阅读说明：本技术 一种建筑楼体消防逃生装置 (Building body fire escape device ) 是由 不公告发明人 于 2019-10-02 设计创作，主要内容包括：本发明公开了一种建筑楼体消防逃生装置,包括有楼体,所述楼体上并排设置有窗口,所述窗口上分别设置有一个逃生舱盒,所述逃生舱盒内分别设置有存储内槽,所述逃生舱盒上分别设置有一个第一拉绳,所述存储内槽内折叠设置有逃生套筒,所述逃生套筒上设置有并排设置的支撑套环,所述支撑套环上分别设置有一个滑动拉环,所述滑动拉环分别在第一拉绳上滑动,所述第一拉绳埋藏在楼体内,还包括有一个埋藏在地面上的固定底座,所述固定底座上设置有设置有一个转动的控制转轴,所述控制转轴上设置有多个转动的拉绳转轮,所述第一拉绳的端部分别设置在拉绳转轮上,能够将第一拉绳张紧后能够进一步的对逃生套筒进行支撑,从而通过逃生套筒达到逃生的目的。(The invention discloses a building fire-fighting escape device, which comprises a building body, wherein windows are arranged on the building body side by side, an escape capsule box is respectively arranged on the windows, an inner storage groove is respectively arranged in the escape capsule box, a first pull rope is respectively arranged on the escape capsule box, an escape sleeve is arranged in the inner storage groove in a folding manner, a support lantern ring is arranged on the escape sleeve side by side, a sliding pull ring is respectively arranged on the support lantern ring, the sliding pull rings respectively slide on the first pull ropes, the first pull ropes are buried in the building body, the fire-fighting escape device also comprises a fixed base buried on the ground, a rotating control rotating shaft is arranged on the fixed base, a plurality of rotating pull rope rotating wheels are arranged on the control rotating shaft, and the end parts of the first pull ropes are respectively arranged on the pull rope rotating wheels, the first pull rope can be tensioned to further support the escape sleeve, so that the escape sleeve can be used for escaping.)

1. The utility model provides a building body fire escape device, including the building body, be provided with window, its characterized in that on the building body side by side: the window is respectively provided with an escape capsule box, the escape capsule box is respectively provided with an inner storage groove, the escape capsule box is respectively provided with a first pull rope, the inner storage groove is internally provided with an escape sleeve in a folding manner, the escape sleeve is provided with support lantern rings which are arranged side by side, the support lantern rings are respectively provided with a sliding pull ring, the sliding pull rings respectively slide on the first pull ropes, and the first pull ropes are buried in a building;

the device is characterized by further comprising a fixed base buried on the ground, a rotating control rotating shaft is arranged on the fixed base, a plurality of rotating pull rope rotating wheels are arranged on the control rotating shaft, the end portions of the first pull ropes are respectively arranged on the pull rope rotating wheels, the pull rope rotating wheels respectively rotate on the control rotating shaft, electromagnets corresponding to the pull rope rotating wheels are respectively arranged in the fixed base, the connection and the separation of the pull rope rotating wheels and the control rotating wheels are respectively controlled by electrifying of the electromagnets, and a wireless control module is arranged in the fixed base and controls the electrification of the electromagnets and the rotation of the control rotating shaft;

still be provided with a connection pad on the unable adjustment base, the sleeve tip of fleing is provided with a joint pullover, joint pullover joint is in on the connection pad, be provided with the restriction on the connection pad the gliding stopper of joint pullover.

2. A fire-fighting escape device for building bodies according to claim 1, which is characterized in that: the support lantern rings are arranged in a circular ring shape, the escape sleeve is made of woven cloth materials, and two adjacent support lantern rings are correspondingly connected through a plurality of second pull ropes.

3. A fire-fighting escape device for building bodies according to claim 1, which is characterized in that: a fixing bolt is arranged in the storage inner groove, and the first pull rope is connected to the fixing bolt.

4. A fire-fighting escape device for building bodies according to claim 1, which is characterized in that: the wall body is provided with a wall body groove, the first pull rope is arranged in the wall body groove, and a sealing strip is arranged in the wall body groove.

