CN210873794U

CN210873794U - High-rise escape device

Info

Publication number: CN210873794U
Application number: CN201920694838.3U
Authority: CN
Inventors: 刘宏炜; 谭海萌; 张子辰; 李雨萌
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-05-15
Filing date: 2019-05-15
Publication date: 2020-06-30
Anticipated expiration: 2029-05-15

Abstract

A high-rise escape device comprises a containing cabin, a track, a limiting mechanism, an unlocking mechanism, a pull rope, a smoke sensor, a control panel and a motor; the accommodating cabin is provided with an accommodating space and an inlet and an outlet, and the outer wall of the bottom and the outer wall of the back of the accommodating cabin are both provided with rollers; the rail is arranged on the bottom wall of the building gap; the limiting mechanism can limit the containing cabin in the notch; the unlocking mechanism can release the limit of the limiting mechanism, so that the accommodating cabin slides out of the notch; one end of the pull rope is connected with the top of the containing cabin, and the other end of the pull rope is connected with the top wall of the notch; the rollers are at least arranged into two rows which are arranged at intervals, and each row of rollers extends from the upper part of the outer wall of the back part of the containing cabin to the outer side of the outer wall of the bottom part; the outer wall of the back of the containing cabin is a plane, the outer wall of the bottom of the containing cabin is a cambered surface with a high inside and a low outside, and the plane and the cambered surface are in smooth transition; the motor is connected with the unlocking mechanism. The utility model discloses well hold the cabin and can fall automatically, be difficult to the card at the bulge of building, simple structure, the whereabouts direction is more fixed.

Description

High-rise escape device

Technical Field

The utility model relates to an equipment field of fleing, concretely relates to high-rise escape device.

Background

When a fire breaks out in a high-rise building, the evacuee usually escapes through a staircase or a window. Escape through stairs, the corridor can be filled with smoke, so that the visual field is not clear, and the speed of escaping from downstairs is low. Escape through the window, mainly use the rope of fleing to descend along the building outer wall, and use the rope of fleing and need the flee personnel to have great arm strength, to the flee personnel that arm strength is less, the rope of fleing is used inconveniently.

In response to the above phenomenon, there have been patents which propose solutions. For example, the chinese patent application No. CN201810178294.5 (publication No. CN108355261A) discloses a high-rise fire-fighting escape device, which comprises a body, a first partition plate, a second partition plate, a seat, a safety lock, vent holes, a cabin door, and the like, wherein the body is a spherical shell, a plurality of rollers are mounted outside the body, a plurality of vent holes are distributed in an array manner, the first partition plate and the second partition plate are fixedly mounted inside the body, the body is divided into an upper region, a middle region and a lower region by the first partition plate and the second partition plate, the upper region is a speed reduction device mounting region, and the speed reduction device comprises a fixed support, a rotating shaft, a fixed plate, an electromagnetic rod, an armature, a coil, a support ring and. The spherical shell is adopted as the escape device body, so that the escape speed and convenience are improved; in addition, the building outer wall often has a protruding portion such as a decorative portion, and the spherical shell can reduce the probability of the escape apparatus getting stuck in the protruding portion during the descent process. However, the rolling direction of the spherical shell is not easy to control in the descending process, and the spherical shell is easy to roll disorderly to cause danger.

Also for example, the Chinese utility model with patent number ZL201720105296.2 (publication number: CN206995615U) discloses an escape device, which comprises an outer chamber, an inner chamber, a blocking device, a slow descending device and the like. The patent also improves the speed and convenience of escape by designing an escape apparatus that can descend directly from a window or other breach in a building; in addition, when the escape device is clamped on the protruding part of the outer wall of the building, the escape device can eject the descending rollers through the springs, so that the distance between the rollers at two sides is greater than the width of the window. However, this patent has the following problems: firstly, the structure for avoiding being clamped by the convex part of the outer wall of the building is relatively complex; secondly, the patent does not disclose a specific structure for allowing the inner cabin to be released from the outer cabin, and when the escape personnel with small strength or inconvenient actions, such as the old, the weak, the sick and the disabled, escape, the escape personnel need to design a structure convenient to use.

