CN116281690A - Water environment engineering narrow and small space emergency rescue transportation device - Google Patents

Abstract

The utility model relates to the technical field of rescue equipment, and discloses an emergency rescue transportation device in a narrow space of water environment engineering, which comprises a bottom supporting rod and a rope collecting device, wherein the top end of the bottom supporting rod is hinged with a connecting supporting rod, the side surface of the connecting supporting rod is fixedly connected with a inserted rod fixing end, the inner side of the inserted rod fixing end is slidably connected with a inserted rod, the top side surface of the inserted rod fixing end is fixedly connected with a pin rod spring, the tail end of the top end of the connecting supporting rod is hinged with a hinged plate, the top surface of the hinged plate is fixedly connected with a supporting round table, the surface of the supporting round table is slidably connected with a downward pushing rod everywhere, and a pressing plate spring is arranged at the outer side of the bottom end of the downward pushing rod.

Description

Water environment engineering narrow and small space emergency rescue transportation device

Technical Field

The utility model relates to the technical field of rescue equipment, in particular to a narrow space emergency rescue transportation device for water environment engineering.

Background

Generally, a relatively narrow water environment is usually lower than the ground or in a natural drainage channel below the displacement ground, such as a road engineering sewer, a wellhead and the like, and due to the fact that the narrow structure is lower than the ground, the exchange frequency between the narrow structure and outside air in a space is relatively low, so that oxygen in the internal space is relatively low, and due to the fact that air generated by putrefying substances exists in the space, the human health can be damaged due to long-time stay, coma can be seriously caused, and therefore, a device is needed to rescue personnel falling into the narrow space by mistake to assist effective rescue.

The utility model patent with the application number of CN202221788326.1 discloses a narrow space emergency rescue transportation device, which comprises a supporting rod, a base, ground nails, a connecting seat, a positioning hole and a limiting disc. The beneficial effects of the utility model are as follows: the device comprises a fixing seat, a third roller seat, a second lifting rope, a third roller, a limiting plate, a positioning hole, a locking screw and an emergency rescue transportation device, wherein the two fixing seats are connected to one another, the third roller seat is connected to the other fixing seat, the third roller seat is connected to the center of the third roller seat, the third roller is connected with a second lifting rope, one end of the second lifting rope is fixed to the top end of the first roller seat, the other end of the second lifting rope is fixed to the top end of the second roller seat, the third roller is connected to the second roller seat in a rotating mode, the emergency rescue transportation device enables rescue workers to quickly lift objects during rescue, a limiting plate of a fan-shaped structure is welded and fixed to the edge of the connecting seat in the device, a positioning hole is formed in the edge of the limiting plate at equal angle, and locking screws are arranged in the positioning hole, so that workers can adjust the whole supporting angle of the supporting rod according to needs, and the whole stability of the device is improved, but an integral supporting structure is adopted, the problem that the emergency rescue transportation device is inconvenient to store and transport the structure is needed, and therefore a small space of water environment engineering is provided to solve the problem.

Disclosure of Invention

The utility model aims to solve the technical problem of providing the water environment engineering narrow space emergency rescue transportation device aiming at the defects in the prior art.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a narrow and small space emergency rescue conveyer of water environmental engineering, includes bottom support pole and receipts rope device, the top of bottom support pole articulates and is connected with the connection vaulting pole, the side fixedly connected with inserted bar solid end of connection vaulting pole, the inboard sliding connection of inserted bar solid end has the inserted bar, the fixed end top side fixedly connected with round pin pole spring of inserted bar, the top end articulated connection of connection vaulting pole has the articulated slab, the top surface fixedly connected with support round platform of articulated slab, the surface sliding connection of support round platform has the push rod that moves downwards everywhere, the bottom outside of push rod that moves downwards is provided with the clamp plate spring, the top surface fixedly connected with elastic pressing plate of push rod that moves downwards, the sliding ring groove has been seted up to the side of articulated slab, the inboard sliding connection of sliding ring groove has the screens ring, the outside fixedly connected with solid ring piece of screens ring, the pin rod spring is fixedly connected with the tail end of the top side of the pin rod, the downward-moving push rod penetrates through the bottom surface from the top surface of the supporting circular table, the bottom end of the pressing plate spring is fixedly connected with the fixed ring block, the fixed ring block is fixedly connected with the bottom end of the downward-moving push rod, through the structure, firstly, when the structure is used, the bottom support rod is unfolded from the inner side of the connecting support rod around the hinge joint, in the process of overturning the bottom support rod, the cambered surface of the top end of the bottom support rod is contacted with the pin rod, the pin rod is jacked upwards, the pin rod spring is pulled when the pin rod moves upwards, after the connecting support rod is kept parallel with the bottom support rod, the pin rod spring releases elasticity, the pin rod is downwards moved and inserted into a hole at the top end of the bottom support rod to be connected, so that quick fixing is realized, when the connecting support rod is hinged around the hinge joint of the hinge joint, the snap ring groove formed at the top end of the connecting support rod is gradually contacted with the snap ring along with overturning, when the supporting round table is stressed downwards, the connecting stay bar and the hinged plate are guaranteed to be hinged out and not rotate any more, when the contact is locked, the elastic pressing plate is lifted upwards, the elastic pressing plate drives the downward pushing rod to move when moving, and in the moving process of the downward pushing rod, the fixed ring block connected with the tail end of the downward pushing rod extrudes the pressing plate spring to deform, so that the fixed ring block is moved together with the clamping ring until the adjacent clamping groove of the clamping ring groove and the clamping ring can clamp the connecting stay bar.

