CN111530011A - Water conveying mechanism of wisdom high-rise building fire extinguishing system - Google Patents

Abstract

The invention discloses a water conveying mechanism of a smart high-rise building fire-fighting system, which comprises a butt joint mechanism and a butt joint water pipe head, wherein the butt joint mechanism comprises a butt joint end, a sealing gasket and a sealing gasket telescopic mechanism, a sliding sealing plate is arranged in the butt joint water pipe head, the butt joint end is correspondingly clamped with the butt joint water pipe head, the sealing plate controls the communication and the closing of the butt joint water pipe head, the butt joint end slides in a telescopic way on the butt joint mechanism, the butt joint end and the butt joint water pipe head are clamped and then press against the sliding of the sealing plate, the sealing gasket is arranged in a circular ring shape, the sealing gasket is tightly pressed on the butt joint water pipe head after the butt joint end and the butt joint water pipe head are correspondingly clamped, the sealing gasket is controlled to stretch by the sealing gasket telescopic mechanism, and when the butt joint water pipe head and the butt joint end are clamped, the sealing gasket can be, thereby greatly improving the sealing performance of the butt joint water pipe head and the butt joint end head.

Description

Water conveying mechanism of wisdom high-rise building fire extinguishing system

Technical Field

The invention relates to a fire fighting system, in particular to a water conveying mechanism of a smart high-rise building fire fighting system, and particularly relates to a smart high-rise building fire fighting system capable of realizing automatic fire fighting.

Background

With the continuous improvement of urban construction, the continuous improvement of fire-fighting systems is further promoted, wherein in the existing fire-fighting systems, most of the existing fire-fighting systems are provided with fire-fighting water pipes in corridors, when a fire disaster occurs, the purpose of extinguishing the fire can be achieved through the fire-fighting water pipes, although the purpose of extinguishing the fire can be achieved through the fire-fighting water pipes, when the fire disaster occurs, professional fire fighters are needed to extinguish the fire, when the fire fighters reach the fire scene, the fire is already spread to the serious bottom, the fire fighters need to lay the water pipes and enter the fire scene to extinguish the fire, due to the spread of the fire, the fire is difficult, so that the fire can not be extinguished at the first time when the fire disaster occurs, the fire fighters can only reach the fire scene to extinguish the fire, the best time of extinguishing the fire is lost, and when the fire is extinguished, water resources are the basis, wherein carry through long pipeline at the in-process that carries water mostly, owing to carry out the transport at water source through long pipeline, further the waste that has led to on the water resource transit time, because water pressure is too big at the hookup location of water pipe simultaneously, the problem that often can appear leaking to lead to putting out a fire and cause certain influence.

Therefore, there is a need to design a water delivery mechanism of a fire protection system for a smart high-rise building to solve the above-mentioned technical problems.

Disclosure of Invention

Technical problem to be solved

Not enough to prior art, a water conveying mechanism of wisdom high-rise building fire extinguishing systems is provided, after fire control lifting module goes up and down to the floor that catches fire, can realize the transport of water resource through water conveying mechanism, through docking mechanism and the automatic butt joint of butt joint water pipe head, can realize the automatic transport of water resource, thereby put out a fire through the position that water catches fire, great improvement the transport efficiency of water resource, simultaneously can seal butt joint end and the hookup location to the water receiving pipe head through sealed the telescopic machanism that fills up, thereby improvement leakproofness that can be great, and then improve the efficiency of putting out a fire.

(II) technical scheme

The invention is realized by the following technical scheme:

the utility model provides a water conveying mechanism of wisdom high-rise building fire extinguishing system which characterized in that: the water conveying mechanism comprises a butt joint mechanism and a butt joint water pipe head;

the butt joint mechanism comprises a butt joint end, a sealing gasket and a sealing gasket telescopic mechanism;

a sliding sealing plate is arranged in the butt joint water pipe head;

the butt joint end is correspondingly clamped with the butt joint water pipe head, the sealing plate controls the communication and the closing of the butt joint water pipe head, the butt joint end telescopically slides on the butt joint mechanism, the butt joint end is clamped with the butt joint water pipe head and then pushes against the sealing plate to slide, the sealing gasket is arranged in a circular ring shape, the sealing gasket is tightly pressed on the butt joint water pipe head after the butt joint end is correspondingly clamped with the butt joint water pipe head, and the sealing gasket telescopic mechanism controls the expansion of the sealing gasket;

sealed telescopic machanism that fills up is including extrusion ring, pulling rod, the extrusion ring is the ring form setting, the pulling rod is provided with a plurality ofly and respectively fixed connection in on the extrusion ring, the extrusion ring is in slide on the butt joint, the extrusion ring slides the back extrusion sealed pad.