In conclusion, the high-rise escape device can be optimized continuously.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to above-mentioned prior art, provide a simple structure, convenient to use is difficult for being blocked by the bulge of building outer wall, the comparatively fixed high-rise escape device of whereabouts direction.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: a containing cabin is provided with a containing space for containing escape personnel and an inlet and outlet for the escape personnel to enter and exit the containing space, and the outer wall of the bottom and the outer wall of the back of the containing cabin are both provided with rollers;

the outer wall of the back of the containing cabin is a plane, the outer wall of the bottom of the containing cabin is an arc surface with a high inside and a low outside, and the plane and the arc surface are in smooth transition;

the rollers are at least arranged in two rows which are arranged at intervals, and each row of rollers extends from the upper part of the outer wall of the back part of the containing cabin to the outer side of the outer wall of the bottom part;

the track is used for being matched with the rollers, is high in inside and low in outside, is arranged on the bottom wall of the building gap, and the accommodating cabin is placed on the track through the rollers at the bottom of the accommodating cabin;

the limiting mechanism is connected with the accommodating cabin and can limit the accommodating cabin in the gap;

the unlocking mechanism is connected with the containing cabin and can release the limit of the limiting mechanism, and after the limit is released, the containing cabin can slide downwards along the track under the action of gravity and slide out of the notch due to the loss of the limit of the limiting mechanism;

a pull rope, one end of which is connected with the top of the containing cabin and the other end is connected with the top wall of the gap;

the smoke sensor is arranged on the outer wall of the back of the containing cabin and is connected with the input end of the control panel;

the control panel is arranged on the accommodating cabin, and the output end of the control panel is connected with the motor; and

the motor is arranged on the containing cabin, and an output shaft of the motor is connected with the unlocking mechanism.

The limiting mechanism can have multiple structures, preferably, the limiting mechanism comprises a limiting block and a supporting rod, the root of the limiting block is connected with the inner wall of the notch, the free end of the limiting block transversely abuts against one end of the supporting rod, the other end of the supporting rod is connected with an unlocking mechanism, the unlocking mechanism enables the limiting block and the supporting rod to be separated, and the containing cabin can slide downwards along the rail to slide out of the notch.

The unlocking mechanism can have multiple structures, preferably, the unlocking mechanism comprises a rotating shaft, a rotating disc and a gear, the rotating shaft penetrates through the inside and the outside of the containing cabin, one end, located inside the containing cabin, of the rotating shaft is connected with the rotating disc, the other end, located outside the containing cabin, of the rotating shaft is connected with the gear, the gear is connected with the limiting mechanism, the motor drives the rotating disc to rotate to release limiting of the limiting mechanism, and the containing cabin can slide downwards along the rail to slide out of the notch.

In order to make the holding cabin keep suitable falling speed, be equipped with the ware that slowly falls that is used for reducing the holding cabin falling speed on the stay cord, this ware that slowly falls includes two at least assembly pulleys, every assembly pulley includes U-shaped groove and pulley, the U-shaped groove that falls has relative two arms and connects the top of two arms, this top is fixed with the breach inner wall, rotate through the round pin axle between pulley and the two arms and be connected, the periphery of pulley has annular holding tank, the stay cord walks around the upper portion of one of them annular holding tank in two adjacent pulleys, the lower part of the annular holding tank of another pulley is walked around.

In order to be orderly and prevent the containing cabin from falling due to knotting of the pull rope, the containing device further comprises a containing disc for containing the pull rope, the upper end of the containing disc is fixed with the top wall of the notch through a fixing shaft, the periphery of the containing disc is provided with an annular groove, and the pull rope is wound in the annular groove.

In order to reduce the injury to escape personnel in the accommodating cabin when the escape personnel fall to the ground, a plurality of buffers capable of buffering impact force when the escape personnel fall to the ground are connected to the inner wall of the bottom of the accommodating cabin, each buffer can elastically stretch up and down, a supporting plate for supporting the escape personnel is installed on the upper portion of each buffer, and a gap is reserved between the periphery of the supporting plate and the inner wall of the accommodating cabin.

For safety, the accommodation cabin comprises a cabin door arranged at the entrance and the exit, and the cabin door is provided with a switch for opening or closing the cabin door.

