manner; 10. a first transmission link; 11. the solid is connected with the inner cross rod; 12. the solid is connected with the outer cross rod; 13. a second stabilizing splint; 14. a second stable expansion plate; 15. supporting a waiting bottom plate; 16. a handrail support; 17. connecting the grab rail; 18. a transverse grab rail; 19. the bottom is connected with a fixed plate; 20. supporting the ejection shell; 21. ejecting the switch port; 22. a support pillar; 23. ejecting the trigger plate; 24. ejecting the trigger convex body; 25. supporting the ejection cavity; 26. an ejection spring; 27. a buffer support frame; 28. a sliding telescopic structure; 29. ejecting the supporting rod; 30. a first ejection lever; 31. an elastic force receiving groove; 32. an elastic seesaw; 33. an elastic locking block; 34. a second ejection lever; 35. a spring stop; 36. sliding to support the top bag; 37. a rescue capsule body; 38. a telescopic windproof cloth; 39. tensioning the rope; 40. adjusting the pressing button; 41. a telescopic upper body protective sleeve bag; 42. the bottom is prevented from falling; 43. a leg rest opening; 44. a head-protecting contractive bag; 45. opening and closing the bracket; 46. folding the board; 47. folding the pulling plate; 48. a guide handle; 49. a second inflation pull cord; 50. and (4) rolling the flying wing.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to explain, by reference, other possible embodiments and advantages of the invention.

Example one

As shown in fig. 1-5:

the invention provides a structural schematic diagram of a high-altitude rapid rescue sliding device, which comprises a supporting clamp 1 and a buffering sliding structure 2, wherein the supporting clamp 1 is provided with a solid stabilizing frame 3, one side of the solid stabilizing frame 3 is provided with a supporting ejection platform 4, the bottom end of the supporting ejection platform 4 is provided with a supporting ejection structure 5, the other side of the supporting ejection structure 5 is movably provided with the buffering sliding structure 2, the solid stabilizing frame 3 is provided with a plurality of first stabilizing clamp plates 6, first stabilizing expansion plates 6 are uniformly arranged among the first stabilizing clamp plates 6, the bottom end of each first stabilizing clamp plate 6 is movably provided with a telescopic stabilizing clamp plate 7, the top end of each first stabilizing clamp plate 6 is fixedly provided with a solid connecting cross rod 8, the central position of each solid connecting cross rod 8 is provided with a telescopic connecting cross rod 9, and the central position of the top end of each telescopic connecting cross rod 9 is provided with a first transmission hanging ring 10, the two ends of the telescopic connecting cross rod 9 are respectively and movably provided with a solid connecting inner cross rod 11 and a solid connecting outer cross rod 12, the bottom of the other side of the solid connecting outer cross rod 12 is fixedly provided with a plurality of second stable clamping plates 13, a plurality of second stable expansion plates 14 are uniformly arranged between the second stable clamping plates 13, the supporting ejection platform 4 is provided with a supporting waiting bottom plate 15, the top of one side of the supporting waiting bottom plate 15 is fixedly connected with the second stable clamping plates 13, the central position of the supporting waiting bottom plate 15 is uniformly provided with a plurality of pressure reducing holes, the top of the other side of the supporting waiting bottom plate 15 is provided with a supporting handrail frame 16, the central position of the supporting handrail frame 16 is provided with a connecting handrail rod 17, the other end of the connecting handrail rod 17 is fixedly connected with the second stable clamping plates 13, one side of the top of the supporting handrail frame 16, which is close to the second stable clamping plates 13, is provided with a transverse handrail rod 18, the voice broadcasting device is arranged in the transverse grab bar 18, the two sides of the supporting waiting bottom plate 15 are both provided with bottom connecting fixing plates 19, the bottom connecting fixing plates 19 are fixedly connected with the supporting ejection structure 5, the supporting ejection structure 5 is provided with a supporting ejection shell 20, the horizontal position of one end, close to the first stable clamping plate 6, of the supporting ejection shell 20 is lower than the horizontal position, far away from one end of the first stable clamping plate 6, of the supporting ejection shell 20, the central position of the supporting ejection shell 20 is fixedly connected with the bottom connecting fixing plates 19, one side of the top end of the supporting ejection shell 20 is provided with an ejection switch port 21, one side of the ejection switch port 21 is provided with a supporting pillar 22, the top end of the supporting pillar 22 is provided with a supporting shaft plate, the central position of the supporting shaft plate is movably clamped with a supporting rocker, the top end of the supporting rocker is fixedly provided with a trigger plate 23, an ejection trigger convex body 24 positioned above the ejection switch opening 21 is arranged at the bottom end of one side of the ejection trigger plate 23, a support ejection cavity 25 is arranged at the central position of the support ejection shell 20, and an ejection spring 26 is arranged at one end, far away from the ejection switch opening 21, of the support ejection cavity 25.