5. A fire-fighting escape device for building bodies according to claim 1, which is characterized in that: the control rotating shaft is provided with a plurality of rotating shaft grooves which are arranged in a circular manner, the rotating shaft grooves are respectively internally provided with a driving rotating wheel rotating on the control rotating shaft, the driving rotating wheels are respectively provided with a rotating shaft rotating hole, one end of each rotating shaft rotating hole is respectively provided with a supporting rotating ring, a circle of second tooth socket is also respectively arranged in each rotating shaft rotating hole, the stay cord rotating wheels are respectively arranged on the driving rotating wheels, the fixed base is respectively internally provided with a first rotating groove supporting the stay cord rotating wheels to rotate, the rotating shaft grooves are respectively internally provided with a butt-joint sliding disc rotating on the control rotating shaft, the butt-joint sliding discs are arranged in a cylindrical manner, the outer rings of the butt-joint sliding discs are respectively provided with a circle of first tooth sockets which are correspondingly meshed and connected with the second tooth sockets, and the butt-joint sliding discs are respectively provided with a connecting sliding disc, the connecting sliding disc is arranged in a disc shape, a supporting part is arranged in the fixing base respectively, a second rotating groove for supporting the connecting sliding disc to slide is formed in the fixing base, a first spring is arranged on one side of the second rotating groove, a jacking sliding disc is arranged on the first spring respectively, the jacking sliding disc jacks the connecting sliding disc respectively, the electromagnet is arranged on the other side of the second rotating groove respectively, a magnet corresponding to the electromagnet is arranged on the connecting sliding disc respectively, a connecting sliding chute in the control rotating shaft 16 is formed in the rotating shaft groove and comprises a circle, a supporting sliding block which slides in the connecting sliding chute is arranged on the butt-joint sliding disc, a rope pulling groove is formed in the rope pulling rotating wheel respectively, and the first pull rope is arranged in the rope pulling groove respectively.

6. A fire-fighting escape device for building bodies according to claim 1, which is characterized in that: the control base is internally provided with a third rotating shaft driven by a private clothes motor respectively, the third rotating shaft is provided with a worm correspondingly meshed with the worm wheel, and the wireless control module controls the private clothes motor to rotate.

7. A fire-fighting escape device for building bodies according to claim 1, which is characterized in that: a circle of first chutes which are arranged in a trapezoid shape are arranged on the connecting disc, second rotating shafts are arranged in the first chutes respectively, rotating locking heads are arranged on the second rotating shafts respectively, second springs for springing the locking heads are arranged in the first chutes respectively, and the clamping sleeve heads push the locking heads to swing after sliding on the connecting disc;

the novel anti-skidding cable connecting plate is characterized in that a first sliding hole is formed in the connecting plate, a sliding jacking shaft is arranged in the first sliding hole, a connecting plate inner cavity communicated with the first sliding hole in a corresponding mode is formed in the connecting plate, a pulling rope disc sliding in the connecting plate inner cavity is arranged on the jacking shaft, a second pulling rope is connected to the bottom of the locking head respectively, the second pulling rope is connected to the pulling rope disc respectively, a supporting part is arranged in the connecting plate respectively, a second sliding hole supporting the second pulling rope sliding is formed in the connecting plate, a third spring pressing the pulling rope disc is arranged in the connecting plate inner cavity, a jacking plate is arranged at the end part of the jacking shaft, and a supporting part is arranged at the top of the connecting plate and used for supporting the second sliding chute of the jacking plate.

8. A fire-fighting escape device for building bodies according to claim 1, which is characterized in that: the movable type automatic locking device is characterized in that a control is arranged in the fixed base respectively, the driving rotating wheel rotates in one direction, a module sliding groove is formed in the rotation control module respectively, a third rotating shaft is arranged in the module sliding groove respectively, a rotating locking sliding rod is arranged in the third rotating shaft respectively, a fourth spring for pushing the locking sliding rod is arranged in the module sliding groove, and a locking hole corresponding to the locking sliding rod is formed in the driving rotating wheel.

Technical Field

The invention relates to an escape device, in particular to a building fire-fighting escape device, and particularly relates to a building fire-fighting escape device capable of self-rescuing and escaping under the condition of fire.

Background

Along with the continuous improvement of urban construction, the construction of building construction is further promoted, wherein an escape fire-fighting facility is arranged in the existing building construction, so that escape can be carried out through a fire-fighting channel under the condition of fire, or fire is extinguished by utilizing the fire-fighting facility;

the lift truck can be utilized in the process of rescuing the resident in the building, so that the purpose of rescuing the resident in the high building can be further achieved by utilizing the lifting of the lift truck, although the purpose of rescuing can be achieved by the lift truck, the lifting height of the lift truck is limited, so that the resident in the high floor can not be rescued further, and the serious difficulty is caused for the rescuing of the resident in the high floor.

Therefore, it is necessary to design a fire-fighting escape device for building to solve the above technical problems.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provides a building fire-fighting escape device, which is characterized in that an escape cabin box is arranged on a window, an escape sleeve is arranged in the escape cabin box, and a fixed base is arranged on the ground.

