CN216083893U - Indoor inspection system integrating radiation monitoring and fire detection - Google Patents

Abstract

The utility model discloses an indoor inspection system integrating radiation monitoring and fire detection, which comprises a monitoring box and a linear moving sliding table for driving a detector to move, wherein the detector comprises five assembly laminates, a positioner is arranged on the first assembly laminate, a battery installation cavity for installing a battery is formed in the second assembly laminate, a circuit board installation cavity for installing an electronic circuit board and a radiation detector is formed in the third assembly laminate, a smoke sensor is arranged on the fourth assembly laminate, and a temperature sensor, an LED lamp and a buzzer are arranged on the fifth assembly laminate; the electronic circuit board is integrated with a microcontroller and a first wireless communication module; the monitoring box comprises a box body, a display, a main controller and a second wireless communication module. The utility model utilizes the linear moving sliding table to carry the detector to move, carries out radiation monitoring and fire detection on different indoor positions, integrates fire temperature, smoke, radiation and position positioning into one device, and has comprehensive and reliable data acquisition.

Description

Indoor inspection system integrating radiation monitoring and fire detection

Technical Field

The utility model belongs to the technical field of radiation monitoring and fire detection, and particularly relates to an indoor inspection system integrating radiation monitoring and fire detection.

Background

The safety is a life line of a nuclear power station, the internal environment of the nuclear power station has uniqueness, and radioactive rays such as alpha, beta, gamma and the like can be radiated when a nuclear reactor in the nuclear power station operates, so that nuclear accidents are possibly caused when the radioactive rays are leaked. With the rapid development of nuclear power plants in recent years, the fire detector is an important component of fire safety as nuclear safety, and plays an increasingly important role as an important component of an automatic fire alarm system of the nuclear power plants. The fire detector in the nuclear island of the nuclear power plant monitors the change of characteristic parameters (smoke, high temperature, flame and the like) when a fire disaster occurs in the environment, and plays a decisive role in detecting and controlling the fire disaster.

Because of need carry out the monitoring of conflagration hidden danger such as electric factory building and emergency diesel generator factory building in the nuclear island, the while needs monitor the radiation dose in the air, present fire detection warning and radiation monitoring are many to separate the fixed point and gather the detection, and distribute in the position of difference, function singleness in the use, the structure is complicated, a large amount of data transmission cables or wireless communication module are consumed in current radiation monitoring and conflagration detection, the concentration is low, and is with high costs, it is not comprehensive to the data monitoring of a position detection and collection, therefore, now lack an integrated level height, possess the function of automatic movement and can effectively carry out the indoor system of patrolling and examining of fixing a position to the specific position of taking place conflagration or radiation leakage, thereby task volume when having increaseed the fire fighter and having carried out the fire control.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the defects in the prior art are overcome, and an indoor inspection system integrating radiation monitoring and fire detection is provided, the design is novel and reasonable, the detector is carried by a linear moving sliding table to move, radiation monitoring and fire detection are carried out on different indoor positions, fire temperature, smoke, radiation and position positioning are integrated in one device, the acquired data are comprehensive and reliable, the using effect is good, and the indoor inspection system is convenient to popularize and use.

In order to solve the technical problems, the utility model adopts the technical scheme that: the utility model provides a collect radiation monitoring and fire detection indoor system of patrolling and examining as an organic whole which characterized in that: the detector comprises a monitoring box and a linear moving sliding table for driving the detector to move, wherein the detector comprises a first assembly layer plate, a second assembly layer plate, a third assembly layer plate, a fourth assembly layer plate and a fifth assembly layer plate which are sequentially arranged from bottom to top, a locator is arranged on the first assembly layer plate, a battery installation cavity for installing a battery is arranged on the second assembly layer plate, a charging interface matched with the battery is arranged on the side wall of the second assembly layer plate, a circuit board installation cavity for installing an electronic circuit board and a radiation detector is arranged on the third assembly layer plate, a radiation acquisition port matched with the radiation detector is arranged on the side wall of the third assembly layer plate, a smoke sensor is arranged on the fourth layer plate, an installation groove for inserting the smoke sensor is arranged at the bottom of the fifth assembly layer plate, a temperature sensor and an installation frame are arranged on the fifth assembly layer plate, and a smoke acquisition port matched with the smoke sensor is arranged on the fifth assembly layer plate, an LED lamp is arranged in the mounting frame, and a buzzer is arranged outside the mounting frame;