The rope collecting device comprises a driving supporting plate, a lifting rod end shell is arranged on the front side surface of the driving supporting plate, a handle is fixedly connected to the left side surface of the lifting rod end shell, a rope winding gear is arranged inside the lifting rod end shell, a latch block is connected to the left side surface of the rope winding gear in a meshed mode, a clamping ball is arranged on the left side of the latch block, a ball spring is fixedly connected to the side surface of the clamping ball, the ball spring is fixedly connected with the lifting rod end shell, a rope winding roller is fixedly connected to the axle center of the rope winding gear, a rope guiding roller is arranged under the rope winding roller, a spring block fixing end is arranged on the lower side of the lifting rod end shell, a pressing spring block is arranged on the inner side of the fixing end of the spring block, a pressing spring is arranged in the middle of the surface of the pressing spring block, two clamping block lifting rods are fixedly connected to the rear side surfaces of the pressing spring block, the outer side surface of the clamping block lifting rod is fixedly connected with a rope tightening block, the side surface of the driving supporting plate is fixedly connected with a rope guiding end, two parts of the rope tightening block are respectively provided with a shrinkage guide block, the side surface of the lifting rod end shell is provided with a slide bar waist groove, a rope winding gear is connected with a latch block in a clamping way, the latch block is rotationally connected with the lifting rod end shell, two arc grooves are formed in the left side of the latch block, the arc grooves in the side surface of the latch block are matched with clamping balls, the rope guiding roller is rotationally connected with the driving supporting plate, the shrinkage guide blocks are fixedly connected with a supporting round table, through the structure, when the handle is used, the handle is held upwards by hand, and when the handle is lifted upwards from bottom, the lifting rod end shell is driven to rotate around a rope winding roller shaft through the handle, at the moment, the clamping balls are extruded by an internal ball spring of the lifting rod end shell to be clamped at the grooves in the side surface of the latch block, through tooth and the rope gear meshing of latch piece side, lift the pole end shell and rotate with the rope roller logical axle this moment, when the handle rotates to the rotation, the latch piece no longer with the rope gear meshing this moment, rotate extrusion screens ball and ball spring, lift the pole end shell and no longer rotate with the rope roller is coaxial this moment, lift the pole end shell and rotate anticlockwise downwards simultaneously, drive lifting connecting rod and move down, the spring pushes down of pushing down that lifting connecting rod connects this moment, push down the bullet piece and remove and drive the clamp splice and lift the pole and move down, and let the clamp splice lift the tight rope piece in the pole outside and tighten up under shrink guide block direction gradually, and then will pass the rope of both sides tight rope piece and clip fixedly, prevent that the rope on the rope roller from moving down.