The invention is realized by the following technical scheme:

the utility model provides a building body fire escape device, including the building body, be provided with the window on the building body side by side, be provided with an escape capsule box on the window respectively, be provided with the storage inside groove in the escape capsule box respectively, be provided with a first stay cord on the escape capsule box respectively, the folding sleeve of fleing that is provided with in the storage inside groove, be provided with the support lantern ring that sets up side by side on the sleeve of fleing, be provided with a slip pull ring on the support lantern ring respectively, the slip pull ring slides on first stay cord respectively, first stay cord is buried in the building body. The window is provided with the escape capsule box, the escape capsule box is internally provided with the escape sleeve, the escape capsule box is internally provided with a first pull rope, the escape sleeve is provided with a support sleeve ring, the support sleeve ring is respectively provided with a sliding pull ring, and the sliding pull ring can be arranged on the first pull rope, so that the first pull rope can be tensioned in the escape process, the sliding pull ring can slide on the first pull rope, and the escape purpose can be achieved through the escape sleeve.

The device is characterized by further comprising a fixed base buried on the ground, a rotating control rotating shaft is arranged on the fixed base, a plurality of rotating pull rope rotating wheels are arranged on the control rotating shaft, the end portions of the first pull ropes are respectively arranged on the pull rope rotating wheels, the pull rope rotating wheels respectively rotate on the control rotating shaft, electromagnets corresponding to the pull rope rotating wheels are respectively arranged in the fixed base, the connection and the separation of the pull rope rotating wheels and the control rotating wheels are respectively controlled by the electrification of the electromagnets, a wireless control module is arranged in the fixed base, and the electrification of the electromagnets and the rotation of the control rotating shaft are controlled by the wireless control module. Be provided with unable adjustment base subaerial, be provided with the pivoted control pivot in ancient base, be provided with the stay cord runner in the control pivot, first stay cord setting is on the stay cord runner to can be through the further taut first stay cord of rotation of stay cord runner, thereby can make first stay cord be in the state of tensioning, thereby can support the sleeve of fleing through first stay cord, further reach the purpose of fleing through the sleeve of fleing.

Still be provided with a connection pad on the unable adjustment base, the sleeve tip of fleing is provided with a joint pullover, joint pullover joint is in on the connection pad, be provided with the restriction on the connection pad the gliding stopper of joint pullover. The escape sleeve can be supported through the connecting disc, so that the normal sliding escape of escape personnel can be guaranteed.

Furthermore, the support lantern rings are arranged in a circular ring shape, the escape sleeve is made of woven cloth materials, and two adjacent support lantern rings are correspondingly connected through a plurality of second pull ropes.

Furthermore, a fixing bolt is arranged in the storage inner groove, and the first pull rope is connected to the fixing bolt.

Furthermore, a wall groove is formed in the wall, the first pull rope is arranged in the wall groove, and a sealing strip is arranged in the wall groove.

Furthermore, a plurality of rotating shaft grooves are arranged on the control rotating shaft, the rotating shaft grooves are arranged in a circular shape, a driving rotating wheel rotating on the control rotating shaft is respectively arranged in the rotating shaft grooves, a rotating shaft rotating hole is respectively arranged on the driving rotating wheel, a supporting rotating ring is respectively arranged at one end of the rotating shaft rotating hole, a circle of second tooth grooves are respectively arranged in the rotating shaft rotating holes, the stay rope rotating wheels are respectively arranged on the driving rotating wheels, a first rotating groove for supporting the stay rope rotating wheels to rotate is respectively arranged in the fixed base, a butt-joint sliding disc rotating on the control rotating shaft is respectively arranged in the rotating shaft grooves, the butt-joint sliding disc is arranged in a cylindrical shape, a circle of first tooth grooves are arranged on the outer ring of the butt-joint sliding disc, and the first tooth grooves are respectively correspondingly engaged with the second tooth grooves, the connecting sliding discs are arranged on the butt joint sliding discs respectively, the connecting sliding discs are arranged in a disc shape, second rotary grooves for supporting the connecting sliding discs to slide are formed in the fixed base respectively, first springs are arranged on one sides of the second rotary grooves respectively, jacking sliding discs are arranged on the first springs respectively and used for jacking the connecting sliding discs respectively, the electromagnets are arranged on the other sides of the second rotary grooves respectively, magnets corresponding to the electromagnets are arranged on the connecting sliding discs respectively, a circle of connecting sliding groove arranged on the control rotating shaft 16 is arranged in the rotating shaft groove, a supporting sliding block sliding in the connecting sliding groove is arranged on the butt joint sliding discs, pull rope grooves are formed in the pull rope rotating wheels respectively, and the first pull ropes are arranged in the pull rope grooves respectively.

Furthermore, a first rotating shaft is arranged on the control rotating shaft, a worm wheel is arranged at one end of the first rotating shaft, a third rotating shaft driven by a private clothes motor is respectively arranged in the control base, a worm correspondingly meshed and connected with the worm wheel is arranged on the third rotating shaft, and the wireless control module controls the private clothes motor to rotate.