Preferably, the butt joint end is provided with a butt joint port corresponding to the butt joint water pipe head, an end inner groove is arranged in the butt joint port, the end inner groove is arranged in a circular shape, the extrusion ring slides up and down in the end inner groove, the tops of the extrusion ring and the end inner groove are respectively provided with an extrusion groove arranged in an arc shape, the extrusion is also arranged in the extrusion groove, the butt joint end is provided with a water hole correspondingly communicated with the butt joint port, the butt joint end is provided with a connecting water pipe correspondingly communicated with the butt joint port, and the end part of the fire-fighting water pipe is connected to the connecting water pipe;

the butt joint is characterized in that a jacking head is arranged in the butt joint port, a water pipe inner hole is formed in the butt joint water pipe head, a plug fixedly connected to the butt joint water pipe head is arranged in the water pipe inner hole, a drain hole is formed in the plug, a support frame is further arranged in the water pipe inner hole, a support sliding shaft is arranged on the sealing plate, one end of the support sliding shaft slides on the support frame, the other end of the support sliding shaft penetrates through the drain hole, a second spring for elastically pressing the sealing plate to slide is further arranged on the support sliding shaft, and the jacking head jacks the support sliding shaft.

Preferably, the docking mechanism further comprises a fourth motor, a third gear, a fourth gear and a second threaded rod, the second threaded rod is fixedly connected to the docking head, the fourth motor drives the third gear to rotate, the third gear is connected with the fourth gear in a corresponding meshed mode, a threaded hole connected with the second threaded rod in a corresponding meshed mode is formed in the fourth gear, a supporting rotating groove for supporting the third gear and the fourth gear to rotate is formed in the docking mechanism, and a third sliding groove for supporting the docking head to slide is formed in the docking mechanism.

Preferably, the docking mechanism further comprises a third motor, a first threaded rod, a threaded slider and a pulling ring, the third motor drives the first threaded rod to rotate, a second sliding cavity of a second sliding cavity is arranged in the docking mechanism, the threaded slider slides in the second sliding cavity, a threaded hole correspondingly meshed and connected with the first threaded rod is formed in the threaded slider, a first sliding cavity is further arranged in the docking mechanism and is in a circular ring shape, the pulling ring is in a circular ring shape and slides in the first sliding cavity, the sliding ring is in a circular ring shape, the pulling rod slides in the first sliding cavity respectively, sliding holes corresponding to the pulling ring are formed in the pulling ring respectively, and a limit slider is arranged at the end of the pulling rod respectively, the pull ring is provided with a plurality of pull ropes which are respectively and fixedly connected to the threaded sliding blocks.

This application still includes a wisdom high-rise building fire extinguishing systems, includes a wisdom high-rise building fire extinguishing systems's water conveying mechanism.

(III) advantageous effects

The invention provides a water conveying mechanism of an intelligent high-rise building fire-fighting system, which has the following beneficial effects:

the butt joint pipe head can be automatically butted on the butt joint water pipe head through the telescopic sliding of the butt joint end head, so that water in the butt joint water pipe head is automatically conveyed into the butt joint end head, and further, the automatic conveying of water resources is realized, the quick butt joint conveying of the water resources is realized, the conveying efficiency of the water resources is greatly improved, and the fire extinguishing efficiency is improved;

when the butt joint end with to the butt joint back of water receiving tube head, through the sealed flexible of the sealed pad of control that the telescopic machanism of sealed pad can be further, can carry out automatic extrusion to sealed pad through the extrusion ring to seal up to compress tightly sealed the pad on butt joint water pipe head, improved the leakproofness of butt joint mechanism and to the water receiving tube head greatly, prevent water leakage, guarantee that the supply of water resource is sufficient, improve fire extinguishing efficiency greatly.

Drawings

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

FIG. 1 is a schematic diagram of the overall structure of the intelligent fire fighting system for high-rise buildings according to the present invention.

Fig. 2 is a top view of the overall structure of the fire-fighting lifting module according to the embodiment of the invention.

Fig. 3 is a schematic view of the overall structure of the water conveying mechanism according to the embodiment of the invention.

Fig. 4 is a schematic side view of a fire fighting hoist module according to an embodiment of the present invention.

FIG. 5 is a schematic view of the overall structure of a water-spraying crushing head according to an embodiment of the present invention.

Fig. 6 is a schematic view of the overall structure of the positioning base and the locking module according to the embodiment of the invention.

FIG. 7 is a schematic view of a water pipe structure according to an embodiment of the present invention.

In the figure: 1 building body and 101 window;

2 supporting slide ways, 201 locking slide blocks, 202 locking modules, 203 module inner cavities, 204 electromagnets, 205 sliding shafts, 206 magnets and 207 first springs;

3 fire-fighting lifting module, 31 telescopic fire-fighting mechanism, 3101 first chute, 3102 first motor, 3103 first threaded rod, 3104 sliding block, 3105 supporting frame, 3106 water-spraying breaking head, 3107 water-pipe storage tank, 3108 water-spraying mouth, 3109 breaking cam;

32 lifting mechanisms, 3201 second motors, 3202 first rotating shafts, 3203 first bevel gears, 3204 second rotating shafts, 3205 second bevel gears, 3206 first gears, 3207 second sliding chutes, 3208 second gears and 3209 third rotating shafts;

4, a butt joint mechanism, 41 butt joint ends, 4101 butt joint ports, 4102 third sliding grooves, 4103 extrusion grooves, 4104 sealing gaskets, 4105 end internal grooves, 4106 extrusion rings, 4107 pulling rods, 4108 first sliding cavities, 4109 pulling rings, 4110 limit sliders, 4111 third motors, 4112 second sliding cavities, 4113 first threaded rods, 4114 threaded sliders, 4115 pulling ropes, 4116 second threaded rods, 4117 fourth motors, 4118 third gears, 4119 fourth gears, 4120 support rotating grooves, 4121 threaded holes, 4122 top pressing heads, 4123 water holes and 4124 are connected with water pipes;

42 pairs of water receiving pipe heads, 4201 sealing grooves, 4202 water pipe inner holes, 4203 plugs, 4204 drain holes, 4205 supporting frames, 4206 supporting sliding shafts, 4207 sealing plates and 4208 second springs;

5, positioning a base and 501 positioning grooves;

6 fire hose.

