CN112843560B

CN112843560B - Building outer wall fire-fighting system and using method

Info

Publication number: CN112843560B
Application number: CN202110025691.0A
Authority: CN
Inventors: 李平
Original assignee: Shenzhen Tianxia Information Industry Co ltd
Current assignee: Shenzhen Tianxia Information Industry Co ltd
Priority date: 2019-08-21
Filing date: 2019-08-21
Publication date: 2022-10-18
Anticipated expiration: 2039-08-21
Also published as: CN110585634B; CN112843560A; CN110585634A

Abstract

The invention provides a building outer wall fire fighting system and a using method thereof, the building outer wall fire fighting system structurally comprises a building outer wall body, an atomizing and spraying mechanism, a water inlet hole, a water suction pump, a support frame, a water suction pump driver, a main branch pipe and a temperature sensing mechanism, wherein a plurality of atomizing and spraying mechanisms are arranged, and when a temperature probe detects that the temperature on the building outer wall body exceeds a set number, data is transmitted to a temperature measuring box, so that the temperature measuring box transmits a data instruction to the water suction pump driver, the water suction pump is operated to pump external water into the main branch pipe, the temperature inside a building can be controlled, the building is effectively prevented from being rapidly increased due to long-time irradiation of sunlight, the atomizing and spraying mechanism is arranged, air is conveyed to the inside of a T-shaped pipe through a through hole on an atomizing mechanism, a connecting ring is conveyed to water in the T-shaped pipe to extrude the water in the T-shaped pipe, and then the atomized water is sprayed out from a nozzle to cool the building outer wall body.

Description

Building outer wall fire-fighting system and using method

The invention is a divisional application of building outer wall fire fighting equipment, wherein the application date is 2019, 8, 21 and the application number is CN 201910771611.9.

Technical Field

The invention relates to the technical field of fire fighting, in particular to a building outer wall fire fighting system and a using method thereof.

Background

The fire disaster is a phenomenon that people often contact, some are caused by improper artificial behaviors, some are caused by too dry weather, so that flammable and explosive substances in a building catch fire, and the fire disaster is caused, if the flammable and explosive substances are not timely treated, the fire disaster can be slowly spread, and the prior art has the following defects:

only when the building conflagration took place, fire control unit can start to spray the water source to it and eliminate the fire, and under the illumination of building at sunlight high temperature, cause the building to absorb heat energy, and lead to indoor temperature sharply to rise, if place indoor when placing inflammable and explosive thing, will initiate its spontaneous combustion to cause unnecessary conflagration to take place.

Disclosure of the invention technical problem (1)

Aiming at the defects of the prior art, the invention provides a building outer wall fire-fighting system and a using method thereof, which solve the problems that only when a building is in fire, a fire-fighting device can be started to spray water to the building to extinguish the fire, and when the building is irradiated by sunlight at high temperature, the building absorbs heat energy to rapidly raise the indoor temperature, and if flammable and explosive substances are placed indoors, the building can be caused to spontaneously combust, so that unnecessary fire is caused.

(II) technical scheme

In order to realize the purpose, the invention is realized by the following technical scheme: the utility model provides a building outer wall fire extinguishing system and application method, its structure includes building outer wall, atomizing spraying mechanism, inlet opening, suction pump, support frame, suction pump driver, total branch pipe, temperature sensing mechanism, atomizing spraying mechanism is equipped with a plurality of, and installs respectively around building outer wall, atomizing spraying mechanism embedding is installed and is passed through threaded connection in total branch pipe top, inlet opening rear end and suction pump front end fixed connection, total branch pipe embedding is installed in the suction pump side, the suction pump is placed in the support frame top and is passed through mechanical connection, support frame fixed connection is on building outer wall, the suction pump passes through the wire and is connected with the suction pump driver electricity, the suction pump driver passes through the wire and is connected with temperature sensing mechanism electricity, building outer wall left end face is equipped with the air-blower, temperature sensing mechanism includes mount, temperature sensor, chase box, temperature sensor left side welds with the mount right side mutually, chase box upper end is laminated and is adopted glue to bind with the mount lower extreme mutually.