The side of the rope collecting device is provided with a rope locking device, the rope locking device comprises a turning rod, the front side of the turning rod is fixedly connected with a limit stop, the left side top end of the driving supporting plate is provided with a clamping groove, the right side of the driving supporting plate is fixedly connected with a hooking groove block, the surface of the hooking groove block is clamped with a hooking block suspender, the hooking block suspender penetrates through the bottom end of the rope guiding end, the outer side of the bottom end of the hooking block suspender is provided with a suspender spring, the tail end of the hooking block suspender is fixedly connected with a pushing deflector rod, the outer side of the pushing deflector rod is slidably connected with two chute sliding rods, the inner side of each chute sliding rod is provided with a locking support block, the right side bottom surface of the driving supporting plate is fixedly connected with a deflector rod chute, the side of the driving supporting plate is provided with a lifting rod guide groove penetrating through the surfaces of the two sides, the lifting rod guide grooves are symmetrically distributed, the turning rod is rotationally connected with the driving supporting plate, the left end of the limit stop is fixedly connected with a clamping hook, the clamping hook groove is in clamping connection with the clamping hook, the right end of the limit stop extends outwards, the hook block suspender penetrates through the bottom surface of the hook groove block, the bottom end of the suspender spring is fixedly connected with the downward-pressing deflector rod, the top end of the suspender spring is fixedly connected with the bottom surface of the guide rope end, the lifting rod guide groove is in sliding connection with the clamping block lifting rod, the deflector rod guide groove is in sliding connection with the downward-pressing deflector rod, the inclined guide groove is arranged above the lifting rod guide groove and is in sliding connection with the chute slide rod, through the structure, after a rope positioned on the upper part of the supporting circular table is broken, the rope rolling roller is not dragged by the rope, and kinetic energy generated in the moment of a short rope can enable the rope rolling roller to rotate clockwise, and when the rope rolling roller rotates, the lifting rod end shell can rotate along with the rope rolling roller, when the end shell of the lifting rod exceeds the limit height blocked by the limit stop, the limit stop is jacked up upwards when the end shell of the lifting rod is rotated, the turnover rod connected with the limit stop rotates around the hinge point, the clamping hook at the tail end of the turnover rod is separated from the clamping hook groove, the extending part on the right side of the turnover rod is used for pushing the hook block hanging rod in a deflection mode, the hook block hanging rod is not blocked by the hook groove block any more, when the hanging rod spring for storing energy at the bottom side of the hook block hanging rod is used for enabling the downward pushing deflector rod connected with the bottom end of the hook block hanging rod to move downwards in an accelerating mode, the chute sliding rod connected with the downward pushing deflector rod is pushed to slide along the inclined chute, the two chute sliding rods are enabled to be close to each other rapidly, and the broken rope is clamped by the locking deflector rod.

The end of connecting the vaulting pole is provided with reinforcing apparatus, reinforcing apparatus includes the spring push rod, the bottom lateral surface fixedly connected with oblique briquetting of spring push rod, the bottom inboard of connecting the vaulting pole articulates and is connected with the supporting pedal, the threading rod groove has been seted up on the surface of supporting pedal, the upper surface of supporting pedal is provided with presses the nail piece, the bottom surface fixedly connected with of pressing the nail piece wears the ground nail, the spring push rod runs through to the inside of connecting the vaulting pole, and spring push rod and connecting the vaulting pole sliding connection, the bottom surface of pressing the nail piece is the contained angle with the horizon, and the contained angle is less than twenty degrees, wear the ground nail and run through out the bottom surface by the surface of supporting pedal, through above-mentioned structure, when the latch lever is by the pin spring pulling of release elasticity in inserting the connecting the vaulting pole, the latch lever inserts the striking spring push rod in the twinkling of an eye of connecting the vaulting pole, lets the spring push rod pop out from the connecting the vaulting pole to wear the pole groove inserts ground, simultaneously, the oblique briquetting in the outside of spring push rod lets the extrusion nail piece to press the nail piece, lets the nail piece to wear the ground nail, and inserts the ground nail.

By adopting the technical scheme, the utility model can bring the following beneficial effects:

1. this water environmental engineering narrow and small space emergency rescue conveyer through the end stay pole, connect the vaulting pole, the inserted bar holds, the bolt pole, the pin pole spring, articulated slab and screens ring to fix when accomodating, when expanding the beta structure, utilize the structure to expand and rotate or remove to realize, the quick locking of beta structure, when making things convenient for overall structure to fold to accomodate, save the required time of structure locking and adjustment, and then promote rescue efficiency.

2. According to the water environment engineering narrow space emergency rescue transportation device, the rope winding is realized by the force applied by the rod-shaped structure through the lifting connecting rod, the pressing spring, the clamping block lifting rod, the rope tightening block, the rope guiding end and the shrinkage guide block, so that the rope winding efficiency can be improved, and the pressure born by the hand and the side required by the rope contact part can be reduced.

3. This water environment engineering narrow and small space emergency rescue conveyer through turning over bull stick, limit stop, trip groove, collude the groove piece, collude piece jib, jib spring, push down driving lever, chute slide bar, locking piece, under the emergency of rope disconnection suddenly, lock the rope fixedly fast to prevent to disconnect the rope and drop down promptly and lead to the rescue personnel to cause the whereabouts injury, promote whole device's security.