The detailed usage and function of the first embodiment: the support clamping frame 1 and the buffering sliding structure 2 are driven by a remote control unmanned aerial vehicle to be transported to a target position needing rescue, the shuttle time of a fire engine in the traffic stream is saved, the time is saved for the rescue work, after a victim receives the support clamping frame 1, the first stable clamping plate 6 and the second stable clamping plate 13 are clamped on a wall or a railing at the position, because the solid stable frame 3 is provided with a plurality of first stable clamping plates 6, the first stable expansion plates 6 are uniformly arranged between the first stable clamping plates 6, the bottom end of the first stable clamping plate 6 is movably provided with the telescopic stable clamping plate 7, the top end of the first stable clamping plate 6 is fixedly provided with the solid connecting cross rod 8, the central position of the solid connecting cross rod 8 is provided with the telescopic connecting cross rod 9, the support clamping frame 1 can adapt to windows or railings with different widths, the rescue work can be effectively carried out, because the two ends of the telescopic connecting cross rod 9 are respectively and movably provided with the solid connecting inner cross rod 11 and the solid connecting outer cross rod 12, the bottom end of the other side of the solid connection outer cross bar 12 is fixedly provided with a plurality of second stable clamping plates 13, a plurality of second stable expansion plates 14 are uniformly arranged between the second stable clamping plates 13, the problem of unstable fixation caused by a fence at the position of a victim can be avoided, meanwhile, the weight and flight resistance of the support clamping frame 1 in the conveying process can be effectively reduced through the criss-cross support rods, when the victim fixes the fixed clamping frame, the victim climbs out of a window or the fence through the transverse handrail rods 18, because the voice broadcasting device is arranged in the transverse handrail rods 18, the victim can be guided to squat on the support waiting bottom plate 15 to provide safety guidance, the mind of the victim is stabilized, because the top end of the other side of the support waiting bottom plate 15 is provided with the support handrail frame 16, the safety of the victim in the waiting process can be improved, the victim can be prevented from falling, the center position of the support handrail frame 16 is provided with the connection handrail rod 17, the stability of supporting handrail frame 16 has been improved, after the victim sits and receives the buffering and slides structure 2 steadily, through the pronunciation instruction, will launch the bracing piece 29 and insert and support ejection shell 20, because launch the bracing piece 29 and be equipped with first ejection pole 30, one side top that first ejection pole 30 kept away from and slided extending structure 28 is equipped with elasticity and accomodates groove 31, one section activity that the groove 31 was kept away from and slided extending structure 28 is accomodate to elasticity is equipped with elasticity wane 32, after the elasticity seesaw reachd the ejection switch mouth 21 department that sets up on one side of the top that supports ejection shell 20, the elasticity seesaw receives the elasticity effect card in launching switch mouth 21, make ejection bracing piece 29 and stable support frame stable connection.