Furthermore, a circle of first sliding grooves which are arranged in a trapezoid shape are arranged on the connecting disc, a second rotating shaft is arranged in each first sliding groove, a rotating locking head is arranged on each second rotating shaft, a second spring for elastically pressing the locking head is arranged in each first sliding groove, and the clamping sleeve head pushes the locking head to swing after sliding on the connecting disc;

the novel anti-skidding cable connecting plate is characterized in that a first sliding hole is formed in the connecting plate, a sliding jacking shaft is arranged in the first sliding hole, a connecting plate inner cavity communicated with the first sliding hole in a corresponding mode is formed in the connecting plate, a pulling rope disc sliding in the connecting plate inner cavity is arranged on the jacking shaft, a second pulling rope is connected to the bottom of the locking head respectively, the second pulling rope is connected to the pulling rope disc respectively, a supporting part is arranged in the connecting plate respectively, a second sliding hole supporting the second pulling rope sliding is formed in the connecting plate, a third spring pressing the pulling rope disc is arranged in the connecting plate inner cavity, a jacking plate is arranged at the end part of the jacking shaft, and a supporting part is arranged at the top of the connecting plate and used for supporting the second sliding chute of the jacking plate.

Further, be provided with a control in the unable adjustment base respectively initiative runner pivoted control module, rotation control module control the initiative runner rotates toward a direction, be provided with a module spout on the rotation control module respectively, be provided with a third pivot in the module spout respectively, be provided with a pivoted locking slide bar in the third pivot respectively, be provided with an suppress in the module spout respectively the fourth spring of locking slide bar, be provided with the round on the initiative runner respectively with the corresponding locking hole of locking slide bar.

Compared with the prior art, the invention has the beneficial effects that: be provided with a cabin box of fleing on the window, be provided with the sleeve of fleing in the cabin box of fleing, the sleeve of fleing is folded and is left in the cabin box of fleing, be provided with a first stay cord in the cabin box of fleing, first stay cord is buried in the wall, subaerial be provided with a unable adjustment base, be provided with a pivoted control pivot in unable adjustment base, be provided with the stay cord runner in the control pivot, can be further through the rotation of control pivot drive the rotation of stay cord runner, thereby can be further to tensioning first stay cord, thereby can support the sleeve of fleing through the first stay cord after the tensioning, thereby can slide through the sleeve of fleing and flee, reach the purpose of saving oneself, further the unable problem of fleing of high building of having avoided, the restriction of the lifting height of lift truck has been avoided.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of a fire-fighting escape device for a building according to an embodiment of the invention.

Fig. 2 is a schematic view of the overall structure of the escape capsule according to the embodiment of the invention.

Fig. 3 is a schematic view of the overall structure of a wall groove according to an embodiment of the invention.

Fig. 4 is a schematic view of the overall structure of the escape sleeve according to the embodiment of the invention.

Fig. 5 is a schematic view of the overall structure of the fixing base according to the embodiment of the invention.

FIG. 6 is a schematic diagram of an overall structure of a land according to an embodiment of the invention.

FIG. 7 is a side view of the overall structure of the connecting disc of the embodiment of the invention.

FIG. 8 is a side view of the overall structure of the connecting disc of the embodiment of the invention.

FIG. 9 is a schematic view of a connection structure of the driving pulley and the control shaft according to an embodiment of the present invention.

FIG. 10 is a side view of the overall structure of the sliding plate and the control shaft according to the embodiment of the present invention.

Fig. 11 is a schematic view of the overall structure of the rotation control module according to the embodiment of the present invention.

In the figure: 1 building body, 2 windows, 3 first pull ropes, 4 escape sleeves, 5 fixed bases, 6 escape capsule boxes, 7 storage inner grooves, 8 fixed bolts, 9 second pull ropes, 10 support lantern rings, 11 sliding pull rings, 12 wireless control modules, 13 wall grooves, 14 sealing strips, 15 pull rope rotating wheels, 16 control rotating shafts, 17 first rotating shafts, 18 worm wheels, 19 worms, 20 first rotating grooves, 21 driving rotating wheels, 22 support rotating rings, 23 rotating shaft grooves, 24 pull rope grooves, 25 second rotating grooves, 26 magnets, 27 first springs, 28 jacking sliding discs, 29 electromagnets, 30 butt sliding discs, 31 first tooth grooves, 32 second tooth grooves, 33 support sliding blocks, 34 connecting sliding grooves, 35 connecting discs, 36 clamping sleeve heads, 37 locking heads, 38 limiting blocks, 39 first sliding grooves, 40 second rotating shafts, 41 second springs, 42 first sliding holes, 43 connecting disc inner cavities, 44 pull rope discs, 45 second sliding holes, 46 second pull ropes, 47 a third spring, 48 a pushing shaft, 49 a pushing plate, 50 rotating shaft rotating holes, 51 a connecting sliding plate, 52 a second sliding groove, 53 a rotation control module, 54 a locking hole, 55 a third rotating shaft, 56 a fourth spring and 57 a module sliding groove.

