CN205031799U - Conflagration rescue gas supply system of building - Google Patents

Abstract

The utility model provides a conflagration rescue gas supply system of building, tuber pipe that includes gaseous conveying equipment, is connected with gaseous conveying equipment, the system is still including putting rope equipment, and the aforesaid is put rope equipment and is controlled the degradable and fall to extending to walk around the setting and inside or set up at the rope of putting the outside pulley of rope equipment putting rope equipment, the below floor of building or outside can use to be put rope equipment and moves and let above -mentioned rope edge with the above -mentioned control switch that rope equipment is connected or controller or control string cable control the aforesaid put descend and extend to in the outside of the outer wall of building the below of building hangs and to draw on above -mentioned pulley, one side be stay cord no. 1 and can directly or pass through the connecting piece and be connected with the air outlet of tuber pipe or tuber pipe of rope.

Description

A kind of fire rescue air supply system of building

Technical field

The application belongs to a kind of fire fighting and rescue system equipment of building.

Background technology

The second in the world high tower, the Russian Ao Sitanjinnuo television tower fire of 540 meters high, the program of Russian Ge great TV station is caused all to be broken, the communication disruption of all paging centers in Moscow and the Ministry of Internal Affairs, Moscow first-aid system, 4 people are trapped in elevator dead, and many people are injured, TV Tower Structures is seriously damaged, make a stir all over the world, the fire of skyscraper is all drawing people's sight line always, but the integrity problem of Fire lift is more worth thinking deeply about when fire.Also has the act arm truck that existing fire-extinguishing and lifesaving adopts, generally can implement the fire attack of 53 meters high and rescue people, namely the height of 15 layers is about as much as, once more than 15th floors high-rise breaking out of fires, put out a fire upstairs except carrying water-band on foot, time more, firefighters can only hope that " fire " heaves a sigh, and let alone rescues people upstairs.The limit of having ascended a height of fire control aerial ladder vehicle, usual fire control aerial ladder vehicle can only rise to about 80% of limit value, if surface wind reaches 4 to 5 grades, fire control aerial ladder vehicle just cannot raise operation.The skyscraper of such more than 50 meters is once on fire or have personnel stranded, aerial ladder is just difficult to play a role, ordinary circumstance trapped personnel can only self-dependent ability be escaped, and the fire fighting device of partial high-level building is incomplete, Door for fire hydrant exists the various phenomenon such as to be blocked by resident with foreign material, this just causes usually has people to be trapped in window limit or balcony limit by flame or smog to wait for rescue, and smog is the primary factor to people's death in scene of fire, flammable decoration in modern building, the furniture furnishings that chemical fibre carpet and foamed plastics are filled are more, these combustibles can produce a large amount of poison gas and heat in combustion, a large amount of oxygen to be consumed simultaneously.In building fire, smog hinders people's escape, and cause trapped personnel main causes of death, the escape personnel waited for rescue on window limit or balcony limit often cannot breathe the tragedy causing death or cause jumping out of the building because of smog.Along with the increase of building height and day by day intensive, the potential safety hazard of high-rise building also gets more and more, under the critical situation such as breaking out of fire, people's effective fire fighting and rescue means are considerably less, and the means of fire-fighting fire extinguishing lifesaving and fire extinguishment rescue height restricted, nowadays the effective ways researching and developing fire in high buildings rescue become urgent problems, we are badly in need of effective fire in high buildings rescue means and equipment, and after building breaking out of fire, how escape personnel avoids the infringement of smog to people to be a problem needing to break through when window limit or balcony limit wait for rescue.

Summary of the invention

The object of the application is the problem that when solving existing skyscraper or high-rise building fire, how other at window or that balcony is other escape personnel avoids the infringement of smog.

For achieving the above object, the application adopts following technical scheme:

A kind of fire rescue air supply system of building, comprise gas transportation facilities, the airduct be connected with gas transportation facilities, it is characterized in that: described system also comprises puts rope equipment, above-mentioned rope equipment of putting is extended by controlling to land to walk around to be arranged on and puts rope device interior or be arranged on and put the rope that support member is drawn in the pulley of rope device external or rotating disk or rotating shaft or cylinder or extension, the below floor of described building or outside can use the gauge tap or controller of putting equipment connection of restricting with above-mentioned or control rope control above-mentioned put below that device action of restricting allows above-mentioned rope land along the outside of the exterior wall of described building to extend to described building and hang be pulled in above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension and draw on support member, hang be pulled in above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension draw the rope on support member while be that stay cord one can directly or by the air outlet of connector with airduct or airduct be connected, hang and be pulled in above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension and draw the another side of the rope on support member to be that stay cord two can be pulled by people or serving equipment and the air outlet driving above-mentioned stay cord one to draw above-mentioned airduct or airduct rises, when the air outlet of above-mentioned airduct or airduct is thus lifted to fire bed, escape personnel just can use the gas branch pipe that goes out be connected with airduct to breathe, or escape personnel just can use the air outlet of airduct to breathe, due to the gas transportation facilities that is arranged on described building below as air compressor machine or air pump can constantly by airduct or wind band to as described in building top fire bed carry fresh air or gas, the other escape personnel of other at window like this or that balcony other or exterior wall is external opening just can eupnea, avoid the injury of fire hazard aerosol fog, the position of the top setting of described building is provided with above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension and draws support member, have rope to walk around above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension draw support member to extend coiling rolling or extend folding bunchy, above-mentioned rolling or the rope of bunchy be arranged near above-mentioned pulley or rotating disk or support member, angle pulley or break-in draw ring or direction change pull-rod or break-in cylinder is provided with in the structure of described building below or on the ground of described building below or on the subsidiary layer roofing of described building, on exterior wall in the top building that the position of the top setting of above-mentioned building comprises above-mentioned building or above above-mentioned building or the roofing layer of above-mentioned building or the refuge story of above-mentioned building or on being arranged in above-mentioned building structure cantilever member, above-mentioned rope is walked around above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension and is drawn the mode of support member to comprise: have a rope to walk around two above-mentioned pulleys or rotating disk or rotating shaft that an above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension draw support member or an above-mentioned rope to walk around to keep at a certain distance away or cylinder or extension draw each the root rope in support member or many ropes to walk around respectively two above-mentioned pulleys or rotating disk that an above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension draw each the root rope in support member or many ropes to walk around respectively to keep at a certain distance away or rotating shaft or cylinder or extension draw support member, the below of above-mentioned building comprises the ground of described building below or the subsidiary layer roofing of subaerial position or described building or the position close to subsidiary layer roofing, above-mentioned rolling or the rope of bunchy be arranged on rope that is that above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension draw the neighbouring meaning of support member to comprise to state rolling or bunchy and be placed on the openable flap of the below in a casing, flap is locked on casing by electromagnetic mechanism, energising or power-off can make above-mentioned electromagnetic mechanism action allow above-mentioned flap open downwards, above-mentioned rolling or the rope of bunchy be arranged on rope that is that above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension draw the neighbouring meaning of support member also to comprise above-mentioned rolling or bunchy and be placed in a casing and be suspended on a cantilever, above-mentioned rolling or the rope of bunchy be arranged in top floor that rope that is that above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension draw the neighbouring meaning of support member also to comprise above-mentioned rolling or bunchy is placed on described building or on roofing layer or on refuge story, the top of described building is provided with puts rope equipment, rolling or the rope of bunchy be arranged on put rope equipment casing in, the below of described building or outside can pull control stay cord or use controller control the above-mentioned boxboard opened putting the casing of rope equipment open and allow above-mentioned rolling or the rope of bunchy hang along the outside of the exterior wall of described building and extend to the below of described building, above-mentioned control stay cord and the control cables be connected with controller are arranged in built-in pipe extended and be provided with at below floor and control stay cord or controller and can provide use from the below floor built described in the upper direction of described building, the above-mentioned concrete structure putting rope equipment refers to lower part,

Wherein, described airduct is connected with airduct stay cord, above-mentioned airduct stay cord can be connected with above-mentioned stay cord one or connector, described airduct is connected with airduct stay cord, above-mentioned airduct stay cord can be connected with above-mentioned stay cord one or connector, the above-mentioned airduct of setting spacing distance is connected with one or more airduct stay cord and has tie point, one end of one or more airduct stay cord above-mentioned and above-mentioned stay cord one or connector are connected and fixed, airduct is less than the length of the airduct between adjacent above-mentioned two tie points by the distance promoted between rear adjacent above-mentioned tie point, such airduct is suspended on by the weight major part promoting airduct between rear adjacent attachment points on the airduct stay cord that is connected with top tie point and fraction airduct weight acts on the airduct stay cord that is connected with below tie point, most of weight of bottom one section of airduct to be suspended on the airduct stay cord that is connected with top tie point and the effect of fraction weight on the ground or other support place, the resistance to tension of airduct and normally use above airduct uphill process ensure that like this,

Wherein, described stay cord one is connected with the mid portion of described connector or described stay cord one is connected with the mid portion of the air outlet of described airduct, the both sides, front and back of the air outlet of described connector or described airduct are connected with pull rope, angle pulley or break-in draw ring or direction change pull-rod or break-in cylinder is provided with in the structure of described building below or on the ground of described building below or on the subsidiary layer roofing of described building, described stay cord two or above-mentioned pull rope can extend through described angle pulley or break-in draw ring or direction change pull-rod or the break-in cylinder outside to described building after downward-extension, this can ensure that described building below pulls the safety of the rescue personnel of above-mentioned stay cord two or pull rope,

Wherein, walking around described in be arranged on to put rope device interior or put the rope pulley of device external or rotating disk or rotating shaft or cylinder or extension draws the scheme of the rope of support member to comprise:

Described put in rope equipment or described building top floor in described building top exterior wall on or described building roofing layer on or be provided with anti-off-line pulley or rotating disk or rotating shaft or cylinder or extension in refuge story and draw support member, there is circulation rope through the wire casing of anti-off-line pulley or rotating disk or have circulation rope to walk around above-mentioned rotating shaft or cylinder or extension to draw support member and draw rope that is that to form rolling near support member or bunchy at rotating shaft or cylinder or extension, the below of described building or the outside of described building can control above-mentionedly to put circulation rope that is that rope device action allows above-mentioned rolling or bunchy and to hang along the outside of the exterior wall of described building the ground or the subsidiary layer roofing of subaerial position or described building or the position close to subsidiary layer roofing that extend to described building below, above-mentioned circulation rope hang and by after separating while be that stay cord one can be connected with fire-fighting lance or support platform, above-mentioned circulation rope split from another side be that stay cord two can be pulled by people or serving equipment and draw above-mentioned fire-fighting lance or support platform rises, above-mentioned circulation rope to be tightened with multiple magic tape and is formed by overlapping one section of the both sides of a rope or to be fixed by disassembled mode formed by overlapping one section of the both sides of a rope, the rope of above-mentioned circulation can be allowed to drop to the position of overhead certain distance for such design or the position dropped to a certain distance from subsidiary layer roofing stops, as the position apart from 2 meters, ground stops, prevent injury below personnel, the rescue people of described building below can ascend a height to pull and finds above-mentioned joint and disassemble out, the both sides of disassembling out rear above-mentioned circulation rope just can provide use, simultaneously circulation rope avoid the acyclic rope process of hanging may produce one end rope by the other end traction rise cause the consequence that cannot use,

Described put in rope equipment or described building top floor in or on exterior wall above above-mentioned building or on the roofing layer of above-mentioned building or be provided with anti-off-line pulley in refuge story or extension draws support member, have rope pass anti-off-line pulley wire casing or have rope walk around above-mentioned extension draw support member and anti-off-line pulley or extension draw the side of support member to form rolling or the stay cord one of bunchy and stay cord two, the below of described building or the outside of described building can control above-mentioned stay cord one that is that rope device action allows above-mentioned rolling or bunchy and the stay cord two put and to hang along the outside of the exterior wall of described building the ground or the subsidiary layer roofing of subaerial position or described building or the position close to subsidiary layer roofing that extend to described building below,