4. This water environment engineering narrow and small space emergency rescue conveyer through spring push rod, oblique briquetting, supporting pedal, rod through groove, press nail piece, wear the ground nail, lets elastic construction realize striking, triggers other structure operations through the power that the striking produced, and supplementary fixed knot constructs inserts ground, increases the stability of whole device when fixed ground.

Drawings

FIG. 1 is a schematic view of a front perspective structure of the present utility model;

FIG. 2 is a schematic view of a clamping structure of a clamping ring according to the present utility model;

FIG. 3 is a schematic view of the internal structure of the solid end of the spring block according to the present utility model;

FIG. 4 is a schematic side view of a driving brace of the present utility model;

FIG. 5 is a schematic view of the reinforcement device of the present utility model;

fig. 6 is an enlarged schematic view of the structure of fig. 5 a according to the present utility model.

In the figure: 1. a bottom support rod; 2. connecting a stay bar; 3. the fixed end of the inserted link; 4. a latch rod; 5. a rope collecting device; 51. driving the supporting plate; 52. lifting the end shell of the rod; 53. a handle; 54. a rope winding gear; 55. a latch block; 56. a clamping ball; 57. a ball spring; 58. rope winding roller; 59. rope guiding roller; 610. fixing ends of the elastic blocks; 611. pressing down the spring block; 612. lifting the connecting rod; 613. pressing down the spring; 614. lifting the rod by the clamping block; 615. rope tightening blocks; 616. a cable end; 617. contracting the guide block; 512. a rope locking device; 513. turning over the rod; 514. a limit stop; 515. a hook groove; 516. a groove hooking block; 517. a hook block suspender; 518. a boom spring; 519. pressing down the deflector rod; 520. a chute slide bar; 521. locking the supporting block; 522. a lifting rod guide groove; 523. a deflector rod chute; 6. a pin spring; 7. a hinged plate; 8. supporting the round table; 9. a reinforcing device; 91. the push rod is sprung; 92. a diagonal briquetting; 93. a support pedal; 94. a rod penetrating groove; 95. pressing a nail block; 96. penetrating through the ground nails; 10. an elastic pressing plate; 11. a platen spring; 12. the push rod is moved downwards; 13. a snap ring groove; 14. a sliding ring groove; 15. a fixed ring block; 16. a clamping ring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

1-6, including a bottom support rod 1 and a rope collecting device 5, the top end of the bottom support rod 1 is hinged with a connecting support rod 2, the side surface of the connecting support rod 2 is fixedly connected with a inserted rod fixing end 3, the inner side of the inserted rod fixing end 3 is slidably connected with a inserted rod 4, the top side surface of the inserted rod fixing end 3 is fixedly connected with a pin spring 6, the end of the top end of the connecting support rod 2 is hinged with a hinged plate 7, the top surface of the hinged plate 7 is fixedly connected with a supporting round table 8, the surface of the supporting round table 8 is slidably connected with a four-place downward push rod 12, the outer side of the bottom end of the downward push rod 12 is provided with a pressing plate spring 11, the top surface of the downward push rod 12 is fixedly connected with an elastic pressing plate 10, the side surface of the hinged plate 7 is provided with a sliding ring groove 14, the inner side of the sliding ring groove 14 is slidably connected with a clamping ring 16, the outer side of the clamping ring 16 is fixedly connected with a clamping ring block 15, the pin rod spring 6 is fixedly connected with the tail end of the top side of the pin rod 4, the downward-moving push rod 12 penetrates through the bottom surface from the top surface of the supporting round table 8, the bottom end of the pressing plate spring 11 is fixedly connected with the fixed ring block 15, the fixed ring block 15 is fixedly connected with the bottom end of the downward-moving push rod 12, through the structure, firstly, when in use, the bottom support rod 1 is unfolded from the inner side of the connecting support rod 2 around the hinge joint, during the overturning process of the bottom support rod 1, the cambered surface at the top end of the bottom support rod 1 is contacted with the pin rod 4, the pin rod 4 is jacked upwards, the pin rod spring 6 is pulled when the pin rod 4 moves upwards, after the connecting support rod 2 is kept parallel with the bottom support rod 1, the pin rod spring 6 releases elasticity, the pin rod 4 moves downwards and is inserted into a hole at the top end of the bottom support rod 1 to realize quick fixation, and when the connecting support rod 2 is hinged around the hinge joint at the hinge plate 7 to the joint, the snap ring groove 13 formed in the top end of the connecting stay bar 2 gradually makes fit contact with the snap ring 16 along with overturning, when the supporting round table 8 is stressed downwards, the connecting stay bar 2 and the hinge plate 7 are guaranteed to be hinged to be free from rotating, when the contact is locked, the elastic pressing plate 10 is lifted upwards, the downward pushing rod 12 is driven to move while the elastic pressing plate 10 moves, in the moving process of the downward pushing rod 12, the fixing ring block 15 connected with the tail end of the downward pushing rod 12 extrudes the pressing plate spring 11 to deform, the fixing ring block 15 is connected with the snap ring 16, the connecting stay bar 2 can be clamped until the adjacent snap groove of the snap ring groove 13 and the snap ring 16 are connected, so that the connecting stay bar 2 can be fixed when the connecting stay bar is stored, when the folding structure is unfolded, the folding structure is locked rapidly, and when the folding structure is folded and stored conveniently, time required by structure locking and adjusting is saved, and rescue efficiency is improved.