In order to facilitate rescue personnel on the ground to open the cabin door after the accommodation cabin falls to the ground, the accommodation cabin is also provided with a safety mechanism which can enable the rescue personnel to open the cabin door from the outside of the accommodation cabin.

The safety mechanism can have various structures, and preferably, the safety mechanism is a through hole which is arranged on the cabin door and is close to the switch, and the through hole is communicated with the outside and the accommodating space of the accommodating cabin.

Compared with the prior art, the utility model has the advantages of: by arranging at least two rows of rollers which are arranged at intervals, the accommodating cabin is guided by the at least two rows of rollers to easily keep the falling trend, the whole falling is not easily influenced because a small number of rollers are clamped on the convex part of the outer wall of the building, and the structure has the advantage of simple structure; meanwhile, the outer wall of the back of the containing cabin is a plane, the outer wall of the bottom of the containing cabin is a cambered surface, the plane and the cambered surface are in smooth transition, the falling direction is relatively fixed under the guidance of the plane and the cambered surface, and compared with a spherical shell, the containing cabin is not easy to roll in disorder in the falling process, so that the containing cabin is relatively safe; through setting up smoke transducer, like this, can satisfy and can not operate release mechanism or can not reach release mechanism or the less flee personnel's of strength (for example old and weak sick and disabled) demand of fleing, sense when holding extravehicular temperature when smoke transducer, motor drive release mechanism removes stop gear's spacing, holds the automatic whereabouts of cabin, has convenient to use's advantage.

Drawings

FIG. 1 is a schematic view of an embodiment of the present invention located in a gap of a building;

FIG. 2 is a schematic view from another angle of FIG. 1;

FIG. 3 is a schematic view of FIG. 1 from yet another angle;

FIG. 4 is an exploded view of FIG. 1;

FIG. 5 is an exploded view of FIG. 1;

FIG. 6 is an exploded view of FIG. 2;

FIG. 7 is a schematic view of another angle of FIG. 5;

FIG. 8 is another exploded view of FIG. 1;

fig. 9 is a schematic view of a partial unlatching mechanism of an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 9, the high-rise escape device includes a housing compartment 1, a rail 2, a limiting mechanism 3, an unlocking mechanism 4, a pull rope 5, a descent control device 6, a storage tray 7, a buffer 8, a smoke sensor 20, a control panel 30, a motor 40 and other main components.

The above-mentioned accommodation compartment 1 has an accommodation space for accommodating the evacuee and an entrance/exit for the evacuee to enter the accommodation space, the accommodation compartment 1 includes a hatch 11 installed at the entrance/exit, and the hatch 11 is provided with a switch 12 for opening or closing the hatch 11. The outer wall of the bottom and the outer wall of the back of the accommodating cabin 1 are both provided with rollers 13; the rollers 13 are arranged in two rows at intervals, and each row of rollers 13 extends from the upper part of the outer wall of the back part of the containing cabin 1 to the outer side of the outer wall of the bottom part; the back outer wall that holds cabin 1 is the plane, and the bottom outer wall that holds cabin 1 is the cambered surface of interior height low outward, and smooth transition between this plane and the cambered surface. Furthermore, the accommodation compartment 1 is provided with a safety mechanism for the rescue personnel to open the compartment door 11 from outside the accommodation compartment 1, preferably, the safety mechanism is a through hole 14 which is arranged on the compartment door 11 and is close to the switch 12, and the through hole 14 is communicated with the outside and the accommodation space of the accommodation compartment 1. In other embodiments the safety mechanism may also be a back-up switch that can be opened from the hatch 11.

The rail 2 is intended to cooperate with the rollers 13 and is high inside and low outside, the rail 2 being arranged on the bottom wall of the opening 10 of the building 100, the accommodation compartment 1 resting on the rail 2 by means of the rollers 13 at the bottom thereof.