Detailed Description

As shown in fig. 1 to 11, a building fire-fighting escape device comprises a building 1, windows 2 are arranged on the building 1 side by side, escape compartment boxes 6 are respectively arranged on the windows 2, storage inner grooves 7 are respectively arranged in the escape compartment boxes 6, first pull ropes 3 are respectively arranged on the escape compartment boxes 6, escape sleeves 4 are arranged in the storage inner grooves 7 in a folding manner, support sleeve rings 10 are arranged on the escape sleeves 4 side by side, sliding pull rings 11 are respectively arranged on the support sleeve rings 10, the sliding pull rings 11 respectively slide on the first pull ropes 3, and the first pull ropes 3 are buried in the building 1.

The top of the window 2 is provided with an escape capsule box 6, the escape capsule box 6 can be buried in a wall body, an inner storage groove 7 is arranged in the escape capsule box 6, the inner storage groove 7 is a hollow groove and can store the escape sleeve 4 through the inner storage groove 7, the escape capsule box 6 is provided with a first pull rope 3, the escape sleeve 4 is stored in the inner storage groove 7 in a folding manner, the escape sleeve 4 is provided with a support sleeve ring 10, the support sleeve ring 10 is arranged in a circular manner, the number of the support sleeve ring 10 is set according to the design requirement, the support sleeve ring 10 is respectively provided with a sliding pull ring 11, the sliding pull rings 11 are arranged in a circular manner, the support sleeve 10 and the sliding pull rings 11 are respectively made of metal materials, so that the escape sleeve 4 can be supported through the support sleeve ring 10, the sliding pull rings 11 are respectively provided with the first pull ropes 3, the first rope 3 is buried in the building body 1.

The multifunctional rope pulling device is characterized by further comprising a fixed base 5 buried on the ground, a rotating control rotating shaft 16 is arranged on the fixed base 5, a plurality of rotating rope pulling rotating wheels 15 are arranged on the control rotating shaft 16, the end portions of the first pulling ropes 3 are respectively arranged on the rope pulling rotating wheels 15, the rope pulling rotating wheels 15 respectively rotate on the control rotating shaft 16, electromagnets 29 corresponding to the rope pulling rotating wheels 15 are respectively arranged in the fixed base 5, the connection and the separation of the rope pulling rotating wheels 15 and the control rotating shaft 16 are respectively controlled by the electrification of the electromagnets 29, a wireless control module 12 is arranged in the fixed base 5, and the electrification of the electromagnets 29 and the rotation of the control rotating shaft 16 are controlled by the wireless control module 12.

A fixed base 5 is arranged on the ground, a rotary control rotating shaft 16 is arranged on the fixed base 5, a plurality of rotary pull rope rotating wheels 15 are arranged on the control rotating shaft 16, the number of the pull rope rotating wheels 15 is set according to the design requirement, the end parts of the first pull ropes 3 are respectively arranged on the pull rope rotating wheels 15, so that the first pull ropes 3 can be wound on the pull rope rotating wheels 15 through the rotation of the pull rope rotating wheels 15, the first pull ropes 13 are straightened, the first pull ropes 13 can be inclined on the building body 1, when a fire disaster happens, the first pull ropes 3 are straightened, the sliding pull rings 11 can slide on the first pull ropes 3, the escape sleeve 4 can be further extended to the ground, the escape sleeve 4 can further escape from the building, and the escape sleeve 4 can slide to the ground, so as to achieve the purpose of self-rescue;

the pull rope rotating wheels 15 respectively rotate on the control rotating shafts 16, the electromagnets 29 corresponding to the pull rope rotating wheels 15 are respectively arranged in the fixed base 5, after the electromagnets 29 are electrified, the connection and the separation of the pull rope rotating wheels 15 and the control rotating shafts 16 can be controlled, after the pull rope rotating wheels 15 and the control rotating shafts 16 are correspondingly connected, the rotation of the pull rope rotating wheels 15 can be further driven by the rotation of the control rotating shafts 16, so that the extension of the first pull rope 3 can be further driven, the first pull rope 3 can be straightened, the connection of the control rotating shafts 16 and the pull rope rotating wheels 15 can be controlled by the electrification of the electromagnets 29, so that the electrification of the electromagnets 29 can be respectively controlled under the condition that different residents have fires, the wireless control module 12 is arranged in the fixed base 5, and the electrification of the electromagnets 29 can be further controlled by the wireless control module 12, meanwhile, the wireless control module 12 controls the rotation of the control rotating shaft 16, so that the self-rescue purpose can be achieved under the condition of fire.

The rope pulling rotating wheels 15 respectively rotate on the control rotating shafts 16, electromagnets 29 corresponding to the rope pulling rotating wheels 15 are respectively arranged in the fixed base 5, the connection and the separation of the rope pulling rotating wheels 15 and the control rotating shafts 16 are respectively controlled by electrifying the electromagnets 29, a wireless control module 12 is arranged in the fixed base 5, and the electrification of the electromagnets 29 and the rotation of the control rotating shafts 16 are controlled by the wireless control module 12.