Described put in rope equipment or described building top floor in or on exterior wall above above-mentioned building or on the roofing layer of above-mentioned building or be provided with electric rolling rope roll in refuge story, described pulley or rotating disk or rotating shaft or cylinder or extension draws support member to be arranged on electric rolling rope roll or electric rolling rope roll is inner, described rope draws through above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension and forms stay cord one after on support member and stay cord two is coiled on above-mentioned electric rolling rope roll side by side, the below floor of described building or the outside of described building can control above-mentioned electric rolling rope roll and rotate and allow above-mentioned stay cord one and stay cord two extend to the described ground of building below or the subsidiary layer roofing of subaerial position or described building through the exterior wall landing along described building after the wire casing of the rotating disk be arranged on a cantilever member or can control close to the outside of the position of subsidiary layer roofing or the below floor of described building or described building outer rear flank that above-mentioned electric rolling rope roll moves to the exterior wall of described building and rotate and allow above-mentioned stay cord one and stay cord two landing extend to ground below described building or the subsidiary layer roofing of subaerial position or described building or the position close to subsidiary layer roofing,

Described put in rope equipment or described building top floor in or on exterior wall above above-mentioned building or on the roofing layer of above-mentioned building or be provided with rope drum in refuge story, described pulley or rotating disk or rotating shaft or cylinder or extension draws support member to be arranged on rope drum or rope drum is inner, described rope draws through above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension and forms stay cord one after on support member and stay cord two is coiled on above-mentioned rope drum side by side, the below floor of described building or the outside of described building can control above-mentioned rope drum and rotate and allow above-mentioned stay cord one and stay cord two landing extend to ground or the subsidiary layer roofing of subaerial position or described building or the position close to subsidiary layer roofing of described building below,

Wherein, described stay cord one is connected with a kind of side of support platform by the stay cord of three or many, the side of described support platform is also connected with many pull ropes, described support platform above-mentioned stay cord one can hover under upper pulling force effect aerial and under the effect of the downward pulling force of pull rope adjustment direction and position, the side of described support platform is provided with hook and is provided with two or more cross-brace point, described hook can put in and catch on the window inside front of the exterior wall of described building or the inside front to outward opening of balcony inside front or described building, above-mentioned cross-brace point can lean the outside of the described building below above-mentioned hook, above-mentioned support platform is connected and fixed by above-mentioned cross-brace point and hook and described building, described support platform and the connected mode of described stay cord one comprise described stay cord one and are connected with the mid portion of described support platform, the side that its implication comprises described support platform is provided with two or more cross-brace point, the side of described support platform is connected with three or many stay cords, one end of above-mentioned three or many stay cords is jointly connected with the described stay cord one hung and has tie point, above-mentioned tie point is in the top of above-mentioned supporting construction mid portion, the side of described support platform is also connected with many pull ropes, described support platform stay cord one can hover under upper pulling force effect aerial and under the effect of the downward pulling force of pull rope adjustment direction and posture, described support platform and the connected mode of described stay cord one comprise described stay cord one and are connected with the mid portion of described support platform, the side that its implication also comprises described support platform is connected with oblique rope one and oblique rope two, the opposite side of described support platform is connected with oblique rope three and oblique rope four, oblique rope one, oblique rope two, oblique rope three, one end of oblique rope four links together and is connected with described stay cord one and has tie point, above-mentioned tie point is in the top of above-mentioned supporting construction mid portion,

Wherein, described stay cord one is also connected with the mid portion of the air outlet of described airduct or is connected with the mid portion of a connector, above-mentioned connector is provided with the air outlet of airduct, the both sides of described support platform are provided with angle pulley or break-in cylinder or break-in support member, front and back two parts of the air outlet of above-mentioned airduct or front and back two parts of above-mentioned connector are connected to the first stay cord and the second stay cord, above-mentioned first stay cord and the second stay cord are walked around the above-mentioned angle pulley of both sides or break-in cylinder or break-in support member respectively and are changed direction to downward-extension, the level pulling above-mentioned first stay cord and the second stay cord pulling force produced to both sides conveniently can adjust the air outlet of above-mentioned airduct towards, the both sides, front and back of connector of the both sides, front and back of the air outlet of above-mentioned airduct or the air outlet that is provided with above-mentioned airduct are also connected to the 3rd stay cord, above-mentioned 3rd stay cord extends downwardly into below above-mentioned building, pull the air outlet of the adjustable above-mentioned airduct of the 3rd stay cord vertical towards,

Wherein, the mid portion of the air outlet of described support platform and described airduct is rotatably connected or is rotatably connected with the mid portion of a connector, above-mentioned connector is provided with the air outlet of airduct, the both sides of described support platform are provided with angle pulley or break-in cylinder or break-in support member, front and back two parts of the air outlet of above-mentioned airduct or front and back two parts of above-mentioned connector are connected to the first stay cord and the second stay cord, above-mentioned first stay cord and the second stay cord are walked around the above-mentioned angle pulley of both sides or break-in cylinder or break-in support member respectively and are changed direction to downward-extension, the level pulling above-mentioned first stay cord and the second stay cord pulling force produced to both sides conveniently can adjust the air outlet of above-mentioned airduct towards, the both sides, front and back of connector of the both sides, front and back of the air outlet of above-mentioned airduct or the air outlet that is provided with above-mentioned airduct are also connected to the 3rd stay cord, above-mentioned 3rd stay cord extends downwardly into below above-mentioned building, pull the air outlet of the adjustable above-mentioned airduct of the 3rd stay cord vertical towards,

Wherein, the air outlet of described airduct or the side of connector are provided with the jockey that can be connected and fixed with described building, and the technical scheme of above-mentioned jockey comprises:

The side of air outlet or connector that described jockey comprises described airduct is provided with hook, and above-mentioned hook can put in the external opening of the window of described building or balcony or exterior wall and hook in the structure of inner side;

The side of air outlet or connector that described jockey comprises described airduct is provided with sucker, and above-mentioned sucker can be adsorbed on the exterior wall of described building;

The side of air outlet or connector that described jockey comprises described airduct is provided with hydraulic pressure extending arm, and above-mentioned hydraulic pressure extending arm can to put in the external opening of the window of described building or balcony or exterior wall and to withstand in the external upper and lower of opening of the window of described building or balcony or exterior wall and the structure of left and right sides by hydraulic drive extending arm;

The side of air outlet or connector that described jockey comprises described airduct is provided with hook and is provided with two or more cross-brace point, described hook can put in and catch on the window inside front of the exterior wall of described building or the inside front to outward opening of balcony inside front or described building, above-mentioned cross-brace point can lean the outside of the described building below above-mentioned hook, the air outlet of above-mentioned airduct or connector are connected and fixed by above-mentioned cross-brace point and hook and described building, under the pulling force effect of described pull rope, above-mentioned support platform is by the exterior wall that makes support platform be pressed against described building under the effect of the pulling force to upper pulling force and above-mentioned hook of the described stay cord one hung and at the downward active force of above-mentioned support platform being fixed on the exterior wall of described building, this ensure on the exterior wall that above-mentioned support platform is fastened on described building or be fastened on the balcony of described building outer or be fastened on described building external opening on and the torsion can resisted suffered by above-mentioned support platform,

Wherein, described system also comprises described building top and is provided with casing, in casing or casing be outside equipped with stiff end or descending lifeline, openable boxboard is provided with below casing, boxboard is placed with described rope, be connected with above-mentioned stiff end and the insurance rope extended out or be also arranged on above-mentioned boxboard from the slow rope that falls that above-mentioned descending lifeline extends out, the below of described building or outside can control above-mentioned openable boxboard and open and allow described rope and above-mentioned insurance rope or slowly fall the below that rope drops to described building;

Wherein, the structure of putting rope equipment described in comprises one of in the following ways:

Described rope equipment of putting comprises casing, pulley, supporting plate, the control piece be connected with supporting plate, above-mentioned supporting plate is rotatably connected in the below of casing, the above-mentioned control piece be connected with supporting plate comprises support member or pull bar, support member or pull bar are connected with motor or are connected with electromagnetic suction device or be connected with control stay cord, electric machine rotation or electromagnetic suction device action or pull control stay cord can control above-mentioned support member depart from supporting plate or control above-mentioned pull bar depart from supporting plate, motor or electromagnetic suction device are connected with the control cables of gauge tap or are connected with control rope with the gauge tap of motor or electromagnetic suction device, above-mentioned control cables or control rope are arranged in built-in pipe from described architectural direction downward-extension,

Described rope equipment of putting comprises casing, anti-off-line pulley, supporting plate, the control piece that is connected with supporting plate, above-mentioned supporting plate is rotatably connected in the below of casing, the above-mentioned control piece be connected with supporting plate is motor, electric machine rotation can drive supporting plate to overturn downwards, motor is connected with the control cables of gauge tap or is connected with control rope with the gauge tap of motor, and above-mentioned control cables or control rope are arranged in built-in pipe from described architectural direction downward-extension;

Described rope equipment of putting comprises casing, anti-off-line pulley, electromagnetic suction device, supporting plate, the control piece that is connected with supporting plate, above-mentioned supporting plate is rotatably connected in the below of casing, the above-mentioned control piece be connected with supporting plate is electromagnetic suction device, electromagnetic suction device adhesive action can drive supporting plate to overturn downwards, electromagnetic suction device is connected with the control cables of gauge tap or is connected with control rope with the gauge tap of electromagnetic suction device, and above-mentioned control cables or control rope are arranged in built-in pipe from described architectural direction downward-extension;

Described rope equipment of putting comprises housing box body, structural framing, the arranged outside of structural framing has above-mentioned casing, structural framing is provided with anti-off-line pulley, above-mentioned anti-off-line pulley runner is wound with rope, above-mentioned rope forms a volume stay cord one and volume stay cord two after walking around anti-off-line pulley runner, on the supporting plate that above-mentioned stay cord one and stay cord two are arranged on said structure framework or on hanging piece, above-mentioned supporting plate or hanging piece are connected with to be opened motor or controls stay cord, above-mentioned supporting plate or the hanging piece Electric Machine Control that can be opened is opened or is pulled wire saws and pulls open and make above-mentioned volume stay cord one and volume stay cord two falls downward extend and hang and be pulled on above-mentioned anti-off-line pulley, above-mentioned stay cord one and stay cord two hang the ground, below of described building or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing, above-mentioned motor of opening is connected with and is connected with control rope with the control cables of gauge tap or the gauge tap of opening motor, above-mentioned control cables or control rope, above-mentioned control stay cord extends downwardly into the bottom of described building or the outside of described building,

Described rope equipment of putting comprises casing, structural framing, the arranged outside of structural framing has above-mentioned casing, said structure framework is provided with anti-off-line pulley, above-mentioned anti-off-line pulley is wound with rope, above-mentioned rope forms a volume stay cord one and volume stay cord two after walking around anti-off-line pulley, above-mentioned stay cord one is wound on serving dish one, stay cord two is wound on serving dish two, on the supporting plate that above-mentioned serving dish one and serving dish two are arranged on said structure framework or on hanging piece, above-mentioned supporting plate or hanging piece are connected with to be opened motor or controls stay cord, above-mentioned supporting plate or the hanging piece Electronic control that can be opened is opened or is pulled wire saws and pulls open and make above-mentioned volume stay cord one and volume stay cord two falls downward extend and hang and be pulled on above-mentioned anti-off-line pulley, above-mentioned stay cord one and stay cord two hang the ground, below of described building or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing, above-mentioned motor of opening is connected with the control cables of gauge tap or is connected with control rope with gauge tap, above-mentioned control cables or control rope, above-mentioned control stay cord extends downwardly into the bottom of described building or the outside of described building,

Described rope equipment of putting comprises casing, structural framing, cantilever, above-mentioned cantilever to be arranged on structural framing and to be in casing, the arranged outside of structural framing has above-mentioned casing, said structure framework is provided with track, track is slidably provided with above-mentioned cantilever, mobile motor is provided with on structural framing or on cantilever, mobile motor can drive cantilever to move to stretch out above-mentioned casing and stop at the side putting rope equipment or the outside stopping at described building, above-mentioned cantilever is provided with anti-off-line pulley, above-mentioned anti-off-line pulley is wound with rope, above-mentioned rope forms a volume stay cord one and volume stay cord two after walking around anti-off-line pulley, on the supporting plate that above-mentioned stay cord one and stay cord two are arranged on the end of above-mentioned cantilever or on hanging piece, above-mentioned supporting plate or hanging piece are connected with electromagnetic suction device or open motor or control stay cord, above-mentioned supporting plate or hanging piece or can be opened Electric Machine Control and open or be pulled wire saws and pull open and make above-mentioned volume stay cord one and volume stay cord two falls downward extend and hang and be pulled on above-mentioned anti-off-line pulley by electromagnetic suction device, above-mentioned stay cord one and stay cord two hang the ground, below of described building or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing, above-mentioned mobile motor or electromagnetic suction device or open motor and be connected with and be connected with control rope with the control cables of gauge tap or above-mentioned mobile motor or electromagnetic suction device or the gauge tap of opening motor, above-mentioned control cables or control rope, control stay cord and be arranged in built-in pipe the bottom or outside that extend downwardly into described building,