Preferably, the fixing frame comprises two clamping hooks, a support frame, guide groove holes and a movable clamping needle mechanism, the two clamping hooks are welded on the left upper end face of the support frame respectively, the support frame and the guide groove holes are integrally cast and formed, and the movable clamping needle mechanism is installed on the support frame.

Preferably, the movable needle clamping mechanism comprises a rack, a limiting slider, a casing, a push plate, a gear and a needle clamping rod, the left side of the rack is welded to the right side of the needle clamping rod, the rack is meshed with the gear, the limiting slider is installed inside the casing and connected with the casing through electric welding, the upper portion of the rack is attached to the lower portion of the limiting slider, the rear end of the upper portion of the push plate is welded to the front end of the gear, the gear is movably connected with the casing through a rotating shaft, and the limiting slider is of a cuboid structure.

Preferably, the temperature sensor comprises a temperature sensing probe, a display screen, a temperature measuring box and a control button, the temperature sensing probe is embedded in the left side of the temperature measuring box, the display screen is embedded in the right end of the temperature measuring box and is electrically connected with the temperature measuring box, the control button is embedded in the right end of the temperature measuring box and is mechanically connected with the temperature measuring box, and the display screen is of a cuboid structure.

As preferred, atomizing spraying mechanism includes atomizer mechanism, bleeder, screw thread guide ring, connecting hole, atomizer mechanism installs through threaded connection on the connecting hole, the bleeder is the integrated casting shaping with the connecting hole, bleeder and screw thread guide ring structure as an organic whole, the bleeder is the cylinder structure of fretwork, and the below is the notch.

Preferably, atomizer mechanism includes nozzle, T type pipe, go-between, atomizing bowl cover, atomizing baffle, atomizing cup, connection mouth, the nozzle is installed in T type pipe left side, T type pipe right side welds mutually with the go-between left side, T type pipe lower extreme welds mutually with atomizing bowl cover upper end, atomizing baffle installs inside atomizing cup, atomizing bowl cover lower extreme and atomizing cup upper end threaded connection, atomizing cup lower extreme is integrative casting shaping with being connected the mouth upper end, it is the ring structure to connect the mouth, the go-between is connected with the lateral pipe, it is connected with outside air-blower to connect the mouth.

(III) advantageous effects

The invention provides a building outer wall fire-fighting system and a using method thereof. The method has the following beneficial effects:

1. according to the invention, the temperature sensor is arranged, the temperature probe can detect the temperature of heat energy on the building outer wall, when the temperature probe detects that the temperature on the building outer wall exceeds a set number, the data can be transmitted to the temperature measuring box to convert and transmit the data, and the converted data instruction is transmitted to the water pump driver, so that the water pump driver is electrified to operate, and the water pump is operated to pump external water into the main branch pipe, so that the temperature inside the building can be controlled, and the rapid temperature rise of an inner chamber caused by long-time irradiation of sunlight of the building can be effectively avoided.

2. According to the invention, by arranging the atomizing and spraying mechanism, the hydraulic energy is conveyed into the atomizing spray head mechanism through the branch pipe and conveyed into the T-shaped pipe through the connecting ring, the air blower can convey the outside air into the atomizing cup from the connecting nozzle, the air is conveyed upwards to the atomizing cup cover through the atomizing baffle plate and conveyed into the T-shaped pipe through the through hole in the atomizing cup cover, and the water conveyed into the T-shaped pipe by the connecting ring is extruded, so that the water in the T-shaped pipe exists in an atomizing form, and then the atomized water is sprayed out from the nozzle to cool the outer wall of the building outer wall, so that the phenomenon that the temperature in the building outer wall rises rapidly due to the long-time irradiation of sunlight in the building outer wall is avoided, and the phenomenon that dry matters in the building can spontaneously combust under the action of high temperature can be effectively avoided.

