CN216486724U - Electric intelligent fire monitoring and controlling equipment - Google Patents
Electric intelligent fire monitoring and controlling equipment Download PDFInfo
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- CN216486724U CN216486724U CN202121833430.3U CN202121833430U CN216486724U CN 216486724 U CN216486724 U CN 216486724U CN 202121833430 U CN202121833430 U CN 202121833430U CN 216486724 U CN216486724 U CN 216486724U
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Abstract
The utility model relates to an electric intelligent fire monitoring and controlling device which comprises a contact type monitoring component, a non-contact type monitoring component, a processor and a warning lamp, wherein the contact type monitoring component is connected with the processor; the contact type monitoring assembly comprises an arc fault detector, a temperature measuring type electric fire detector and a circuit breaker; the non-contact monitoring assembly comprises an infrared temperature sensor and a pyrolytic particle sensor; the device also comprises an image processing component; the image processing assembly comprises a camera, an image processing module, a protective cover, a host and a display screen. The utility model aims to provide an electric intelligent fire monitoring and controlling device which can monitor the condition of the surrounding environment of a circuit and the condition of a fire after the fire occurs, provide favorable data information for subsequent fire fighting and extinguishment, conveniently and quickly control the fire and reduce loss.
Description
Technical Field
The utility model relates to the technical field of fire monitoring, in particular to an electric intelligent fire monitoring control device.
Background
The civil lighting adopts an alternating current power supply, and a copper wire, an aluminum wire, a brass connector and the like are used for laying a circuit. Electrical faults, illegal installation, misuse, etc. may cause electrical fires. The fire disaster of the electric circuit is mainly caused by the over-voltage, short circuit, long-term overload, bad contact, abnormal temperature rise caused by overlarge resistance, leakage current caused by insulation damage and the like, and electric sparks and electric arcs are generated or the electric wires and cables are overheated, thereby causing the fire disaster.
Traditional fire monitoring adopts contact monitoring methods more, monitors the contact condition of circuit, does not monitor the non-contact condition around with the power consumption circuit for the conflagration monitoring rate of accuracy is high inadequately, in case the conflagration breaks out in addition, also does not monitor the condition around the circuit, does not have further understanding to the condition that the conflagration took place, is unfavorable for subsequent fire control and puts out a fire.
Therefore, there is a need to design an electrical intelligent fire monitoring and controlling device to improve and solve the above-mentioned drawbacks.
SUMMERY OF THE UTILITY MODEL
Aiming at the defects in the prior art, the utility model aims to provide the electric intelligent fire monitoring and controlling equipment which can monitor the condition of the surrounding environment of a circuit and the condition of fire after the fire occurs, provides favorable data information for subsequent fire fighting and extinguishment, conveniently and quickly controls the fire and reduces loss.
The technical purpose of the utility model is realized by the following technical scheme: an electric intelligent fire monitoring and controlling device comprises a contact type monitoring component, a non-contact type monitoring component, a processor and a warning lamp;
the contact type monitoring assembly comprises an arc fault detector, a temperature measuring type electric fire detector and a circuit breaker;
the non-contact monitoring assembly comprises an infrared temperature sensor and a pyrolytic particle sensor;
the infrared temperature sensor and the pyrolytic particle sensor are both arranged in a distribution box, the arc fault detector is electrically connected with a lead in the distribution box, and the arc fault detector is electrically connected with the temperature-measuring type electrical fire detector through the circuit breaker;
the infrared temperature sensor, the pyrolysis particle sensor and the temperature measurement type electric fire detector are all in communication connection with the processor;
the warning light is electrically connected with the processor.
In one embodiment, the system further comprises an image processing component;
the image processing assembly comprises a camera and an image processing module;
the camera end orientation of camera the block terminal, image processing module's one end with the camera communication is connected, image processing module's the other end with the treater communication is connected.
In one embodiment, the image processing assembly further comprises a holder mounted at the bottom of the camera;
the holder is in communication connection with the processor.
In one embodiment, the image processing assembly further comprises a shield;
the protective cover accommodates the camera and the image processing module;
the protection casing corresponds the camera department of camera has seted up the window.
In one embodiment, the image processing assembly further comprises a host and a display screen;
one end of the host is in communication connection with the processor, and the other end of the host is in communication connection with the display screen.
In one embodiment, a storage disk is provided in the host.