The rope collecting device 5 comprises a driving supporting plate 51, a lifting rod end shell 52 is arranged on the front side surface of the driving supporting plate 51, a handle 53 is fixedly connected to the left side surface of the lifting rod end shell 52, a rope rolling gear 54 is arranged in the lifting rod end shell 52, a latch block 55 is connected to the left side surface of the rope rolling gear 54 in a meshed mode, a clamping ball 56 is arranged on the left side of the latch block 55, a ball spring 57 is fixedly connected to the side surface of the clamping ball 56, the ball spring 57 is fixedly connected with the lifting rod end shell 52, a rope rolling roller 58 is fixedly connected to the axle center of the rope rolling gear 54, a rope guiding roller 59 is arranged under the rope rolling roller 58, a spring block fixing end 610 is arranged on the lower side of the lifting rod end 52, a pressing spring 611 is arranged on the inner side of the spring block fixing end 610, two clamping block lifting rods 614 are fixedly connected to the rear side surface of the pressing spring 611, a rope tightening block 615 is fixedly connected to the outer side surface of the clamping block lifting rod 614, the driving support plate 51 is fixedly connected with a rope guiding end 616 on the side surface, the left side and the right side of the two rope tightening blocks 615 are respectively provided with a shrinkage guide block 617, the side surface of the lifting rod end shell 52 is provided with a slide bar waist groove, the rope winding gear 54 is in clamping connection with the clamping tooth block 55, the clamping tooth block 55 is in rotating connection with the lifting rod end shell 52, the left side of the clamping tooth block 55 is provided with two arc grooves, the arc grooves on the side surface of the clamping tooth block 55 are matched with the clamping ball 56, the rope guiding roller 59 is in rotating connection with the driving support plate 51, the shrinkage guide blocks 617 are fixedly connected with the supporting round table 8, when the structure is used, the handle 53 is held by a hand, the handle 53 is lifted from bottom to top, when the handle 53 is lifted from bottom to top, the handle 53 drives the lifting rod end shell 52 to rotate around the rope winding roller 58 through the handle 53, at the moment, the inner ball spring 57 of the lifting rod end shell 52 extrudes the clamping ball 56 to be clamped at the groove on the side surface of the clamping tooth block 55, the gear on the side of the latch block 55 is meshed with the rope rolling gear 54, at this time, the lever end shell 52 and the rope rolling roller 58 are pivoted, when the handle 53 rotates towards the direction, at this time, the latch block 55 is not meshed with the rope rolling gear 54 any more, the clamping balls 56 and the ball springs 57 are extruded in a rotating mode, at this time, the lever end shell 52 is not coaxially rotated with the rope rolling roller 58 any more, at the same time, when the lever end shell 52 rotates downwards anticlockwise, the lifting connecting rod 612 is driven to move downwards, at this time, the pressing down spring 613 is pulled by the pressing down spring 611 connected with the lifting connecting rod 612, the pressing down spring 611 moves to drive the clamping block lifting rod 614 to move downwards, and the rope tightening blocks 615 on the outer sides of the clamping block lifting rod 614 are gradually tightened under the guidance of the shrinkage guide blocks 617, so that ropes passing through the two sides of the rope tightening blocks 615 are prevented from moving downwards, the ropes on the rope rolling roller 58 are prevented from moving downwards, the ropes are wound through the rod-shaped structure, the rope winding efficiency is improved, and the pressure born by the sides of the hands and the rope contacting parts can be reduced.

