CN114217560B - Intelligent monitoring and detecting equipment for fire-fighting emergency lamp - Google Patents

Abstract

The intelligent monitoring and detecting device for the fire-fighting emergency lamp comprises a base body and a sealing buckle cover, wherein a plurality of closing teeth are respectively arranged on two sides of the base body and two sides of the bottom of the sealing buckle cover at equal intervals, and the closing teeth are meshed to form a dark sealing detection space between the base body and the sealing buckle cover; the base body is connected with the sealing buckle cover through a plurality of linear push rods, and the linear push rods are used for driving the sealing buckle cover to lift; two ends of the base body are respectively provided with a limiting groove, and two ends of the sealing buckle cover are respectively provided with a limiting arc matched with the limiting grooves; proximity switches are obliquely arranged on the base bodies on the two sides of the limiting groove respectively and are used for detecting position parameters of the limiting arc; the bottom of the base body is provided with a multi-deformation through hole, and the through hole is used for placing a fire-fighting emergency lamp to be detected or a self-generating light-storing indication sticker; a controller is arranged in the base body and connected with a temperature sensor and a light intensity detector through an AD converter.

Description

Intelligent monitoring and detecting equipment for fire-fighting emergency lamp

The technical field is as follows:

the invention relates to intelligent monitoring and detecting equipment for a fire-fighting emergency lamp.

The background art comprises the following steps:

the fire-fighting emergency lamp is suitable for fire-fighting emergency lighting, is the most common lighting tool in fire-fighting emergency, has long emergency time and high brightness, and has the function of automatic emergency when power is off; the side is designed with a power switch and a display lamp, so that the LED lamp is suitable for public places such as factories, hotels, schools, units and the like for emergency lighting during power failure, and has low power consumption and long service life.

Generally, the fire emergency lamp is installed in a wall-mounted mode and a hanging mode; in an actual application scene, the fire-fighting emergency lamp is often matched with the self-generating light-storing indicator sticker for arrangement and use; after the lamp and the indication sticker are used for a period of time, a discharge test needs to be carried out on the lamp and the indication sticker so as to carry out brightness or illumination detection on the lamp and the indication sticker in a dark environment.

The existing detection equipment and the detection mode are that a light shield is covered outside a lamp or a self-generating light-storing indication sticker, the lamp or the indication sticker to be detected is placed in a dark environment, after a period of time, illuminance or brightness detection is carried out to complete an attenuated discharge test, and whether a fire-fighting emergency lamp or the self-generating light-storing indication sticker is a qualified product is judged according to data parameters obtained through detection, so that whether the actual use requirements can be met; because the existing light shield is manually placed by workers, the difficulty in realizing a completely closed dark environment is high, external light penetrates in the detection process, the detection data error is large, and the use state of a lamp or an indication sticker cannot be accurately reflected; simultaneously, also convenient inadequately to the settlement of check-out time, each functional unit lacks the cooperation linkage in the equipment, and degree of automation is lower, is unfavorable for using widely in the application scene of difference.

The invention content is as follows:

the embodiment of the invention provides intelligent monitoring and detecting equipment for a fire-fighting emergency lamp, which is reasonable in structural design, based on the integrated control principle of a single-chip microcomputer controller, and matched with corresponding structural components and various types of electric elements, a completely closed dark environment can be constructed and formed for detection of workers, the influence of an external environment on a detection result is reduced to the maximum extent, and the detection result is guaranteed to be real and effective; meanwhile, the degree of automation is higher, and the staff is convenient to set for and control the detection time, and can acquire a plurality of groups of detection data in a detection period, so that the detection precision is improved, accurate evaluation on fire fighting emergency lamps or self-generating light storage indication pastes is realized, and the problems in the prior art are solved.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the intelligent monitoring and detecting device for the fire-fighting emergency lamp comprises a base body and a sealing buckle cover, wherein a plurality of closing teeth are respectively arranged on two sides of the base body and two sides of the bottom of the sealing buckle cover at equal intervals, and the closing teeth are meshed to form a dark sealing detection space between the base body and the sealing buckle cover; the base body is connected with the sealing buckle cover through a plurality of linear push rods, and the linear push rods are used for driving the sealing buckle cover to lift; two ends of the base body are respectively provided with a limiting groove, and two ends of the sealing buckle cover are respectively provided with a limiting arc matched with the limiting grooves; proximity switches are obliquely arranged on the base bodies on the two sides of the limiting groove respectively and are used for detecting position parameters of the limiting arc; the bottom of the base body is provided with a multi-deformation through hole, and the through hole is used for placing a fire emergency lamp to be detected or a self-generating light-storing indicator sticker; be equipped with the controller in the base member, the controller is connected with temperature sensor and illuminance detector through AD converter, temperature sensor is used for detecting the temperature parameter of fire control emergency light, illuminance detector is used for detecting the illuminance parameter that fire control emergency light or hold the light instruction subsides from electricity generation.

And a plurality of magnets are uniformly distributed on the outer side of the polygonal through hole and used for adsorbing and fixing the shading cloth.

And the closed teeth at the bottom of the sealing buckle cover are respectively provided with a buffer rubber pad.

The controller is connected with an instruction input device and a radiator, the instruction input device is used for transmitting a control instruction to the controller, and the radiator is used for reducing the temperature rise in the sealed detection space; the controller passes through the driver and links to each other with sharp push rod, still is connected with the time-recorder on the controller, the time-recorder is used for taking notes check-out time, is connected with the display instrument through the communication line on the controller, the controller is connected with the host computer through the GPRS communicator to carry out the teletransmission of testing data.

The model of controller is STM32F103C8T6, is equipped with 64 pins on the controller, the controller links to each other with the instruction input ware through No. four pins, the controller links to each other with the radiator through No. ten pin and No. eleven pin, the controller links to each other with the AD converter through No. fifteen pins, the controller links to each other with the GPRS communicator through No. twenty pin, No. twenty-one pin and No. twenty-two pin, the controller passes through No. thirteen pin and links to each other with the reality instrument, the controller passes through No. thirty-eight pin and links to each other with the driver, the controller passes through No. forty pin and links to each other with proximity switch, the controller passes through No. forty pin and links to each other with the time-recorder.

The model of the instruction input device is TLP290, four pins are arranged on the instruction input device, the first pin of the instruction input device is a control instruction input pin, a ninth resistor, a tenth resistor and a fourth capacitor are connected in parallel between the first pin and the second pin of the instruction input device, a fifth capacitor and an eighth resistor are connected in parallel between the third pin and the fourth pin of the instruction input device, and the third pin of the instruction input device is connected with the fourth pin of the controller.

The type of the radiator is TC4427, 8 pins are arranged on the radiator, the second pin of the radiator is connected with the tenth pin of the controller, the fourth pin of the radiator is connected with the eleventh pin of the controller, and the fifth pin of the radiator is connected with a cooling fan through a first resistor, a second resistor and an MOS (metal oxide semiconductor) tube which are connected in parallel.

The AD converter is characterized in that the model of the AD converter is AD8551, 8 pins are arranged on the AD converter, the AD converter is connected with a No. fifteen pin of the controller through a No. six pin, and the AD converter is connected with the temperature sensor and the illuminance detector through a No. three pin; the type of the temperature sensor is SHT20, and the illuminance detector is an Evos high-precision digital illuminometer.