In one embodiment, the device further comprises a cooling assembly;
the cooling assembly comprises a cold gas generator and a cold gas pipe;
one end of the cold air pipe is communicated with the air outlet end of the cold air generator, and the other end of the cold air pipe extends into the protective cover;
the cold air generator is in communication connection with the processor.
In one embodiment, the system further comprises a voice broadcaster;
the voice broadcaster is in communication connection with the processor.
In conclusion, the utility model has the following beneficial effects:
when the processor monitors that the data monitored by the arc fault detector or the temperature measuring type electric fire detector exceeds a set value; or the temperature monitored by the infrared temperature sensor exceeds a set value; or when the number of the pyrolytic particles monitored by the pyrolytic particle sensor exceeds a set value; the warning light lights up, reminds the staff to have the conflagration hidden condition, and meanwhile the voice broadcast ware will report repeatedly the recorded pronunciation of "having the fire condition, in time rescuing". In addition, the camera presents the conflagration condition near the block terminal in time through the display screen, for follow-up fire control puts out a fire and provides favorable data information, conveniently controls the condition of a fire sooner, reduces the loss. When the conflagration breaks out, camera and image processing module can be protected to the protection casing, avoids camera and image processing module to receive the destruction of conflagration as far as possible, and the cold air duct is cooled down camera and image processing module, and the operating time of extension supervisory equipment makes near the conflagration condition of block terminal obtain monitoring through the display screen as far as possible, in time knows the conflagration condition, reduces the loss.
Drawings
Fig. 1 is a schematic structural diagram of an electrical intelligent fire monitoring and controlling device provided by the utility model.
In the figure: 1-a contact monitoring assembly; 11-arc fault detector; 12-temperature measuring type electrical fire detector; 13-a circuit breaker; 2-a non-contact monitoring assembly; 21-an infrared temperature sensor; 22-a pyrolytic particle sensor; 3-a processor; 4-warning light; 5-an image processing component; 51-a camera; 52-an image processing module; 53-a pan-tilt; 54-a protective cover; 541-a window; 55-a host; 551-storage disk; 56-display screen; 6-a cooling assembly; 61-a cold gas generator; 62-a cold air pipe; 7-voice broadcasting device; 100-electric distribution box.
Detailed Description
The utility model is described in detail below with reference to the figures and examples.
It should be noted that all the directional terms such as "upper" and "lower" referred to herein are used with respect to the view of the drawings, and are only for convenience of description, and should not be construed as limiting the technical solution.
See FIG. 1
The utility model provides an electric intelligent fire monitoring and controlling device which comprises a contact type monitoring component 1, a non-contact type monitoring component 2, a processor 3 and a warning lamp 4, wherein the contact type monitoring component 2 is connected with the processor; the contact type monitoring assembly 1 comprises an arc fault detector 11, a temperature measuring type electric fire detector 12 and a circuit breaker 13; the non-contact monitoring assembly 2 comprises an infrared temperature sensor 21 and a pyrolytic particle sensor 22; the infrared temperature sensor 21 and the pyrolytic particle sensor 22 are both arranged in the distribution box 100, the arc fault detector 11 is electrically connected with a lead in the distribution box 100, and the arc fault detector 11 is electrically connected with the temperature-measuring type electric fire detector 12 through a circuit breaker 13; the infrared temperature sensor 21, the pyrolytic particle sensor 22 and the temperature measurement type electric fire detector 12 are all in communication connection with the processor 3; the warning lamp 4 is electrically connected with the processor 3.
The arc fault detector 11 is disposed on the outgoing line loop of the distribution box 100, and when the arc fault detector 11 detects that the power supply parameter exceeds a set value, the circuit breaker 13 is actuated to cut off the circuit, so as to cut off the power supply line with a fault. The alarm threshold value of the temperature-measuring type electric fire detector 12 is between 80 and 115 ℃. The temperature measuring type electrical fire detector 12 is arranged at a plurality of monitoring sites of the distribution box 100 and used for monitoring abnormal temperature rise of a line. The processor 3 is a PLC. When the data monitored by the arc fault detector 11 or the temperature-measuring type electric fire detector 12 exceeds a set value, the processor 3 gives a light-on signal to the warning lamp 4, and the warning lamp 4 lights up to remind a worker of the hidden condition of the fire.