Example two

As shown in fig. 1-2 and 6-7:

the invention provides a structural schematic diagram of a high-altitude rapid rescue sliding device, which comprises a supporting clamp 1 and a buffering sliding structure 2, wherein the supporting clamp 1 is provided with a solid stabilizing frame 3, one side of the solid stabilizing frame 3 is provided with a supporting ejection platform 4, the bottom end of the supporting ejection platform 4 is provided with a supporting ejection structure 5, the other side of the supporting ejection structure 5 is movably provided with the buffering sliding structure 2, the solid stabilizing frame 3 is provided with a plurality of first stabilizing clamp plates 6, first stabilizing expansion plates 6 are uniformly arranged among the first stabilizing clamp plates 6, the bottom end of each first stabilizing clamp plate 6 is movably provided with a telescopic stabilizing clamp plate 7, the top end of each first stabilizing clamp plate 6 is fixedly provided with a solid connecting cross rod 8, the central position of each solid connecting cross rod 8 is provided with a telescopic connecting cross rod 9, and the central position of the top end of each telescopic connecting cross rod 9 is provided with a first transmission hanging ring 10, the two ends of the telescopic connecting cross rod 9 are respectively movably provided with a solid connecting inner cross rod 11 and a solid connecting outer cross rod 12, the other side bottom end of the solid connecting outer cross rod 12 is fixedly provided with a plurality of second stabilizing clamping plates 13, a plurality of second stabilizing expansion plates 14 are uniformly arranged between the second stabilizing clamping plates 13, the buffering sliding structure 2 is provided with a plurality of buffering supporting frames 27 and a sliding expansion structure 28, the buffering supporting frames 27 are arranged at two sides of the top end of the sliding expansion structure 28, one end of each buffering supporting frame 27 is provided with an ejection supporting rod 29, the ejection supporting rod 29 is provided with a first ejection rod 30, the top end of one side of the first ejection rod 30, which is far away from the sliding expansion structure 28, is provided with an elastic accommodating groove 31, one section of the elastic accommodating groove 31, which is far away from the sliding expansion structure 28, is provided with an elastic warping plate 32, and the top end of the other side of the elastic warping plate 32 is provided with an elastic locking block 33, the other end of the sliding telescopic structure 28 far away from the first ejection rod 30 is fixedly provided with a second ejection rod 34, one side of the sliding telescopic structure 28 far away from the second ejection rod 34 is fixedly provided with a spring stop block 35, the main body of the sliding telescopic structure 28 adopts windproof cloth, the sliding telescopic structure 28 is provided with a sliding support top bag 36, the central position of the sliding support top bag 36 is provided with a rescue cabin body 37, the inner wall of the top end of the rescue cabin body 37 is provided with a telescopic windproof cloth 38, the inner wall of the telescopic windproof cloth 38 is provided with a tensioning rope 39, one end of the tensioning rope 39 is movably provided with an adjusting press buckle 40, the bottom end of the rescue cabin body 37 is provided with a telescopic upper body protective sleeve bag 41, the bottom end of the telescopic upper body protective sleeve bag 41 is provided with an anti-falling pocket bottom 42, both sides of the anti-falling pocket bottom 42 are provided with leg holding openings 43, the inner top end of the upper body protective sleeve bag is provided with a first inflation tank, the bottom end of the first inflation tank is provided with a first inflation stay cord fixedly connected with the top end of the anti-falling pocket bottom 42, a head protection shrinkage bag 44 penetrating through two sides of the sliding support top bag 36 is arranged between the buffer support frames 27, the bottom end of the head protection shrinkage bag 44 is provided with an opening and closing support 45, two sides of the opening and closing support 45 are provided with gas storage strips, the inside of the gas storage strips is respectively provided with a mutual absorption magnet sheet, a plurality of folding plates 46 are arranged between two ends of the opening and closing support 45, the central position of each folding plate 46 is provided with a folding pull plate 47, the top end of each folding pull plate 47 is provided with a telescopic inflation rod, the top end of each telescopic inflation rod is fixedly connected with the top end of the head protection shrinkage bag 44, the buffer support frames 27 are arranged at the central positions of two sides of the sliding support top bag 36 and are provided with guide handles 48, one side of each guide handle 48 is provided with a second inflation stay cord 49, the bottom of stay cord 49 is aerifyd to the second is equipped with and is located the second gas tank that slides and support top bag 36 both sides, the bottom of second gas tank is equipped with the curling flight wing 50, the other end that supports the wane is located the top of curling flight wing 50, the inside both sides of curling flight wing 50 all are equipped with one-way curling leather strap, the top of one-way curling leather strap is the arc structure, and the top cloth length of curling flight wing 50 is greater than the length of the bottom cloth of curling flight wing 50.