Detailed Description

As shown in fig. 1 to 7, the water conveying mechanism of the intelligent high-rise building fire-fighting system comprises a building body 1, wherein a window is arranged on the building body 1, and a fire-fighting pipeline is arranged in the building body 1 and comprises a supporting slideway 2, a fire-fighting lifting module 3 and a water conveying mechanism.

Support slide 2 sets up in the both sides of window 101, and fire control lifting module 3 goes up the lift slip on support slide 2, and water conveying mechanism sets up one side of fire control elevating system 3.

The supporting slide ways 2 are arranged on two sides of the window 101, the height of the supporting slide ways 2 corresponds to the height of a building body, the fire-fighting lifting mechanism 3 slides on the supporting slide ways 2, the butt joint mechanism 4 is arranged on one side of the fire-fighting lifting mechanism 3, and water resources can be supplied to the fire-fighting lifting mechanism 3 through the water conveying mechanism.

The fire-fighting lifting module 3 comprises a telescopic fire-fighting mechanism 31 and a lifting mechanism 32;

the telescopic fire-fighting mechanism 31 comprises a support frame 3105 and a water spray crushing head 3106, the support frame 3105 is arranged in a crossed manner, the support frame 3105 slides in the telescopic fire-fighting mechanism 31 in a telescopic manner, the water spray crushing head 3106 is arranged at the end part of the support frame 3105, a fire-fighting water pipe 6 is further arranged in the fire-fighting lifting module 3, and one end of the fire-fighting water pipe 6 is connected to the water spray crushing head 3106.

The telescopic fire-fighting mechanism 31 comprises a support frame 3105, the support frame 3105 is provided with a plurality of support frames 3105 which are arranged in a crossed and corresponding manner, the connection position of the support frame 3105 is connected through a hinge, a water spray crushing head 3106 is arranged at the end part of the support frame 3105, the water spray crushing head 3106 can be stretched into the room through a window through the telescopic sliding of the support frame 3105, so that the water spray crushing head 3106 can be sprayed with water to extinguish fire, and the water supply is carried out on the water spray crushing head 3106 through a fire-fighting water pipe 6.

The lifting mechanism 32 includes a first gear 3206, and the first gear 3206 is correspondingly engaged with a tooth groove provided on the supporting slideway 2.

Two first gears 3206 are arranged in the lifting mechanism 32, toothed grooves are arranged on the side surfaces of the supporting slide way 2, the first gears 3206 are correspondingly meshed and connected with the toothed grooves, and therefore the lifting mechanism 32 can slide up and down on the supporting slide way 2 after the first gears 3206 are correspondingly meshed and connected with the toothed grooves.

The water conveying mechanism comprises a butt joint mechanism 4 and a butt joint water pipe head 42;

the butt joint mechanism 4 comprises a butt joint end 41, a sealing gasket 4103 and a sealing gasket expansion mechanism;

a sliding sealing plate 4207 is arranged in the butt water pipe head 42;

the butt joint end 41 with the corresponding joint of butt joint water pipe head 42, closing plate 42 control the intercommunication and the closure of butt joint water pipe head 42, butt joint end 41 is in flexible the slip on the docking mechanism 4, butt joint end 41 with butt joint water pipe head 42 joint back roof pressure the slip of closing plate 42, sealed pad 4103 is the ring form setting, butt joint end 41 with to the corresponding joint of water pipe head 42 back, sealed pad 4103 compresses tightly on the butt joint water pipe head 42, sealed pad telescopic machanism control the flexible of sealed pad 4103.

The butt joint water pipe head 42 is arranged on the building body 1, a water pipe is arranged in the building body 1, the butt joint water pipe head 42 is connected on the water pipe, the butt joint end 41 can be correspondingly clamped with the butt joint water pipe head 42, a sliding sealing plate 4207 is arranged in the butt joint water pipe head 42, the sealing plate 4207 can seal the communication and the closing of the butt joint water pipe head 42, when the butt joint end 41 and the butt joint water pipe head 42 are correspondingly clamped, the sealing plate 4207 can be pressed, water in the butt joint water pipe head 42 can further flow out, a sliding sealing gasket 4103 is arranged in the butt joint end 41, when the butt joint end 41 and the butt joint water pipe head 42 are correspondingly clamped, a sealing box of the butt joint end 41 and the butt joint water pipe head 42 can be further improved through the sealing gasket 4103, water leakage is prevented, water supply is further ensured, the fire extinguishing efficiency is improved, a sealing gasket telescopic mechanism is arranged in the butt joint mechanism 4, the expansion and contraction of the gasket 4103 can be controlled by the gasket expansion and contraction mechanism, and the sealing performance of the butt joint end 41 and the butt joint water pipe head 42 is greatly improved.

