CN215741501U - Adsorbable intelligent nacelle for fire control - Google Patents

Abstract

The utility model relates to an adsorbable intelligent pod for fire fighting, which is hung on a steel wire sling and is communicated with a high-pressure fire pump, and comprises a cabin body, a fire fighting injection device which is communicated with the high-pressure fire pump, is arranged on the cabin body and has an adjustable angle, and an adsorption buffering device which is arranged on the cabin body and is used for keeping the cabin body stable. The utility model can put out a fire to the high-rise building, can stably reach and be adsorbed on the wall of the high-rise building, and has better use effect.

Description

Adsorbable intelligent nacelle for fire control

Technical Field

The utility model relates to the technical field of fire fighting, in particular to an adsorbable intelligent pod for fire fighting.

Background

At present, once a fire occurs in a high-rise building, particularly a high-rise building with the height of more than 50 meters, a common fire truck is difficult to realize high lift and long-distance spraying due to pressure and flow, and once the fire spreads to a high-rise insulating layer, the fire spreads rapidly due to the factor of high wind of the high-rise building, so that the fire extinguishment difficulty is very high.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides an adsorbable intelligent fire-fighting pod which can extinguish a fire on a high-rise building, can stably reach and be adsorbed on a wall of the high-rise building and has a good using effect.

The technical scheme adopted by the utility model is as follows: the utility model provides an adsorbable intelligent nacelle for fire control, hang and locate on the wire sling to communicate with high-pressure fire pump, including the cabin body, and with high-pressure fire pump intercommunication and install in fire control injection apparatus on the cabin body, angularly adjustable, still including install in on the cabin body, be used for keeping the stable absorption buffer of the cabin body, fire control injection apparatus is including installing in on the cabin body, can 360 circumference rotatory water cannon chassis, and install in on the water cannon chassis, the water cannon turret that contains the water pocket in, still including install in the water cannon turret bottom, rotatable setting water cannon, and install in first dual-purpose probe on the water cannon turret with install in the main conduit line at water cannon turret top, main conduit line via the hosepipe with high-pressure fire pump intercommunication.

As a further limitation to the technical scheme, a first steering engine is installed at the bottom of the water cannon turret and drives the water cannon to rotate at the bottom of the water cannon turret.

As a further limitation to the above technical solution, the first dual-purpose probe includes a visible light probe and an infrared probe.

As a further limitation to the above technical solution, the water cannon chassis comprises a disc body and a driving motor mounted on the disc body; still including the transmission connect in driving gear on the driving motor, and with driven gear that driving gear transmission is connected, water cannon gun turret install in on the driven gear.

As a further limitation to the above technical solution, the adsorption buffer device includes at least one group of adsorption buffer components installed on one surface of the cabin body, and air ports respectively opened on other surfaces of the cabin body; still include wind channel connecting tube subassembly.

As a further limitation to the above technical solution, the adsorption buffer assemblies are two groups, and the number of the air ports is four, wherein two air ports are arranged on the opposite surface of the cabin body on the side where the adsorption buffer assemblies are installed, the other two air ports are respectively arranged on the adjacent surface of the cabin body on the side where the adsorption buffer assemblies are installed, and each group of the adsorption buffer assemblies comprises a vacuum device with a vacuum pump and a piston cylinder communicated with the vacuum device; the shock absorber further comprises a piston rod which is communicated with the piston cylinder and is connected with a spring between the piston rod and the piston cylinder, and four groups of single planet adsorption shock absorber contacts which are communicated with the piston rod and are circumferentially arranged.

As a further limitation to the above technical solution, the air duct connecting pipe assembly includes a first main communicating pipe communicating one air opening of one of the adsorption buffer assemblies and the opposite surface thereof, and a second main communicating pipe communicating the other adsorption buffer assembly and the other air opening of the opposite surface thereof; the two auxiliary communicating pipes are respectively communicated with the two air ports on the two adjacent surfaces.

As a further limitation to the above technical solution, each of the single planetary adsorption damper contacts includes a communication pipe and an adsorption cushion pad mounted on the communication pipe.

As a further limitation to the above technical solution, the adsorbable intelligent pod for fire fighting further comprises a window breaking fire fighting device, wherein the window breaking fire fighting device comprises a window breaking chassis which is mounted on the cabin body and can circumferentially rotate by 360 degrees, and an arm revolving body mounted on the window breaking chassis; the device also comprises at least one mechanical arm which can be folded or unfolded on the arm revolving body, and a spraying unit which is arranged on the mechanical arm at the top and can be folded or unfolded on the mechanical arm at the top, wherein a second dual-purpose probe and a pipeline connecting port communicated with the water cannon turret are arranged on the spraying unit.