Described rope equipment of putting comprises casing, structural framing, cantilever, above-mentioned cantilever to be arranged on structural framing and to be in casing, the arranged outside of structural framing has above-mentioned casing, said structure framework is provided with rotating shaft, rotating shaft is rotatably connected and is provided with above-mentioned cantilever, electric rotating machine is provided with in rotating shaft or on cantilever, electric rotating machine can drive cantilever to rotate and mobile stretch out above-mentioned casing and put the side of rope equipment or stop at the outside of described building described in stopping at, above-mentioned cantilever is provided with anti-off-line pulley or runner or rotating disk or rod member, above-mentioned anti-off-line pulley or runner or rotating disk or rod member are wound with rope, above-mentioned rope forms a volume stay cord one and volume stay cord two after walking around anti-off-line pulley or runner or rotating disk or rod member, on the supporting plate that above-mentioned stay cord one and stay cord two are arranged on the end of above-mentioned cantilever or on hanging piece, above-mentioned supporting plate or hanging piece are connected with to be opened motor or controls stay cord, above-mentioned supporting plate or the hanging piece Electric Machine Control that can be opened is opened or is pulled wire saws and pulls open and above-mentioned volume stay cord one and volume stay cord two falls downward extended and hangs to be pulled on above-mentioned runner or rotating disk or rod member, above-mentioned stay cord one and stay cord two hang the ground, below of described building or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing, above-mentioned electric rotating machine or open motor and be connected with and be connected with control rope with the control cables of gauge tap or above-mentioned electric rotating machine or the gauge tap of opening motor, above-mentioned control cables or control rope, control bottom or outside that stay cord extends downwardly into described building,

Described rope equipment of putting comprises casing, column, cantilever, above-mentioned cantilever is rotatably connected and is arranged on column, cantilever is provided with above-mentioned casing, electric rotating machine is provided with on column or on cantilever, electric rotating machine can drive cantilever to rotate and put the side of rope equipment or stop at the outside of described building described in stopping at, above-mentioned cantilever is slidably provided with electric walking dolly, above-mentioned electric walking dolly is provided with anti-off-line pulley, above-mentioned anti-off-line pulley is wound with rope, above-mentioned rope forms a volume stay cord one and volume stay cord two after walking around anti-off-line pulley, above-mentioned stay cord one and stay cord two are arranged on the supporting plate below above-mentioned casing, above-mentioned supporting plate is connected with to be opened motor or controls stay cord, the above-mentioned supporting plate Electric Machine Control that can be opened is opened or is pulled wire saws and pulls open and make above-mentioned volume stay cord one and volume stay cord two falls downward extend and hang and be pulled on above-mentioned anti-off-line runner, above-mentioned stay cord one and stay cord two hang the ground, below of described building or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing, above-mentioned electric rotating machine or open motor and be connected with and be connected with control rope with the control cables of gauge tap or above-mentioned electric rotating machine or the gauge tap of opening motor, above-mentioned control cables or control rope, control stay cord and be arranged in built-in pipe the bottom or outside that extend downwardly into described building,

Described rope equipment of putting comprises manipulator, structural framing, manipulator is arranged on structural framing, the arranged outside of structural framing has above-mentioned casing, structural framing is provided with anti-off-line pulley, there is rope to pass anti-off-line pulley and form a volume stay cord one and volume stay cord two in the both sides of anti-off-line pulley, manipulator can be grabbed to pick up described stay cord one and stay cord two and move to outside exterior wall by control and be discharged, above-mentioned manipulator is connected with the control cables with controller, and above-mentioned control cables extends downwardly into the bottom of described building or outside to be connected with controller;

Described rope equipment of putting comprises the rotatable gear be connected with motor, be used for veering away the delivery board of stay cord one and stay cord two, the openable supporting plate being used for holding described stay cord one and stay cord two be rotatably connected with delivery board, above-mentioned delivery board is connected on the connecting shaft with rotatable gear, rotatable gear is arranged on gear track, the gear inosculation of rotatable gear and gear track, above-mentioned motor to be fixedly connected on above-mentioned delivery board and to be connected with rotatable gear by chain band, above-mentioned motor is connected with the control cables with gauge tap, above-mentioned control cables is connected with one piece of control circuit board or above-mentioned control cables extends downwardly into bottom or the outside of described building, above-mentioned gauge tap is arranged in the switch enclosure of the exterior wall of described building below floor,

Described rope equipment of putting comprises supporting plate, the push rod of placing described stay cord one and stay cord two, above-mentioned push rod supports above-mentioned supporting plate, push rod rotatably allows the supporting plate losing support can rotate around a rotating shaft downwards, above-mentioned push rod is connected with control stay cord, above-mentioned control stay cord can extend downwardly into bottom or the outside of described building, and the termination of above-mentioned control stay cord is arranged in the switch enclosure of the exterior wall of described building below floor;

Described rope equipment of putting comprises tape loop, tape loop is enclosed within the periphery of drive roll and follower rollers, drive roll and follower rollers are arranged on described structural framing, above-mentioned driving mechanism adopts motor, motor can drive above-mentioned drive roll to roll and drive tape loop cycle rotation, above-mentioned tape loop is arranged described stay cord one and stay cord two, above-mentioned motor is connected with the control cables with gauge tap, above-mentioned control cables is connected with one piece of control circuit board or extends downwardly into the bottom of described building, above-mentioned gauge tap is arranged in the switch enclosure of the exterior wall of described building below floor,

Wherein, the top of described building is also provided with a volume or a branch of or multireel or multi beam arming lanyard, one end of above-mentioned insurance rope is fixed on the top of described building and has stiff end, above-mentioned insurance rope extends coiling rolling or folding bunchy from stiff end, described rope is arranged in a casing, one or more above-mentioned arming lanyard is also provided with in described casing, one end of arming lanyard is fixed on the stiff end in casing or outside casing, above-mentioned insurance rope extends coiling rolling or folding bunchy from stiff end, above-mentioned casing is provided with one or more openable boxboards, above-mentioned rope and insurance rope are arranged on above-mentioned openable boxboard, described building below or outside can pull and control rope or control above-mentioned boxboard by movement controller open and allow above-mentioned rope and insurance rope hang the ground of described building below or the subsidiary layer roofing of subaerial position or described building or the position close to subsidiary layer roofing, one end of above-mentioned control rope is connected with the control piece of the openable boxboard of above-mentioned casing or one end of above-mentioned control rope is connected with the above-mentioned gauge tap opening the control circuit of boxboard, above-mentioned control rope is arranged on the floor extension downwards from the top of described building in built-in pipe, when also having employing control cables, control cables between above-mentioned controller and above-mentioned casing to be arranged in built-in pipe anti-side's floor from architectural direction and to extend, the each floor in below all can control above-mentioned boxboard and open,

Wherein, the top of described building is also provided with one or more descending lifeline, rolling is extended or rope falls in the slow of bunchy from above-mentioned descending lifeline, the above-mentioned slow rope that falls extends coiling rolling or folding bunchy from descending lifeline, above-mentioned one or more descending lifeline is fixedly installed in a casing, extend in descending lifeline slow fall rope coiling rolling or coiling bunchy be arranged in casing, above-mentioned casing is provided with one or more openable boxboards, above-mentionedly slow fall rope and be arranged on above-mentioned openable boxboard, described building below or outside can pull and control rope or control above-mentioned boxboard by movement controller to open and allow and above-mentionedly slowly fall rope and hang, above-mentioned descending lifeline can be arranged on cantilever member, also can be arranged on the walking dolly on cantilever member, extend in descending lifeline slow fall rope coiling rolling or coiling bunchy be arranged in casing, the each floor in below all can control above-mentioned boxboard and open,

Wherein, the below of described building or the outside of described building can control above-mentioned stay cord one and stay cord two along the exterior wall of described building drop to apart from the ground setting of described building below distance as the position more than 2 meters stop or as described in building below or as described in the outside of building can control above-mentioned stay cord one and stay cord two along as described in the exterior wall of building drop to apart from as described in the distance of subsidiary layer roofing setting of building as the position stopping more than 2 meters, concrete technical scheme comprises one of employing following manner:

The length of described stay cord one and stay cord two for described in put the distance that rational height that rope equipment is arranged on described building reduces setting, the end of stay cord one is connected with weight, the gravity of stay cord one is greater than the gravity of stay cord two, in the upper end of stay cord two, the side of described anti-off-line pulley being provided with convex thing can stop stay cord two through the wire casing of above-mentioned anti-off-line pulley, and the controlled rear-pulling rope two of first landing of stay cord one is landed;

The stay cord one of described anti-off-line pulley or runner or rotating disk or rod member both sides arranges electromagnetic clamp one, stay cord two arranges electromagnetic clamp two, electromagnetic clamp one clamp through stay cord one, electromagnetic clamp two clamp through stay cord two, stay cord one between electromagnetic clamp one and electromagnetic clamp two or stay the distance of above-mentioned setting of twice between stay cord two more, electromagnetic clamp one is connected with a circuit control panel by electric wire with electromagnetic clamp two, the below that the control cables of circuit control panel extends to building is connected with gauge tap, rescue people gets final product the action by setup program of start-up circuit control panel after building below starts gauge tap, stay cord one and stay cord two stop when successively being dropped to the above-mentioned distance overhead set by control, the gauge tap control time delay relief electromagnetic clamp one and electromagnetic clamp two energising that start control circuit board on ground are opened, the rope of the distance of the above-mentioned setting of above-mentioned reserved twice just settles out to lead to provides use,

The end of described stay cord one and stay cord two is flexibly connected, the length of stay cord one and stay cord two for described in put the distance that rational height that rope equipment is arranged on described building reduces setting, control to stop in the position of overhead setpoint distance after stay cord one and stay cord two land in building below like this, ground rescue personnel unties above-mentioned stay cord one with stay cord two by movable escalator and to be connected with one section of rope respectively thus the length extending stay cord one and stay cord two provides ground to use;

Wherein, can control stay cord one and stay cord two successively landing in the outside of the below of described building or described building, technical scheme comprises one of employing following manner:

The weight of the weight ratio stay cord one of described stay cord two is large, and the upper end of stay cord one is provided with convex thing near the side of described anti-off-line pulley and stay cord one can be stoped through the wire casing of above-mentioned anti-off-line pulley, and stay cord two is controlled first to land;

The weight of the weight ratio stay cord two of described stay cord one is large, and the upper end of stay cord two is provided with convex thing near the side of described anti-off-line pulley and stay cord two can be stoped through the wire casing of above-mentioned anti-off-line pulley, and stay cord one is controlled first to land;

Described stay cord one is arranged on supporting plate one, stay cord two is arranged on supporting plate two, on the cantilever that supporting plate one and supporting plate two are rotatably connected above described building, the length of described stay cord one is greater than the length of stay cord two, in the upper end of stay cord two, the side of described anti-off-line pulley being provided with convex thing can stop stay cord two through the wire casing of above-mentioned anti-off-line pulley, above-mentioned supporting plate one and supporting plate two control first to open supporting plate by Electric Machine Control or controlled stay cord and open supporting plate two again and again and allow stay cord one first land to allow stay cord two landing again, above-mentioned stay cord one and stay cord two can be wound on serving dish respectively,

The cantilever of described building top is provided with runner one, runner two, runner one keeps at a certain distance away with runner two and runner one is consistent with runner two rotating direction, runner one walked around by described rope, runner two forms a volume stay cord one and volume stay cord two, above-mentioned runner one and runner two are Anti-rope drop runner, keep at a certain distance away between above-mentioned runner one and runner when can ensure that above-mentioned stay cord one and stay cord two land simultaneously and can not be intertwined, above-mentioned stay cord one and stay cord two can be wound on serving dish respectively;

Described stay cord one is arranged on supporting plate one, stay cord two is arranged on supporting plate two, the below of supporting plate one is provided with support member one, support member one is connected with control stay cord one, the below of supporting plate two is provided with support member two, support member two is connected with control stay cord two, supporting plate one, on the cantilever that supporting plate two is rotatably connected above described building, control stay cord one and control stay cord two to be arranged in built-in pipe the below or outside that extend downwardly into described building, successively pull control stay cord once and control stay cord two and can control to land when supporting plate one and supporting plate two successively upset downwards make stay cord one different with stay cord two, in case stay cord one and stay cord two are wound around, above-mentioned stay cord one and stay cord two can be wound on serving dish respectively,