The butt joint end 41 is correspondingly clamped with the butt joint water pipe head 42, the sealing plate 42 controls the communication and the closing of the butt joint water pipe head 42, the butt joint end 41 slides in a telescopic mode on the butt joint mechanism 4, the butt joint end 41 is clamped with the butt joint water pipe head 42 and then pushes against the sealing plate 42 to slide, the sealing gasket 4103 is arranged in a circular ring shape, the sealing gasket 4103 is pressed on the butt joint water pipe head 42 after the butt joint end 41 is correspondingly clamped with the butt joint water pipe head 42, and the sealing gasket telescopic mechanism controls the telescopic of the sealing gasket 4103;

the sealing gasket expansion mechanism comprises an extrusion ring 4106 and a pulling rod 4107, wherein the extrusion ring 4106 is arranged in a circular ring shape, the pulling rod 4107 is provided with a plurality of pieces which are fixedly connected to the extrusion ring 4106 respectively, the extrusion rings slide on the butt joint end 41, and the extrusion ring 4106 extrudes the sealing gasket 4103 after sliding.

The pressing ring 4106 is arranged in a circular ring shape, the pressing ring 4106 slides in the butt joint end 41, a plurality of pulling rods 4107 are fixedly connected to the pressing ring 4106, the pulling rods 4107 can drive the pulling ring 4106 to slide, so that the sealing gasket 4103 can be pressed by the pulling ring 4106, the sealing gasket 4103 can be pressed on the butt joint water pipe head 42, and the sealing performance is greatly improved;

the butt joint pipe head can be automatically butted on the butt joint water pipe head through the telescopic sliding of the butt joint end head, so that water in the butt joint water pipe head is automatically conveyed into the butt joint end head, and further, the automatic conveying of water resources is realized, the quick butt joint conveying of the water resources is realized, the conveying efficiency of the water resources is greatly improved, and the fire extinguishing efficiency is improved;

when the butt joint end with to the butt joint back of water receiving tube head, through the sealed flexible of the sealed pad of control that the telescopic machanism of sealed pad can be further, can carry out automatic extrusion to sealed pad through the extrusion ring to seal up to compress tightly sealed the pad on butt joint water pipe head, improved the leakproofness of butt joint mechanism and to the water receiving tube head greatly, prevent water leakage, guarantee that the supply of water resource is sufficient, improve fire extinguishing efficiency greatly.

The other end setting of fire water pipe 6 is in on the butt joint end 41, butt joint end 41 with after the corresponding joint of butt joint water pipe head 42, butt joint water pipe head 42 with the corresponding intercommunication of fire water pipe 6, 6 fixed connection of fire water pipe is on the fire-fighting pipeline.

The other end setting of fire hose 6 is on butt joint end 41, and the delivery that the water source in butt joint water pipe head 42 goes on is in fire hose 6 to the transport of completion water resource that can be further, great improvement fire extinguishing efficiency.

As shown in fig. 2 and fig. 3, the lifting mechanism 32 further includes a second motor 3201, a first rotating shaft 3202, and a second rotating shaft 3204, the second motor 3201 drives the first rotation shaft 3202 to rotate, a first bevel gear 3203 is respectively disposed at both ends of the first rotation shaft 3202, the first gears 3206 are respectively disposed at one end of the second rotating shaft 3204, the other end of the second rotating shaft 3204 is respectively disposed with a second bevel gear 3205 correspondingly engaged with the first bevel gear 3203, the lifting mechanism 32 is provided with a mechanism chute 3207 corresponding to the supporting slideway 2, a third rotation shaft 3209 which rotates in the elevating mechanism 32 is respectively provided at one side of the mechanism sliding groove 3207, a rotating second gear 3208 is respectively arranged on the third rotating shafts 3209, and the second gears 3208 are respectively in corresponding meshing connection with tooth grooves arranged on the supporting slide ways 2.

The first rotating shaft 3202 is driven to rotate by the second motor 3204, a first bevel gear 3203 is respectively arranged at two ends of the first rotating shaft 3202, a second bevel gear 3205 is respectively arranged at one end of the second rotating shaft 3204, the second bevel gears 3205 are respectively in corresponding meshing connection with the first bevel gears 3203 so as to drive the two second rotating shafts 3204 to synchronously rotate, a first gear 3206 is respectively arranged at the other end of the second rotating shaft 3204, the lifting mechanism 3 can be lifted and lowered through the corresponding meshing connection of the first gear 3206 and a tooth groove arranged on the supporting slideway 2 so as to further slide to a floor with a specified height, a mechanism sliding groove 3207 corresponding to the supporting slideway 2 is arranged on the lifting mechanism 32, the mechanism sliding groove 3207 corresponds to the supporting slideway 2 so as to ensure the normal sliding of the lifting mechanism 32, and the second gear 3208 is arranged at a position corresponding to the first gear 3206, tooth grooves corresponding to the second gear 3208 are formed in the supporting slide way 2, the tooth grooves formed in two sides of the supporting slide way 2 are concave, and the first gear 3206 and the second gear 3208 can be prevented from being separated from the supporting slide way 2 after being correspondingly meshed and connected with the tooth grooves.