As a further limitation to the above technical solution, the number of the mechanical arm is one, an auxiliary water delivery pipeline is installed at the top of the water cannon tower, and a water pipe is communicated between the pipeline connecting port and the auxiliary water delivery pipeline.

According to the adsorbable intelligent pod for fire fighting, the cabin body, the fire fighting injection device and the adsorption buffer device are arranged, so that the fire fighting position of a high-rise building can be put out and rescued, the intelligent pod can stably reach and be adsorbed on the wall of the high-rise building, and the intelligent pod for fire fighting can be well applied to fire fighting of the high-rise building.

Drawings

FIG. 1 is a diagram illustrating the use of an adsorbable intelligent pod for fire protection of the present invention;

FIG. 2 is a schematic structural diagram of an adsorbable intelligent pod for fire protection of the present invention;

FIG. 3 is another perspective view of the intelligent fire-fighting pod with the attachment of the present invention;

FIG. 4 is a partial cross-sectional view of the suction bumper assembly of the present invention;

fig. 5 is a partial structural schematic view of the window breaking fire-fighting device.

In the figure:

1-adsorbable intelligent pod for fire fighting, 11-cabin, 121-water cannon chassis, 122-water cannon turret, 123-water cannon, 124-first dual-purpose probe, 125-main water pipeline, 126-auxiliary water pipeline, 13-adsorption buffer device, 131-adsorption buffer component, 1311-vacuum device, 1312-piston cylinder, 1313-piston rod, 1314-spring, 1315-single-planet adsorption shock absorber contact, 132-tuyere, 133-first main communicating pipe, 134-second main communicating pipe, 135-auxiliary communicating pipe, 14-window breaking fire fighting device, 141-window breaking chassis, 142-arm revolving body, 143-mechanical arm, 144-injection unit, 145-second dual-purpose probe, 146-pipeline connecting port, 2-sling steel wire, 3-a rail hoisting platform for fire protection and 4-a double-track sliding rail mechanism.

Detailed Description

The utility model is described in further detail below with reference to the figures and the embodiments.

Examples

An adsorbable intelligent pod for fire fighting is hung on a steel wire sling 2 and communicated with a high-pressure fire pump, specifically, a double-track slide rail mechanism 4 can be installed on the roof of a high-rise building, as shown in fig. 1, the adsorbable intelligent pod 1 for fire fighting is installed with a rail hoisting platform 3 for fire fighting via the steel wire sling 2, the rail hoisting platform 3 for fire fighting is installed on the double-track slide rail mechanism 4 and can slide along the double-track slide rail mechanism 4 under the driving of external force, so that the adsorbable intelligent pod 1 for fire fighting is driven to move to a required position in the circumferential direction of the high-rise building and move to the required position in the height of the high-rise building via the steel wire sling 2.

As shown in fig. 2 and fig. 3, the overall structure of the adsorbable intelligent pod 1 for fire fighting includes a cabin 11, a fire fighting injection device which is connected with a high-pressure fire pump and is installed on the cabin 11, and has an adjustable angle, and further includes an adsorption buffer device 3 which is installed on the cabin 11 and is used for keeping the cabin 11 stable, the fire fighting injection device includes a water cannon chassis 121 which is installed on the cabin 11 and can rotate circumferentially by 360 degrees, a water cannon turret 122 which is installed on the water cannon chassis 121 and contains water sacs therein, a water cannon 123 which is installed at the bottom of the water cannon turret 122 and can rotate, a first dual-purpose probe 124 which is installed on the water cannon turret 122, and a main water pipeline 125 which is installed at the top of the water cannon turret 122, and the main water pipeline 125 is connected with the high-pressure fire pump via a water hose.

Specifically, install first steering wheel in water cannon gun turret 122 bottom, first steering wheel orders about water cannon 123 rotatory in water cannon gun turret 122 bottom, and first dual-purpose probe 124 includes visible light probe and infrared probe, and water cannon chassis 121 includes the disk body to and install the driving motor on the disk body, still include the driving gear of transmission connection on driving motor, and install on driven gear with driven gear water cannon gun turret 122 that driving gear transmission is connected.