The limiting mechanism 3 is connected with the containing cabin 1 and can limit the containing cabin 1 in the gap 10. Specifically, stop gear 3 includes stopper 31 and bracing piece 32, and the root of stopper 31 links to each other with the inner wall of breach 10, and the free end of stopper 31 transversely offsets with the one end of bracing piece 32, and the other end of bracing piece 32 links to each other with release mechanism 4, and release mechanism 4 enables stopper 31 and bracing piece 32 separation for hold cabin 1 and can follow track 2 gliding and roll-off breach 10. In this embodiment, the number of the limiting mechanisms 3 is two, that is, the limiting blocks 31 and the supporting rods 32 are both two, and for convenience of description, the limiting block 31 disposed on the top wall of the notch 10 is referred to as a first limiting block 311, and the limiting block 31 disposed on the bottom wall of the notch 10 is referred to as a second limiting block 312; accordingly, for convenience of description, the support rod 32 disposed at the upper portion of the accommodation compartment 1 is referred to as a first support rod 321, and the support rod 32 disposed at the lower portion of the accommodation compartment 1 is referred to as a second support rod 322; the first support rod 321 transversely abuts against the first stop block 311, and the second support rod 322 transversely abuts against the second stop block 312. In other embodiments, the limiting mechanism 3 may also be a convex pillar and a concave groove which can be laterally abutted, the convex pillar is disposed on one of the outer wall of the accommodating compartment 1 or the inner wall of the gap 10, and the concave groove is disposed on the other of the outer wall of the accommodating compartment 1 or the inner wall of the gap 10.

The unlocking mechanism 4 is connected with the containing cabin 1 and can release the limit of the limiting mechanism 3, and after the limit is released, the containing cabin 1 can slide down along the track 2 under the action of gravity and slide out of the notch 10 due to the loss of the limit of the limiting mechanism 3. Specifically, the unlocking mechanism 4 comprises a rotating shaft 42, a rotating disc 41 and a gear 43, the rotating shaft 42 penetrates through the inside and the outside of the accommodating cabin 1, one end of the rotating shaft 42, which is positioned inside the accommodating cabin 1, is connected with the rotating disc 41, the other end of the rotating shaft 42, which is positioned outside the accommodating cabin 1, is connected with the gear 43, and the gear 43 is connected with the limiting mechanism 3.

Smoke transducer 20 sets up the back outer wall that holds cabin 1, and control panel 30 and motor 40 set up on holding cabin 1, and smoke transducer 20 links to each other with control panel 30's input, and control panel 30's output links to each other with motor 40, and motor 40's output shaft links to each other with unlocking mechanism 4's carousel 41, and motor 40 drive carousel 41 rotates and can relieve limiting mechanism 3's spacing for hold cabin 1 and can slide down and roll-off breach 10 along track 2. The accommodation compartment 1 may also be equipped with an emergency power supply for powering the motor 40.

In this embodiment, the upper portion of the first support rod 321 abuts against the first stopper 311, the lower portion of the first support rod 321 engages with the right side of the gear 43, the upper portion of the second support rod 322 engages with the left side of the gear 43, and the lower portion of the second support rod 322 abuts against the second stopper 312. When the rotating disc 41 is rotated, the gear 43 rotates to drive the first supporting rod 321 engaged with the gear 43 to separate from the first limiting block 311, and the second supporting rod 322 separates from the second limiting block 312, so that the limiting of the limiting mechanism 3 is released, and the accommodating cabin 1 slides out of the notch 10. In this embodiment, the unlocking mechanism 4 only drives the supporting rod 32 to move so as to separate the supporting rod 32 from the stopper 31, in other embodiments, the unlocking mechanism 4 may also be designed to only drive the stopper 31 to move so as to separate the supporting rod from the stopper 31, or the unlocking mechanism 4 may also be designed to simultaneously drive the stopper 31 and the supporting rod 32 to move so as to separate the stopper 31 and the supporting rod from each other.

The pull cord 5 is connected at one end to the top of the accommodation compartment 1 and at the other end to the top wall of the gap 10. Preferably, the pulling rope 5 is a steel wire rope.

The descent control device 6 is provided on the pulling rope 5 and serves to reduce the falling speed of the accommodation compartment 1. Referring to fig. 4, the descent control device 6 comprises two pulley blocks 61, each pulley block 61 comprises an inverted U-shaped groove 611 and a pulley 612, the inverted U-shaped groove 611 has two opposite arms and a top portion connecting the two arms, the top portion is fixed with the top wall of the gap 10, the pulley 612 is rotatably connected with the two corresponding arms through a pin 613, the periphery of the pulley 612 is provided with an annular accommodating groove 6121, and the pull rope 5 passes through the lower portion of the annular accommodating groove 6121 of the pulley 612 close to the accommodating disc 7 and passes through the upper portion of the annular accommodating groove 6121 of the pulley 612 far from the accommodating disc 7.