Still be provided with connection pad 35 on unable adjustment base 5, 4 tip of the sleeve of fleing is provided with a joint pullover 36, joint pullover 36 joint is in on the connection pad 35, be provided with the restriction on the connection pad 35 the gliding stopper 38 of joint pullover 36.

Set up connection pad 35 on ancient times base 5, the quantity that connection pad 35 set up sets up according to the needs of design the tip of sleeve 4 of fleing is provided with a joint pullover 36, and joint pullover 36 can the joint connect pullover 36 can the joint on connection pad 35 to can support sleeve 4 of fleing through connection pad 35, thereby play the purpose of support to sleeve 4 of fleing, can pass through the further restriction of stopper 38 the slip of joint sleeve 36.

As shown in fig. 4, the support collars 10 are arranged in a circular ring shape, the escape sleeve 4 is made of a woven fabric material, and two adjacent support collars 10 are correspondingly connected through a plurality of second pull ropes 9.

Support the lantern ring 10 and be the ring form setting, thereby can support sleeve 4 of fleing through supporting the lantern ring 10, thereby can further messenger flee sleeve 4 and be in a section of thick bamboo state, thereby can reach the purpose of fleing through sleeve 4 of fleing, sleeve 4 of fleing is made for the weaving cloth material, support through a plurality of second stay cords 9 corresponding connection between the lantern ring 10 adjacent two, thereby can be through the second stay cord 9 with adjacent two support lantern ring 10 corresponding connection backs, can further support sleeve 4 of fleing, thereby play the purpose of support, further assurance is to the firm of sleeve 4 of fleing.

As shown in fig. 1 and 2, a fixing bolt 8 is provided in the inner storage tank 7, and the first rope 3 is connected to the fixing bolt 8.

The fixing bolt 8 is provided in the storage inner tank 7, and the first rope 3 is provided on the ancient bolt 8, so that the first rope 3 can be supported by the fixing bolt 8.

As shown in fig. 3, a wall groove 13 is formed in the wall 1, the first rope 3 is disposed in the wall groove 13, and a sealing strip 14 is disposed in the wall groove 13.

Can set up wall body recess 13 on wall body 1, wall body recess 13 is the spill setting, can be with first stay cord 3 pre-buried in wall body recess 13 to seal wall body recess 13 through sealing strip 14, sealing strip 14 can set up to the foam material, thereby can be at the in-process of straightening first stay cord 3, can get rid of sealing strip 14, thereby guarantees to pull out first stay cord 3 from wall body recess 13.

As shown in fig. 8 to 10, a plurality of spindle grooves 23 are formed in the control spindle 16, the spindle grooves 23 are arranged in a circular shape, a driving pulley 21 that rotates on the control spindle 16 is respectively disposed in the spindle grooves 23, a spindle rotation hole 50 is respectively disposed on the driving pulley 21, a supporting rotation ring 22 is respectively disposed at one end of the spindle rotation hole 50, a circle of second tooth grooves 32 is further respectively disposed in the spindle rotation hole 50, the pull rope pulley 15 is respectively disposed on the driving pulley 21, a first rotation groove 20 that supports the pull rope pulley 15 to rotate is respectively disposed in the fixed base 5, a docking sliding plate 30 that rotates on the control spindle 16 is further respectively disposed in the spindle grooves 23, the docking sliding plate 30 is arranged in a cylindrical shape, and a circle of first tooth grooves 31 is disposed on an outer ring of the docking sliding plate 30, the first tooth grooves 31 are respectively correspondingly engaged with the second tooth grooves 32, the sliding opposing plates 30 are respectively provided with a sliding connecting plate 51, the sliding connecting plates 51 are arranged in a disc shape, the fixed base 5 is respectively provided with a second rotating groove 25 supporting the sliding connecting plate 51 to slide, one side of the second rotating groove 25 is provided with a first spring 27, the first springs 27 are respectively provided with a sliding pressing plate 28, the sliding pressing plates 28 respectively press the sliding connecting plates 51, the electromagnets 29 are respectively arranged at the other side of the second rotating groove 25, the sliding connecting plates 51 are respectively provided with a magnet 26 corresponding to the electromagnet 29, the rotating shaft groove 23 comprises a circle of connecting sliding grooves 34 arranged on the control rotating shaft 16, the sliding opposing plates 30 are provided with supporting sliding blocks 33 sliding in the connecting sliding grooves 34, the rope pulling rotating wheels 15 are respectively provided with rope pulling grooves 24, and the first pulling ropes 3 are respectively arranged in the rope pulling grooves 24.