As shown in fig. 2 to 4, the adsorption buffer device 3 includes at least one set of adsorption buffer components 131 installed on one surface of the cabin 11, and air vents 132 respectively installed on other surfaces of the cabin 11, and further includes an air duct connecting tube assembly, specifically, two sets of adsorption buffer components 131, four sets of air vents 132, two air vents 132 are disposed on the opposite surface of the cabin 11 on the surface where the adsorption buffer components 131 are installed, the other two air vents 132 are respectively disposed on the adjacent surface of the cabin 11 on the surface where the adsorption buffer components 131 are installed, each set of adsorption buffer components 131 includes a vacuum device 1311 having a vacuum pump, a piston cylinder 1312 communicated with the vacuum device 1311, a piston rod 1313 communicated with the piston cylinder 1312 and connected with a spring 1314 between the piston cylinder 1312, and four sets of single planetary adsorption shock absorber contacts 1315 which are circumferentially disposed and communicated with the piston rod 1313. The air duct connecting pipe assembly includes a first main communicating pipe 133 communicating one of the adsorption buffer assemblies 131 with one of the air ports 132 of the opposite surface thereof, a second main communicating pipe 134 communicating the other adsorption buffer assembly 131 with the other air port 132 of the opposite surface thereof, and two auxiliary communicating pipes 135 respectively communicating the two air ports 132 of the adjacent two surfaces.

In this embodiment, each one-row star adsorption damper contact 1315 includes a communicating tube and an adsorption cushion pad mounted on the communicating tube.

When the cabin 11 is lowered to a preset position, the vacuum device 1311 is started, a large amount of air is sucked in through the four sets of single-planet adsorption shock absorber contacts 1315 in each set of adsorption buffer assemblies 131, and exhausted through the first main communicating pipe 133 and the second main communicating pipe 134 and the air ports 132 at corresponding positions, so that a thrust close to the wall of the high-rise building is applied to the cabin 11, when the single-planet adsorption shock absorber contacts 1315 are in contact with the wall of the high-rise building, part of impact force is buffered through the adsorption buffer pads, the impact force is further buffered through the springs 1314, and meanwhile, the vacuum device 1311 continuously works until the cabin 11 is adsorbed on the wall of the high-rise building.

When the water cannon 123 of the cabin 11 or the below-described window-breaking fire-fighting device 14 acts, the electromagnetic valves inside the two auxiliary communicating pipes 135 respectively communicating the two air ports 132 on the two adjacent surfaces are opened at proper time to realize the lateral air outlet of the cabin 11, so that a lateral balancing force is generated to balance the instability generated by the action of the cabin 11.

In the process of retracting and releasing the cabin 11, the vacuum device 1311 is timely opened, the electromagnetic valves inside the air duct connecting pipe assemblies are timely opened to exhaust air in different directions, the air output can be adjusted through the opening degree of the electromagnetic valves, and the unbalance of the cabin 11 caused by factors such as wind power is further balanced.

In this embodiment, as shown in fig. 2 and fig. 5, the adsorbable intelligent pod 1 for fire fighting further includes a window breaking fire fighting device 14, the window breaking fire fighting device 14 includes a window breaking chassis 141 mounted on the cabin 11 and capable of rotating circumferentially by 360 degrees, an arm revolving body 142 mounted on the window breaking chassis 141, at least one mechanical arm 143 capable of being folded or unfolded on the arm revolving body 142, and an injection unit 144 mounted on the mechanical arm 143 at the top and capable of being folded or unfolded on the mechanical arm 143 at the top, a second dual-purpose probe 145 and a pipeline connection port 146 connected to the water cannon turret 122 are mounted on the injection unit 144, in this embodiment, the mechanical arm 143 is one, the auxiliary pipeline 126 is mounted at the top of the water cannon turret 122, and a water pipe is communicated between the pipeline connection port 146 and the auxiliary water pipeline 126. In this embodiment, as shown in fig. 5, the window breaking chassis 141 includes a disk body, a driving motor installed on the disk body, a driving gear connected to the driving motor in a transmission manner, and a driven gear connected to the driving gear in a transmission manner, and the arm revolving body 142 is installed on the driven gear, where the transmission mechanism of the window breaking chassis 141 is the same as the structure of the water cannon chassis 121, and is not described herein again.

When the spray head is not used, the mechanical arm 143 and the spray unit 144 are sequentially retracted, and in this embodiment, the spray unit 144 is a spray head in the prior art, and is not described herein again.