The detailed application method and function of the second embodiment: the victim inserts both feet into the leg rest opening 43, because the inner top of the upper body protective sleeve bag is provided with the inflatable tank, the bottom end of the inflatable tank is provided with the first inflatable stay cord fixedly connected with the top end of the anti-falling pocket bottom 42, when the telescopic upper body protective sleeve bag 41 is pulled by the bottom, the first inflatable stay cord is tightened to enable the first inflatable tube to inflate the sliding support top bag 36, when the human body is stably arranged in the telescopic upper body protective sleeve, only the shoulder part is left to be arranged at the top end of the sliding support top bag 36, the whole gravity center is arranged in the center position of the sliding support top bag 36, at the moment, the victim grasps both hands to stabilize the guide handles 48 at both ends, pulls down the guide handles 48 forcefully, and enables the second inflatable stay cord 49 to be tightened, the second inflatable tank to inflate the curling flying wing 50, because the other end of the support wane is arranged at the top end of the curling flying wing 50, the prying support wane is close to one end of the curling wing 50, so that the other end of the supporting rocker is lowered, the elastic rocker is pressed back into the supporting ejection shell 20, the supporting frame is ejected through the ejection spring 26 arranged at one end of the supporting ejection cavity 25 far away from the ejection switch port 21, the horizontal position of one end of the supporting ejection shell 20 close to the first stable splint 6 is lower than the horizontal position of one end of the supporting ejection shell 20 far away from the first stable splint 6, so that the sliding telescopic structure 28 generates upward movement speed at the initial take-off time, and thus the parabolic movement is performed, after the sliding telescopic structure 28 flies out, because the bottom end of the head protection telescopic bag 44 is provided with the opening and closing support 45, air enters the head protection telescopic bag 44, so that the head protection telescopic bag 44 is spread, the telescopic pull air rod is pulled to move upwards, so that the folding plate 46 is pulled to be folded, the inside of the gas receiving strips is respectively provided with the mutually sucking sheets, so that the gas is stored in the head protection telescopic bag 44, thereby protecting the head of the human body.

In conclusion, by means of the technical scheme of the invention, the problem that rescue work cannot be implemented due to traffic jam is effectively avoided, the support clamping frame can be adapted to windows or railings with different widths, the weight and flight resistance of the support clamping frame in the conveying process can be effectively reduced through the criss-cross support rods, safety guidance can be provided, the mind of a victim can be stabilized, the safety of the victim can be improved due to the fact that the support handrail frame is arranged at the top end of the other side of the support waiting bottom plate, the safety of the victim in the waiting process can be improved, the victim can be prevented from falling down, the connecting handrail rod is arranged in the center of the support handrail frame, the stability of the support handrail frame is improved, after the elastic seesaw reaches the ejection switch opening arranged at one side of the top end of the support ejection shell, the ejection seesaw is clamped in the ejection switch opening under the effect of the elastic force, and the support rod is stably connected with the stable support frame, the feet of a victim are inserted into the leg placing ports, after the telescopic upper body protective sleeve bag is pulled by the bottom, the first inflation stay cord is tightened to enable the first inflation tube to inflate the sliding support top bag, after a human body is stably arranged in the telescopic upper body protective sleeve bag, because the horizontal position of one end, close to the first stable splint, of the support ejection shell is lower than the horizontal position of one end, far away from the first stable splint, of the support ejection shell, the sliding telescopic structure generates upward movement speed at the initial take-off time, thereby performing parabolic movement, improving the sliding stability and descending time of the device, and after the sliding telescopic structure flies out, because the bottom end of the head protection telescopic bag is provided with the opening and closing support, air enters the head protection telescopic bag, so that the head protection telescopic bag is opened, thereby pulling the telescopic pull rod to move upwards, thereby pulling the folding plate to fold, the inside of the gas containing strip is respectively provided with the magnet piece which absorbs mutually, so that gas is stored in the head protection shrinkage bag, and the beneficial effect of protecting the head of a human body is achieved.

