CN116669346A - Automatic fire extinguishing communication cabinet with real-time monitoring function - Google Patents

Abstract

The invention discloses an automatic fire extinguishing communication cabinet with a real-time monitoring function, which relates to the technical field of communication cabinets and comprises a cabinet mechanism, wherein a fire extinguishing mechanism is arranged on the cabinet mechanism, an air storage tank is arranged between the interiors of each group of placing seats, first electric valves are arranged at the air outlet ends of the two air storage tanks, one-way valves are arranged at the output ends of the two first round pipes, sealing plates are arranged between the tops of the telescopic ends of the two electric push rods, infrared temperature measuring sensors are arranged in the mounting holes, and a plurality of air outlet holes are uniformly distributed in the outer wall of each single-head pipe.

Description

Automatic fire extinguishing communication cabinet with real-time monitoring function

Technical Field

The invention relates to the technical field of communication cabinets, in particular to an automatic fire extinguishing communication cabinet with a real-time monitoring function.

Background

The communication cabinet refers to a cabinet for communication, and the products are cabinet shells processed by sheet metal equipment.

In the actual process of the existing communication cabinet, although a plurality of communication equipment can be stacked together to save space, the communication equipment placed inside the communication cabinet can be protected, the service life of the communication equipment is prolonged, but no fire extinguishing monitoring mechanism is arranged, when a fire disaster occurs to the communication equipment due to short circuit in the communication cabinet, all the communication equipment inside the whole communication cabinet can be completely burnt out due to the communication equipment which burns, namely, the property loss is increased, and the service efficiency of the communication cabinet is reduced.

Therefore, a new type of automatic fire extinguishing communication cabinet with real-time monitoring function is needed to solve the above-mentioned problems.

Disclosure of Invention

The invention aims to provide an automatic fire extinguishing communication cabinet with a real-time monitoring function, which solves the problems that the existing communication cabinet is not provided with a fire extinguishing monitoring mechanism, when a fire disaster occurs due to a short circuit of one communication device in the communication cabinet, all the communication devices in the whole communication cabinet can be completely burnt out due to one burning communication device, namely, property loss is increased, and the service efficiency of the communication cabinet is reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the automatic fire extinguishing communication cabinet with the real-time monitoring function comprises a cabinet mechanism, wherein the cabinet mechanism is provided with a fire extinguishing mechanism;

the fire extinguishing mechanism comprises a controller, four placing seats, two first fans and two electric push rods, wherein the placing seats are divided into two groups, each group of placing seats are internally provided with an air storage tank, two air outlet ends of the air storage tanks are respectively provided with a first electric valve, two output ends of the first electric valves are respectively provided with an air inlet pipe, two output ends of the first fans are respectively provided with an air outlet pipe, two output ends of the air outlet pipes are respectively provided with a first circular pipe, two output ends of the first circular pipes are respectively provided with a one-way valve, two output ends of the one-way valves are respectively provided with a single-head pipe, a sealing plate is arranged between tops of telescopic ends of the two electric push rods, one of the outer wall of the single-head pipe is movably sleeved with a plurality of sliding blocks, each surface of each sliding block is respectively provided with a hand screw, each sliding block is respectively provided with a mounting hole, the inside of each mounting hole is respectively provided with an infrared temperature sensor, and each outer wall of the single-head pipe is respectively provided with a plurality of air outlet holes.

Preferably, the output ends of the two air inlet pipes are respectively connected with the input ends of the two first fans, one end of each hand-screwed screw abuts against the outer wall of one of the single-head pipes, each infrared temperature sensor is electrically connected with the controller, the first electric valve is electrically connected with the controller, the two electric push rods are electrically connected with the controller, and the two electric push rods can be controlled to synchronously open and close under the action of the controller.

Preferably, the rack mechanism includes the rack, four place the seat and all install the inner wall bottom at the rack, two the inner wall bottom at the rack is all installed to first fan, two the output of first pipe is all fixed the inner wall top that runs through the rack, conveniently under the effect of first pipe, can give the inside of flow guide check valve with outlet duct exhaust gas.