The infrared temperature sensor 21 is of the EFire5002 type. The pyrolytic particle sensor 22 is model EFire 5002. The infrared temperature sensor 21 acquires a temperature value of the monitored electrical equipment or cable in the distribution box 100; the pyrolytic particle sensor 22 collects the number of pyrolytic particles in the gas released by the tested electrical equipment or cable in the distribution box 100 due to temperature rise. When the temperature monitored by the infrared temperature sensor 21 exceeds a set value or the number of the pyrolytic particles monitored by the pyrolytic particle sensor 22 exceeds a set value, the processor 3 gives a light-on signal to the warning lamp 4, and the warning lamp 4 lights up to remind the staff of fire hidden conditions.
The contact type monitoring assembly 1 monitors the line, and the non-contact type monitoring assembly 2 monitors the environment around the line, so that the accuracy and reliability of monitoring are improved.
Preferably, an image processing component 5 is also included; the image processing assembly 5 comprises a camera 51 and an image processing module 52; the camera end of the camera 51 faces the distribution box 100, one end of the image processing module 52 is in communication connection with the camera 51, and the other end of the image processing module 52 is in communication connection with the processor 3. Preferably, the image processing assembly 5 further comprises a pan-tilt 53 mounted at the bottom of the camera 51; the pan/tilt head 53 is in communication with the processor 3. Cloud platform 53 can adjust camera 51's angle, monitors the environment around block terminal 100 more comprehensively and completely. The camera 51 may be extended into the switchbox 100 when needed to monitor the line condition in the switchbox 100. When a fire disaster occurs at the distribution box, the camera 51 can monitor the size of the fire disaster and the conditions of the surrounding environment, so that favorable data information is provided for subsequent fire fighting, the fire condition is conveniently and quickly controlled, and the loss is reduced.
Preferably, the image processing assembly 5 further comprises a host 55, and a display screen 56; one end of the host 55 is communicatively connected to the processor 3, and the other end of the host 55 is communicatively connected to the display 56. A storage disk 551 is provided in the host 55. The host 55 may be installed in a power distribution room equipped in a supermarket, a theater, a fire station, or the like. The model of the host adopts a CTJK128 model. The storage disk 551 can store the image data recorded by the camera 51 for subsequent searching of the cause of fire.
Preferably, the image processing assembly 5 further comprises a protective cover 54; the shield 54 accommodates the camera 51 and the image processing module 52 therein; the protective cover 54 is provided with a window 541 corresponding to the camera end of the camera 51. Also comprises a cooling component 6; the cooling assembly 6 comprises a cold air generator 61 and a cold air pipe 62; one end of the cold air pipe 62 is communicated with the air outlet end of the cold air generator 61, and the other end of the cold air pipe 62 extends into the protective cover 54; cold gas generator 61 is in communication with processor 3.
The protective cover 54 is made of stainless steel, can prevent moisture and dust, and can resist signal interference to a certain extent. The cold air generator 61 is a refrigerator, and a portable refrigeration air conditioner can be adopted. When a fire breaks out, the temperature around the distribution box rises sharply, and the camera 51 and the image processing module 52 located near the distribution box are easily damaged by the high temperature and cannot operate normally. At this moment, the protective cover 54 can play a role in protection, and the cold air pipe 62 can cool down the camera 51 and the image processing module 52, so that the camera 51 and the image processing module 52 can work normally at a high temperature, the camera 51 and the image processing module 52 are prevented from being damaged by a fire as much as possible, the working time of the monitoring equipment is prolonged, the fire situation near the distribution box 100 is monitored as much as possible through the display screen 56, the fire situation is known in time, and loss is reduced.
Preferably, the voice broadcasting device 7 is also included; the voice broadcaster 7 is in communication connection with the processor 3. When the processor 3 monitors that the data monitored by the arc fault detector 11 or the temperature-measuring type electric fire detector 12 exceeds a set value; or the temperature monitored by the infrared temperature sensor 21 exceeds a set value; or when the number of the pyrolytic particles monitored by the pyrolytic particle sensor 22 exceeds a set value; the voice broadcasting device 7 can repeatedly broadcast recorded 'fire, timely rescue' voice.