The side of the rope collecting device 5 is provided with a rope locking device 512, the rope locking device 512 comprises a turning rod 513, the front side of the turning rod 513 is fixedly connected with a limit stop 514, the left side top end of the driving supporting plate 51 is provided with a clamping groove 515, the right side of the driving supporting plate 51 is fixedly connected with a hooking groove block 516, the surface of the hooking groove block 516 is provided with a hooking block suspender 517 in a clamping way, the hooking block suspender 517 penetrates through the bottom end of the rope guiding end 616, the outer side of the bottom end of the hooking block suspender 517 is provided with a suspender spring 518, the tail end of the hooking block suspender 517 is fixedly connected with a pushing shifting lever 519, the outer side of the pushing shifting lever 519 is slidingly connected with two chute sliding rods 520, the inner sides of the two chute sliding rods 520 are provided with locking supporting blocks 521, the right side bottom surface of the driving supporting plate 51 is fixedly connected with a shifting lever chute 523, the side surface of the driving supporting plate 51 is provided with a lifting lever guiding groove 522 penetrating through the two side surfaces, the lifting lever guiding grooves 522 are symmetrically distributed, the turning rod 513 is rotationally connected with the driving supporting plate 51, the left end of the limit stop 514 is fixedly connected with a clamping hook, the clamping hook groove 515 is in clamping connection with the clamping hook, the right end of the limit stop 514 extends outwards, the hook hanging rod 517 penetrates through the bottom surface of the hook groove 516, the bottom end of the hanging rod spring 518 is fixedly connected with the pushing down deflector rod 519, the top end of the hanging rod spring 518 is fixedly connected with the bottom surface of the guide rope end 616, the lifting rod guide groove 522 is slidingly connected with the clamping block lifting rod 614, the deflector rod chute 523 is slidingly connected with the pushing down deflector rod 519, the upper part of the lifting rod guide groove 522 is provided with an inclined chute, and the inclined chute is slidingly connected with the chute sliding rod 520, by the structure, after a rope positioned at the upper part of the supporting circular table 8 is broken, the rope is not dragged by the rope at the moment, the rope rolling roller 58 rotates clockwise due to kinetic energy generated in the moment, the rod end shell 52 rotates along with the rope rolling roller 58, when the end shell 52 of the lifting rod exceeds the limit height blocked by the limit stop 514, the limit stop 514 is jacked up upwards when the end shell 52 of the lifting rod rotates, the overturning rod 513 connected with the limit stop 514 rotates around the hinge point, the clamping hook at the tail end of the overturning rod 513 is separated from the clamping hook groove 515, the extending part at the right side of the overturning rod 513 pushes the hook block hanging rod 517 in a deflection mode, the hook block hanging rod 517 is not blocked by the hook groove block 516 any more, when the hanging rod spring 518 stored at the bottom side of the hook block hanging rod 517, the downward pressing deflector rod 519 connected with the bottom end of the hook block hanging rod 517 moves downwards in an accelerating mode, the chute sliding rod 520 connected with the downward pressing deflector rod 519 is pushed, the chute sliding rod 520 slides along the inclined chute, the two chute sliding rods 520 are enabled to be close quickly, the broken rope is clamped by the locking support block 521, the broken rope is locked and fixed quickly under the emergency that the rope is broken suddenly, so that the broken rope falls down quickly to cause the falling injury of a rescue person, and the safety of the whole device is improved.

The end of connecting the vaulting pole 2 is provided with reinforcing apparatus 9, reinforcing apparatus 9 includes the spring push rod 91, the bottom lateral surface fixedly connected with oblique briquetting 92 of spring push rod 91, the bottom inboard of connecting the vaulting pole 2 articulates and is connected with the supporting pedal 93, wear rod groove 94 has been seted up on the surface of supporting pedal 93, the upper surface of supporting pedal 93 is provided with presses nail block 95, the bottom surface fixedly connected with of pressing nail block 95 wears the ground nail 96, spring push rod 91 runs through to the inside of connecting the vaulting pole 2, and spring push rod 91 and connecting the vaulting pole 2 sliding connection, the bottom surface of pressing nail block 95 is the contained angle with the horizontal line, and the contained angle is less than twenty degrees, wear the ground nail 96 and run through the bottom surface by supporting pedal 93, through above-mentioned structure, when the pin spring 6 pulling of release elasticity of pin 4 inserts in connecting the vaulting pole 2, let spring push rod 91 pop out from connecting the vaulting pole 2, and wear rod groove 94 inserts ground, at this same time, spring push rod 91 outside oblique briquetting 92 is with the spring push rod 95 is pressed to the extrusion nail block 95, and wear nail 96, realize the impact ground nail 96, realize the whole and the fixed structure is passed through the impact ground, and the impact device is realized, and the impact ground is fixed, and the impact is fixed and the ground is passed through the impact and the impact pin 96 is fixed.