Preferably, the top of rack is fixed with the frame, the inside of frame is fixed with four row racks, four the equidistance distributes between the row racks and is provided with a plurality of platforms of placing, the curb plate is all installed to the both sides of frame, the hollow slab is installed to the positive surface of frame, conveniently under the effect of hollow slab, the panel of being convenient for rotates the operation through the hinge in the inside of hollow slab.

Preferably, the rear surface mounting of frame has the backplate, the roof is installed at the top of frame, the inside of hollow slab is connected with the panel through the hinge rotation, one side of panel is connected with the inner wall one side of hollow slab through manual lock, and the convenience is under the effect of panel, can be convenient for communication equipment put and get the operation on the communication rack.

Preferably, the controller is installed on the front surface of the panel, the top ends of the two single-head pipes are all slidably embedded in the bottom of the top plate, the bottom of the sealing plate movably penetrates through the upper side of the back plate, the two electric push rods are all installed on the surface of the back plate, and the sealing plate can be driven to move up and down conveniently under the action of the electric push rods.

Preferably, be provided with auxiliary mechanism on the rack mechanism, auxiliary mechanism includes second fan, processing case, dust screen and protective housing, the inner wall bottom at the rack is installed to the second fan, first connecting pipe is installed to the output of second fan, first filter screen is installed to the input of second fan, conveniently under the effect of first filter screen, can filter dust or other foreign matters that mix in the low temperature gas that gets into the inside of second fan.

Preferably, the second motorised valve is installed to the one end of first connecting pipe, the four-way pipe is installed to the one end of second motorised valve, the second pipe is all installed to three wherein opening part of four-way pipe, and is three one end of second pipe is all fixed one side of running through one of them curb plate, conveniently under the effect of second pipe, can give the water conservancy diversion to the communication rack with the low temperature gas that the second fan was absorbed from the environment in, carry out quick heat dissipation operation to the communication equipment in the communication rack.

Preferably, the treatment box is placed in the inner wall bottom of rack, the case lid is installed at the top of treatment box, the bottom of case lid and the outer wall of treatment box are all fixed and are run through the third pipe, one of them the third connecting pipe is installed to the one end of third pipe, conveniently under the effect of third connecting pipe, can link together the second fan with the fixed third pipe on the treatment box.

Preferably, the sealing plug is all installed on the top of one end of third connecting pipe and another third pipe, the air outlet department at the backplate is installed to the dust screen, the surface at the backplate is installed to the protective housing, the internally mounted of processing case has the second filter screen, second fan and second motorised valve all with controller electric connection, conveniently under the effect of second motorised valve, can control whether communicate between four-way pipe and the first connecting pipe.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, by arranging the fire extinguishing mechanism, when the communication equipment placed in the communication cabinet is in short-circuit combustion, fire extinguishing operation can be performed in time, so that other communication equipment in the communication cabinet is effectively ensured to be burnt and damaged, namely property loss is reduced, the service efficiency of the communication cabinet is effectively improved, under the action of the controller, the two electric push rods can be controlled to perform synchronous opening and closing operation, under the action of the first circular tube, gas exhausted by the gas outlet pipe can be guided into the one-way valve, and under the cooperation of the infrared temperature sensor and the controller, the first fan and the first electric valve can be controlled to perform synchronous opening and closing operation, and under the action of the electric push rods, the sealing plate can be controlled to move up and down.

2. According to the invention, the cabinet mechanism is arranged, so that the cabinet mechanism can be quickly disassembled and assembled, a plurality of communication devices connected together can be overhauled conveniently, under the action of the hollow plate, the panel can be rotated conveniently in the hollow plate through the hinge, under the action of the panel, the communication devices can be conveniently put and taken out on the communication cabinet, and under the cooperation of the frame, the two side plates, the back plate, the top plate, the hollow plate, the placing frame and the panel, the communication devices in the hollow plate can be protected.