Described stay cord one is arranged on supporting plate one, stay cord two is arranged on supporting plate two, supporting plate one, on the cantilever that supporting plate two is rotatably connected above described building, supporting plate one controls by motor one, supporting plate two controls by motor two, motor one is connected with control circuit board by electric wire with motor two, control circuit board is connected with the control cables with gauge tap, control cables extends downwardly into the below of building or outside to be connected with gauge tap, above-mentioned control circuit board can control motor one and motor two successively startup allows supporting plate one and supporting plate two successively open downwards, above-mentioned stay cord one and stay cord two can be wound on serving dish respectively,

The cantilever of described building top is provided with electromagnetic clamp one and electromagnetic clamp two at the side of anti-off-line pulley or runner or rotating disk or rod member, electromagnetic clamp one clamp through stay cord one, electromagnetic clamp two clamp through stay cord two, electromagnetic clamp one is connected with control circuit board by electric wire with electromagnetic clamp two, control circuit board is connected with the control cables with gauge tap, control cables extends downwardly into the below of building or outside to be connected with gauge tap, electromagnetic clamp one and electromagnetic clamp two successively can be opened and allow stay cord one and stay cord two successively land, above-mentioned stay cord one and stay cord two can be wound on serving dish respectively,

Described stay cord one is wound on serving dish one, stay cord two is wound on serving dish two, the length of described stay cord one is greater than the length of stay cord two, in the upper end of stay cord two, the side of described anti-off-line pulley is provided with convex thing, convex thing such as knot or rope clamp can stop stay cord two through the wire casing of above-mentioned anti-off-line pulley, serving dish one and serving dish two can roll and arrange in orbit, track is arranged on the cantilever of described building top, serving dish one controls by motor one or control stay cord one, serving dish two controls by motor two or control stay cord two, motor one is connected with control cables one, motor two is connected with control cables two, control cables one control cables two extends downwardly into the below of building or outside to be connected with gauge tap one and gauge tap two, above-mentioned control stay cord one and control stay cord two are arranged in built-in pipe to building below or outside extended, stay cord two can be controlled first to land, time delay rear-pulling rope one can be controlled to land again,

Described stay cord one is connected with the mid portion of fire extinguishing spray gun or is connected with the mid portion of the connector being provided with spray gun of putting out a fire, described stay cord one and fire extinguishing spray gun are arranged on supporting plate one, stay cord two is arranged on supporting plate two, on the cantilever that supporting plate one and supporting plate two are rotatably connected above described building, in the upper end of stay cord two, the side of described anti-off-line pulley being provided with convex thing can stop stay cord two through the wire casing of above-mentioned anti-off-line pulley, above-mentioned supporting plate one and supporting plate two control by electromagnetic mechanism or control first to open supporting plate by Electric Machine Control or controlled stay cord to open supporting plate two again and again and allow stay cord one and fire extinguishing spray gun first land to allow stay cord two landing again, above-mentioned stay cord one and stay cord two can be wound on serving dish respectively,

Described stay cord one is connected with the mid portion of fire extinguishing spray gun or is connected with the mid portion of the connector being provided with spray gun of putting out a fire, the cantilever of described building top is provided with runner one, runner two, runner one keep at a certain distance away with runner and runner one with runner and rotating direction consistent, runner one walked around by described rope, runner two forms a volume stay cord one and volume stay cord two, above-mentioned runner one and runner two are Anti-rope drop runner, described stay cord one and fire extinguishing spray gun are arranged on supporting plate one, stay cord two is arranged on supporting plate two, on the cantilever that supporting plate one and supporting plate two are rotatably connected above described building, keep at a certain distance away between above-mentioned runner one and runner when can ensure that above-mentioned stay cord one and stay cord two land simultaneously and can not be intertwined, above-mentioned stay cord one and stay cord two can be wound on serving dish respectively,

Described stay cord one is connected with the mid portion of fire extinguishing spray gun or is connected with the mid portion of the connector being provided with spray gun of putting out a fire, described stay cord one and fire extinguishing spray gun are arranged on supporting plate one, stay cord two is arranged on supporting plate two, the below of supporting plate one is provided with support member one, support member one is connected with control stay cord one, the below of supporting plate two is provided with support member two, support member two is connected with control stay cord two, supporting plate one, on the cantilever that supporting plate two is rotatably connected above described building, control stay cord one and control stay cord two to be arranged in built-in pipe the below or outside that extend downwardly into described building, successively pull control stay cord once and control stay cord two and can control to land when supporting plate one and supporting plate two successively upset downwards make the stay cord one that is connected with fire extinguishing spray gun different with stay cord two, in case stay cord one and stay cord two are wound around, above-mentioned stay cord one and stay cord two can be wound on serving dish respectively,

Described stay cord one is connected with the mid portion of fire extinguishing spray gun or is connected with the mid portion of the connector being provided with spray gun of putting out a fire, described stay cord one and fire extinguishing spray gun are arranged on supporting plate one, stay cord two is arranged on supporting plate two, supporting plate one, on the cantilever that supporting plate two is rotatably connected above described building, supporting plate one controls by motor one, supporting plate two controls by motor two, motor one is connected with control circuit board by electric wire with motor two, control circuit board is connected with the control cables with gauge tap, control cables extends downwardly into the below of building or outside to be connected with gauge tap, above-mentioned control circuit board can control motor one and motor two successively startup allows supporting plate one and supporting plate two successively open downwards, above-mentioned stay cord one and stay cord two can be wound on serving dish respectively,

Described stay cord one is connected with the mid portion of fire extinguishing spray gun or is connected with the mid portion of the connector being provided with spray gun of putting out a fire, the cantilever of described building top is provided with electromagnetic clamp one and electromagnetic clamp two at the side of anti-off-line pulley or runner or rotating disk or rod member, electromagnetic clamp one clamp through be connected with fire extinguishing spray gun stay cord one, electromagnetic clamp two clamp through stay cord two, electromagnetic clamp one is connected with control circuit board by electric wire with electromagnetic clamp two, control circuit board is connected with the control cables with gauge tap, control cables extends downwardly into the below of building or outside to be connected with gauge tap, electromagnetic clamp one and electromagnetic clamp two successively can be opened and allow stay cord one and stay cord two successively land, above-mentioned stay cord one and stay cord two can be wound on serving dish respectively,

Described stay cord one is connected with the mid portion of fire extinguishing spray gun or is connected with the mid portion of the connector being provided with spray gun of putting out a fire, described stay cord one winding is connected on serving dish one, serving dish is detachably fixedly connected with above-mentioned fire extinguishing spray gun or connector, stay cord two winding is connected on serving dish two, in the upper end of stay cord two, the side of described anti-off-line pulley is provided with convex thing, convex thing such as knot or rope clamp can stop stay cord two through the wire casing of above-mentioned anti-off-line pulley, serving dish one is arranged on supporting plate one, serving dish two is arranged on supporting plate two, supporting plate one controls by motor one or control stay cord one, serving dish two controls by motor two or control stay cord two, motor one is connected with control cables one, motor two is connected with control cables two, control cables one, control cables two extends downwardly into the below of building or outside to be connected with gauge tap one and gauge tap two, above-mentioned control stay cord one and control stay cord two are arranged in built-in pipe to building below or outside extended, stay cord one can be controlled first to land, time delay rear-pulling rope two is controlled to land again,

Described pulley is anti-off-line pulley, and the stay cord one that described anti-off-line pulley is other or stay cord two are provided with electromagnetic clamp, electromagnetic clamp fix through stay cord one or stay cord two, stay cord one or stay cord two extend and are wound into a volume and are arranged on rotating supporting plate;

Described stay cord one is wound on serving dish one, described stay cord two is wound on serving dish two, serving dish one is provided with electromagnetic clamp one, serving dish two is provided with electromagnetic clamp two, electromagnetic clamp one fixes serving dish one, electromagnetic clamp two fixes serving dish two, electromagnetic clamp one and electromagnetic clamp two are connected with the control circuit being connected with gauge tap one or electromagnetic clamp one and electromagnetic clamp two are connected with gauge tap two by control cables two, above-mentioned gauge tap one or gauge tap two are arranged on the below of described building, start gauge tap one or start gauge tap two and can control sequencing that electromagnetic clamp one and electromagnetic clamp two open and delay time,

Stay cord one is arranged on supporting plate one, and stay cord two is arranged on supporting plate two, and supporting plate one and supporting plate two are by Electric Machine Control successively Time Delay Opening;

The stay cord two that pulley is other is provided with an electromagnetic clamp or a knot, the gravity that the gravity born of above-mentioned stay cord one bears than stay cord two is large, first control stay cord one to land, control stay cord two landing again, due to the design of above-mentioned electromagnetic clamp or a knot, stay cord one not stretchy stay cord two passes pulley, the safe distance stopping that stay cord one first drops to overhead about 3 meters can be designed like this, control the distance stopping that stay cord two drops to overhead about 3 meters again, rescue personnel opens the knot of the end of stay cord one length extending stay cord one by movable stair and provides use to ground, the knot of the end of stay cord two is opened the length extending stay cord two and provides use to ground, or rescue personnel provides use the end connecting rope of stay cord one to ground by movable stair, use is provided to ground stay cord two end connecting rope,

Wherein, described stay cord one is direct or be connected by the mid portion of connector with fire-fighting lance or the ejecting gun of fire-extinguishing apparatus or the fire extinguishing spray gun of fine water mist fire extinguishing equipment or air port of ventilating and had tie point, on the fire extinguishing spray gun or ventilation air port of the fire-fighting lance of the both sides of above-mentioned tie point or the ejecting gun of fire-extinguishing apparatus or fine water mist fire extinguishing equipment or be respectively connected with one or more pull rope on the connector of tie point both sides, rescue personnel is in the position in ground pulling traction rope and the ejecting gun of the above-mentioned fire-fighting lance of adjustable or fire-extinguishing apparatus or the fire extinguishing spray gun of fine water mist fire extinguishing equipment or ventilation air port and direction, thus ensure the carrying out of water spray work and ventilation operation,

Wherein, on the inclined-plane slide plate that described stay cord one or stay cord two are arranged at the exterior wall limit of described building or be suspended on described building exterior wall outside be suspended on described building exterior wall limit inclined-plane slide plate on or be arranged on described building exterior wall outside one block of rotating supporting plate on or stay cord one or stay cord two to be wound on serving dish and arrange in orbit or stay cord one or stay cord two to be wound on serving dish and be arranged on rotatable supporting plate or stay cord one or stay cord two to be wound on serving dish and hanging on electromagnetic clamp, above-mentioned inclined-plane slide plate is arranged and arranges cylinder more, the above-mentioned sebific duct extended from electronic tube rolling device, fire extinguishing spray gun or shower nozzle are arranged on cylinder, described stay cord one or stay cord two be arranged on the exterior wall of the top of described building outside or be arranged on described building top exterior wall limit inclined-plane slide plate top or side or arrange after being wound on serving dish be wound on serving dish in orbit after be arranged on supporting plate,

Wherein, the top of described building is provided with puts rope equipment, described rope equipment of putting comprises casing, described rolling or the rope of bunchy be arranged in casing, the below of described building or outside can control the above-mentioned openable case lid putting rope equipment open and allow above-mentioned rolling or the rope of bunchy to hang along the outside of the exterior wall of described building the below floor that extends to described building be suspended on above-mentioned pulley or rotating disk or support member or descending lifeline or stiff end, described putting in rope equipment is provided with motor or electromagnetic clamp or controls stay cord, above-mentioned motor or electromagnetic clamp are connected with the control cables one with gauge tap one or above-mentioned motor or electromagnetic clamp are connected with control circuit board by electric wire, control circuit board and the control cables two with gauge tap two, above-mentioned control cables one is arranged in built-in pipe the below that extends downwardly into building or is outsidely connected with gauge tap one, above-mentioned control cables two is arranged in built-in pipe the below that extends downwardly into building or is outsidely connected with gauge tap two, above-mentioned control stay cord is arranged in built-in pipe the below that extends downwardly into building or outside provides use,

Wherein, the top of described building is provided with puts rope equipment, described rope equipment of putting comprises casing, described rolling or the rope of bunchy be arranged in casing, the below of described building or outside can control the above-mentioned openable case lid putting rope equipment open and allow above-mentioned rolling or the rope of bunchy to hang along the outside of the exterior wall of described building the below floor that extends to described building be suspended on above-mentioned pulley or rotating disk or support member or descending lifeline or stiff end, described stay cord one or stay cord two and pulley are arranged to be put on rope equipment;

Wherein, the setting of rope equipment is put in orbit, one of concrete structure employing following manner described in:

Described bottom of putting rope equipment can embed setting in orbit, above-mentioned rope equipment of putting is provided with mobile stay cord one and mobile stay cord two, above-mentioned mobile stay cord one and mobile stay cord two can hang down along the exterior wall release of the both sides of described building, and the rescue personnel of described building below can pull stay cord one and mobile stay cord two to allow above-mentioned rope equipment of putting slide in orbit and to change position;

Described bottom of putting rope equipment can embed setting in orbit, above-mentioned rope equipment of putting is provided with motor, above-mentioned motor can drive to be put rope equipment and slides in orbit and change position, above-mentioned motor is connected with the control cables with gauge tap, above-mentioned control cables is connected with one piece of control circuit board or above-mentioned control cables can extend downwardly into the bottom of described building, and above-mentioned gauge tap is arranged in the switch enclosure of the exterior wall of described building below.