As shown in fig. 2 and 3, the telescopic fire-fighting mechanism 31 further includes a first motor 3102, a first threaded rod 3103, and two sliding blocks 3104, the telescopic fire-fighting mechanism 31 is provided with a first sliding chute 3101, the first threaded rod 3103 rotates in the first sliding chute 3101, the two sliding blocks 3104 are respectively arranged at two ends of the first threaded rod 3103, the sliding blocks 3104 are respectively provided with threaded holes correspondingly engaged with the first threaded rod 3103, the threaded directions of the two ends of the first threaded rod 3103 are opposite, the supporting frames 3105 respectively rotate on the sliding blocks 3104, the supporting frames 3105 are arranged in a crossed manner, the positions arranged in the crossed manner are connected by hinges, and the end portions of the two supporting frames 3105 respectively rotate on the water spray crushing head 3106.

The first threaded rod 3103 is driven to rotate by the first motor 3102, the two ends of the first threaded rod 3103 are arranged in opposite directions, the sliding blocks 3104 are arranged at the two ends of the first threaded rod 3103 respectively, the sliding blocks 3104 are provided with threaded holes correspondingly meshed and connected with the first threaded rod 3103 respectively, the support frames 3105 are rotated on the sliding blocks 3104 respectively, the positions where the support frames 3105 are connected through hinges respectively, when the sliding blocks 3104 are in the sliding process, the support frames 3105 which are arranged in a crossed mode can slide in a telescopic mode, and the water spray crushing heads 3106 are further driven to slide in a telescopic mode, so that the water spray crushing heads 3106 can stretch into a window to perform automatic fire extinguishing. The fire extinguishing efficiency is greatly improved.

As shown in fig. 2 and 5, the water jet head 3106 is provided with a water jet 3108, and the water jet head 3106 is provided with a motor-driven crushing cam 3109.

When the water spray crushing head 3106 slides to the position of the glass of the window in the sliding process, the motor drives the crushing cam 3109 to rotate, so that the glass can be knocked by the crushing cam 3106 to break the glass, the water spray crushing head 3106 extends into the window, and the fire extinguishing efficiency is greatly improved.

As shown in fig. 2 and 3, the butt end 41 is provided with a butt joint port 4101 corresponding to the butt joint water pipe head 42, the butt joint port 4101 is provided with an end inner groove 4105, the end inner groove 4105 is arranged in a circular ring shape, the pressing ring 4106 slides up and down in the end inner groove 4105, the tops of the pressing ring 4106 and the end inner groove 4105 are respectively provided with an arc-shaped pressing groove 4103, the pressing ring 4106 is also arranged in the pressing groove 4103, the butt joint end 41 is provided with a water hole 4123 corresponding to the butt joint port 4101, the butt joint end 41 is provided with a connecting water pipe 4124 corresponding to the butt joint port 4101, and the end of the fire water pipe 6 is connected to the connecting water pipe 4124.

The butt joint 4101 is arranged on the butt joint water pipe head 42, the butt joint 4101 corresponds to the butt joint water pipe head 42, the butt joint water pipe head 42 can be clamped in the butt joint 4101, an end inner groove 4105 is arranged in the butt joint 4101, the end inner groove 4105 is arranged in a circular ring shape, the extrusion is also arranged in a circular ring shape, the extrusion ring 4106 is provided with an extrusion groove 4103 arranged in an arc shape, the top of the end inner groove 4105 is provided with an inclined arc surface corresponding to the extrusion groove 4103, the sealing gasket 4104 is arranged in the extrusion groove 4103, the butt joint water pipe head 42 is provided with a sealing groove 4201 arranged in an arc shape, the sealing groove 4201 corresponds to the sealing gasket 4104, and water can be further conveyed into the fire-fighting water pipe 6 through the connecting water pipe 4124.

A top pressing head 4122 is disposed inside the docking port 4101, a water pipe inner hole 4202 is disposed on the docking head 42, a plug 4203 fixedly connected to the docking head 42 is disposed inside the water pipe inner hole 4202, a drain hole 4204 is disposed on the plug 4203, a support frame 4205 is further disposed inside the water pipe inner hole 4202, a support sliding shaft 4206 is disposed on the sealing plate 4207, one end of the support sliding shaft 4206 slides on the support frame 4205, the other end of the support sliding shaft 4206 passes through the drain hole 4204, a second spring 4208 for elastically pressing the sealing plate 4207 to slide is further disposed on the support sliding shaft 4206, and the top pressing head 4122 presses the support sliding shaft 4206.

A top pressure head 4122 is arranged in the butt joint port 4101, a water pipe inner hole 4202 is arranged in the butt joint water pipe head 42, after the butt joint water pipe head 42 is clamped in the butt joint port 4101, the top pressure head 4122 can top pressure the support sliding shaft 4206, the top pressure support shaft 4206 can drive the sealing plate 4207 to move, the drain hole 4204 can be in an open state, water in the water pipe inner hole 4202 can flow into the butt joint port 4101, the sealing plate 4207 can be elastically pressed through the second spring 4208, the sealing plate 4207 can be tightly pressed on the plug 4203, water leakage is prevented, the water pipe head 42 is clamped in the butt joint port 4101, automatic water conveying is achieved, and fire extinguishing efficiency is greatly improved.