3. According to the invention, through arranging the auxiliary mechanism, communication equipment used in the communication cabinet can be subjected to rapid heat dissipation operation, meanwhile, the heptafluoropropane gas after fire extinguishment and waste gas generated during combustion of the communication equipment can be sucked away for carrying out harmful substance filtering operation, namely, the service efficiency of the communication cabinet is further improved, dust or other foreign matters mixed in low-temperature gas entering the second fan can be filtered under the action of the first filter screen, the low-temperature gas sucked by the second fan from the environment can be guided into the communication cabinet under the action of the second circular tube, the rapid heat dissipation operation is carried out on the communication equipment in the communication cabinet, the second fan and the third circular tube fixed on the treatment box can be connected together under the action of the third connecting tube, and whether the four-way tube is communicated with the first connecting tube or not can be controlled under the action of the second electric valve.

Drawings

FIG. 1 is a schematic diagram of a top view structure of a self-extinguishing communication cabinet with real-time monitoring function according to the present invention;

FIG. 2 is a partial perspective view of a self-extinguishing communication cabinet with real-time monitoring function according to the present invention;

FIG. 3 is a perspective view of an automatic fire extinguishing communication cabinet with real-time monitoring function according to the present invention;

FIG. 4 is a bottom perspective view of an automatic fire extinguishing communication cabinet with real-time monitoring function according to the present invention;

FIG. 5 is another perspective view of a portion of an automatic fire suppression communication cabinet based on the present invention with real-time monitoring;

FIG. 6 is a bottom perspective view of a portion of an automatic fire extinguishing communication cabinet with real-time monitoring in accordance with the present invention;

FIG. 7 is an enlarged perspective view of the position A in FIG. 2 based on an automatic fire extinguishing communication cabinet with a real-time monitoring function according to the present invention;

fig. 8 is a partial perspective view of an auxiliary mechanism based on an automatic fire extinguishing communication cabinet with a real-time monitoring function.

In the figure: 1. a cabinet mechanism; 101. a placing rack; 102. a frame; 103. a rack bar; 104. a placement table; 105. a side plate; 106. a back plate; 107. a top plate; 108. a hollow slab; 109. a panel;

2. a fire extinguishing mechanism; 201. a controller; 202. a placement seat; 203. a gas storage tank; 204. a first fan; 205. a first electrically operated valve; 206. an air inlet pipe; 207. an air outlet pipe; 208. a first round tube; 209. a one-way valve; 210. a single-ended tube; 211. a sealing plate; 212. an electric push rod; 213. a slide block; 214. screwing the screw by hand; 215. a mounting hole; 216. an infrared temperature measurement sensor; 217. an air outlet hole;

3. an auxiliary mechanism; 301. a second fan; 302. a first connection pipe; 303. a first filter screen; 304. a second electrically operated valve; 305. a four-way pipe; 306. a second round tube; 307. a treatment box; 308. a case cover; 309. a third round tube; 310. a third connection pipe; 311. a sealing plug; 312. a dust screen; 313. a protective shell; 314. and a second filter screen.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1-8, the present invention provides a technical solution: an automatic fire extinguishing communication cabinet with a real-time monitoring function comprises a cabinet mechanism 1, wherein a fire extinguishing mechanism 2 is arranged on the cabinet mechanism 1;

the fire extinguishing mechanism 2 comprises a controller 201, four placing seats 202, two first fans 204 and two electric push rods 212, wherein the four placing seats 202 are divided into two groups, an air storage tank 203 is arranged between the interiors of the placing seats 202 in each group, first electric valves 205 are arranged at the air outlet ends of the two air storage tanks 203, air inlet pipes 206 are arranged at the output ends of the two first electric valves 205, air outlet pipes 207 are arranged at the output ends of the two first fans 204, first circular pipes 208 are arranged at the output ends of the two air outlet pipes 207, one-way valves 209 are arranged at the output ends of the two first circular pipes 208, single-head pipes 210 are arranged at the output ends of the two one-way valves 209, sealing plates 211 are arranged between the tops of the telescopic ends of the two electric push rods 212, a plurality of sliding blocks 213 are movably sleeved on the outer wall of one-head pipe 210, hand-screwed screws 214 are penetrated through the surfaces of the sliding blocks 213, mounting holes 215 are formed in the sliding blocks 213, infrared temperature sensors 216 are arranged in the interiors of the mounting holes 215, the outer walls of the single-head pipes 210 are provided with a plurality of air outlet holes 217 distributed at equal intervals.