After adopting technique scheme, during breaking out of fire, rescue personnel below the described building people from below of each floor or described building just can use controller or press gauge tap or pull and control stay cord or control rope, so just can start to be arranged on and roofing layer or refuge story put rope equipment, put rope equipment above-mentioned stay cord one and stay cord two just can be allowed to hang down fall earthward subaerial position or the subsidiary layer that hangs roofing or be supplied to the rescue personnel's use of described building below close to the position of subsidiary layer roofing, as as described in technique scheme, rescue personnel just can be connected above-mentioned stay cord one with the air outlet of airduct or airduct, rescue personnel is connected stay cord two with a kind of cord winder simultaneously, or after stay cord two is drawn by people, draw the above-mentioned stay cord one of support member the air outlet of airduct with being dynamically connected or airduct can to rise to target place and be supplied to escape personnel and use by above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension.When the air outlet of described airduct is rotatably arranged in support platform, described stay cord one is connected with the mid portion of above-mentioned support platform and has tie point, the support platform of the left and right sides of above-mentioned tie point and both sides, front and back is connected with pull rope, described pull rope can be drawn by people the position and direction posture that adjust described support platform, the previous section of above-mentioned support platform is provided with crotch, when above-mentioned support platform rises to the window of fire bed, rescue personnel's adjustable above-mentioned pull rope direction and strength make the air outlet of the airduct in above-mentioned support platform aim at window, and the crotch of available above-mentioned support platform front portion puts in window and hooks the edge inside window, this produces the effect of jitter that power of sentencing the accuser to the punishment facing the person he falsely accused produces the direction of the air outlet of airduct when reducing the air outlet conveying gas of airduct largely, because the air outlet of airduct is fixed in window by above-mentioned hook, even if the air outlet of airduct has fine jitter, the direction of the air outlet of airduct is locked towards window by hook all the time, therefore the live gas that the air outlet of airduct transfers out can be delivered in window.Also have as follows in such scheme: as described in the side of support platform be provided with hook and be provided with two cross-brace points, and in conjunction with above-mentioned support platform, hook, the technical scheme of the break-in cylinder of support platform side, support platform can be allowed to be connected and fixed on the exterior wall of described building, this just establishes the stable stressed basis of support platform, the air outlet of airduct described above is walked around the described angle pulley of support platform both sides or break-in cylinder or break-in support member respectively by the first stay cord and the second stay cord and is changed direction to downward-extension, the air outlet of such airduct is just by the first stay cord, second stay cord walk around angle pulley or break-in cylinder or break-in support member change direction to downward-extension produce to the pressure of support platform and stay cord once pulling force upwards or and being rotatably connected of rotatable components of support platform dexterously the air outlet of airduct is fastened in support platform, due to airduct air outlet by can facilitate close to the control of the horizontal force of horizontal direction the level of the air outlet of airduct towards control, extend downwardly into ground and can save the length of the first stay cord and the second stay cord because the first stay cord and the second stay cord change direction by angle pulley or break-in cylinder or break-in support member and facilitate the control work of described building below rescue personnel again, so just can resist the torsion or vibrations that to produce when carrying gas the air outlet of above-mentioned support platform and airduct, ensure that the air outlet of airduct can to above-mentioned window conveying live gas, ensure the eupnea of the other escape personnel of window.Adopt technique scheme, the escape personnel fire bed to be fixedly connected on after above-mentioned stay cord one can under the traction of stay cord two slow safe falling, this adds increased passway for escaping during fire, the escape personnel fire bed also can connect with the slow rope that falls be connected with descending lifeline hung and be connected safe falling by catching device with insurance rope.Also have as technique scheme, during fire, rescue personnel also can be climbed up support platform and is connected on insurance rope by catching device and rise to support platform the place that catches fire and carry out fire-fighting work, because rescue personnel is connected on above-mentioned insurance rope by catching device, time normal, catching device slides up or down under the drive of rescue personnel on insurance rope, when there is accidental falling in rescue personnel, rescue personnel pins insurance rope by catching device and ensures safety, when ensureing rescue personnel's safety, rescue personnel can first put out a fire outside fire bed like this, then can enter fire bed to carry out going deep into fire-fighting work, this can solve the fire-fighting work of fire bed inside.Also have, the design of above-mentioned airduct stay cord, when airduct is less than the length of the airduct between adjacent above-mentioned two tie points by the distance between above-mentioned tie point adjacent after promoting, such airduct is suspended on by the weight major part promoting airduct between rear adjacent attachment points on the airduct stay cord that is connected with top tie point and fraction water-band weight acts on the airduct stay cord that is connected with below tie point, most of weight of bottom one section of water-band to be suspended on the airduct stay cord that is connected with top tie point and the effect of fraction weight on the ground or other support place, so no matter how high the air outlet of airduct or airduct promoted, to be shared on above-mentioned many airduct stay cords by the weight of the airduct promoted and be suspended on described stay cord one, therefore in airduct uphill process technique scheme just ensure that above airduct resistance to tension and normal to use.

Accompanying drawing explanation

Fig. 1 is that the building roof of the application first embodiment arranges the generalized section of overlooking of putting rope equipment;

Fig. 2 is that the building roof of the application first embodiment arranges the generalized section of putting the side-looking of rope equipment;

Fig. 3 is the schematic top plan view that the building roof of the application first embodiment arranges that the cantilever member putting rope equipment moves out described building roof;

Fig. 4 is that the cantilever member that the rope equipment of putting of the application first embodiment is arranged moves out described building roof landing stay cord one and the schematic side view of stay cord two;

Fig. 5 be the stay cord one putting rope equipment of the application first embodiment and stay cord two when dropping to ground rescue personnel carry out carrying the side-looking of gas to look schematic diagram;

Fig. 6 be the stay cord one putting rope equipment of the application second embodiment and stay cord two when dropping to ground rescue personnel carry out carrying the side-looking of gas to look schematic diagram;

Fig. 7 is the generalized section that the application the 3rd embodiment is faced;

Fig. 8 is the generalized section of the application the 3rd embodiment side-looking;

Fig. 9 is the generalized section of the application the 3rd embodiment stay cord two side-looking when hanging;

Figure 10 is the schematic side view that the application the 4th embodiment stay cord one draws support platform conveying gas;

Figure 11 is the stravismus schematic diagram that the application the 4th embodiment stay cord one draws support platform conveying gas;

Figure 12 is the stravismus schematic diagram that the support platform both sides of the application the 4th embodiment arrange angle pulley;

Figure 13 is the stravismus schematic diagram that the support platform both sides of the application the 5th embodiment arrange angle pulley;

Detailed description of the invention

As shown in Figure 1, Fig. 1 is that the building roof of the application first embodiment arranges and puts the generalized section of overlooking of rope equipment.Described rope equipment 8 of putting is arranged on the roofing 1 of the close exterior wall of described building, described rope equipment 8 of putting comprises housing 2, structural framing, cantilever member 5, above-mentioned cantilever member 5 to be arranged on structural framing and to be in the housing 2 of structural framing, the arranged outside of structural framing has above-mentioned housing 2, said structure framework is provided with gear track 11, gear track 17, above-mentioned cantilever member 5 is slidably provided with on gear track 11 He on gear track 17, mobile motor 7 is provided with on structural framing or on cantilever member 5, mobile motor 7 can drive cantilever member 5 to move to stretch out above-mentioned housing 2 and stop at the side putting rope equipment 8, above-mentioned cantilever member 5 is provided with runner 10 and runner 19, there is rope 13 through on above-mentioned runner 10 and runner 19, above-mentioned rope 13 forms volume stay cord 1 and a volume stay cord 2 16 after walking around runner 10 and runner 19, above-mentioned stay cord 1 and stay cord 2 16 are arranged on the supporting plate 18 of the end of above-mentioned cantilever member 5, above-mentioned supporting plate 18 is connected with opens motor, above-mentioned supporting plate 18 can be electrically controlled to open and make an above-mentioned volume stay cord 1 and volume stay cord 2 16 falls downward extend and hang and be pulled in above-mentioned runner 10 and runner 19, above-mentioned stay cord 1 and stay cord 2 16 hang the ground of described building below or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing, above-mentioned mobile motor 7 or open motor and be connected with control cables with gauge tap, above-mentioned control cables is arranged in built-in pipe the bottom extending downwardly into described building, above-mentioned gauge tap is arranged in the switch enclosure of the exterior wall of described building below.Above-mentioned cantilever member 5 is connected on the connecting shaft 6 with rotatable gear 3 and rotatable gear 9, rotatable gear 3 and rotatable gear 9 are arranged on gear track 11 and gear track 17, the gear inosculation of rotatable gear 3 and gear track 11, the gear inosculation of rotatable gear 9 and gear track 17, above-mentioned mobile motor 7 to be fixedly connected on above-mentioned cantilever member 5 and to be connected by the connecting shaft 6 of chain band 12 with rotatable gear 3 and transmitting gear 9, above-mentioned mobile motor 7 is connected with the control cables with gauge tap, above-mentioned control cables can extend downwardly into bottom or the outside of described building, above-mentioned gauge tap is arranged in the switch enclosure of the exterior wall of described building below, start gauge tap can control cantilever member 5 and move to the outside of the roofing 1 of described building and open supporting plate 18 and allow stay cord 1 and stay cord 2 16 hang the ground of described building below or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing.

As shown in Figure 2, Fig. 2 be the application first embodiment put the generalized section that rope equipment is arranged on the side-looking of building roof 1.Described rope equipment 8 of putting is arranged on the roofing 1 of the close exterior wall of described building, described rope equipment 8 of putting comprises housing 2, structural framing 23, cantilever member 5, above-mentioned cantilever member 5 to be arranged on structural framing 23 and to be in the housing 2 of structural framing 23, the arranged outside of structural framing 23 has above-mentioned housing 2, said structure framework 23 is provided with gear track 17, gear track 17 is slidably provided with above-mentioned cantilever member 5, cantilever member 5 is provided with mobile motor 7, mobile motor 7 can drive cantilever member 5 to move to stretch out above-mentioned housing 2 and stop at the side putting rope equipment 8, above-mentioned cantilever member 5 is provided with runner 10 and runner 19, there is rope 13 through above-mentioned runner 10 and runner 19, above-mentioned rope 13 forms volume stay cord 1 and a volume stay cord 2 16 after walking around runner 10 and runner 19, above-mentioned stay cord 1 and stay cord 2 16 are arranged on the supporting plate 18 of the end of above-mentioned cantilever member 5, above-mentioned supporting plate 18 is connected with opens motor, above-mentioned supporting plate 18 can be opened by Electric Machine Control and make an above-mentioned volume stay cord 1 and volume stay cord 2 16 falls downward extend and hang and be pulled on above-mentioned runner 10 and runner 19, above-mentioned stay cord 1 and stay cord 2 16 hang the ground of described building below or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing, above-mentioned mobile motor 7 or open motor and be connected with control cables 20 with gauge tap, above-mentioned control cables 20 is arranged on the bottom extending downwardly into described building in built-in pipe 21, above-mentioned gauge tap is arranged in the switch enclosure of the exterior wall 22 of described building below.Above-mentioned cantilever member 5 is connected on the connecting shaft 6 with rotatable gear 9, rotatable gear 9 is arranged on gear track 17, the gear inosculation of rotatable gear 9 and gear track 17, above-mentioned mobile motor 7 to be fixedly connected on above-mentioned cantilever member 5 and to be connected with connecting shaft 6 by chain band 12, above-mentioned mobile motor 7 is connected with the control cables 20 with gauge tap, above-mentioned control cables 20 can extend downwardly into bottom or the outside of described building, and above-mentioned gauge tap is arranged in the switch enclosure of the exterior wall 22 of described building below.