The model of the GPRS communicator is SIM800C, 42 pins are arranged on the GPRS communicator, a first pin of the GPRS communicator is connected with a twenty-first pin of a controller through a third resistor, a second pin of the GPRS communicator is connected with a twenty-first pin of the controller through a fourth resistor, a sixth pin of the GPRS communicator is connected with a twenty-second pin of the controller through a fifth resistor, and a sixth resistor and a seventh resistor which are connected in parallel are arranged between the second pin and the sixth pin of the GPRS communicator; the GPRS communicator is connected with an SIM card through a pin fifteen, a pin sixteen, a pin seventeen and a pin eighteen, a fourth capacitor, a fifth capacitor and a sixth capacitor are respectively arranged on the pin fifteen, the pin sixteen and the pin seventeen of the GPRS communicator, a seventh capacitor is connected on the pin eighteen of the GPRS communicator, and an antenna is arranged on the pin thirty-two of the GPRS communicator.

The driver is in a ULN2003 model, 16 pins are arranged on the driver, the driver is connected with thirty-eight pins of the controller through a first pin, a first relay is connected with a sixteen pin of the driver, a first resistor and a first diode which are connected in parallel are arranged on the first relay, and a linear push rod interface is arranged on the first relay; the type of the timer is DS1302, 8 pins are arranged on the timer, a fourth resistor and a fourth capacitor which are connected in parallel are arranged between a pin six and a pin seven of the timer, and the pin seven of the timer is connected with a pin forty-five of the controller.

By adopting the structure, a dark sealing detection space is formed by the base body, the sealing buckle cover and the closing teeth, the influence of external illumination conditions is eliminated, and a good detection environment is provided for workers; the two ends of the base body are sealed by matching the limiting grooves at the two ends of the base body with the limiting arcs on the sealing buckle covers, so that the airtightness of the detection space is further ensured; the opening and sealing of the sealing buckle cover and the base body are realized through the linear push rod, so that the illuminance detection can be realized, the replacement of internal components or electric elements by workers is facilitated, and the overall detection efficiency is improved; the AD converter is matched with the temperature sensor and the illuminance detector to detect illuminance parameters and temperature parameters of the fire-fighting emergency lamp or the self-generating light-storing indication paste, accurate and reliable detection data are obtained on the premise of ensuring safety, and the automatic detection device has the advantages of safety, practicability and high automation degree.

Description of the drawings:

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

Fig. 2 is a side view of fig. 1.

Fig. 3 is an enlarged structural schematic diagram of a region a in fig. 2.

Fig. 4 is a bottom view of fig. 1.

Fig. 5 is a schematic diagram of the magnet distribution structure of the present invention.

Fig. 6 is a schematic view of an installation structure of the shade cloth of the present invention.

Fig. 7 is a control schematic of the present invention.

Fig. 8 is an electrical schematic of the controller of the present invention.

FIG. 9 is an electrical schematic of the command input unit of the present invention.

Fig. 10 is an electrical schematic diagram of the heat sink of the present invention.

Fig. 11 is an electrical schematic diagram of the AD converter of the present invention.

Fig. 12 is an electrical schematic of the temperature sensor of the present invention.

Fig. 13 is a schematic structural view of the illuminance detector of the present invention.

Fig. 14 is an electrical schematic diagram of the GPRS communicator of the present invention.

Fig. 15 is an electrical schematic of the actuator of the present invention.

Fig. 16 is an electrical schematic of the proximity switch of the present invention.

Fig. 17 is an electrical schematic of the timepiece of the invention.

In the figure, the device comprises a base body 1, a sealing buckle cover 2, a sealing tooth 3, a closing tooth 4, a linear push rod 5, a limiting groove 6, a limiting arc 7, a proximity switch 8, a polygonal through hole 9, a magnet 10, shading cloth 11 and a buffering rubber mat.

The specific implementation mode is as follows:

in order to clearly explain the technical features of the present invention, the present invention will be explained in detail by the following embodiments and the accompanying drawings.