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 present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. The utility model provides a high altitude is rescue slide device rapidly which characterized in that, slides structure (2) including supporting holder (1) and buffering, support holder (1) is equipped with solid steady rest (3), one side of solid steady rest (3) is equipped with supports catapulting platform (4), the bottom that supports catapulting platform (4) is equipped with supports catapulting structure (5), the opposite side activity that supports catapulting structure (5) is equipped with buffering slides structure (2).

2. The high-altitude rapid rescue sliding device according to claim 1, wherein the solid stabilizing frame (3) is provided with a plurality of first stabilizing clamping plates (6), first stabilizing expansion plates (6) are uniformly arranged between the first stabilizing clamping plates (6), telescopic stabilizing clamping plates (7) are movably arranged at the bottom ends of the first stabilizing clamping plates (6), a solid connecting cross rod (8) is fixedly arranged at the top end of the first stabilizing clamping plates (6), a telescopic connecting cross rod (9) is arranged at the central position of the solid connecting cross rod (8), a first transmission hanging ring (10) is arranged at the central position of the top end of the telescopic connecting cross rod (9), a solid connecting inner cross rod (11) and a solid connecting outer cross rod (12) are respectively and movably arranged at two ends of the telescopic connecting cross rod (9), a plurality of second stabilizing clamping plates (13) are fixedly arranged at the bottom ends of the other sides of the solid connecting outer cross rod (12), a plurality of second stable expansion plates (14) are uniformly arranged between the second stable clamping plates (13).

3. The high-altitude rapid rescue sliding device according to claim 1, wherein the supporting ejection platform (4) is provided with a supporting waiting bottom plate (15), one side of the supporting waiting bottom plate (15) is fixedly connected with the second stabilizing clamping plate (13), a plurality of pressure relief holes are uniformly formed in the center of the supporting waiting bottom plate (15), a supporting handrail frame (16) is arranged on the other side of the supporting waiting bottom plate (15), a connecting handrail rod (17) is arranged in the center of the supporting handrail frame (16), the other end of the connecting handrail rod (17) is fixedly connected with the second stabilizing clamping plate (13), a transverse handrail rod (18) is arranged on one side, close to the second stabilizing clamping plate (13), of the top end of the supporting handrail frame (16), a voice broadcasting device is arranged in the transverse handrail rod (18), the two sides of the support waiting bottom plate (15) are respectively provided with a bottom connecting and fixing plate (19), and the bottom connecting and fixing plates (19) are fixedly connected with the support ejection structure (5).

4. The high altitude rapid rescue sliding device according to claim 1, wherein the supporting ejection structure (5) is provided with a supporting ejection shell (20), a horizontal position of one end, close to the first stable clamping plate (6), of the supporting ejection shell (20) is lower than a horizontal position of one end, far away from the first stable clamping plate (6), of the supporting ejection shell (20), a central position of the supporting ejection shell (20) is fixedly connected with the bottom connecting and fixing plate (19), an ejection switch opening (21) is arranged on one side of the top end of the supporting ejection shell (20), a supporting pillar (22) is arranged on one side of the ejection switch opening (21), a supporting shaft plate is arranged on the top end of the supporting pillar (22), a supporting rocker is movably clamped at the central position of the supporting shaft plate, and an ejection trigger plate (23) is fixedly arranged on the top end of the supporting rocker, the ejection trigger device is characterized in that an ejection trigger convex body (24) located above the ejection switch port (21) is arranged at the bottom end of one side of the ejection trigger plate (23), a support ejection cavity (25) is arranged at the center of the support ejection shell (20), and an ejection spring (26) is arranged at one end, far away from the ejection switch port (21), of the support ejection cavity (25).