The principle of the electric intelligent fire monitoring and controlling equipment provided by the utility model is as follows:
when the processor 3 monitors that the data monitored by the arc fault detector 11 or the temperature-measuring type electric fire detector 12 exceeds a set value; or the temperature monitored by the infrared temperature sensor 21 exceeds a set value; or when the number of the pyrolytic particles monitored by the pyrolytic particle sensor 22 exceeds a set value; the warning light 4 lights, reminds the staff to have the hidden condition of conflagration, and meanwhile the voice broadcast ware 7 will report repeatedly the recorded voice of "having the fire condition, in time rescuing". In addition, camera 51 presents the fire condition near block terminal 100 in time through display screen 56, provides favorable data for follow-up fire control puts out a fire, conveniently controls the condition of a fire sooner, reduces the loss. When a fire breaks out, the protective cover 54 can protect the camera 51 and the image processing module 52, the camera 51 and the image processing module 52 are prevented from being damaged by the fire as much as possible, the cold air pipe 62 cools the camera 51 and the image processing module 52, the working time of the monitoring equipment is prolonged, the fire situation near the distribution box 100 is monitored through the display screen 56 as much as possible, the fire situation is known in time, and loss is reduced.
The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.
Claims (8)
1. The utility model provides an electric wisdom fire monitoring controlgear which characterized in that:
the device comprises a contact type monitoring component (1), a non-contact type monitoring component (2), a processor (3) and a warning lamp (4);
the contact type monitoring assembly (1) comprises an arc fault detector (11), a temperature measuring type electric fire detector (12) and a circuit breaker (13);
the non-contact monitoring assembly (2) comprises an infrared temperature sensor (21) and a pyrolytic particle sensor (22);
the infrared temperature sensor (21) and the pyrolytic particle sensor (22) are both arranged in a distribution box (100), the arc fault detector (11) is electrically connected with a lead in the distribution box (100), and the arc fault detector (11) is electrically connected with the temperature-measuring type electric fire detector (12) through the circuit breaker (13);
the infrared temperature sensor (21), the pyrolysis particle sensor (22) and the temperature measurement type electric fire detector (12) are all in communication connection with the processor (3);
the warning lamp (4) is electrically connected with the processor (3).
2. The intelligent fire monitoring and controlling device according to claim 1, wherein:
further comprising an image processing component (5);
the image processing assembly (5) comprises a camera (51) and an image processing module (52);
the camera end orientation of camera (51) block terminal (100), the one end of image processing module (52) with camera (51) communication is connected, the other end of image processing module (52) with treater (3) communication is connected.
3. The electrical intelligent fire monitoring and control device of claim 2, wherein:
the image processing assembly (5) further comprises a cradle head (53) arranged at the bottom of the camera (51);
the holder (53) is in communication connection with the processor (3).
4. The electrical intelligent fire monitoring and control device of claim 3, wherein:
the image processing assembly (5) further comprises a protective cover (54);
the protective cover (54) accommodates the camera (51) and the image processing module (52) therein;
and a window (541) is formed in the protective cover (54) corresponding to the camera shooting end of the camera (51).
5. The intelligent fire monitoring and control device of claim 4, wherein:
the image processing component (5) further comprises a host (55) and a display screen (56);
one end of the host (55) is in communication connection with the processor (3), and the other end of the host (55) is in communication connection with the display screen (56).
6. The intelligent fire monitoring and control device of claim 5, wherein:
a storage disk (551) is arranged in the host (55).
7. The intelligent fire monitoring and controlling device according to claim 4, wherein:
further comprising a cooling assembly (6);
the cooling assembly (6) comprises a cold air generator (61) and a cold air pipe (62);
one end of the cold air pipe (62) is communicated with the air outlet end of the cold air generator (61), and the other end of the cold air pipe (62) extends into the protective cover (54);
the cold air generator (61) is in communication connection with the processor (3).
8. The electrical intelligent fire monitoring and control device of claim 2 or 7, wherein:
the voice broadcasting device (7) is also included;
the voice broadcaster (7) is in communication connection with the processor (3).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121833430.3U CN216486724U (en) | 2021-08-06 | 2021-08-06 | Electric intelligent fire monitoring and controlling equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121833430.3U CN216486724U (en) | 2021-08-06 | 2021-08-06 | Electric intelligent fire monitoring and controlling equipment |
Publications (1)
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CN216486724U true CN216486724U (en) | 2022-05-10 |
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CN202121833430.3U Active CN216486724U (en) | 2021-08-06 | 2021-08-06 | Electric intelligent fire monitoring and controlling equipment |
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CN (1) | CN216486724U (en) |
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2021
- 2021-08-06 CN CN202121833430.3U patent/CN216486724U/en active Active
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