As shown in fig. 1-17, the intelligent supervision and detection device for the fire emergency lamp comprises a base body 1 and a sealing buckle cover 2, wherein a plurality of closing teeth 3 are respectively arranged on two sides of the base body 1 and two sides of the bottom of the sealing buckle cover 2 at equal intervals, and the closing teeth 3 are meshed with each other to form a dark sealing detection space between the base body 1 and the sealing buckle cover 2; the base body 1 is connected with the sealing buckle cover 2 through a plurality of linear push rods 4, and the linear push rods 4 are used for driving the sealing buckle cover 2 to lift; two ends of the base body 1 are respectively provided with a limiting groove 5, and two ends of the sealing buckle cover 2 are respectively provided with a limiting arc 6 matched with the limiting grooves 5; the base bodies 1 on the two sides of the limiting groove 5 are respectively provided with a proximity switch 7 in an inclined mode, and the proximity switches 7 are used for detecting position parameters of the limiting arc 6; the bottom of the base body 1 is provided with a multi-deformation through hole 8, and the through hole is used for placing a fire-fighting emergency lamp to be detected or a self-generating light-storing indication sticker; the fire-fighting emergency light controller is characterized in that a controller is arranged in the base body 1 and connected with a temperature sensor and a illuminance detector through an AD converter, the temperature sensor is used for detecting temperature parameters of a fire-fighting emergency light, and the illuminance detector is used for detecting illuminance parameters of the fire-fighting emergency light or a self-generating light-storing indication sticker.

A plurality of magnets 9 are uniformly distributed on the outer side of the polygonal through hole 8, and the magnets 9 are used for adsorbing and fixing the shading cloth 10.

And the closed teeth 3 at the bottom of the sealing buckle cover 2 are respectively provided with a buffer rubber pad 11.

The controller is connected with an instruction input device and a radiator, the instruction input device is used for transmitting a control instruction to the controller, and the radiator is used for reducing the temperature rise in the sealed detection space; the controller passes through the driver and links to each other with sharp push rod, still is connected with the time-recorder on the controller, the time-recorder is used for taking notes check-out time, is connected with the display instrument through the communication line on the controller, the controller is connected with the host computer through the GPRS communicator to detect the teletransmission of data.

The model of controller is STM32F103C8T6, is equipped with 64 pins on the controller, the controller links to each other with the instruction input ware through No. four pins, the controller links to each other with the radiator through No. ten pin and No. eleven pin, the controller links to each other with the AD converter through No. fifteen pins, the controller links to each other with the GPRS communicator through No. twenty pin, No. twenty-one pin and No. twenty-two pin, the controller passes through No. thirteen pin and links to each other with the reality instrument, the controller passes through No. thirty-eight pin and links to each other with the driver, the controller passes through No. forty pin and links to each other with proximity switch, the controller passes through No. forty pin and links to each other with the time-recorder.

The type of the instruction input unit is TLP290, four pins are arranged on the instruction input unit, the first pin of the instruction input unit is a control instruction input pin, a ninth resistor, a tenth resistor and a fourth capacitor are connected between the first pin and the second pin of the instruction input unit in parallel, a fifth capacitor and an eighth resistor are connected between the third pin and the fourth pin of the instruction input unit in parallel, and the third pin of the instruction input unit is connected with the fourth pin of the controller.

The type of the radiator is TC4427, 8 pins are arranged on the radiator, the second pin of the radiator is connected with the tenth pin of the controller, the fourth pin of the radiator is connected with the eleventh pin of the controller, and the fifth pin of the radiator is connected with a cooling fan through a first resistor, a second resistor and an MOS (metal oxide semiconductor) tube which are connected in parallel.

The AD converter is characterized in that the model of the AD converter is AD8551, 8 pins are arranged on the AD converter, the AD converter is connected with a No. fifteen pin of the controller through a No. six pin, and the AD converter is connected with the temperature sensor and the illuminance detector through a No. three pin; the type of the temperature sensor is SHT20, and the illuminance detector is an Evos high-precision digital illuminometer.