As shown in Figure 3, Fig. 3 is that the cantilever member that the rope equipment of putting of the application first embodiment is arranged moves out the schematic top plan view of described building roof, as shown in Figure 3, cantilever member 5 in the drive lower slider of mobile motor 7 to the outside of the roofing 1 of described building.

As shown in Figure 4, Fig. 4 is that the cantilever member that the rope equipment of putting of the application first embodiment is arranged moves out described building roof landing stay cord one and the schematic side view of stay cord two, as shown in Figure 4, rescue personnel controls motor 7 and drives described cantilever member 5 to move to the outside of the roofing 1 of described building in the below of described building, and opens supporting plate 18 and allow stay cord 1 and stay cord 2 16 settle out.

As shown in Figure 5, Fig. 5 be the stay cord one putting rope equipment of the application first embodiment and stay cord two when dropping to ground rescue personnel carry out carrying the side-looking of gas to look schematic diagram, as shown in Figure 5, ground rescue personnel 25 starts gauge tap 31 and controls motor 7 by control cables 20 and rotate, supporting plate 18 is opened when motor 7 rotates and drives cantilever member 5 to move to the outside of described building, stay cord 1 and stay cord 2 16 just drop to ground, ground rescue personnel is connected to stay cord 2 16 in the rotating shaft of cord winder 30, stay cord 1 is connected with the mid portion of the air outlet 28 of airduct and has tie point 27, the air outlet 28 of the airduct of the both sides, front and back of tie point 27 is connected with pull rope 32 and pull rope 33, the air outlet 28 of airduct is connected with gas transportation facilities 35 by airduct 29, above-mentioned airduct be connected with airduct stay cord and have tie point, distance between adjacent two tie points is less than the length of the airduct between adjacent two tie points, the airduct weight of such rising is upwards transmitted by above-mentioned airduct stay cord, the upper end of airduct stay cord is connected with above-mentioned stay cord 1, can ensure that the airduct risen can not be subject to the restriction of above-mentioned building height like this, rise many high resistance to tensions that all can meet airduct.As shown in Figure 5, under the rotation of cord winder 30, stay cord 2 16 constantly reels into the rotating shaft of cord winder 30, stay cord 1 just drives the air outlet 28 of airduct to rise to the target place that catches fire under the drive of stay cord 2 16, rescue personnel 25 pulling traction rope 32, rescue personnel 26 pulling traction rope 33, the air outlet 28 with regard to adjustable airduct aims at the mark, and starts gas transportation facilities 35 and utilizes the air outlet 28 of airduct to carry fresh air.

As shown in Figure 6, Fig. 6 be the stay cord one putting rope equipment of the application second embodiment and stay cord two when dropping to ground rescue personnel carry out carrying the side-looking of gas to look schematic diagram, as shown in Figure 6, to be provided with near the position of exterior wall at the roofing 53 of building and to put rope equipment 55, the rope equipment 55 of putting of the present embodiment adopts a runner 68 to replace two runners of above-mentioned first embodiment, other structure of putting rope equipment 55 is identical with the structure of above-mentioned first embodiment, same section refers to accompanying drawing and the explanation of the first embodiment, is only introduced in conjunction with different parts here.Ground rescue personnel 69 starts gauge tap 56 and controls motor 52 by control cables 66 and rotate, supporting plate 51 is opened when motor 52 rotates and drives cantilever member 50 to move to the outside of described building roof 53, stay cord 1 and stay cord 2 62 just drop to ground, ground rescue personnel is connected to stay cord 2 62 in the rotating shaft of cord winder 65, the ground of building external is provided with and gas transportation facilities 67, gas transportation facilities 67 is other is provided with airduct 63, rescue personnel is connected above-mentioned stay cord 1 and has tie point 58 with the mid portion of the air outlet 59 of airduct, the air outlet 59 of airduct is connected with airduct 63, the air outlet 59 of the airduct of the both sides, front and back of above-mentioned tie point 58 is connected with pull rope 60 and pull rope 61, above-mentioned airduct 63 is connected with airduct stay cord and has junction, the vertical spacing of adjacent junction is less than the length of the airduct 63 between above-mentioned adjacent junction, the weight of the airduct of such rising is upwards transmitted by above-mentioned airduct stay cord, the upper end of airduct stay cord is connected with above-mentioned stay cord 1 or every root airduct stay cord is connected with stay cord 1 respectively, can ensure that the airduct 63 risen can not be subject to the restriction of above-mentioned building height like this, rise many high resistance to tensions that all can meet airduct.As shown in Figure 6, under the rotation of cord winder 65, stay cord 2 62 constantly reels into the rotating shaft of cord winder 65, stay cord 1 just drives the air outlet 59 of airduct to rise to the target place that catches fire under the drive of stay cord 2 62, rescue personnel 69 pulling traction rope 60, rescue personnel 70 pulling traction rope 61, with regard to the aiming at the mark of air outlet 59 of adjustable airduct, opening gas transportation facilities 67 utilizes the air outlet 59 of airduct can carry out carrying the work of fresh air, certainly we also can design as follows: be connected with a pull rope in the below of tie point 58, the air outlet 59 of the airduct of tie point 58 left and right sides is respectively connected with pull rope, the control ability of air outlet 59 to airduct and the ability of adjustment direction can be increased like this.

As shown in Figure 7, Fig. 7 is the generalized section that the application the 3rd embodiment is faced.Described building top is arranged puts rope equipment 101, fire extinguishing spray gun 127 is connected with one section of sebific duct and is arranged on and puts in rope equipment 101, put rope equipment 101 and comprise housing 108, cylinder 113, be arranged on the pulley 115 on housing 108, inclined-plane slide plate 121, inclined-plane slide plate 122, inclined-plane slide plate 123, supporting plate 1 above inclined-plane slide plate 121, supporting plate 2 130 above inclined-plane slide plate 122, supporting plate 3 131 above inclined-plane slide plate 123, a stay cord 1 and a volume stay cord 2 116 is formed after having rope to walk around pulley 115, above-mentioned stay cord 1 is direct or be connected by the mid portion of connector with above-mentioned fire extinguishing spray gun 127 and had tie point, the above-mentioned fire extinguishing spray gun 127 of the both sides, front and back of tie point is connected with a volume pull rope 109 and pull rope 110, above-mentioned stay cord 2 116 is arranged on supporting plate 3 131, pull rope 109 and pull rope 110 are arranged on supporting plate 107, fire extinguishing spray gun 127 is arranged on the support 112 on supporting plate 2 130, the switch stay cord 111 of fire extinguishing spray gun 127 is arranged on supporting plate 2 130, support member 118 is pulled by controlling stay cord 133, control stay cord 125 and pull support member 119, controlling stay cord 126 pulls support member 120 to control supporting plate 1, supporting plate 2 130, supporting plate 3 131 downwards upset rests in inclined-plane slide plate 121, inclined-plane slide plate 122, inclined-plane slide plate 123 allows and arranges superincumbent fire extinguishing spray gun 127, stay cord 2 116, pull rope 109, pull rope 110, control stay cord 111 landing downwards, an above-mentioned volume stay cord 2 116 and above-mentioned pull rope 109, pull rope 110, successively by control, along the exterior wall falls downward extension of described building, extension is pulled on fire extinguishing spray gun 127 to control stay cord 111, after stay cord 2 116 after landing is drawn by a kind of cord winder or is drawn by people, pulling control stay cord 125 to pull support member 119 to rotate allows supporting plate 130 overturn downwards, this can control above-mentioned fire extinguishing spray gun 27 and control stay cord 111 to drop to along the exterior wall of described building the escape personnel that target is supplied to fire bed from the top of described building and use, escape personnel can the sebific duct on fire extinguishing spray gun 127 rapidly with being connected use with the rubber hose coupling of high-pressure water mist fire-extinguishing equipment connection and putting out a fire by window.If fire bed nobody, just can control above-mentioned fire extinguishing spray gun 27 and drop to ground and ground high-pressure water mist fire-extinguishing equipment connection, then control stay cord 2 116 and rise to target place, if the muzzle that rescue personnel's pulling traction rope 109 and pull rope 110 control fire extinguishing spray gun 127 aims at the mark and pulls the control stay cord 111 of fire extinguishing spray gun to carry out sprinkling fire or ventilation sebific duct is used for carrying gas, the function of ventilation so just can be realized.Door-plate 103, door-plate 105, door-plate 106 is arranged on housing 108, above-mentioned supporting plate 107, supporting plate 130, can above-mentioned door-plate 103 during supporting plate 131 upset downwards, door-plate 105, door-plate 106 upwards backs down, baffle plate 129 on support 112 limits fire extinguishing spray gun 127 and stay cord 1 pulls to the right, baffle plate 117 on body structure in housing 108 limits fire extinguishing spray gun 127, control stay cord 111, pull rope 109 and pull rope 110 move to the left, that is stay cord 1, control stay cord 111, when pull rope 109 and pull rope 110 falls downward, baffle plate 129 or baffle plate 117 play the effect of suspension centre.

As shown in Figure 8, Fig. 8 is the generalized section of the application the 3rd embodiment side-looking.The roofing layer 102 of described building is arranged and puts rope equipment 101, put in rope equipment 101 and be provided with fire extinguishing spray gun 127, fire extinguishing spray gun 127 is connected with one section of sebific duct 150, put rope equipment 101 and comprise housing, cylinder 113, be arranged on the pulley 115 on housing, inclined-plane slide plate 121 and arranged side by side two pieces of inclined-plane slide plates, supporting plate 1 above inclined-plane slide plate 121, a stay cord 1 and a volume stay cord 2 116 is formed after having rope to walk around pulley 115, above-mentioned stay cord 1 is direct or be connected by the mid portion of connector with above-mentioned fire extinguishing spray gun 127 and had tie point, the above-mentioned fire extinguishing spray gun 127 of the both sides, front and back of tie point is connected with a volume pull rope 109 and pull rope 110, above-mentioned stay cord 2 116 is arranged on supporting plate three, pull rope 109 and pull rope 110 are arranged on supporting plate 107, fire extinguishing spray gun 127 is arranged on the support 112 on supporting plate two, the switch stay cord 111 of fire extinguishing spray gun 127 is arranged on supporting plate two, pull support member 118 can control supporting plate 1 upset downwards to rest on inclined-plane slide plate 121 and allow and arrange superincumbent pull rope 109 and pull rope 110 landing downwards by controlling stay cord 133, above-mentioned pull rope 109 and pull rope 110 extend along the exterior wall falls downward of described building and hang and be pulled on fire extinguishing spray gun 127, door-plate 103 is arranged on housing, above-mentioned door-plate 103 upwards can be backed down by the push rod 156 be arranged on supporting plate 107 during the upset downwards of above-mentioned supporting plate 107.

As shown in Figure 9, Fig. 9 is the generalized section of the application the 3rd embodiment stay cord two side-looking when hanging, pull support member 120 to control supporting plate 3 131 to rotate to rest on inclined-plane slide plate and just door-plate 106 is upspring by the push rod 158 be arranged on supporting plate 131 simultaneously by controlling stay cord 126, the stay cord 2 116 be arranged on supporting plate 131 just gets off from landing supporting plate 131.The supporting plate putting rope equipment 101 is provided with support 112 be used for arranging fire extinguishing spray gun.