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 by equally replacing or changing the technical idea of the present invention within the technical scope of the present invention.

Claims (10)

1. The utility model provides an adsorbable intelligent nacelle is used in fire control hangs on locating wire sling to communicate its characterized in that with high-pressure fire pump: the fire-fighting injection device comprises a cabin body, a fire-fighting injection device, an adsorption buffer device, a water cannon turret, a water cannon, a first dual-purpose probe, a main water conveying pipeline and a second dual-purpose probe, wherein the fire-fighting injection device is communicated with the high-pressure fire pump and is arranged on the cabin body, the angle of the fire-fighting injection device is adjustable, the adsorption buffer device is arranged on the cabin body and is used for keeping the cabin body stable, the fire-fighting injection device comprises a water cannon chassis which is arranged on the cabin body and can rotate 360 degrees in the circumferential direction, the water cannon turret is arranged on the water cannon chassis and contains a water sac, the water cannon turret is arranged at the bottom of the water cannon turret and can rotate, the first dual-purpose probe is arranged on the water cannon turret, the main water conveying pipeline is arranged at the top of the cannon turret, and the main water conveying pipeline is communicated with the high-pressure fire pump through a water hose.

2. An adsorbable intelligent pod for fire fighting according to claim 1, wherein: and a first steering engine is arranged at the bottom of the water cannon turret and drives the water cannon to rotate at the bottom of the water cannon turret.

3. An adsorbable intelligent pod for fire fighting according to claim 1, wherein: the first dual-purpose probe comprises a visible light probe and an infrared probe.

4. An adsorbable intelligent pod for fire fighting according to claim 1, wherein: the water cannon chassis comprises a disc body and a driving motor arranged on the disc body; still including the transmission connect in driving gear on the driving motor, and with driven gear that driving gear transmission is connected, water cannon gun turret install in on the driven gear.

5. An adsorbable intelligent pod for fire fighting according to claim 1, wherein: the adsorption buffer device comprises at least one group of adsorption buffer components arranged on one surface of the cabin body and air ports respectively arranged on other surfaces of the cabin body; still include wind channel connecting tube subassembly.

6. An adsorbable intelligent pod for fire fighting according to claim 5, wherein: the adsorption and buffering assemblies are two groups, the number of the air ports is four, two air ports are arranged on the opposite surface of the cabin body on the surface where the adsorption and buffering assemblies are installed, the other two air ports are respectively arranged on the adjacent surface of the cabin body on the surface where the adsorption and buffering assemblies are installed, and each group of the adsorption and buffering assemblies comprises a vacuum device with a vacuum pump and a piston cylinder communicated with the vacuum device; the shock absorber further comprises a piston rod which is communicated with the piston cylinder and is connected with a spring between the piston rod and the piston cylinder, and four groups of single planet adsorption shock absorber contacts which are communicated with the piston rod and are circumferentially arranged.

7. An adsorbable intelligent pod for fire fighting according to claim 6, wherein: the air duct connecting pipe assembly comprises a first main communicating pipe for communicating one air port of one adsorption buffering assembly and the opposite surface of the adsorption buffering assembly, and a second main communicating pipe for communicating the other air port of the other adsorption buffering assembly and the opposite surface of the adsorption buffering assembly; the two auxiliary communicating pipes are respectively communicated with the two air ports on the two adjacent surfaces.

8. An adsorbable intelligent pod for fire fighting according to claim 6, wherein: each single planet adsorption shock absorber contact all includes communicating pipe to and install in adsorption buffer on communicating pipe.

9. An adsorbable intelligent pod for fire fighting according to claim 1, wherein: the adsorbable intelligent pod for fire fighting further comprises a window breaking fire fighting device, wherein the window breaking fire fighting device comprises a window breaking chassis which is arranged on the cabin body and can rotate circumferentially by 360 degrees, and an arm revolving body arranged on the window breaking chassis; the device also comprises at least one mechanical arm which can be folded or unfolded on the arm revolving body, and a spraying unit which is arranged on the mechanical arm at the top and can be folded or unfolded on the mechanical arm at the top, wherein a second dual-purpose probe and a pipeline connecting port communicated with the water cannon turret are arranged on the spraying unit.

10. An adsorbable intelligent pod for fire fighting according to claim 9, wherein: the mechanical arm is one, an auxiliary water conveying pipeline is installed at the top of the water cannon tower, and a water pipe is communicated between the pipeline connecting port and the auxiliary water conveying pipeline.

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