A plurality of rotating shaft grooves 23 are formed in the control rotating shaft 16, the rotating shaft grooves 23 are arranged in a circular shape, a rotating driving rotating wheel 21 is arranged in each rotating shaft groove 23, a rotating shaft rotating hole 50 is formed in each driving rotating wheel 21, the driving rotating wheel 21 can further rotate in the control rotating shaft 16 through the rotating shaft rotating hole 50, the rotation of the driving rotating wheel 21 can be further limited through the rotating shaft groove 23, so that the driving rotating wheel 21 is supported through the rotating shaft grooves 23, the driving rotating wheel 21 rotates in the rotating shaft grooves 23, a supporting rotating ring 22 is arranged at the end part of the rotating shaft rotating hole 50, the driving rotating wheel 21 can be further supported through the supporting rotating ring 22, a circle of second tooth grooves 32 is formed in the rotating shaft rotating hole 50, the rope pulling rotating wheels 15 are respectively arranged on the driving rotating wheels 21, and the rope pulling rotating wheels 15 can be further driven to rotate through the rotation of the driving rotating wheels 21, the fixed base 5 is respectively provided with a first rotary groove 20 for supporting the rope pulling rotary wheel 15 to rotate, the rope pulling rotary wheel 15 can be supported through the first rotary groove 20, so that the normal rotation of the rope pulling rotary wheel 15 can be ensured, the rotary shaft grooves 23 are respectively provided with a pair of sliding discs 30, the pair of sliding discs 30 are respectively arranged in a cylindrical shape, the pair of sliding discs 30 correspond to the supporting rotary ring 22, the driving rotary wheel 21 can be supported through the supporting rotary ring 22, a certain gap can be further reserved in the rotary shaft rotary hole 20, the outer ring of each pair of sliding discs 30 is respectively provided with a circle of first tooth grooves 31, after the pair of sliding discs 30 slide to the gap in the rotary shaft rotary hole 50, the first tooth grooves 31 are correspondingly meshed with the second tooth grooves 32, and the driving rotary wheel 21 can be further driven to rotate through the rotation of the pair of sliding discs 30;

the connecting sliding discs 51 are respectively arranged on the butting sliding discs 30, the connecting sliding discs 51 are arranged in a disc shape, the fixed base 5 is respectively provided with a second rotary groove 25, the connecting sliding discs 51 can be further supported through the second rotary grooves 25, so that the normal sliding of the connecting sliding discs 51 can be ensured, the second rotary grooves 25 are respectively provided with a first spring 27, the first springs 27 are respectively provided with a jacking sliding disc 28, the jacking sliding discs 28 can be jacked on the connecting sliding discs 51 through the first springs 27, so that the first tooth grooves 31 and the second tooth grooves 32 can be in a separated state, the electromagnets 29 are respectively arranged at the other side of the second rotary grooves 25, the positions where the electromagnets 29 are arranged correspond to the first springs 27, the connecting sliding discs 51 are provided with magnets 26, and the electromagnets 29 can repel corresponding to the magnets 26 after being electrified, so as to further push the sliding of the connecting sliding discs 51, thereby correspondingly engaging and connecting the first tooth groove 31 and the second tooth groove 32, and further controlling the connection and disconnection of the first tooth groove 31 and the second tooth groove 32;

a circle of connecting sliding grooves 34 are respectively arranged in the rotating shaft groove 23, the connecting sliding grooves 34 are respectively arranged in a concave shape, supporting sliding blocks 33 which slide in the connecting sliding grooves 34 are respectively arranged on the butt joint sliding disc 30, after the butt joint sliding disc 30 slides, the first tooth grooves 31 and the second tooth grooves 32 can be further correspondingly meshed and connected, so that the rotation of the control rotating shaft 16 can be further used for driving the rotation of the butt joint sliding disc 30, the rotation of the driving rotating wheel 21 is further driven, the first pull rope 3 is tensioned, and the escape is carried out through the first pull rope 3.

As shown in fig. 8, a first rotating shaft 17 is disposed on the control rotating shaft 16, a worm wheel 18 is disposed at one end of the first rotating shaft 17, a third rotating shaft driven by a personal service motor is disposed in the control base 5, a worm 19 engaged with the worm wheel 18 is disposed on the third rotating shaft, and the wireless control module 12 controls the personal service motor to rotate.

The first rotating shaft 17 can be further driven to rotate through the rotation of the servo motor, so that the control rotating shaft 6 is driven to rotate, a worm 18 is arranged at the end part of the first rotating shaft 17, the clothes motor drives the third rotating shaft, the third rotating shaft is provided with a worm 19, the worm 19 and the worm wheel 18 can be correspondingly meshed and connected, and further the worm and the worm wheel can be meshed and connected, so that the self-locking purpose is achieved.