According to fig. 3-5 and 7, the output ends of the two air inlet pipes 206 are respectively connected with the input ends of the two first fans 204, one end of each hand-screwed screw 214 is propped against the outer wall of one of the single-head pipes 210, each infrared temperature sensor 216 is electrically connected with the controller 201, the first electric valve 205 is electrically connected with the controller 201, the two electric push rods 212 are electrically connected with the controller 201, and the two electric push rods 212 can be controlled to perform synchronous opening and closing operations under the action of the controller 201.

Example 2

According to the embodiment shown in fig. 1-6, the cabinet mechanism 1 includes a rack 101, four placement seats 202 are all installed at the bottom of the inner wall of the rack 101, two first fans 204 are all installed at the bottom of the inner wall of the rack 101, and the output ends of two first round tubes 208 are all fixed to penetrate through the top of the inner wall of the rack 101, so that the air exhausted from the air outlet pipe 207 can be conveniently guided to the inside of the one-way valve 209 under the action of the first round tubes 208.

According to the embodiment shown in fig. 1-6, a rack 102 is fixed at the top of a rack 101, four rows of racks 103 are fixed in the rack 102, a plurality of placing tables 104 are distributed between the four rows of racks 103 at equal intervals, side plates 105 are mounted on two sides of the rack 102, a hollow plate 108 is mounted on the front surface of the rack 102, and the panel 109 can conveniently rotate in the hollow plate 108 through a hinge under the action of the hollow plate 108.

According to the rear surface mounting rear back plate 106 of the rack 102 shown in fig. 2-6, the top plate 107 is mounted on the top of the rack 102, the panel 109 is rotatably connected to the interior of the hollow plate 108 through a hinge, and the panel 109 is provided with a wire guide, and the position of the wire guide is at the wire connection end position of the back of the controller 201, and one side of the connection panel 109 is connected with one side of the inner wall of the hollow plate 108 through a manual lock, so that the communication equipment can be conveniently placed and taken on the communication cabinet under the action of the panel 109.

According to fig. 2-7, the controller 201 is installed on the front surface of the panel 109, the top ends of the two single-head tubes 210 are slidably embedded in the bottom of the top plate 107, the bottom of the sealing plate 211 movably penetrates through the upper side of the back plate 106, and the two electric push rods 212 are installed on the surface of the back plate 106, so that the sealing plate 211 can be driven to move up and down under the action of the electric push rods 212.

Example 3

According to the embodiment shown in fig. 1-6 and 8, the cabinet mechanism 1 is provided with an auxiliary mechanism 3, the auxiliary mechanism 3 comprises a second fan 301, a processing box 307, a dust screen 312 and a protective shell 313, the second fan 301 is installed at the bottom of the inner wall of the placing frame 101, a first connecting pipe 302 is installed at the output end of the second fan 301, a first filter screen 303 is installed at the input end of the second fan 301, and dust or other foreign matters mixed in low-temperature gas entering the interior of the second fan 301 can be filtered conveniently under the action of the first filter screen 303.

According to the embodiment shown in fig. 3-6, the second electric valve 304 is installed at one end of the first connecting pipe 302, the four-way pipe 305 is installed at one end of the second electric valve 304, the second circular pipes 306 are installed at three openings of the four-way pipe 305, one ends of the three second circular pipes 306 are fixed to penetrate through one side of one side plate 105, so that the low-temperature gas sucked by the second fan 301 from the environment can be conveniently guided into the communication cabinet under the action of the second circular pipes 306, and the communication equipment in the communication cabinet can be rapidly cooled.