Drawings

FIG. 1 is a schematic structural diagram of a building exterior wall fire fighting system and a method of use according to the present invention;

FIG. 2 is a schematic three-dimensional structure of the atomizing and spraying mechanism of the present invention;

FIG. 3 is an enlarged cross-sectional view of the atomizing mechanism A of the present invention;

FIG. 4 is a schematic view of the exploded structure of the atomizer mechanism of the present invention;

FIG. 5 is a perspective structural view of the temperature sensing mechanism of the present invention;

FIG. 6 is a front view of the fixing frame of the present invention;

FIG. 7 is a front view of the movable needle clamping mechanism of the present invention;

FIG. 8 is a perspective view of a temperature sensor according to the present invention.

In the figure: the building outer wall body-1, the atomizing and spraying mechanism-2, the water inlet-3, the water pump-4, the support frame-5, the water pump driver-6, the main branch pipe-7, the temperature sensing mechanism-8, the fixing frame-81, the temperature sensor-82, the wire groove box-83, the clamping hook-811, the support frame-812, the guide groove hole-813, the movable clamping needle mechanism-814, the rack-141, the limit slider-142, the machine shell-143, the push plate-144, the gear-145, the clamping needle rod-146, the temperature sensing probe-821, the display screen-822, the temperature measuring box-823, the control button-824, the atomizing spray head mechanism-21, the branch pipe-22, the threaded guide ring-23, the connecting hole-24, the nozzle-211, the T-shaped pipe-212, the connecting ring-213, the atomizing-214, the atomizing baffle-215, the atomizing cup cover-216 and the connecting nozzle-217.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, an embodiment of the invention provides a building exterior wall fire fighting system and a use method thereof, the building exterior wall fire fighting system structurally comprises a building exterior wall 1, an atomizing and spraying mechanism 2, a water inlet hole 3, a water suction pump 4, a support frame 5, a water suction pump driver 6, a main branch pipe 7 and a temperature sensing mechanism 8, wherein the atomizing and spraying mechanism 2 is provided with a plurality of mechanisms and is respectively installed around the building exterior wall 1, the atomizing and spraying mechanism 2 is embedded and installed above the main branch pipe 7 and is connected through threads, the rear end of the water inlet hole 3 is fixedly connected with the front end of the water suction pump 4, the main branch pipe 7 is embedded and installed at the side end of the water suction pump 4, the water suction pump 4 is placed above the support frame 5 and is connected through machinery, the support frame 5 is fixedly connected to the building exterior wall 1, the water suction pump 4 is electrically connected with the water suction pump driver 6 through a wire, the water suction pump driver 6 is electrically connected with the temperature sensing mechanism 8 through a wire, the left end face of the building exterior wall 1 is provided with a blower, the temperature sensing mechanism 8 comprises a temperature sensing mechanism 81, a wire 82 and a fixing frame 81, the left side of the building exterior wall box is welded with the right side of the building exterior wall 81, and the temperature sensing mechanism is adhered to the fixing frame.

The fixing frame 81 comprises two hooks 811, a support frame 812, guide slot holes 813 and a movable clamp needle mechanism 814, wherein the hooks 811 are welded on the upper left end face of the support frame 812 respectively, the support frame 812 and the guide slot holes 813 are integrally cast, the movable clamp needle mechanism 814 is installed on the support frame 812, and when the temperature sensor 82 needs to be fixed on the outer wall body 1 of the building, the hooks 811 are firstly hung on the corresponding clamping grooves of the outer wall body 1 of the building, and then the movable clamp needle mechanism 814 is controlled to be embedded into the wall surface so as to fix the temperature sensor.

The movable needle clamping mechanism 814 comprises a rack 141, a limiting slider 142, a machine shell 143, a pushing plate 144, a gear 145 and a needle clamping rod 146, the left side of the rack 141 is welded with the right side of the needle clamping rod 146, the rack 141 is meshed with the gear 145, the limiting slider 142 is installed inside the machine shell 143 and connected through electric welding, the upper side of the rack 141 is attached to the lower side of the limiting slider 142, the rear end of the upper portion of the pushing plate 144 is welded with the front end of the gear 145, the gear 145 is movably connected with the machine shell 143 through a rotating shaft, the limiting slider 142 is of a cuboid structure, when the pushing plate 144 is pushed rightwards, the gear 145 welded with the gear 145 is driven to rotate around the rotating shaft, and therefore the rack 141 meshed with the gear 145 is driven to move leftwards, and the needle clamping rod 146 is pushed leftwards.