The type of the GPRS communicator is SIM800C, 42 pins are arranged on the GPRS communicator, a first pin of the GPRS communicator is connected with a twenty-first pin of a controller through a third resistor, a second pin of the GPRS communicator is connected with a twenty-first pin of the controller through a fourth resistor, a sixth pin of the GPRS communicator is connected with a twenty-second pin of the controller through a fifth resistor, and a sixth resistor and a seventh resistor which are connected in parallel are arranged between the second pin and the sixth pin of the GPRS communicator; the GPRS communicator is connected with a SIM card through a fifteen-pin, a sixteen-pin, a seventeen-pin and an eighteen-pin, a fourth capacitor, a fifth capacitor and a sixth capacitor are respectively arranged on the fifteen-pin, the sixteen-pin and the seventeen-pin of the GPRS communicator, a seventh capacitor is connected to the eighteen-pin of the GPRS communicator, and an antenna is arranged on the thirty-second pin of the GPRS communicator.

The driver is in a ULN2003 model, 16 pins are arranged on the driver, the driver is connected with thirty-eight pins of the controller through a first pin, a first relay is connected with a sixteen pin of the driver, a first resistor and a first diode which are connected in parallel are arranged on the first relay, and a linear push rod interface is arranged on the first relay; the type of the timer is DS1302, 8 pins are arranged on the timer, a fourth resistor and a fourth capacitor which are connected in parallel are arranged between a sixth pin and a seventh pin of the timer, and the seventh pin of the timer is connected with a forty-five pin of the controller.

The working principle of the intelligent monitoring and detecting equipment for the fire-fighting emergency lamp in the embodiment of the invention is as follows: based on the integrated control principle of the single chip microcomputer controller, the completely closed dark environment can be constructed and formed by matching corresponding structural components and various types of electric elements for detection of workers, the influence of the external environment on the detection result is reduced to the maximum extent, and the true and effective detection result is ensured; simultaneously, degree of automation is higher, makes things convenient for the staff to carry out the settlement of check-out time and controls, can obtain multiunit detection data in a detection cycle, promotes the detection precision, realizes conveniently promoting fire control emergency light or the accurate aassessment of holding the light instruction subsides from electricity generation, and the application scene is extensive, and the suitability is strong.

In the integral scheme, the device mainly comprises a base body 1 and a sealing buckle cover 2, wherein a plurality of closing teeth 3 are respectively arranged on two sides of the base body 1 and two sides of the bottom of the sealing buckle cover 2 at equal intervals, and the closing teeth 3 are meshed with each other to form a dark sealing detection space between the base body 1 and the sealing buckle cover 2; the base body 1 is connected with the sealing buckle cover 2 through a plurality of linear push rods 4 so as to drive the sealing buckle cover 2 to lift; two ends of the base body 1 are respectively provided with a limiting groove 5, and two ends of the sealing buckle cover 2 are respectively provided with a limiting arc 6 matched with the limiting grooves 5; proximity switches 7 are obliquely arranged on the base body 1 on two sides of the limiting groove 5 respectively and used for detecting position parameters of the limiting arc 6; the bottom of the base body 1 is provided with a multi-deformation through hole 8 for placing a fire-fighting emergency lamp or an indication sticker to be detected; particularly, the polygonal through hole 8 can be suitable for self-generating light-storing indication pastes with different lengths or fire-fighting emergency lamps with different specifications and sizes, is convenient to replace on site, and has stronger functionality compared with a rectangular detection hole in the prior art; the controller is arranged in the base body 1 and connected with a temperature sensor and a illuminance detector through an AD converter, the temperature sensor is used for detecting temperature parameters of the fire-fighting emergency lamp, and the illuminance detector is used for detecting illuminance parameters of the fire-fighting emergency lamp or the self-generating light-storing indication sticker.

Furthermore, proximity switch 7 inclines respectively to set up in the both sides of spacing groove 5, promotes whole detection area and detection effect, and the real-time concrete position of accurate feedback play spacing arc 6.