a microcontroller and a first wireless communication module connected with the microcontroller are integrated on the electronic circuit board, signal output ends of the positioner, the radiation detector, the smoke sensor and the temperature sensor are all connected with an input end of the microcontroller, and the LED lamp and the buzzer are all controlled by the microcontroller;

the monitoring box comprises a box body, a display arranged outside the box body and a main controller and a second wireless communication module which are arranged in the box body, wherein the second wireless communication module is communicated with the first wireless communication module and is connected with the main controller, and the display is controlled by the main controller.

Foretell collection radiation monitoring and fire detection indoor system of patrolling and examining as an organic whole, its characterized in that: linear movement slip table is including supporting the slip table, set up lead screw slide-spindle and supplementary guide bar on supporting the slip table along supporting slip table length direction, and be used for driving lead screw slide-spindle pivoted motor, the slider suit is on lead screw slide-spindle and supplementary guide bar, the detector is installed on the slider, support the slip table and install on the indoor wall of monitoring room, motor and control box are installed on the outdoor wall of monitoring room, the output shaft of motor passes the curb plate of monitoring room wall and support slip table in proper order and is connected with lead screw slide-spindle transmission.

Foretell collection radiation monitoring and fire detection indoor system of patrolling and examining as an organic whole, its characterized in that: be provided with a plurality of connecting cylinders on the first assembly plywood, the connecting cylinder inner wall is provided with the internal thread, the second assembly plywood, the third assembly plywood, all set up the connect the through-hole that a plurality of confession a plurality of connecting cylinders passed on fourth assembly plywood and the fifth assembly plywood, the second assembly plywood, the third assembly plywood, the quantity of connect the through-hole on fourth assembly plywood and the fifth assembly plywood equals and the one-to-one with the quantity of connecting cylinder, the fifth assembly plywood outside is provided with a plurality of lock nut, lock nut's quantity equals and the one-to-one with the quantity of connecting cylinder, lock nut and connecting cylinder screw-thread fit.

Foretell collection radiation monitoring and fire detection indoor system of patrolling and examining as an organic whole, its characterized in that: the charging interface is a USB charging interface.

Foretell collection radiation monitoring and fire detection indoor system of patrolling and examining as an organic whole, its characterized in that: the first wireless communication module and the second wireless communication module are both WIFI wireless communication modules or GSM wireless communication modules.

Foretell collection radiation monitoring and fire detection indoor system of patrolling and examining as an organic whole, its characterized in that: the radiation detector is a gamma radiation detector.

Foretell collection radiation monitoring and fire detection indoor system of patrolling and examining as an organic whole, its characterized in that: the locator is a GPS locator.

Compared with the prior art, the utility model has the following advantages:

1. the utility model utilizes the linear moving sliding table to carry the detector to move, carries out radiation monitoring and fire detection on different indoor positions, integrates fire temperature, smoke, radiation and position positioning into one device, has comprehensive and reliable acquired data and is convenient to popularize and use.

2. According to the detector, the first assembly layer plate, the second assembly layer plate, the third assembly layer plate, the fourth assembly layer plate and the fifth assembly layer plate are sequentially arranged from bottom to top and respectively bear and mount the positioner, the battery, the radiation detector, the smoke sensor and the temperature sensor, the radiation acquisition port matched with the radiation detector is formed in the side wall of the third assembly layer plate, the smoke acquisition port matched with the smoke sensor is formed in the fifth assembly layer plate, the structure is compact, the mounting frame is arranged at the top of the fifth assembly layer plate and used for mounting the LED lamp and the buzzer, and the using effect is good.

3. According to the utility model, the charging interface matched with the battery is arranged on the side wall of the second assembly layer plate, so that the battery is conveniently charged, and the detector can be repeatedly used for a long time.

4. The utility model has novel and reasonable design, the signal output ends of the locator, the radiation detector, the smoke sensor and the temperature sensor are all connected with the input end of the microcontroller, the position of the GPS locator is sent to the main controller in the box body, the position of the GPS locator is known according to the observation display, and the specific position of the detector body is known, so that the specific position of a fire disaster is known, and the utility model is reliable and stable and is convenient for popularization and use.