The temperature sensor 82 comprises a temperature sensing probe 821, a display screen 822, a temperature measuring box 823 and a control button 824, wherein the temperature sensing probe 821 is embedded in the left side of the temperature measuring box 823, the display screen 822 is embedded in the right end of the temperature measuring box 823 and is electrically connected with the right end of the temperature measuring box 823, the control button 824 is embedded in the right end of the temperature measuring box 823 and is mechanically connected with the right end of the temperature measuring box 823, the display screen 822 is of a cuboid structure, the alarm temperature on the temperature measuring box 823 is preset through the control button 824, the temperature sensing probe 821 is embedded into the outer wall body 1, heat generated by sunlight is absorbed when the outer wall body 1 of a building is irradiated by sunlight, so that the wall surface generates high temperature, when the temperature sensing probe 821 detects that the temperature of the wall surface reaches the value set by the temperature measuring box 823, the temperature measuring box 823 processes data of the temperature sensing probe, and transmits the data to the water pump driver 6 through a transmission wire, so that the water pump driver 6 drives the water pump 4 to operate.

Wherein, atomizing spray mechanism 2 includes atomizer mechanism 21, bleeder 22, screw thread guide ring 23, connecting hole 24, atomizer mechanism 21 installs and passes through threaded connection on connecting hole 24, bleeder 22 and connecting hole 24 casting moulding as an organic whole, bleeder 22 and screw thread guide ring 23 be the integral structure, bleeder 22 is the cylinder structure of fretwork, and the below is the notch, when suction pump 4 is moving, thereby draws water from the outside, transmits hydroenergy to total spinal branch pipe 7 on, distribute the bleeder 22 with the water yield through total spinal branch pipe 7 on, water will spray away the form of water formation water smoke through atomizer mechanism 21, sprays building outer wall body 1.

The atomizing nozzle mechanism 21 includes a nozzle 211, a T-shaped pipe 212, a connection ring 213, an atomizing cup cover 214, an atomizing baffle 215, an atomizing cup 216, and a connection nozzle 217, the nozzle 211 is installed on the left side of the T-shaped pipe 212, the right side of the T-shaped pipe 212 is welded with the left side of the connection ring 213, the lower end of the T-shaped pipe 212 is welded with the upper end of the atomizing cup cover 214, the atomizing baffle 215 is installed inside the atomizing cup 216, the lower end of the atomizing cup cover 214 is in threaded connection with the upper end of the atomizing cup 216, the lower end of the atomizing cup 216 and the upper end of the connection nozzle 217 are integrally cast, the connection nozzle 217 is in a circular ring structure, the connection ring 213 is connected with the branch pipe 22, the connection nozzle 217 is connected with an external blower, when water of the branch pipe 22 is injected into the connection ring 213, gas generated by operation of the blower enters the atomizing cup 216 through the connection nozzle 217, penetrates through the atomizing cup cover 214 above the atomizing baffle 215 to enter the T-shaped pipe 212, and extrudes the water entering the connection ring 213, so that the water in the branch pipe 22 is sprayed out from the nozzle 211 in an atomizing form.

The specific working process is as follows:

workers firstly install the atomizing and spraying mechanism 2 and the temperature sensing mechanism 8 outside the building, then connect the atomizing and spraying mechanism 2 and the water pump 4 through the main branch pipe 7, simultaneously connect the temperature sensing mechanism 8 and the water pump driver 6, set the preset temperature of the temperature measuring box 823 through the control button 824 according to the specific gravity of the temperature born by the material of the building and the internal temperature released, then clamp the temperature in the groove reserved on the building outer wall 1 through the clamping hook 811, then move the pushing plate 144 towards the right, drive the gear 145 to rotate by the pushing plate 144, so as to move the rack 141 towards the left, cause the clamping needle bar 146 connected with the rack to be clamped in the groove hole reserved on the building outer wall 1, thereby fixing the temperature sensing mechanism 8 on the building outer wall 1, when the building outer wall 1 is directly irradiated by sunlight in hot weather, partial sunlight is absorbed, so that partial heat can be transmitted to the interior of the building outer wall 1, and partial heat can be left on the building outer wall 1, at the moment, the temperature-sensing probe 821 on the temperature-sensing mechanism 8 can detect the temperature of heat energy on the building outer wall 1, when the temperature-sensing probe 821 detects that the temperature on the building outer wall 1 exceeds a set number, the data is transmitted to the temperature measuring box 823, so that the data is converted and transmitted, the converted data instruction is transmitted to the water suction pump driver 6, so that the water suction pump driver 6 is electrified to operate, so that the water suction pump 4 operates to pump external water energy into the main branch pipe 7, then the water energy is uniformly distributed to the branch pipes 22 on the atomizing spray mechanism 2 through the main branch pipe 7, and the water energy is conveyed to the atomizing spray head mechanism 21 through the branch pipes 22, hydroenergy passes through in the connecting ring 213 carries T type pipe 212, and the air-blower will carry outside air from connecting mouth 217 inside atomizing cup 216, up carry atomizing bowl cover 214 by atomizing baffle 215, carry T type pipe 212 inside through the through-hole on the atomizing bowl cover 214, carry the water in T type pipe 212 to connecting ring 213 and extrude, make the interior water of T type pipe 212 exist with the form of atomizing, then atomized water is spout from nozzle 211, cool down to building outer wall 1 outer wall, avoid building outer wall 1 inside because the long-time exposure of sunlight down, cause inside temperature to rise sharply.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a building outer wall fire extinguishing system, its structure includes building outer wall body (1), atomizing spraying mechanism (2), inlet opening (3), suction pump (4), support frame (5), suction pump driver (6), total spinal canal (7), temperature sensing mechanism (8), atomizing spraying mechanism (2) are equipped with a plurality of, and install respectively around building outer wall body (1), atomizing spraying mechanism (2) embedding is installed in total spinal canal (7) top and is passed through threaded connection, inlet opening (3) rear end and suction pump (4) front end fixed connection, total spinal canal (7) embedding is installed in suction pump (4) side, suction pump (4) are placed in support frame (5) top and are passed through mechanical connection, support frame (5) fixed connection is on building outer wall body (1), suction pump (4) are connected through wire and suction pump driver (6) electricity, suction pump driver (6) are connected through wire and temperature sensing mechanism (8) electricity, building outer wall body (1) left end face is equipped with the air-blower, its characterized in that: the temperature sensing mechanism (8) comprises a fixed frame (81), a temperature sensor (82) and a wire groove box (83), wherein the left side of the temperature sensor (82) is welded with the right side of the fixed frame (81), and the upper end of the wire groove box (83) is jointed with the lower end of the fixed frame (81) and is bonded by glue; the fixing frame (81) comprises a clamping hook (811), a support frame (812), a guide slot hole (813) and a movable clamping needle mechanism (814), the clamping hook (811) is welded on the upper left end face of the support frame (812), the support frame (812) and the guide slot hole (813) are integrally cast and formed, and the movable clamping needle mechanism (814) is installed on the support frame (812); the movable needle clamping mechanism (814) comprises a rack (141), a limiting slide block (142), a machine shell (143), a pushing plate (144), a gear (145) and a needle clamping rod (146), wherein the left side of the rack (141) is welded with the right side of the needle clamping rod (146), the rack (141) is meshed with the gear (145), the limiting slide block (142) is installed inside the machine shell (143) and connected through electric welding, the upper part of the rack (141) is attached to the lower part of the limiting slide block (142), the rear end of the upper part of the pushing plate (144) is welded with the front end of the gear (145), and the gear (145) is movably connected with the machine shell (143) through a rotating shaft; the temperature sensor (82) comprises a temperature sensing probe (821), a display screen (822), a temperature measuring box (823) and a control button (824), wherein the temperature sensing probe (821) is embedded in and mounted on the left side of the temperature measuring box (823), the display screen (822) is embedded in and mounted at the right end of the temperature measuring box (823) and is electrically connected with the temperature measuring box (823), and the control button (824) is embedded in and mounted at the right end of the temperature measuring box (823) and is mechanically connected with the temperature measuring box (823); the atomizing and spraying mechanism (2) comprises an atomizing nozzle mechanism (21), a branch pipe (22), a thread guide ring (23) and a connecting hole (24), the atomizing nozzle mechanism (21) is installed on the connecting hole (24) and connected through threads, the branch pipe (22) and the connecting hole (24) are integrally cast and formed, and the branch pipe (22) and the thread guide ring (23) are of an integrated structure; the atomizing spray head mechanism (21) comprises a nozzle (211), a T-shaped pipe (212), a connecting ring (213), an atomizing cup cover (214), an atomizing baffle plate (215), an atomizing cup (216) and a connecting nozzle (217), wherein the nozzle (211) is installed on the left side of the T-shaped pipe (212), the right side of the T-shaped pipe (212) is welded with the left side of the connecting ring (213), the lower end of the T-shaped pipe (212) is welded with the upper end of the atomizing cup cover (214), the atomizing baffle plate (215) is installed inside the atomizing cup (216), the lower end of the atomizing cup cover (214) is in threaded connection with the upper end of the atomizing cup (216), and the lower end of the atomizing cup (216) and the upper end of the connecting nozzle (217) are integrally cast;