For the electric element, a controller STM32F103C8T6 is used as a core component, 64 pins are arranged on the controller, the controller is connected with an instruction input device through a fourth pin, the controller is connected with a radiator through a tenth pin and an eleventh pin, the controller is connected with an AD converter through a fifteenth pin, the controller is connected with a GPRS communicator through a twentieth pin, a twenty-first pin and a twenty-second pin, the controller is connected with a real instrument through a thirty-three pin, the controller is connected with a driver through a thirty-eight pin, the controller is connected with a proximity switch through a forty-four pin, and the controller is connected with a timer through a forty-five pin, so that an integral hardware circuit is formed, and accurate detection of a fire-fighting emergency lamp and a self-generating light-storing indication paste is realized by means of the integral hardware circuit.

Preferably, a plurality of magnets 9 of 8 outside equipartitions in polygon through-hole can come the fixed shading cloth 10 of absorption, further guarantee the airtight of testing environment, reduce the interference of external condition, cooperate buffering cushion 11 again, reduce the stress contact between base member 1 and the sealed buckle closure 2, lifting means's life also can fill the gap between base member 1 and the sealed buckle closure 2.

Preferably, the type of the instruction input device is TLP290, four pins are arranged on the instruction input device, the first pin of the instruction input device is a control instruction input pin, a ninth resistor, a tenth resistor and a fourth capacitor are connected in parallel between the first pin and the second pin of the instruction input device, a fifth capacitor and an eighth resistor are connected in parallel between the third pin and the fourth pin of the instruction input device, the third pin of the instruction input device is connected with the fourth pin of the controller, so that a driving control instruction is input into the controller, and the whole device enters a working state and is ready for detection operation.

Preferably, the type of the radiator is TC4427, 8 pins are arranged on the radiator, the second pin of the radiator is connected with the tenth pin of the controller, the fourth pin of the radiator is connected with the eleventh pin of the controller, and the fifth pin of the radiator is connected with a cooling fan through a first resistor, a second resistor and an MOS (metal oxide semiconductor) tube which are connected in parallel, so that the temperature rise coefficient in a closed detection environment can be effectively reduced, the detection assembly is prevented from being damaged due to overhigh internal temperature rise, and the detection is safe and reliable in advance in the whole detection period.

Preferably, the model of the AD converter is AD8551, 8 pins are arranged on the AD converter, the AD converter is connected with a No. fifteen pin of the controller through a No. six pin, and the AD converter is connected with the temperature sensor and the illuminance detector through a No. three pin; the model of the temperature sensor is SHT20, and the illuminance detector is an Egweis high-precision digital illuminometer, can accurately acquire required detection parameters, converts the required detection parameters into a type which can be recognized by the controller, and transmits the type to the controller in real time.

Preferably, the model of the GPRS communicator is SIM800C, 42 pins are arranged on the GPRS communicator, a pin one of the GPRS communicator is connected with a pin twenty-first of the controller through a third resistor, a pin two of the GPRS communicator is connected with a pin twenty-first of the controller through a fourth resistor, a pin six of the GPRS communicator is connected with a pin twenty-second of the controller through a fifth resistor, and a sixth resistor and a seventh resistor which are connected in parallel are arranged between the pin two and the pin six of the GPRS communicator; the GPRS communicator is connected with the SIM card through a pin fifteen, a pin sixteen, a pin seventeen and a pin eighteen, a fourth capacitor, a fifth capacitor and a sixth capacitor are respectively arranged on the pin fifteen, the pin sixteen and the pin seventeen of the GPRS communicator, a seventh capacitor is connected on the pin eighteenth of the GPRS communicator, an antenna is arranged on the pin thirty-two of the GPRS communicator, a wireless communication network is established between the controller and an upper computer, remote transmission of detection data is facilitated, and a worker can timely acquire required detection data.

Preferably, the model of the timer is DS1302, 8 pins are arranged on the timer, a fourth resistor and a fourth capacitor which are connected in parallel are arranged between a pin six and a pin seven of the timer, the pin seven of the timer is connected with a pin forty-five of the controller, a corresponding detection period can be set according to the actual requirements of workers, and generally, the time period of each detection is 90 minutes, so that the performances and the qualities of the consumption emergency lamp and the self-generating light-accumulating indication sticker can be basically and accurately detected.