In conclusion, the linear moving sliding table is novel and reasonable in design, radiation monitoring and fire detection are carried out on different indoor positions by utilizing the linear moving sliding table to carry out detector movement, fire temperature, smoke, radiation and position positioning are integrated in one device, data acquisition is comprehensive and reliable, the using effect is good, and popularization and use are convenient.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the fit relationship between the detector and the linear moving slide table of the present invention.

Fig. 3 is a schematic diagram of the structure of the detector of the present invention.

Description of reference numerals:

1-a monitoring room; 2, supporting the sliding table; 3-auxiliary guide rod;

4-screw rod sliding shaft; 5, a motor; 6, a sliding block;

7-a detector; 7-1 — a first assembly layer; 7-2-a second assembly layer plate;

7-3-a third assembly layer board; 7-4-a fourth assembly layer; 7-5-fifth assembly layer board;

7-6-connecting cylinder; 7-connecting through holes; 7-8-a positioner;

7-9-charging interface; 7-10-battery mounting cavity; 7-11-battery;

7-12-radiation collection port; 7-13-electronic circuit board; 7-14-a radiation detector;

7-15-smoke sensor; 7-16-smoke collection port; 7-17-temperature sensor;

7-18-LED lamp; 7-19-buzzer; 7-20-mounting rack;

7-21-lock nut; 7-22-circuit board mounting cavity; 8, a monitoring box.

Detailed Description

As shown in figures 1 to 3, the utility model comprises a monitoring box 8 and a linear moving sliding table for driving a detector 7 to move, wherein the detector 7 comprises a first assembly layer plate 7-1, a second assembly layer plate 7-2, a third assembly layer plate 7-3, a fourth assembly layer plate 7-4 and a fifth assembly layer plate 7-5 which are sequentially arranged from bottom to top, a positioner 7-8 is arranged on the first assembly layer plate 7-1, a battery installation cavity 7-10 for installing a battery 7-11 is arranged on the second assembly layer plate 7-2, a charging interface 7-9 matched with the battery 7-11 is arranged on the side wall of the second assembly layer plate 7-2, a circuit board installation cavity 7-22 for installing an electronic circuit board 7-13 and a radiation detector 7-14 is arranged on the third assembly layer plate 7-3, a radiation collecting port 7-12 matched with a radiation detector 7-14 is formed in the side wall of the third assembly layer plate 7-3, a smoke sensor 7-15 is installed on the fourth assembly layer plate 7-4, a mounting groove for inserting the smoke sensor 7-15 is formed in the bottom of the fifth assembly layer plate 7-5, a temperature sensor 7-17 and a mounting frame 7-20 are installed on the fifth assembly layer plate 7-5, a smoke collecting port 7-16 matched with the smoke sensor 7-15 is formed in the fifth assembly layer plate 7-5, an LED lamp 7-18 is arranged in the mounting frame 7-20, and a buzzer 7-19 is installed outside the mounting frame 7-20;

a microcontroller and a first wireless communication module connected with the microcontroller are integrated on the electronic circuit board 7-13, signal output ends of the positioner 7-8, the radiation detector 7-14, the smoke sensor 7-15 and the temperature sensor 7-17 are all connected with an input end of the microcontroller, and the LED lamp 7-18 and the buzzer 7-19 are all controlled by the microcontroller;

the monitoring box 8 comprises a box body, a display arranged outside the box body and a main controller and a second wireless communication module which are arranged in the box body, wherein the second wireless communication module is communicated with the first wireless communication module and is connected with the main controller, and the display is controlled by the main controller.