According to the embodiment shown in fig. 2-6 and 8, the treatment box 307 is placed at the bottom of the inner wall of the placement frame 101, the top of the treatment box 307 is provided with the box cover 308, the bottom of the box cover 308 and the outer wall of the treatment box 307 are both fixedly penetrated by the third circular pipes 309, one end of one of the third circular pipes 309 is provided with the third connecting pipe 310, so that the second fan 301 and the third circular pipe 309 fixed on the treatment box 307 can be conveniently connected together under the action of the third connecting pipe 310.

According to the embodiments shown in fig. 3, fig. 4, fig. 6 and fig. 8, the sealing plug 311 is installed at one end of the third connecting pipe 310 and the top end of the other third circular pipe 309, the dust screen 312 is installed at the air outlet of the back plate 106, the protecting shell 313 is installed on the surface of the back plate 106, the second filter screen 314 is installed inside the processing box 307, the second fan 301 and the second electric valve 304 are electrically connected with the controller 201, so that under the action of the second electric valve 304, whether the four-way pipe 305 is communicated with the first connecting pipe 302 can be controlled.

The whole mechanism achieves the following effects: when the communication cabinet is needed to be used, firstly placing the placing rack 101 provided with the rack 102 on the horizontal ground, then sequentially installing the two side plates 105, the back plate 106, the top plate 107 and the hollow plate 108 provided with the panel 109 on the rack 102, namely, assembling the cabinet mechanism 1, sequentially placing a plurality of placing tables 104 on the four rack bars 103, then respectively placing a plurality of communication equipment needed to be used on each placing table 104, then penetrating wires connecting the communication equipment and external equipment from through holes on the back plate 106, sequentially loosening all hand screws 214, then moving the corresponding sliding blocks 213 of each hand screw 214, at this time, driving the corresponding infrared temperature measuring sensors 216 to move by the moving sliding blocks 213, directly utilizing the hand screws 214 to squeeze and fix the moving sliding blocks 213 when each communication equipment is irradiated by the infrared temperature measuring sensors 216, finally connecting the controller 201 with an external power supply, simultaneously opening the controller 201, namely, setting up a high-speed communication equipment to be used for communication, starting high-speed fan Wen Shuzhi generated by the communication equipment to burn, directly starting the fan 301 to directly start the fan 301 to be used for the second fan 301, and directly starting the fan 301 to directly start the air-out from the second fan 301 when the internal equipment is started up, and the second fan 301 is directly used for the second fan 301 is started up, and the air is directly used for the second fan 301 is started up, the low-temperature gas entering the second fan 301 is directly guided to the first connecting pipe 302, then passes through the second electric valve 304, then enters the four-way pipe 305, then is split into the second round pipes 306, then is completely guided to the space formed by the rack 101, the frame 102, the two side plates 105, the back plate 106, the top plate 107, the hollow plate 108 and the panel 109, when the low-temperature gas enters the space, the low-temperature gas directly distributes the hot gas emitted by the communication equipment to the space to the air outlet of the back plate 106, and finally is discharged from the air outlet of the back plate 106, thereby realizing the rapid heat dissipation operation of the communication equipment, when the controller 201 is opened, each infrared temperature sensor 216 performs the temperature measurement operation on the corresponding communication equipment surface, and transmits the detected temperature data to the inside of the controller 201, when the temperature data received by the controller 201 is higher than the temperature data set in advance by the controller 201, the controller 201 will not open the two first fans 204, the two first electric valves 205, the two electric pushrods 212 and close the second fans 301 and 304 at this time, when short-circuit combustion occurs in a certain communication device inside the communication cabinet, the temperature of the surface of the communication device will be continuously increased at this time, the temperature data received by the controller 201 will also be higher than the temperature data set in advance by the controller 201, at this time, the controller 201 will directly and synchronously start the two electric pushrods 212, the two first fans 204 and the two first electric valves 205 and synchronously close the second electric valves 304 and the second fans 301, at this time, the started two first fans 204 will also be under the cooperation of the corresponding air inlet pipe 206 and the air outlet pipe 207, the heptafluoropropane gas released from the corresponding gas storage tank 203 is directly sucked and guided to the corresponding first round tube 208, then the gas entering the first round tube 208 directly passes through the corresponding one-way valve 209, then enters the corresponding single-head tube 210, finally is sprayed from the corresponding air outlet 217 arranged on the single-head tube 210, and is sprayed into the introduced space, the burning communication equipment is used for rapidly extinguishing fire, meanwhile, the controller 201 also directly drives the sealing plate 211 to slowly enter the air inlet of the backboard 106 under the cooperation of the two synchronously started electric push rods 212, when the sealing plate 211 completes the moving operation, the controller 201 directly closes the two electric push rods 212, at the moment, the external gas can be prevented from entering the space to influence the fire extinguishing effect, simultaneously, the heptafluoropropane gas in the space and the waste gas generated during the combustion of communication equipment can be prevented from flowing out, the fire extinguishing effect is effectively improved, the waste gas flows into the environment, the environment is polluted, when the combustion communication equipment is extinguished, the controller 201 is directly utilized to synchronously close the two first electric valves 205 and the first fan 204, then the two sealing plugs 311 are removed, then the first connecting pipe 302 connected with the second fan 301 is separated, the first filter screen 303 is simultaneously removed from the second fan 301, the first filter screen 303 is connected with the third round pipe 309 on the box cover 308, the third connecting pipe 310 is simultaneously connected with the input end of the second fan 301, when all are ready, the sealing plate 211 is directly reset by the cooperation of the controller 201 and the two electric push rods 212, the second fan 301 and the second electric valve 304 are simultaneously controlled to start, and the started second fan 301 can be directly connected with the third connecting pipe 310, under the cooperation of the treatment box 307, the box cover 308, the first connecting pipe 302, the second electric valve 304, the four-way pipe 305 and the three second round pipes 306, the waste gas in the space and the used heptafluoropropane gas are directly sucked away, the inside of the treatment box 307 is directly guided, when the waste gas in the space and the used heptafluoropropane gas reach the inside of the treatment box 307, the second filter screen 314 directly adsorbs and filters out harmful substances in the mixed gas, and finally the harmful substances are discharged from the output end of the second fan 301, all components are closed by the controller 201, the panel 109 is opened, and damaged communication equipment is replaced.