As shown in fig. 2 and 3, the docking mechanism 4 further includes a fourth motor 4117, a third gear 4118, a fourth gear 4119, and a second threaded rod 4116, the second threaded rod 4116 is fixedly connected to the docking end 41, the fourth motor 4117 drives the third gear 4118 to rotate, the third gear 4118 and the fourth gear 4119 are correspondingly engaged and connected, a threaded hole 4121 is provided on the fourth gear 4119 and is engaged and connected with the second threaded rod 4116, a supporting rotary groove 4120 is provided in the docking mechanism 4 for supporting the third gear 4118 and the fourth gear 4119 to rotate, and a third sliding groove 4102 is provided in the docking mechanism 4 for supporting the sliding of the docking end 41.

Rotation through fourth motor 4117 can drive third gear 4118's rotation, third gear 4118 is connected with the corresponding meshing of fourth gear 4119, be provided with screw hole 4121 on fourth gear 4119, screw hole 4121 is connected with the corresponding meshing of second threaded rod 4116, second threaded rod 4116 fixed connection is on butt joint end 41, be connected with the corresponding meshing of screw hole 4121 through second threaded rod 4116, can make butt joint end 41 stretch out and draw back in third spout 4102 and slide, thereby control butt joint is to being connected and the separation of water receiving tube head 42 and butt joint port 4101, the conveying efficiency of water has been improved greatly, thereby fire extinguishing efficiency has been improved, support third gear 4118 and fourth gear 4119 through supporting rotary groove 4120, the normal rotation of third gear 4118 and fourth gear 4119 can be guaranteed.

As shown in fig. 2 and 3, the docking mechanism 4 further includes a third motor 4111, a first threaded rod 4113, a threaded slider 4114, and a pulling ring 4109, the third motor 4111 drives the first threaded rod 4113 to rotate, a second sliding cavity 4112 is disposed in the docking mechanism 4, the threaded slider 4114 slides in the second sliding cavity 4112, the threaded slider 4114 is provided with a threaded hole correspondingly engaged with the first threaded rod 4113, the docking mechanism 4 is further provided with a first sliding cavity 4108, the first sliding cavity 4108 is disposed in a circular ring shape, the pulling ring 4109 slides in the first sliding cavity 4108, the sliding ring 4109 is in a circular ring shape, the pulling rod 4107 slides in the first sliding cavity 4108, the pulling ring 4107 is provided with a sliding hole corresponding to the pulling ring 4107, the end portions of the pulling rod 4107 are respectively provided with a limiting slider 4110, the pulling ring 4109 is provided with a plurality of pulling ropes 4115, and the pulling ropes 4115 are respectively fixedly connected to the threaded sliders 4114.

The third motor 4111 can drive the first threaded rod 4113 to rotate, a second sliding cavity 4112 is disposed in the docking mechanism 4, a threaded slider 4114 is disposed in the second sliding cavity 4112, the second sliding cavity 4112 and the threaded slider 4114 are disposed in a square shape, a threaded hole is disposed on the threaded slider 4114, the first threaded rod 4113 is correspondingly engaged with the threaded hole, so as to control the threaded slider 4114 to slide up and down in the second sliding cavity 4112, a first sliding cavity 4108 is disposed in the docking mechanism 4, the first sliding cavity 4108 is disposed in a circular ring shape, the pulling ring 4109 can slide up and down in the first sliding cavity 8, the pulling rod 4107 slides from the docking mechanism 4, a sliding hole corresponding to the pulling rod 4107 is disposed on the pulling ring 4109, a limit slider 4110 is disposed at an end of the pulling rod 4107, be provided with a plurality of pulling ropes 4115 on pulling ring 4109, pulling rope 4115 is fixed connection respectively on screw slider 4114, can drive through screw slider 4114 in the gliding in-process pulling rope 4115's slip, thereby further pulling ring 4109's slip, can drive the slip of pulling pole 4107 through pulling ring 4109, pulling extrusion ring 4106 slides, can extrude sealed 4103 through extrusion ring 4106, thereby compress tightly sealed 4103 on butt joint water pipe head 42, improved sealed effect of sealed 4103 greatly.

As shown in fig. 2 and 6, two sides of the fire-fighting lifting module 3 are respectively provided with a positioning base 5, the supporting slideway 2 is respectively provided with a locking module 202 corresponding to the window 101, the locking module 202 is respectively provided with a locking slide block 201 capable of sliding in a telescopic manner, two sides of the positioning base 5 are respectively provided with a positioning groove 501 corresponding to the locking slide block 201, the locking module 202 is internally provided with a module inner cavity 203, the locking slide block 201 is provided with a sliding shaft 205 capable of sliding in the module inner cavity 203, the end of the sliding shaft 205 is provided with a magnet 206 capable of sliding in the module inner cavity 203, the module inner cavity 203 is internally provided with an electromagnet 204 corresponding to the magnet 206, and the module inner cavity 203 is internally provided with a first spring 207 capable of elastically pressing the magnet 206.

The two sides of the fire-fighting lifting module 3 are respectively provided with a positioning base 5, the positions of the positioning bases 5 are respectively self-supporting the position of the slide way 2, the positioning bases 5 are respectively provided with a positioning groove 501, the support slide way 2 is respectively provided with a locking module 202 corresponding to the position of a window, the locking modules 202 at the two sides are correspondingly arranged, the locking modules 202 are respectively provided with a sliding locking slide block 201, when the locking slide block 201 slides to the position of the positioning groove 510, the positioning base 5 can be positioned through the locking slide block 201, the positioning base 5 can be prevented from randomly sliding in the process of fire extinguishment, the electromagnet 204 can be correspondingly repelled with the magnet 206 after being electrified, the sliding shaft 205 is further pushed to slide, thereby the sliding of the locking slide block 201 is pushed, when the electromagnet 204 is powered off, the elastic pressure of the first spring 207 is used for pushing the electromagnet 204, the locking slider 201 can be further reset, and the normal sliding of the fire-fighting lifting module 3 is ensured.