the worker firstly installs the atomizing and spraying mechanism (2) and the temperature sensing mechanism (8) outside the building, then connects the atomizing and spraying mechanism (2) and the water pump (4) through the main branch pipe (7), simultaneously connects the temperature sensing mechanism (8) with the water pump driver (6), sets the predicted temperature for the temperature measuring box (823) through the control button (824), sets the specific gravity of the temperature born by the building material and the internal temperature released, then clamps the temperature sensing mechanism (8) in the groove reserved on the building outer wall body (1) through the clamping hook (811), then drives the pushing plate (144) to the right, so that the pushing plate (144) drives the gear (145) to rotate, thereby the rack (141) moves leftwards, the clamping needle rod (146) connected with the rack is clamped in the groove hole reserved on the building outer wall body (1), thereby fixing the temperature sensing mechanism (8) on the building outer wall body (1), when in hot weather, the direct sunlight on the outer wall body (1) will absorb the partial heat of the building outer wall body (821) and the partial heat energy of the building outer wall body (1) can be absorbed, the heat energy of the building outer wall body (821) can be detected by the temperature sensing mechanism (8), and the temperature sensing mechanism (821) can detect the heat energy of the temperature of the building outer wall body (1) and the temperature sensing mechanism (821) when the temperature sensing mechanism (8) is detected by the temperature sensing mechanism (821), the data is transmitted to a temperature measuring box (823) to be converted and transmitted, a converted data command is transmitted to a water pump driver (6), the water pump driver (6) is electrified to operate, so that a water pump (4) is operated to pump external water into a main branch pipe (7), then the water energy is uniformly distributed into branch pipes (22) on an atomizing spray mechanism (2) through the main branch pipe (7), the water energy is conveyed into an atomizing spray head mechanism (21) through the branch pipes (22), the water energy is conveyed into a T-shaped pipe (212) through a connecting ring (213), and an air blower conveys external air into an atomizing cup (216) from a connecting nozzle (217), conveys the external air upwards to an atomizing baffle plate (215) and conveys the water into the T-shaped pipe (212) through a through hole in an atomizing cup cover (214), and presses the water conveyed into the T-shaped pipe (212) by the connecting ring (213), so that the water in the T-shaped pipe (212) exists in an atomizing form; then atomized water is followed nozzle (211) blowout, cools down building outer wall body (1) outer wall, avoids building outer wall body (1) inside because the long-time exposure of sunlight down, causes inside temperature sharply to rise, and spacing slider (142) are the cuboid structure.