The controller 201, the air tank 203, the first fan 204, the first electric valve 205, the one-way valve 209, the electric push rod 212, the infrared temperature sensor 216, the second fan 301, and the second electric valve 304 are all of the prior art, and are not explained herein too much.

Wherein, the heptafluoropropane gas extinguishment principle: is combined with physical and chemical reactions, relies on absorbing heat energy in a fire scene, and simultaneously generates CF through thermal decomposition of heptafluoropropane in the fire extinguishing process ₃ 、CF ₂ 、CF ₃ CFO and other fluorine-containing radicals, and H, O, OH and HO during the combustion reaction ₂ ·、·O ^2- Reactive free radicals such as NO react to generate CO ₂ 、H ₂ O, HF, etc., by physical means of lowering the flame temperature and by the reaction of thermally-generated radicals with reactive radicals to interrupt the chemical reaction of the chain reaction of combustion, i.e. to do so in the processTo achieve the aim of extinguishing fire.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. Automatic fire extinguishing communication cabinet based on have real-time supervision function, including rack mechanism (1), its characterized in that: the cabinet mechanism (1) is provided with a fire extinguishing mechanism (2);

fire extinguishing mechanism (2) includes controller (201), four place seat (202), two first fans (204) and two electric putter (212), four place seat (202) and divide into two sets ofly altogether, every group place between the inside of seat (202) all be provided with gas holder (203), two first motorised valve (205) are all installed to the end of giving vent to anger of gas holder (203), two intake pipe (206) are all installed to the output of first motorised valve (205), two outlet duct (207) are all installed to the output of first fans (204), two first pipe (208) are all installed to the output of outlet duct (207), two check valve (209) are all installed to the output of first pipe (208), two check valve (209) are all installed single-head pipe (210), two install closing plate (211) between the flexible end top of electric putter (212), one of them single-head pipe (210) outer wall activity has cup jointed a plurality of sliders (213), every infrared sensor (213) are all installed to the output of outlet pipe (207) has one infrared sensor (215), every screw (213) are all installed on every one hand screw (213), a plurality of air outlet holes (217) are distributed on the outer wall of each single-head pipe (210) at equal intervals.