The storage disk 7 is used for storing the pull rope 5, the upper end of the storage disk 7 is fixed with the top wall of the notch 10 through a fixed shaft 71, the outer periphery of the storage disk 7 is provided with an annular groove 72, and the pull rope 5 is wound in the annular groove 72.

Referring to fig. 8, a plurality of buffers 8 are connected to the inner wall of the bottom of the accommodation chamber 1 to buffer impact force when touching the ground, each buffer 8 is elastically stretchable up and down, a support plate 9 for supporting an evacuee is installed on the upper portion of the buffer 8, and a gap is formed between the outer circumference of the support plate 9 and the inner wall of the accommodation chamber 1. The buffer 8 may be of a known type.

In the embodiment, the high-rise escape device is used as follows.

When a fire does not occur, the high-rise escape apparatus is inserted into the gap 10 of the building 100. The gap 10 of the building 100 may be an additional gap 10 on the wall of the building 100, or may be an existing window. The roller 13 at the bottom of the accommodation cabin 1 is placed on the rail 2, the first support rod 321 is transversely abutted against the first limit block 311, and the second support rod 322 is transversely abutted against the second limit block 312.

When a fire breaks out, the escape personnel enter the accommodating cabin 1, when the smoke sensor 20 senses that the smoke concentration outside the accommodating cabin 1 is high (namely, the fire is high at the moment), the motor 40 drives the turntable 41 to rotate, the turntable 41 drives the first supporting rod 321 meshed with the gear 43 to move downwards to separate from the limit of the first limit block 311, and meanwhile, the second supporting rod 322 meshed with the gear 43 moves upwards to separate from the limit of the second limit block 312, so that the limit of the limit mechanism 3 is released. Then, the gyro wheel 13 that holds cabin 1 bottom falls along track 2, the gyro wheel 13 that holds cabin 1 back also falls along building 100 outer wall gradually, under the guide of two gyro wheels 13, it is difficult to block the bulge at building 100 outer wall to hold cabin 1, the back outer wall that holds cabin 1 is the plane, the bottom outer wall that holds cabin 1 is the cambered surface of interior high outer low, smooth transition between this plane and the cambered surface, the whereabouts direction that the whereabouts in-process holds cabin 1 is relatively more fixed like this, be difficult to the indiscriminate roll, thereby it is relatively safer. At the same time, the pull rope 5 is gradually opened, and the descent control device 6 on the pull rope 5 enables the accommodation chamber 1 to keep a proper falling speed. When the escape vehicle falls to the ground, the buffer 8 inside the accommodating cabin 1 stretches up and down to reduce the injury to the escape personnel in the accommodating cabin 1 when the escape vehicle contacts the ground. After landing, the rescue personnel outside the cabin door 1 can open the cabin door 1 from outside the accommodation cabin 1 through the through hole 14 on the cabin door 1.

Claims

1. A high-rise escape device is characterized in that: comprises that

The escape system comprises a containing cabin (1), wherein the containing cabin (1) is provided with a containing space for containing escape personnel and an inlet and outlet for the escape personnel to enter and exit the containing space, and the outer wall of the bottom and the outer wall of the back of the containing cabin (1) are both provided with rollers (13);

the outer wall of the back of the accommodating cabin (1) is a plane, the outer wall of the bottom of the accommodating cabin (1) is an arc surface with a high inside and a low outside, and the plane and the arc surface are in smooth transition;

the rollers (13) are at least arranged in two rows at intervals, and each row of rollers (13) extends from the upper part of the outer wall of the back part of the containing cabin (1) to the outer side of the outer wall of the bottom part;

a rail (2) which is used for matching with the roller (13) and has a high inside and a low outside, the rail (2) is arranged on the bottom wall of the gap (10) of the building (100), and the containing cabin (1) is rested on the rail (2) through the roller (13) at the bottom of the containing cabin;