The linear moving sliding table is used for carrying the detector to move, radiation monitoring and fire detection are carried out on different indoor positions, fire temperature, smoke, radiation and position positioning are integrated in one device, and data acquisition is comprehensive and reliable; the detector is provided with a first assembly layer plate 7-1, a second assembly layer plate 7-2, a third assembly layer plate 7-3, a fourth assembly layer plate 7-4 and a fifth assembly layer plate 7-5 which are sequentially arranged from bottom to top, wherein the first assembly layer plate 7-1, the second assembly layer plate 7-2, the third assembly layer plate 7-3, the fourth assembly layer plate 7-4 and the fifth assembly layer plate 7-5 are respectively used for bearing and installing a positioner 7-8, a battery 7-11, a radiation detector 7-14, a smoke sensor 7-15 and a temperature sensor 7-17, a radiation acquisition port 7-12 matched with the radiation detector 7-14 is formed in the side wall of the third assembly layer plate 7-3, a smoke acquisition port 7-16 matched with the smoke sensor 7-15 is formed in the fifth assembly layer plate 7-5, the structure is compact, an installation rack 7-20 is arranged at the top of the fifth assembly layer plate 7-5 and used for installing an LED lamp 7-18 and a buzzer 7-19, the use effect is good; the charging interface 7-9 matched with the battery 7-11 is arranged on the side wall of the second assembly layer plate 7-2, so that the battery 7-11 is conveniently charged, and the detector can be repeatedly used for a long time; the signal output ends of the localizer 7-8, the radiation detector 7-14, the smoke sensor 7-15 and the temperature sensor 7-17 are all connected with the input end of the microcontroller, the position of the GPS localizer is sent to the main controller in the box body, the position of the GPS localizer is known according to the observation display, and the specific position of the detector body is known, so that the specific position of the fire disaster is known, and the device is reliable and stable.

In this embodiment, rectilinear movement slip table is including supporting slip table 2, set up lead screw slide shaft 4 and supplementary guide bar 3 on supporting slip table 2 along supporting slip table 2 length direction, and be used for driving lead screw slide shaft 4 pivoted motor 5, 6 suits of slider are on lead screw slide shaft 4 and supplementary guide bar 3, detector 7 is installed on slider 6, support slip table 2 and install on monitoring room 1's indoor wall, motor 5 and monitoring box 8 are installed on monitoring room 1's outdoor wall, motor 5's output shaft passes monitoring room 1 wall in proper order and supports the curb plate of slip table 2 and is connected with lead screw slide shaft 4 transmission.

In the embodiment, a plurality of connecting cylinders 7-6 are arranged on the first assembly layer plate 7-1, inner walls of the connecting cylinders 7-6 are provided with internal threads, a plurality of connecting through holes 7-7 for the plurality of connecting cylinders 7-6 to pass through are respectively arranged on the second assembly layer plate 7-2, the third assembly layer plate 7-3, the fourth assembly layer plate 7-4 and the fifth assembly layer plate 7-5, the number of the connecting through holes 7-7 on the second assembly layer plate 7-2, the third assembly layer plate 7-3, the fourth assembly layer plate 7-4 and the fifth assembly layer plate 7-5 is equal to that of the connecting cylinders 7-6 and is in one-to-one correspondence with the connecting through holes, a plurality of locking nuts 7-21 are arranged on the outer side of the fifth assembly layer plate 7-5, the number of the locking nuts 7-21 is equal to that of the connecting cylinders 7-6 and is in one-to one correspondence with the connecting cylinders 7-6, the locking nut 7-21 is in threaded fit with the connecting cylinder 7-6.

It should be noted that the first assembly layer plate 7-1, the second assembly layer plate 7-2, the third assembly layer plate 7-3, the fourth assembly layer plate 7-4 and the fifth assembly layer plate 7-5 are connected in series into a whole by using the plurality of connecting cylinders 7-6 arranged on the first assembly layer plate 7-1, and the locking nuts 7-21 are matched with the connecting cylinders 7-6 in a threaded manner to lock the five assembly layer plates, so that the structure is small in size, convenient to install and disassemble and convenient to replace and adjust parts.

In this embodiment, the charging interfaces 7 to 9 are USB charging interfaces.

In this embodiment, the first wireless communication module and the second wireless communication module are both a WIFI wireless communication module or a GSM wireless communication module.

In this embodiment, the radiation detectors 7-14 are gamma radiation detectors.

In this embodiment, the locators 7-8 are GPS locators.