The working principle is that when the bottom support rod 1 is used, firstly, the bottom support rod 1 is unfolded from the inner side of the connecting support rod 2 around a hinge joint to form a node, in the overturning process of the bottom support rod 1, the arc surface at the top end of the bottom support rod 1 is contacted with the bolt rod 4, the bolt rod 4 is jacked up upwards, the bolt rod spring 6 is pulled when the bolt rod 4 moves upwards, and after the connecting support rod 2 and the bottom support rod 1 are kept parallel, the bolt rod spring 6 releases elasticity to enable the bolt rod 4 to move downwards and be inserted into a hole at the top end of the bottom support rod 1 to be connected;

when the latch rod 4 is pulled by the latch rod spring 6 for releasing elasticity and inserted into the connecting stay rod 2, the latch rod 4 is inserted into the connecting stay rod 2 to impact the spring push rod 91 instantly, so that the spring push rod 91 is ejected out of the connecting stay rod 2 and passes through the rod penetrating groove 94 to be inserted into the ground, and simultaneously, the inclined pressing block 92 on the outer side of the spring push rod 91 presses the nail pressing block 95, so that the nail pressing block 95 presses the ground penetrating nail 96 and the ground penetrating nail 96 is inserted into the ground;

after the rope is fixed by a rescuer, the handle 53 is held by a hand, the handle 53 is lifted up from the bottom to the top, the handle 53 drives the lifting rod end shell 52 to rotate around the rotating shaft of the rope winding roller 58, at this time, the internal ball spring 57 of the lifting rod end shell 52 extrudes the clamping ball 56 to be clamped at the groove on the side surface of the clamping block 55, the clamping block 55 is meshed with the rope winding gear 54 through the teeth on the side surface of the clamping block 55, at this time, the lifting rod end shell 52 and the rope winding roller 58 rotate through the shaft, at this time, the clamping block 55 is not bonded with the rope winding gear 54 any more, the clamping ball 56 and the ball spring 57 are rotationally extruded, at this time, the lifting rod end shell 52 is not coaxially rotated with the rope winding roller 58 any more, at this time, the lifting rod end shell 52 rotates anticlockwise downwards, at this time, the downward pressing elastic block 611 connected with the lifting rod 612 is pulled by the downward pressing elastic block 611, the clamping block 614 is driven to move downwards, the tightening rope 615 on the outer side of the clamping block 614 is gradually tightened under the guiding of the guiding block 617, and the rope is passed through the tightening blocks 615, and the rope is repeatedly clamped, and the step is repeated.

The utility model provides a water environment engineering narrow space emergency rescue transportation device, and the method and the way for realizing the technical scheme are numerous, the above is only the preferred embodiment of the utility model, and it should be pointed out that a plurality of improvements and modifications can be made to the person skilled in the art without departing from the principle of the utility model, and the improvements and modifications are also considered as the protection scope of the utility model. The components not explicitly described in this embodiment can be implemented by using the prior art.

Claims (8)

1. The utility model provides a water environment engineering narrow and small space emergency rescue conveyer, includes bottom support pole (1) and receipts rope device (5), its characterized in that: the top of bottom support pole (1) articulates and is connected with connection vaulting pole (2), the side fixedly connected with inserted bar solid end (3) of connection vaulting pole (2), the inboard sliding connection of inserted bar solid end (3) has inserted bar (4), the inboard sliding connection of inserted bar solid end (3) top side has round pin pole spring (6), the top end of connection vaulting pole (2) articulates and is connected with articulated slab (7), the top surface fixedly connected with of articulated slab (7) supports round platform (8), the surface sliding connection who supports round platform (8) has everywhere to move push rod (12) downwards, the bottom outside of moving push rod (12) is provided with clamp plate spring (11), the top surface fixedly connected with elastic pressing plate (10) of moving push rod (12) downwards, slide ring groove (14) have been seted up to the side of articulated slab (7), the inboard sliding connection of slide ring groove (14) has clamping ring (16), the outside fixedly connected with solid ring piece (15) of clamping ring (16).

2. The water environment engineering small space emergency rescue transportation device according to claim 1, wherein: the pin rod spring (6) is fixedly connected with the tail end of the top side of the pin rod (4), the downward-moving push rod (12) penetrates through the bottom surface through the top surface of the supporting round table (8), the bottom end of the pressing plate spring (11) is fixedly connected with the fixed ring block (15), and the fixed ring block (15) is fixedly connected with the bottom end of the downward-moving push rod (12).