As shown in Figure 10, Figure 10 is the schematic side view that the application the 4th embodiment stay cord one draws support platform conveying gas, support platform 168 rises to the exterior wall of fire bed to outward opening 167 place under the traction of stay cord 1, the side of described support platform 168 is provided with hook 173 and is provided with two or more horizontal support piece, Figure 10 shows horizontal support piece 171, described hook 173 put in and catch on the exterior wall of described building to above body of wall 160 inside outward opening 167, above-mentioned horizontal support piece 171 leans the outside of the body of wall 172 of the described building below above-mentioned hook 173, above-mentioned support platform 168 is connected and fixed with described building by above-mentioned horizontal support piece 171 and hook 173, at described pull rope, (Figure 10 shows pull rope 169, pull rope 170) pulling force effect under, above-mentioned support platform 168 is by under the effect of the pulling force to upper pulling force and above-mentioned hook 173 of the described stay cord 1 hung and on above-mentioned support platform 168 exterior wall that active force makes support platform 168 be pressed against to be fixed on described building downwards, this to ensure on the exterior wall that above-mentioned support platform 168 is fastened on described building and the torsion can resisted suffered by above-mentioned support platform 168 and vibrations, airduct 165 every a segment distance all with an airduct stay cord (as Figure 11 shows airduct stay cord 201, airduct stay cord 202) connect and be subject to airduct stay cord upwards active force hanging draw on the anti-off-line pulley of described building top, above-mentioned airduct stay cord extends downwardly into the traction that ground is subject to people or serving equipment after walking around the anti-off-line pulley of described building top, the top of described support platform 168 is rotatably provided with the air outlet 163 of airduct, the both sides, front and back of the air outlet 163 of airduct are connected with pull rope and are used for the direction of the air outlet 163 controlling airduct.

As shown in figure 11, Figure 11 is the stravismus schematic diagram that the application the 4th embodiment stay cord one draws support platform conveying gas, support platform 168 rises to the external opening part of exterior wall of fire bed under the traction of stay cord 1, the side of described support platform 168 is provided with hook 173 and arranges horizontal support piece 171, horizontal support piece 182, described hook 173 puts in and catches on above the external opening inner side body of wall 160 of the exterior wall of described building, above-mentioned horizontal support piece 171 and horizontal support piece 182 lean the outside of the body of wall 172 of the described building below above-mentioned hook 173, above-mentioned support platform 168 is by above-mentioned horizontal support piece 171, horizontal support piece 182, hook 173 and described building are connected and fixed, at pull rope 169, pull rope 170, pull rope 180, under the pulling force effect of pull rope 181, above-mentioned support platform 168 pass through described under the effect of the pulling force to upper pulling force and above-mentioned hook 173 of stay cord 1 that hangs and on above-mentioned support platform 168 exterior wall that active force makes support platform 168 be pressed against to be fixed on described building downwards, this to ensure on the exterior wall that above-mentioned support platform 168 is fastened on described building and the torsion can resisted suffered by above-mentioned support platform 168 and vibrations, airduct 165 every a segment distance all with an airduct stay cord (as Figure 11 shows airduct stay cord 201, airduct stay cord 202) connect and be subject to airduct stay cord upwards active force hanging draw on the anti-off-line pulley of described building top, above-mentioned airduct stay cord extends downwardly into the traction that ground is subject to people or serving equipment after walking around the anti-off-line pulley of described building top, the top of described support platform 168 is rotatably provided with the air outlet 163 of airduct, the both sides, front and back of the air outlet 163 of airduct are connected with pull rope and are used for the direction of the air outlet 163 controlling airduct.

As shown in figure 12, Figure 12 is the stravismus schematic diagram that the support platform both sides of the application the 4th embodiment arrange angle pulley, the both sides of support platform are provided with angle pulley 195 by connecting rod 193, connecting rod 193 is provided with angle pulley 200, connecting rod 192 is provided with angle pulley 191, connecting rod 196 is provided with angle pulley 195, connecting rod 198 is provided with angle pulley 197, the top of described support platform is rotatably provided with the air outlet 163 of airduct, air outlet 163 front of airduct is connected to the first stay cord 190 and the second stay cord 187, air outlet 163 back of airduct is connected to the first stay cord 189 and the second stay cord 188, the angle pulley 200 that side walked around by above-mentioned first stay cord 190 changes direction to downward-extension, the angle pulley 195 that side walked around by above-mentioned second stay cord 187 changes direction to downward-extension, the angle pulley 191 that side walked around by above-mentioned first stay cord 189 changes direction to downward-extension, the angle pulley 197 that side walked around by above-mentioned second stay cord 188 changes direction to downward-extension, the level pulling above-mentioned first stay cord and the second stay cord pulling force produced to both sides conveniently can adjust the air outlet 163 of airduct towards, the both sides, front and back of the air outlet 163 of airduct are also connected to the 3rd stay cord 185, 3rd stay cord 186, above-mentioned 3rd stay cord 185, 3rd stay cord 186 extends downwardly into building below, pull the 3rd stay cord 185, the air outlet 163 of the 3rd stay cord 186 adjustable wind pipe vertical towards, the airduct 165 be connected with the air outlet 163 of airduct can be connected with airduct stay cord.

As shown in figure 13, Figure 13 is the stravismus schematic diagram that the support platform both sides of the application the 5th embodiment arrange angle pulley, the concrete structure of the application the 5th embodiment is substantially identical with the structure of above-mentioned 4th embodiment, the air outlet 163 of the airduct be only connected with airduct 165 hangs on stay cord 1 instead of is rotatably connected in support platform, and other identical structure refers to the accompanying drawing explanation of above-mentioned Figure 11 and Figure 12.

Claims (10)

1. the fire rescue air supply system of a building, comprise gas transportation facilities, the airduct be connected with gas transportation facilities, it is characterized in that: described system also comprises puts rope equipment, above-mentioned rope equipment of putting is extended by controlling to land to walk around to be arranged on and puts rope device interior or be arranged on and put the rope that support member is drawn in the pulley of rope device external or rotating disk or rotating shaft or cylinder or extension, the below floor of described building or outside can use the gauge tap or controller of putting equipment connection of restricting with above-mentioned or control rope control above-mentioned put below that device action of restricting allows above-mentioned rope land along the outside of the exterior wall of described building to extend to described building and hang be pulled in above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension and draw on support member, hang be pulled in above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension draw the rope on support member while be that stay cord one can directly or by the air outlet of connector with airduct or airduct be connected, hang and be pulled in above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension and draw the another side of the rope on support member to be that stay cord two can be pulled by people or serving equipment and the air outlet driving above-mentioned stay cord one to draw above-mentioned airduct or airduct rises.

2. the fire rescue air supply system of a kind of building as claimed in claim 1, is characterized in that: described airduct is connected with airduct stay cord, and above-mentioned airduct stay cord can be connected with above-mentioned stay cord one or connector.

3. the fire rescue air supply system of a kind of building as claimed in claim 1, it is characterized in that: described stay cord one is connected with the mid portion of described connector or described stay cord one is connected with the mid portion of the air outlet of described airduct, the both sides, front and back of the air outlet of described connector or described airduct are connected with pull rope, angle pulley or break-in draw ring or direction change pull-rod or break-in cylinder is provided with in the structure of described building below or on the ground of described building below or on the subsidiary layer roofing of described building, described stay cord two or above-mentioned pull rope can extend through described angle pulley or break-in draw ring or direction change pull-rod or the break-in cylinder outside to described building after downward-extension.

4. the fire rescue air supply system of a kind of building as claimed in claim 1, is characterized in that: described in walk around to be arranged on to put rope device interior or put the rope pulley of device external or rotating disk or rotating shaft or cylinder or extension and draw the scheme of the rope of support member to comprise one of following manner:

Described put in rope equipment or described building top floor in described building top exterior wall on or described building roofing layer on or be provided with anti-off-line pulley or rotating disk or rotating shaft or cylinder or extension in refuge story and draw support member, there is circulation rope through the wire casing of anti-off-line pulley or rotating disk or have circulation rope to walk around above-mentioned rotating shaft or cylinder or extension to draw support member and draw rope that is that to form rolling near support member or bunchy at rotating shaft or cylinder or extension, the below of described building or the outside of described building can control above-mentionedly to put circulation rope that is that rope device action allows above-mentioned rolling or bunchy and to hang along the outside of the exterior wall of described building the ground or the subsidiary layer roofing of subaerial position or described building or the position close to subsidiary layer roofing that extend to described building below, above-mentioned circulation rope hang and by after separating while be that stay cord one can be connected with fire-fighting lance or support platform, above-mentioned circulation rope split from another side be that stay cord two can be pulled by people or serving equipment and draw above-mentioned fire-fighting lance or support platform rises,

Described put in rope equipment or described building top floor in or on exterior wall above above-mentioned building or on the roofing layer of above-mentioned building or be provided with anti-off-line pulley in refuge story or extension draws support member, have rope pass anti-off-line pulley wire casing or have rope walk around above-mentioned extension draw support member and anti-off-line pulley or extension draw the side of support member to form rolling or the stay cord one of bunchy and stay cord two, the below of described building or the outside of described building can control above-mentioned stay cord one that is that rope device action allows above-mentioned rolling or bunchy and the stay cord two put and to hang along the outside of the exterior wall of described building the ground or the subsidiary layer roofing of subaerial position or described building or the position close to subsidiary layer roofing that extend to described building below,

Described put in rope equipment or described building top floor in or on exterior wall above above-mentioned building or on the roofing layer of above-mentioned building or be provided with electric rolling rope roll in refuge story, described pulley or rotating disk or rotating shaft or cylinder or extension draws support member to be arranged on electric rolling rope roll or rope drum is inner, described rope draws through above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension and forms stay cord one after on support member and stay cord two is coiled on above-mentioned electric rolling rope roll side by side, the below floor of described building or the outside of described building can control above-mentioned electric rolling rope roll and rotate and allow above-mentioned stay cord one and stay cord two extend to the described ground of building below or the subsidiary layer roofing of subaerial position or described building through the exterior wall landing along described building after the wire casing of the rotating disk be arranged on a cantilever member or can control close to the outside of the position of subsidiary layer roofing or the below floor of described building or described building outer rear flank that above-mentioned electric rolling rope roll moves to the exterior wall of described building and rotate and allow above-mentioned stay cord one and stay cord two landing extend to ground below described building or the subsidiary layer roofing of subaerial position or described building or the position close to subsidiary layer roofing,

Described put in rope equipment or described building top floor in or on exterior wall above above-mentioned building or on the roofing layer of above-mentioned building or be provided with rope drum in refuge story, described pulley or rotating disk or rotating shaft or cylinder or extension draws support member to be arranged on rope drum or rope drum is inner, described rope draws through above-mentioned pulley or rotating disk or rotating shaft or cylinder or extension and forms stay cord one after on support member and stay cord two is coiled on above-mentioned rope drum side by side, the below floor of described building or the outside of described building can control above-mentioned rope drum and rotate and allow above-mentioned stay cord one and stay cord two landing extend to ground or the subsidiary layer roofing of subaerial position or described building or the position close to subsidiary layer roofing of described building below.

5. the fire rescue air supply system of a kind of building as claimed in claim 1, it is characterized in that: described stay cord one is connected with a kind of side of support platform by the stay cord of three or many, the side of described support platform is also connected with many pull ropes, described support platform above-mentioned stay cord one can hover under upper pulling force effect aerial and under the effect of the downward pulling force of pull rope adjustment direction and position.

6. the fire rescue air supply system of a kind of building as claimed in claim 5, it is characterized in that: described stay cord one is also connected with the mid portion of the air outlet of described airduct or is connected with the mid portion of a connector, above-mentioned connector is provided with the air outlet of airduct, the both sides of described support platform are provided with angle pulley or break-in cylinder or break-in support member, front and back two parts of the air outlet of above-mentioned airduct or front and back two parts of above-mentioned connector are connected to the first stay cord and the second stay cord, above-mentioned first stay cord and the second stay cord are walked around the above-mentioned angle pulley of both sides or break-in cylinder or break-in support member respectively and are changed direction to downward-extension.

7. the fire rescue air supply system of a kind of building as claimed in claim 5, it is characterized in that: the mid portion of the air outlet of described support platform and described airduct is rotatably connected or is rotatably connected with the mid portion of a connector, above-mentioned connector is provided with the air outlet of airduct, the both sides of described support platform are provided with angle pulley or break-in cylinder or break-in support member, front and back two parts of the air outlet of above-mentioned airduct or front and back two parts of above-mentioned connector are connected to the first stay cord and the second stay cord, above-mentioned first stay cord and the second stay cord are walked around the above-mentioned angle pulley of both sides or break-in cylinder or break-in support member respectively and are changed direction to downward-extension.