As shown in fig. 1 and 4, the fire-fighting lifting module 3 is further provided with a water storage tank 3107 for storing the fire-fighting water pipe 6. The fire fighting water pipe 6 is stored by the water pipe storage tank 3107, so that the fire fighting water pipe 6 is stored in the fire fighting lifting module 3.

The working principle of the invention is as follows:

a supporting slideway 2 is arranged on the building body 1, the supporting slideway 2 is fixedly arranged at two sides of the window 101, and a sliding fire-fighting lifting module 3 is arranged on the supporting slideway 2;

the fire-fighting lifting module 3 comprises a lifting mechanism 32, a telescopic fire-fighting mechanism 31 and a water conveying mechanism;

the lifting mechanism 32 can slide up and down on the supporting slideway 2, and the fire-fighting lifting module 3 is driven by the lifting mechanism 32 to slide so as to slide to a floor with a specified height, so that fire extinguishing operation can be carried out after the lifting mechanism is quickly lifted to the specified height under the condition of a fire;

the lifting mechanism 32 is correspondingly meshed and connected with tooth grooves arranged on the supporting slideway 2 by virtue of a first gear 3206 and a second gear 3208, and when the first gear 3206 rotates, the lifting mechanism 32 can be further driven to lift;

the telescopic fire-fighting mechanism 31 comprises a support frame 3105 which can extend and slide, the support frame 3105 is arranged in a crossed and corresponding way, after the support frame 3105 is extended, a water spray crushing head 3106 can be driven to extend into a window, and the purpose of fire extinguishment can be achieved by spraying water through the water spray crushing head 3106;

the water conveying mechanism comprises a butt joint mechanism 4 and a butt joint water pipe head 42;

the butt joint water pipe head 42 is fixedly arranged on a wall body, a water pipeline is laid in the wall body, the butt joint water pipe head 42 is fixedly arranged on the water pipeline, a water pipe inner hole 4202 is arranged on the butt joint water pipe head 42, a sealing plate 4207 is arranged in the water pipe inner hole 4202, and the sealing plate 4207 controls the communication and the closing of the water pipe inner hole 4202, so that the drainage of the water pipe inner hole 4202 is controlled;

the butt joint mechanism 4 is provided with a telescopic sliding butt joint end 41, after the butt joint end 41 is correspondingly connected with the butt joint water pipe head 42, water in the butt joint water pipe head 42 can be conveyed into the butt joint end 41, and is further sprayed out through the water spraying crushing head 3106, so that the purpose of fire extinguishment is achieved;

a butt joint port 4101 is arranged on the butt joint end 41, a sliding extrusion ring 4106 is arranged in the butt joint port 4101, after the butt joint water pipe head 42 is clamped in the butt joint port 4101, the sealing gasket 4104 can be extruded through the sliding of the extrusion ring 4106, and the sealing gasket 4104 is further pressed on the butt joint water pipe head 42, so that the sealing performance is improved;

the extrusion ring 4106 slides by being pulled through a pulling rod 4107, the sliding of the pulling rod 4107 drives the pulling rod 4107 to slide through the pulling ring 4109, wherein the sliding of the pulling ring 4109 is realized through the sliding of a pulling rope 4115, the pulling ropes 4115 are respectively connected to the threaded sliders 4114, the first threaded rod 4113 is driven to rotate through a third motor 4111, the first threaded rod 4113 is correspondingly engaged and connected with a threaded hole on the threaded slider 4114, so that the sliding of the threaded slider 4114 is controlled, and the further pulling also drives the sliding of the extrusion ring 4109, so that the sliding of the extrusion ring 4106 is driven;

the telescopic sliding of the butt joint end 41 drives the third gear 4118 to rotate through the fourth motor 4117, the third gear 4118 is correspondingly engaged with the fourth gear 4119, the fourth gear 4119 is provided with a threaded hole 4121, the second threaded rod 4116 is correspondingly engaged with the threaded hole 4121, so as to control the telescopic sliding of the butt joint end 41, when the butt joint end 41 slides, the butt joint end 41 can drive the pulling rod 4107 to synchronously slide, after the butt joint water pipe head 42 is clamped in the butt joint port 4101, the limit slider 4110 arranged at the end of the pulling rod 4107 is just butt joint on the pulling ring 4109, so that the sliding of the pulling rod 4108 can be further driven through the sliding of the pulling ring 4109, so that the sealing gasket 4104 is pressed on the water pipe butt joint head 42 through the squeezing ring 4106, thereby greatly improving the sealing performance, and preventing the outflow of water;

be provided with a location base 3 in the bottom of fire control lift module 3, be provided with locking module 202 on supporting slide 2, be provided with flexible gliding locking slider 201 on the locking module 202, can carry on spacingly with location base 3 after sliding through locking slider 201, prevent the slip of fire control lift module 3, guarantee the normal fire control operation of fire control lift module 3.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (5)