As shown in fig. 5 to 7, a circle of first sliding grooves 39 arranged in a trapezoid shape are arranged on the connecting disc 35, a second rotating shaft 40 is respectively arranged in the first sliding grooves 39, a rotating locking head 37 is respectively arranged on the second rotating shaft 40, a second spring 41 for biasing the locking head 37 is respectively arranged in the first sliding grooves 39, and the snap sleeve head 36 slides on the connecting disc 35 and then biases the locking head 37 to swing;

the novel rope pulling device is characterized in that a first sliding hole 42 is formed in the connecting disc 35, a sliding jacking shaft 48 is arranged in the first sliding hole 42, a connecting disc inner cavity 43 correspondingly communicated with the first sliding hole 42 is formed in the connecting disc 35, a rope pulling disc 44 sliding in the connecting disc inner cavity 43 is arranged on the jacking shaft 48, the bottom of the locking head 37 is connected with a second rope pulling 46, the second rope pulling 46 is connected to the rope pulling disc 44 respectively, a second sliding hole 45 supporting the second rope pulling 46 to slide is arranged in the connecting disc 35 respectively, a third spring 47 elastically pressing the rope pulling disc 44 is arranged in the connecting disc 35, a jacking disc 49 is arranged at the end of the jacking shaft 48, and a second sliding groove 52 supporting the jacking disc 49 to slide is arranged at the top of the connecting disc 35.

A circle of first sliding grooves 39 are formed in the connecting sliding disc 35, the connecting sliding disc 35 is arranged in a cylindrical shape, the number of the first sliding grooves 39 is set according to design requirements, a second rotating shaft 40 is arranged in each first sliding groove 39, a rotating locking head 37 is arranged on each second rotating shaft 40, each locking head 37 is arranged in a triangular shape, a second spring 41 is arranged in each first sliding groove 39, each second spring 41 springs the locking head 37, the clamping sleeve head 36 can be locked through the locking head 37 after the clamping sleeve head 36 is clamped on the connecting disc 35, and therefore the clamping sleeve head 36 can be fixed on the connecting disc 35, the clamping sleeve head 36 can be supported through the connecting disc 35, and the escape sleeve 4 can be further supported;

a first sliding hole 42 is arranged on the connecting disc 35, the first sliding hole 42 is arranged at the center of the connecting disc 35, a sliding top pressing shaft 48 is arranged in the first sliding hole 42, a connecting disc inner cavity 43 correspondingly communicated with the first sliding hole 42 is arranged in the connecting disc 35, the connecting disc inner cavity 43 is a cavity, a rope pulling disc 44 sliding in the connecting disc inner cavity 43 is arranged on the top pressing shaft 48, a second rope pulling 46 is respectively arranged at the bottom of the locking head 37, the second rope pulling 46 is respectively connected to the rope pulling disc 44, so that the rope pulling disc 44 can be further driven to slide by the sliding of the top pressing shaft 48, the second rope pulling 46 can be driven to slide, the swinging of the locking head 37 can be controlled, the clamping sleeve 36 can be further detached from the connecting disc 35, a third spring 47 is arranged in the connecting disc inner cavity 35, can be right through third spring 47 stay cord dish 44 carries out the roof pressure, thereby can make stay cord dish 44 reset, can drive the slip of top last item 48 through the slip of top pressure dish 49, thereby can control top last item 48 through the further convenience of top pressure dish 49, support top pressure dish 49 through the further convenience of second spout 52, when the personnel of fleing at the in-process of fleing, slide to the bottom of sleeve 4 of fleing after, can set up the zip fastener in the bottom of sleeve 4 of fleing, thereby can open sleeve 4 of fleing, further convenient the fleing.

As shown in fig. 9 and 11, a control module 53 for controlling the rotation of the driving pulley 16 is respectively disposed in the fixed base 5, the rotation control module 53 controls the driving pulley 21 to rotate in one direction, a module sliding slot 57 is respectively disposed on the rotation control module 53, a third rotating shaft 55 is respectively disposed in the module sliding slot 57, a rotating locking slide bar 58 is respectively disposed on the third rotating shaft 55, a fourth spring 56 for biasing the locking slide bar 58 is respectively disposed in the module sliding slot 57, and a circle of locking holes 54 corresponding to the locking slide bar 58 is respectively disposed on the driving pulley 21.

When the driving pulley 21 rotates, the locking slide rod 58 can be biased by the fourth spring 56, the locking slide rod 58 can further slide on the locking hole 54, after the driving pulley 21 stops rotating, the first tooth slot 31 and the second tooth slot 32 are separated, and the driving pulley 21 can rotate, so that the driving pulley 21 can slide in the locking hole 54 through the locking slide rod 58, and further the locking slide rod 58 is clamped in the locking hole 54, so that the driving pulley 21 can be further prevented from rotating, the rotation of the plurality of driving pulleys 21 can be simultaneously controlled by controlling the rotation of the rotating shaft 16, and when the first pull rope 3 needs to be reset, the fixing base 5 needs to be opened, and the first pull rope 3 needs to be reset.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.