the limiting mechanism (3) is connected with the containing cabin (1) and can limit the containing cabin (1) in the notch (10);

the unlocking mechanism (4) is connected with the containing cabin (1) and can release the limit of the limiting mechanism (3), and after the limit is released, the containing cabin (1) can slide down along the track (2) under the action of gravity and slide out of the notch (10) due to the loss of the limit of the limiting mechanism (3);

a pull rope (5), wherein one end of the pull rope (5) is connected with the top of the containing cabin (1) and the other end is connected with the top wall of the notch (10);

the smoke sensor (20) is arranged on the outer wall of the back of the containing cabin (1), and the smoke sensor (20) is connected with the input end of a control panel (30);

the control panel (30), the said control panel (30) is set up on holding the cabin (1), the output end of the said control panel (30) couples to following electrical machinery (40); and

the motor (40), the motor (40) sets up on holding cabin (1), the output shaft of motor (40) with delatch mechanism (4) link to each other.

2. A high-rise escape apparatus according to claim 1 wherein: stop gear (3) include stopper (31) and bracing piece (32), the root of stopper (31) links to each other with the inner wall of breach (10), the free end of stopper (31) with the one end of bracing piece (32) transversely offsets, the other end of bracing piece (32) links to each other with release mechanism (4), release mechanism (4) enable stopper (31) and bracing piece (32) separation for hold cabin (1) can follow track (2) gliding and roll-off breach (10).

3. A high-rise escape apparatus according to claim 1 wherein: unlocking mechanism (4) are including pivot (42), carousel (41) and gear (43), pivot (42) run through and hold cabin (1) inside and outside, pivot (42) are located and hold the inside one end of cabin (1) and link to each other with carousel (41), pivot (42) are located and hold the outside other end of cabin (1) and link to each other with gear (43), and gear (43) link to each other with stop gear (3), and motor (40) drive carousel (41) rotate and can relieve the spacing of stop gear (3) for hold cabin (1) and can follow track (2) gliding and roll-off breach (10).

4. A high-rise escape apparatus according to claim 1 wherein: be equipped with on stay cord (5) and be used for reducing slow descent device (6) that hold cabin (1) falling speed, this slow descent device (6) includes two at least assembly pulley (61), every assembly pulley (61) is including falling U type groove (611) and pulley (612), it has two relative arms and the top of connecting two arms to fall U type groove (611), this top is fixed with breach (10) roof, pulley (612) and the corresponding two arms between rotate through round pin axle (613) and be connected, the periphery of pulley (612) has annular holding tank (6121), stay cord (5) are walked around the upper portion of annular holding tank (6121) of one of two adjacent pulleys (612), the lower part of annular holding tank (6121) of another pulley (612).

5. A high-rise escape apparatus according to claim 1 wherein: the pull rope winding device is characterized by further comprising a storage disc (7) used for storing the pull rope (5), the upper end of the storage disc (7) is fixed to the top wall of the notch (10) through a fixing shaft (71), an annular groove (72) is formed in the outer periphery of the storage disc (7), and the pull rope (5) is wound in the annular groove (72).

6. A high-rise escape apparatus according to claim 1 wherein: the inner wall of the bottom of the accommodating cabin (1) is connected with a plurality of buffers (8) capable of buffering impact force when the accommodating cabin touches the ground, each buffer (8) can elastically stretch out and draw back up and down, a supporting plate (9) for supporting escape personnel is installed on the upper portion of each buffer (8), and gaps are formed in the peripheral distance of the supporting plates (9) and the inner wall of the accommodating cabin (1).

7. A high-rise escape apparatus according to claim 1 wherein: the containing cabin (1) comprises a cabin door (11) installed at an inlet and an outlet, and a switch (12) for opening or closing the cabin door (11) is arranged on the cabin door (11).

8. A high-rise escape apparatus according to claim 7 wherein: the accommodation cabin (1) is also provided with a safety mechanism which can lead rescue personnel to open the cabin door (11) from the outside of the accommodation cabin (1).

9. A high-rise escape apparatus according to claim 8 wherein: the safety mechanism is a through hole (14) which is arranged on the cabin door (11) and is close to the switch (12), and the through hole (14) is communicated with the outside and the accommodating space of the accommodating cabin (1).