In actual implementation, microcontroller and main control unit all adopt DSP little control chip or ARM little control chip, and the structure is small and exquisite, simple to operate.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and all simple modifications, changes and equivalent structural changes made to the above embodiment according to the technical spirit of the present invention still fall within the protection scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides a collect radiation monitoring and fire detection indoor system of patrolling and examining as an organic whole which characterized in that: the detector (7) comprises a first assembly laminate (7-1), a second assembly laminate (7-2), a third assembly laminate (7-3), a fourth assembly laminate (7-4) and a fifth assembly laminate (7-5) which are sequentially arranged from bottom to top, a positioner (7-8) is installed on the first assembly laminate (7-1), a battery installation cavity (7-10) for installing a battery (7-11) is formed in the second assembly laminate (7-2), a charging interface (7-9) matched with the battery (7-11) is formed in the side wall of the second assembly laminate (7-2), and a circuit board installation cavity (7-13) for installing an electronic circuit board (7-13) and a radiation detector (7-14) is formed in the third assembly laminate (7-3) -22), a radiation collection port (7-12) matched with a radiation detector (7-14) is formed in the side wall of the third assembly layer plate (7-3), a smoke sensor (7-15) is installed on the fourth assembly layer plate (7-4), a mounting groove for inserting the smoke sensor (7-15) is formed in the bottom of the fifth assembly layer plate (7-5), a temperature sensor (7-17) and a mounting frame (7-20) are installed on the fifth assembly layer plate (7-5), a smoke collection port (7-16) matched with the smoke sensor (7-15) is formed in the fifth assembly layer plate (7-5), an LED lamp (7-18) is arranged in the mounting frame (7-20), and a buzzer (7-19) is installed outside the mounting frame (7-20);

a microcontroller and a first wireless communication module connected with the microcontroller are integrated on the electronic circuit board (7-13), signal output ends of the positioner (7-8), the radiation detector (7-14), the smoke sensor (7-15) and the temperature sensor (7-17) are all connected with an input end of the microcontroller, and the LED lamp (7-18) and the buzzer (7-19) are all controlled by the microcontroller;

the monitoring box (8) comprises a box body, a display arranged outside the box body, and a main controller and a second wireless communication module which are arranged in the box body, wherein the second wireless communication module is communicated with the first wireless communication module and is connected with the main controller, and the display is controlled by the main controller.

2. An indoor inspection system integrating radiation monitoring and fire detection as claimed in claim 1, wherein: linear movement slip table is including supporting slip table (2), lead screw slide (4) and supplementary guide bar (3) that set up on supporting slip table (2) along supporting slip table (2) length direction, and be used for driving lead screw slide (4) pivoted motor (5), slider (6) suit is on lead screw slide (4) and supplementary guide bar (3), install on slider (6) detector (7), support slip table (2) and install on the indoor wall of monitoring room (1), install on the outdoor wall of monitoring room (1) motor (5) and monitoring box (8), the output shaft of motor (5) passes monitoring room (1) wall in proper order and supports the curb plate of slip table (2) and is connected with lead screw slide (4) transmission.

3. An indoor inspection system integrating radiation monitoring and fire detection as claimed in claim 1, wherein: a plurality of connecting cylinders (7-6) are arranged on the first assembly layer plate (7-1), inner threads are arranged on the inner walls of the connecting cylinders (7-6), a plurality of connecting through holes (7-7) for the connecting cylinders (7-6) to pass through are formed in the second assembly layer plate (7-2), the third assembly layer plate (7-3), the fourth assembly layer plate (7-4) and the fifth assembly layer plate (7-5), the number of the connecting through holes (7-7) in the second assembly layer plate (7-2), the third assembly layer plate (7-3), the fourth assembly layer plate (7-4) and the fifth assembly layer plate (7-5) is equal to that of the connecting cylinders (7-6) and corresponds to that of the connecting cylinders (7-6), a plurality of locking nuts (7-21) are arranged on the outer side of the fifth assembly layer plate (7-5), the number of the locking nuts (7-21) is equal to that of the connecting cylinders (7-6) and corresponds to that of the connecting cylinders one by one, and the locking nuts (7-21) are in threaded fit with the connecting cylinders (7-6).

4. An indoor inspection system integrating radiation monitoring and fire detection as claimed in claim 1, wherein: the charging interfaces (7-9) are USB charging interfaces.

5. An indoor inspection system integrating radiation monitoring and fire detection as claimed in claim 1, wherein: the first wireless communication module and the second wireless communication module are both WIFI wireless communication modules or GSM wireless communication modules.

6. An indoor inspection system integrating radiation monitoring and fire detection as claimed in claim 1, wherein: the radiation detectors (7-14) are gamma radiation detectors.

7. An indoor inspection system integrating radiation monitoring and fire detection as claimed in claim 1, wherein: the localizer (7-8) is a GPS localizer.

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