5. The high-altitude rapid rescue sliding device according to claim 4, wherein the buffering sliding structure (2) is provided with a plurality of buffering supporting frames (27) and a sliding telescopic structure (28), the buffering supporting frames (27) are arranged on two sides of the top end of the sliding telescopic structure (28), one end of the buffering supporting frame (27) is provided with an ejection supporting rod (29), the ejection supporting rod (29) is provided with a first ejection rod (30), the top end of one side of the first ejection rod (30) far away from the sliding telescopic structure (28) is provided with an elastic force receiving groove (31), one section of the elastic force receiving groove (31) far away from the sliding telescopic structure (28) is movably provided with an elastic warping plate (32), the top end of the other side of the elastic warping plate (32) is provided with an elastic force locking block (33), and the other end of the first ejection rod (30) far away from the sliding telescopic structure (28) is fixedly provided with a second ejection rod (34), and a spring stop block (35) is fixedly arranged on one side, far away from the sliding telescopic structure (28), of the second ejection rod (34).

6. The high-altitude rapid rescue sliding device according to claim 5, wherein the main body of the sliding telescopic structure (28) is made of windproof cloth, the sliding telescopic structure (28) is provided with a sliding support top bag (36), a rescue cabin body (37) is arranged at the center of the sliding support top bag (36), a telescopic wind-shielding cloth (38) is arranged on the inner wall of the top end of the rescue cabin body (37), a tensioning rope (39) is arranged on the inner wall of the telescopic wind-shielding cloth (38), an adjusting press buckle (40) is movably arranged at one end of the tensioning rope (39), a telescopic upper body protective sleeve bag (41) is arranged at the bottom end of the rescue cabin body (37), a falling-preventing bottom (42) is arranged at the bottom end of the telescopic upper body protective sleeve bag (41), leg rest openings (43) are arranged on two sides of the falling-preventing bottom (42), and a first inflation tank is arranged at the top end of the inner part of the upper body protective sleeve bag, the bottom end of the first inflation tank is provided with a first inflation pull rope fixedly connected with the top end of the anti-falling pocket bottom (42).

7. The high-altitude rapid rescue sliding device according to claim 5, wherein head protection shrinkage bags (44) penetrating through two sides of the sliding support top bag (36) are arranged between the buffer support frames (27), an opening and closing support (45) is arranged at the bottom end of each head protection shrinkage bag (44), gas storage strips are arranged on two sides of each opening and closing support (45), attraction magnet pieces are respectively arranged inside each gas storage strip, a plurality of folding plates (46) are arranged between two ends of each opening and closing support (45), a folding pulling plate (47) is arranged at the center position of each folding plate (46), a telescopic air pulling rod is arranged at the top end of each folding pulling plate (47), and the top end of each telescopic air pulling rod is fixedly connected with the top end of each head protection shrinkage bag (44).

8. High altitude rapid rescue slide device according to claim 1, the buffer support frame (27) is provided with a guide handle (48) at the central position of the two sides of the sliding support top bag (36), a second inflation pull rope (49) is arranged on one side of the guide handle (48), a second inflation tank positioned on two sides of the sliding support top bag (36) is arranged at the bottom end of the second inflation pull rope (49), a curling flying wing (50) is arranged at the bottom end of the second inflatable tank, the other end of the supporting warping plate is arranged at the top end of the curling flying wing (50), the inside both sides of the flight wing that crimples (50) all are equipped with one-way crimpling leather strap, the top of one-way crimpling leather strap is the arc structure, and the top cloth length of the flight wing that crimples (50) is greater than the length of the bottom cloth of the flight wing that crimples (50).