2. The automatic fire extinguishing communication cabinet with a real-time monitoring function according to claim 1, wherein: the output ends of the two air inlet pipes (206) are respectively connected with the input ends of the two first fans (204), one end of each hand-screwed screw (214) is propped against the outer wall of one single-head pipe (210), each infrared temperature measuring sensor (216) is electrically connected with the controller (201), the first electric valve (205) is electrically connected with the controller (201), and the two electric push rods (212) are electrically connected with the controller (201).

3. The automatic fire extinguishing communication cabinet with a real-time monitoring function according to claim 1, wherein: the cabinet mechanism (1) comprises a placing frame (101), four placing seats (202) are arranged at the bottom of the inner wall of the placing frame (101), two first fans (204) are arranged at the bottom of the inner wall of the placing frame (101), and the output ends of two first round tubes (208) are fixed at the top of the inner wall of the penetrating placing frame (101).

4. The automatic fire extinguishing communication cabinet with a real-time monitoring function according to claim 1, wherein: the rack is characterized in that a rack (102) is fixed at the top of the rack (101), four rows of racks (103) are fixed in the rack (102), a plurality of placing tables (104) are distributed among the four rows of racks (103) at equal intervals, side plates (105) are mounted on two sides of the rack (102), and hollow plates (108) are mounted on the front surface of the rack (102).

5. The automatic fire extinguishing communication cabinet with real-time monitoring function according to claim 4, wherein: the rear surface of frame (102) is installed backplate (106), roof (107) are installed at the top of frame (102), the inside of hollow board (108) is connected with panel (109) through the hinge rotation, one side of panel (109) is connected with the inner wall one side of hollow board (108) through manual lock.

6. The automatic fire extinguishing communication cabinet with real-time monitoring function according to claim 5, wherein: the controller (201) is installed on the front surface of the panel (109), the top ends of the two single-head pipes (210) are respectively embedded at the bottom of the top plate (107) in a sliding mode, the bottom of the sealing plate (211) movably penetrates through the upper side of the back plate (106), and the two electric push rods (212) are respectively installed on the surface of the back plate (106).

7. The automatic fire extinguishing communication cabinet with real-time monitoring function according to claim 5, wherein: be provided with assist unit (3) on rack mechanism (1), assist unit (3) are including second fan (301), processing tank (307), dust screen (312) and protective housing (313), inner wall bottom at rack (101) is installed to second fan (301), first connecting pipe (302) are installed to the output of second fan (301), first filter screen (303) are installed to the input of second fan (301).

8. The automatic fire extinguishing communication cabinet with a real-time monitoring function according to claim 7, wherein: the one end of first connecting pipe (302) is installed second motorised valve (304), four-way pipe (305) are installed to one end of second motorised valve (304), second pipe (306) are all installed to three wherein opening part of four-way pipe (305), and one side of one of them curb plate (105) is all fixed to the one end of three second pipe (306).

9. The automatic fire extinguishing communication cabinet with a real-time monitoring function according to claim 8, wherein: the treatment box (307) is placed at the bottom of the inner wall of the placement frame (101), a box cover (308) is installed at the top of the treatment box (307), third round pipes (309) are fixedly penetrated through the bottom of the box cover (308) and the outer wall of the treatment box (307), and a third connecting pipe (310) is installed at one end of one third round pipe (309).

10. The automatic fire extinguishing communication cabinet with a real-time monitoring function according to claim 9, wherein: sealing plug (311) are all installed on the top of one end of third connecting pipe (310) and another third pipe (309), dust screen (312) are installed in the air outlet department of backplate (106), protective housing (313) are installed on the surface of backplate (106), internally mounted of processing case (307) has second filter screen (314), second fan (301) and second motorised valve (304) all with controller (201) electric connection.