3. The water environment engineering small space emergency rescue transportation device according to claim 1, wherein: the rope collecting device (5) comprises a driving supporting plate (51), the front side of the driving supporting plate (51) is provided with a lifting rod end shell (52), the left side surface of the lifting rod end shell (52) is fixedly connected with a handle (53), a rope winding gear (54) is arranged inside the lifting rod end shell (52), the left side surface of the rope winding gear (54) is connected with a latch block (55) in a meshed mode, the left side of the latch block (55) is provided with a clamping ball (56), the side surface of the clamping ball (56) is fixedly connected with a ball spring (57), the ball spring (57) is fixedly connected with the lifting rod end shell (52), the axle center of the rope winding gear (54) is fixedly connected with a rope winding roller (58), a guide roller (59) is arranged under the rope winding roller (58), the lower side of the lifting rod end shell (52) is provided with a spring block fixing end (610), the inner side of the spring block fixing end (610) is provided with a pressing block (611), the pressing block (611) is arranged at the middle of the lifting rod end (52), the two sides of the lifting rod end (614) are fixedly connected with a clamping plate (614), the left side and the right side of the two rope tightening blocks (615) are respectively provided with a contraction guide block (617).

4. A water environmental engineering small space emergency rescue transportation device according to claim 3, characterized in that: the side of lift rod end shell (52) has seted up slide bar kidney slot, rope winding gear (54) and latch piece (55) block connection, two arc recesses have been seted up in the left side of latch piece (55), and the arc recess of latch piece (55) side agrees with screens ball (56), rope guide running roller (59) rotate with drive fagging (51) and are connected, shrink guide block (617) and support round platform (8) fixed connection.

5. A water environmental engineering small space emergency rescue transportation device according to claim 3, characterized in that: the side of receipts rope device (5) is provided with lock rope device (512), lock rope device (512) are including turning rod (513), the leading flank fixedly connected with limit stop (514) of turning rod (513), trip groove (515) have been seted up on the left side top of drive fagging (51), the right flank fixedly connected with of drive fagging (51) colludes groove block (516), the surface block of colluding groove block (516) is provided with collude piece jib (517), collude piece jib (517) run through the bottom of leading cable end (616), the bottom outside of collude piece jib (517) is provided with jib spring (518), the end fixedly connected with of collude piece jib (517) pushes down driving lever 519), the outside sliding connection of pushing down driving lever (519) has two chute slide bars (520), two the medial surface of chute slide bar (520) is provided with locking supporting piece (521), the right side bottom surface fixedly connected with driving lever spout (523), driving lever (522) are provided with the guide slot (522) of leading the side of leading lever (522), and lifting lever (522) are symmetrical.

6. The water environment engineering small space emergency rescue transportation device according to claim 5, wherein: the turning rod (513) is rotationally connected with the driving supporting plate (51), the clamping hook is fixedly connected with the left end of the limiting stop (514), the clamping hook groove (515) is connected with the clamping hook in a clamping mode, the right end of the limiting stop (514) extends outwards, the hook block hanging rod (517) penetrates through the bottom surface of the hook groove block (516), the bottom end of the hanging rod spring (518) is fixedly connected with the pushing-down shifting rod (519), the top end of the hanging rod spring (518) is fixedly connected with the bottom surface of the guide rope end (616), the lifting rod guide groove (522) is in sliding connection with the clamping block lifting rod (614), the shifting rod sliding groove (523) is in sliding connection with the pushing-down shifting rod (519), an inclined sliding groove is arranged above the lifting rod guide groove (522), and the inclined sliding groove is in sliding connection with the sliding rod (520).

7. The water environment engineering small space emergency rescue transportation device according to claim 1, wherein: the end of connecting vaulting pole (2) is provided with reinforcing apparatus (9), reinforcing apparatus (9) are including pushing push rod (91), the bottom lateral surface fixedly connected with diagonal press piece (92) of pushing push rod (91), the bottom inboard of connecting vaulting pole (2) articulates and is connected with supporting pedal (93), wear pole groove (94) have been seted up on the surface of supporting pedal (93), the upper surface of supporting pedal (93) is provided with presses nail piece (95), the bottom surface fixedly connected with of pressing nail piece (95) wears ground nail (96).

8. The water environment engineering small space emergency rescue transportation device according to claim 7, wherein: the spring push rod (91) penetrates through the connecting support rod (2), the spring push rod (91) is in sliding connection with the connecting support rod (2), the bottom surface of the nail pressing block (95) is in an included angle with a horizontal line, the included angle is smaller than twenty degrees, and the ground penetrating nail (96) penetrates through the bottom surface through the surface of the supporting pedal (93).

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