8. the fire rescue air supply system of a kind of building as claimed in claim 1, it is characterized in that: the air outlet of described airduct or the side of connector are provided with the jockey that can be connected and fixed with described building, and the technical scheme of above-mentioned jockey comprises one of following manner:

The side of air outlet or connector that described jockey comprises described airduct is provided with crotch, and above-mentioned crotch can put in the external opening of the window of described building or balcony or exterior wall and hook in the structure of inner side;

The side of air outlet or connector that described jockey comprises described airduct is provided with sucker, and above-mentioned sucker can be adsorbed on the exterior wall of described building;

The side of air outlet or connector that described jockey comprises described airduct is provided with hydraulic pressure extending arm, and above-mentioned hydraulic pressure extending arm can to put in the external opening of the window of described building or balcony or exterior wall and to withstand in the external upper and lower of opening of the window of described building or balcony or exterior wall and the structure of left and right sides by hydraulic drive extending arm;

The side of air outlet or connector that described jockey comprises described airduct is provided with crotch and is provided with two or more cross-brace point, described crotch can put in and catch on the window inside front of the exterior wall of described building or the inside front to outward opening of balcony inside front or described building, above-mentioned cross-brace point can lean the outside of the described building below above-mentioned crotch, and the air outlet of above-mentioned airduct or connector are connected and fixed by above-mentioned cross-brace point and crotch and described building.

9. the fire rescue air supply system of a kind of building as claimed in claim 1, it is characterized in that: described system also comprises described building top and is provided with casing, in casing or casing be outside equipped with stiff end or descending lifeline, openable boxboard is provided with below casing, boxboard is placed with described rope, be connected with above-mentioned stiff end and the insurance rope extended out or be also arranged on above-mentioned boxboard from the slow rope that falls that above-mentioned descending lifeline extends out, the below of described building or outside can control above-mentioned openable boxboard and open and allow described rope and above-mentioned insurance rope or slowly fall the below that rope drops to described building.

10. the fire rescue air supply system of a kind of building as claimed in claim 1, is characterized in that: described in put rope equipment structure comprise one of in the following ways:

Described rope equipment of putting comprises casing, pulley, supporting plate, the control piece be connected with supporting plate, above-mentioned supporting plate is rotatably connected in the below of casing, the above-mentioned control piece be connected with supporting plate comprises support member or pull bar, support member or pull bar are connected with motor or are connected with electromagnetic suction device or be connected with control stay cord, electric machine rotation or electromagnetic suction device action or pull control stay cord can control above-mentioned support member depart from supporting plate or control above-mentioned pull bar depart from supporting plate, motor or electromagnetic suction device are connected with the control cables of gauge tap or are connected with control rope with the gauge tap of motor or electromagnetic suction device, above-mentioned control cables or control rope are arranged in built-in pipe from described architectural direction downward-extension,

Described rope equipment of putting comprises casing, anti-off-line pulley, supporting plate, the control piece that is connected with supporting plate, above-mentioned supporting plate is rotatably connected in the below of casing, the above-mentioned control piece be connected with supporting plate is motor, electric machine rotation can drive supporting plate to overturn downwards, motor is connected with the control cables of gauge tap or is connected with control rope with the gauge tap of motor, and above-mentioned control cables or control rope are arranged in built-in pipe from described architectural direction downward-extension;

Described rope equipment of putting comprises casing, anti-off-line pulley, electromagnetic suction device, supporting plate, the control piece that is connected with supporting plate, above-mentioned supporting plate is rotatably connected in the below of casing, the above-mentioned control piece be connected with supporting plate is electromagnetic suction device, electromagnetic suction device adhesive action can drive supporting plate to overturn downwards, electromagnetic suction device is connected with the control cables of gauge tap or is connected with control rope with the gauge tap of electromagnetic suction device, and above-mentioned control cables or control rope are arranged in built-in pipe from described architectural direction downward-extension;

Described rope equipment of putting comprises housing box body, structural framing, the arranged outside of structural framing has above-mentioned casing, structural framing is provided with anti-off-line pulley, above-mentioned anti-off-line pulley runner is wound with rope, above-mentioned rope forms a volume stay cord one and volume stay cord two after walking around anti-off-line pulley runner, on the supporting plate that above-mentioned stay cord one and stay cord two are arranged on said structure framework or on hanging piece, above-mentioned supporting plate or hanging piece are connected with to be opened motor or controls stay cord, above-mentioned supporting plate or the hanging piece Electric Machine Control that can be opened is opened or is pulled wire saws and pulls open and make above-mentioned volume stay cord one and volume stay cord two falls downward extend and hang and be pulled on above-mentioned anti-off-line pulley, above-mentioned stay cord one and stay cord two hang the ground, below of described building or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing, above-mentioned motor of opening is connected with and is connected with control rope with the control cables of gauge tap or the gauge tap of opening motor, above-mentioned control cables or control rope, above-mentioned control stay cord extends downwardly into the below floor of described building or the outside of described building,

Described rope equipment of putting comprises casing, structural framing, the arranged outside of structural framing has above-mentioned casing, said structure framework is provided with anti-off-line pulley, above-mentioned anti-off-line pulley is wound with rope, above-mentioned rope forms a volume stay cord one and volume stay cord two after walking around anti-off-line pulley, above-mentioned stay cord one is wound on serving dish one, stay cord two is wound on serving dish two, on the supporting plate that above-mentioned serving dish one and serving dish two are arranged on said structure framework or on hanging piece, above-mentioned supporting plate or hanging piece are connected with to be opened motor or controls stay cord, above-mentioned supporting plate or the hanging piece Electronic control that can be opened is opened or is pulled wire saws and pulls open and make above-mentioned volume stay cord one and volume stay cord two falls downward extend and hang and be pulled on above-mentioned anti-off-line pulley, above-mentioned stay cord one and stay cord two hang the ground, below of described building or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing, above-mentioned motor of opening is connected with the control cables of gauge tap or is connected with control rope with gauge tap, above-mentioned control cables or control rope, above-mentioned control stay cord extends downwardly into the below floor of described building or the outside of described building,

Described rope equipment of putting comprises casing, structural framing, cantilever, above-mentioned cantilever to be arranged on structural framing and to be in casing, the arranged outside of structural framing has above-mentioned casing, said structure framework is provided with track, track is slidably provided with above-mentioned cantilever, mobile motor is provided with on structural framing or on cantilever, mobile motor can drive cantilever to move to stretch out above-mentioned casing and stop at the side putting rope equipment or the outside stopping at described building, above-mentioned cantilever is provided with anti-off-line pulley, above-mentioned anti-off-line pulley is wound with rope, above-mentioned rope forms a volume stay cord one and volume stay cord two after walking around anti-off-line pulley, on the supporting plate that above-mentioned stay cord one and stay cord two are arranged on the end of above-mentioned cantilever or on hanging piece, above-mentioned supporting plate or hanging piece are connected with electromagnetic suction device or open motor or control stay cord, above-mentioned supporting plate or hanging piece or can be opened Electric Machine Control and open or be pulled wire saws and pull open and make above-mentioned volume stay cord one and volume stay cord two falls downward extend and hang and be pulled on above-mentioned anti-off-line pulley by electromagnetic suction device, above-mentioned stay cord one and stay cord two hang the ground, below of described building or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing, above-mentioned mobile motor or electromagnetic suction device or open motor and be connected with and be connected with control rope with the control cables of gauge tap or above-mentioned mobile motor or electromagnetic suction device or the gauge tap of opening motor, above-mentioned control cables or control rope, control stay cord and be arranged in built-in pipe the below floor or outside that extend downwardly into described building,

Described rope equipment of putting comprises casing, structural framing, cantilever, above-mentioned cantilever to be arranged on structural framing and to be in casing, the arranged outside of structural framing has above-mentioned casing, said structure framework is provided with rotating shaft, rotating shaft is rotatably connected and is provided with above-mentioned cantilever, electric rotating machine is provided with in rotating shaft or on cantilever, electric rotating machine can drive cantilever to rotate and mobile stretch out above-mentioned casing and put the side of rope equipment or stop at the outside of described building described in stopping at, above-mentioned cantilever is provided with anti-off-line pulley or runner or rotating disk or rod member, above-mentioned anti-off-line pulley or runner or rotating disk or rod member are wound with rope, above-mentioned rope forms a volume stay cord one and volume stay cord two after walking around anti-off-line pulley or runner or rotating disk or rod member, on the supporting plate that above-mentioned stay cord one and stay cord two are arranged on the end of above-mentioned cantilever or on hanging piece, above-mentioned supporting plate or hanging piece are connected with to be opened motor or controls stay cord, above-mentioned supporting plate or the hanging piece Electric Machine Control that can be opened is opened or is pulled wire saws and pulls open and above-mentioned volume stay cord one and volume stay cord two falls downward extended and hangs to be pulled on above-mentioned runner or rotating disk or rod member, above-mentioned stay cord one and stay cord two hang the ground, below of described building or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing, above-mentioned electric rotating machine or open motor and be connected with and be connected with control rope with the control cables of gauge tap or above-mentioned electric rotating machine or the gauge tap of opening motor, above-mentioned control cables or control rope, control below floor or outside that stay cord extends downwardly into described building,

Described rope equipment of putting comprises casing, column, cantilever, above-mentioned cantilever is rotatably connected and is arranged on column, cantilever is provided with above-mentioned casing, electric rotating machine is provided with on column or on cantilever, electric rotating machine can drive cantilever to rotate and put the side of rope equipment or stop at the outside of described building described in stopping at, above-mentioned cantilever is slidably provided with electric walking dolly, above-mentioned electric walking dolly is provided with anti-off-line pulley, above-mentioned anti-off-line pulley is wound with rope, above-mentioned rope forms a volume stay cord one and volume stay cord two after walking around anti-off-line pulley, above-mentioned stay cord one and stay cord two are arranged on the supporting plate below above-mentioned casing, above-mentioned supporting plate is connected with to be opened motor or controls stay cord, the above-mentioned supporting plate Electric Machine Control that can be opened is opened or is pulled wire saws and pulls open and make above-mentioned volume stay cord one and volume stay cord two falls downward extend and hang and be pulled on above-mentioned anti-off-line runner, above-mentioned stay cord one and stay cord two hang the ground, below of described building or the roofing of subsidiary layer of subaerial position or the described building that hangs or the position close to subsidiary layer roofing, above-mentioned electric rotating machine or open motor and be connected with and be connected with control rope with the control cables of gauge tap or above-mentioned electric rotating machine or the gauge tap of opening motor, above-mentioned control cables or control rope, control stay cord and be arranged in built-in pipe the below floor or outside that extend downwardly into described building,

Described rope equipment of putting comprises manipulator, structural framing, manipulator is arranged on structural framing, the arranged outside of structural framing has above-mentioned casing, structural framing is provided with anti-off-line pulley, there is rope to pass anti-off-line pulley and form a volume stay cord one and volume stay cord two in the both sides of anti-off-line pulley, manipulator can be grabbed to pick up described stay cord one and stay cord two and move to outside exterior wall by control and be discharged, above-mentioned manipulator is connected with the control cables with controller, and above-mentioned control cables extends downwardly into the below floor of described building or outside to be connected with controller;

Described rope equipment of putting comprises the rotatable gear be connected with motor, be used for veering away the delivery board of stay cord one and stay cord two, the openable supporting plate being used for holding described stay cord one and stay cord two be rotatably connected with delivery board, above-mentioned delivery board is connected on the connecting shaft with rotatable gear, rotatable gear is arranged on gear track, the gear inosculation of rotatable gear and gear track, above-mentioned motor to be fixedly connected on above-mentioned delivery board and to be connected with rotatable gear by chain band, above-mentioned motor is connected with the control cables with gauge tap, above-mentioned control cables is connected with one piece of control circuit board or above-mentioned control cables extends downwardly into below floor or the outside of described building, above-mentioned gauge tap is arranged in the switch enclosure of the exterior wall of described building below floor,

Described rope equipment of putting comprises supporting plate, the push rod of placing described stay cord one and stay cord two, above-mentioned push rod supports above-mentioned supporting plate, push rod rotatably allows the supporting plate losing support can rotate around a rotating shaft downwards, above-mentioned push rod is connected with control stay cord, above-mentioned control stay cord can extend downwardly into below floor or the outside of described building, and the termination of above-mentioned control stay cord is arranged in the switch enclosure of the exterior wall of described building below floor;

Described rope equipment of putting comprises tape loop, tape loop is enclosed within the periphery of drive roll and follower rollers, drive roll and follower rollers are arranged on described structural framing, above-mentioned driving mechanism adopts motor, motor can drive above-mentioned drive roll to roll and drive tape loop cycle rotation, above-mentioned tape loop is arranged described stay cord one and stay cord two, above-mentioned motor is connected with the control cables with gauge tap, above-mentioned control cables is connected with one piece of control circuit board or extends downwardly into the below floor of described building, above-mentioned gauge tap is arranged in the switch enclosure of the exterior wall of described building below floor.