1. The utility model provides a water conveying mechanism of wisdom high-rise building fire extinguishing system which characterized in that: the water conveying mechanism comprises a butt joint mechanism (4) and a butt joint water pipe head (42);

the butt joint mechanism (4) comprises a butt joint end (41), a sealing gasket (4103) and a sealing gasket telescopic mechanism;

a sliding sealing plate (4207) is arranged in the butt water pipe head (42);

the butt joint end (41) is correspondingly clamped with the butt joint water pipe head (42), the sealing plate (42) controls the communication and the closing of the butt joint water pipe head (42), the butt joint end (41) slides in a telescopic mode on the butt joint mechanism (4), the butt joint end (41) and the butt joint water pipe head (42) are clamped and then press against the sealing plate (42) to slide, the sealing gasket (4103) is arranged in a circular ring shape, after the butt joint end (41) and the butt joint water pipe head (42) are correspondingly clamped, the sealing gasket (4103) is tightly pressed on the butt joint water pipe head (42), and the sealing gasket telescopic mechanism controls the expansion of the sealing gasket (4103);

the sealing gasket expansion mechanism comprises an extrusion ring (4106) and a pulling rod (4107), wherein the extrusion ring (4106) is arranged in a circular ring shape, the pulling rod (4107) is provided with a plurality of pulling rods which are fixedly connected to the extrusion ring (4106) respectively, the extrusion ring slides on the butt joint end (41), and the extrusion ring (4106) extrudes the sealing gasket (4103) after sliding.

2. The water delivery mechanism of the intelligent fire-fighting system for high-rise buildings according to claim 1, wherein: the butt joint end (41) is provided with a butt joint port (4101) corresponding to the butt joint water pipe head (42), an end inner groove (4105) is arranged in the butt joint port (4101), the end inner groove (4105) is arranged in a circular ring shape, the extrusion ring (4106) slides up and down in the end inner groove (4105), the top parts of the extrusion ring (4106) and the end inner groove (4105) are respectively provided with an arc-shaped extrusion groove (4103), the extrusion part (4106) is arranged in the extrusion groove (4103), a water hole (4123) which is correspondingly communicated with the butt joint port (4101) is arranged on the butt joint end (41), the butt joint end (41) is provided with a connecting water pipe (4124) correspondingly communicated with the butt joint port (4101), the end part of the fire-fighting water pipe (6) is connected to the connecting water pipe (4124);

a jacking head (4122) is arranged in the butt joint port (4101), a water pipe inner hole (4202) is arranged on the butt joint water pipe head (42), a choke plug (4203) fixedly connected to the butt joint water pipe head (42) is arranged in the water pipe inner hole (4202), a drain hole (4204) is arranged on the choke plug (4203), a support frame (4205) is further arranged in the water pipe inner hole (4202), a support sliding shaft (4206) is arranged on the sealing plate (4207), one end of the support sliding shaft (4206) slides on the support frame (4205), the other end of the support sliding shaft (4206) penetrates through the drain hole (4204), a second spring (4208) for elastically pressing the sealing plate (4207) to slide is further arranged on the support sliding shaft (4206), and the jacking head (4122) jacks the support sliding shaft (4206).

3. The water delivery mechanism of the intelligent fire-fighting system for high-rise buildings according to claim 1, wherein: docking mechanism (4) are still including fourth motor (4117), third gear (4118), fourth gear (4119), second threaded rod (4116) fixed connection is in docking on end (41), fourth motor (4117) drive third gear (4118) rotates, third gear (4118) and the corresponding meshing of fourth gear (4119) is connected, be provided with on fourth gear (4119) with screw hole (4121) that the corresponding meshing of second threaded rod (4116) is connected, be provided with the support in docking mechanism (4) third gear (4118) and fourth gear (4119) pivoted support groove (4120), be provided with the support on docking mechanism (4) the gliding third spout (4102) of docking end (41).

4. The water delivery mechanism of the intelligent fire-fighting system for high-rise buildings according to claim 1, wherein: the butt joint mechanism (4) further comprises a third motor (4111), a first threaded rod (4113), a threaded slider (4114) and a pulling ring (4109), the third motor (4111) drives the first threaded rod (4113) to rotate, a second sliding cavity (4112) is arranged in the butt joint mechanism (4), the threaded slider (4114) slides in the second sliding cavity (4112), a threaded hole which is correspondingly meshed and connected with the first threaded rod (4113) is formed in the threaded slider (4114), a first sliding cavity (4108) is further arranged in the butt joint mechanism (4), the first sliding cavity (4108) is arranged in a circular ring shape, the pulling ring (4109) slides in the first sliding cavity (4108), the sliding ring (4109) is in a circular ring shape, the pulling rod (4107) slides in the first sliding cavity (4108) respectively, sliding holes corresponding to the pulling rings (4107) are respectively formed in the pulling rings (4107), a limiting slider (4110) is respectively arranged at the end part of each pulling rod (4107), a plurality of pulling ropes (4115) are arranged on each pulling ring (4109), and the pulling ropes (4115) are respectively and fixedly connected to the threaded sliders (4114).

5. An intelligent fire fighting system for high-rise buildings, comprising the water supply mechanism of the intelligent fire fighting system for high-rise buildings according to any one of claims 1 to 4.

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