During actual use, when detection operation of the self-generating light-storing indication sticker is carried out, the base body 1 is moved to a position to be detected, the self-generating light-storing indication sticker to be detected is placed in the polygonal through hole 8, the controller drives the linear push rod 4 to move through the driver, a dark sealed detection space is formed between the base body 1 and the sealing buckle cover 2 under the action of the meshed closed teeth 3, interference of external penetration and light removal is avoided, the detection space is completely sealed by matching with the limiting groove 5 and the limiting arc 6, the position of the limiting arc can be detected by the proximity switch 7, the limiting arc 6 is guaranteed to move in place, and misoperation is avoided; the controller sends a control instruction to the timer, the timer sets a specific time detection period, a specific illuminance parameter is detected in real time in the whole detection period, and whether the quality of the self-generating light-storing indication sticker meets the normal use requirement or not is judged according to the change of the illuminance parameter; the detected data parameters can be uploaded to an upper computer and a display instrument of a worker in real time, so that the worker can obtain required information in time.

And when carrying out the testing operation to fire control emergency light, the testing process is unanimous basically, for better promotion detection effect, adsorbs fixed shading cloth 10 through magnet 9, guarantees that the testing environment is in among the dark to place the fire control emergency light inside the airtight space that base member 1 and sealed buckle closure 2 formed completely.

Because the detection time is generally longer, a radiator is required to be arranged to effectively reduce the temperature rise of the inner space, so that the whole equipment can run stably.

In conclusion, the intelligent monitoring and detecting equipment for the fire-fighting emergency lamp in the embodiment of the invention is based on the integrated control principle of the single-chip microcomputer controller, and is matched with corresponding structural components and various types of electrical elements, so that a completely closed dark environment can be constructed and formed for detection of workers, the influence of the external environment on the detection result is reduced to the maximum extent, and the detection result is guaranteed to be true and effective; simultaneously, degree of automation is higher, makes things convenient for the staff to carry out the settlement of check-out time and controls, can obtain multiunit detection data in a detection cycle, promotes the detection precision, realizes conveniently promoting fire control emergency light or the accurate aassessment of holding the light instruction subsides from electricity generation, and the application scene is extensive, and the suitability is strong.

The above-described embodiments should not be construed as limiting the scope of the invention, and any alternative modifications or alterations to the embodiments of the present invention will be apparent to those skilled in the art.

The present invention is not described in detail, but is known to those skilled in the art.

Claims (10)

1. Fire emergency light intelligent supervision check out test set, its characterized in that: the device comprises a base body and a sealing buckle cover, wherein a plurality of closing teeth are respectively arranged on two sides of the base body and two sides of the bottom of the sealing buckle cover at equal intervals, and the closing teeth are meshed with each other to form a dark sealing detection space between the base body and the sealing buckle cover; the base body is connected with the sealing buckle cover through a plurality of linear push rods, and the linear push rods are used for driving the sealing buckle cover to lift; two ends of the base body are respectively provided with a limiting groove, and two ends of the sealing buckle cover are respectively provided with a limiting arc matched with the limiting grooves; proximity switches are obliquely arranged on the base bodies on the two sides of the limiting groove respectively and are used for detecting position parameters of the limiting arc; the bottom of the base body is provided with a plurality of deformation through holes, and the through holes are used for placing a fire-fighting emergency lamp to be detected or a self-generating light-storing indication sticker; the device comprises a base body and is characterized in that a controller is arranged in the base body, the controller is connected with a temperature sensor and a illuminance detector through an AD converter, the temperature sensor is used for detecting temperature parameters of a fire-fighting emergency lamp, and the illuminance detector is used for detecting illuminance parameters of the fire-fighting emergency lamp or a self-generating light-storing indication sticker.

2. The intelligent supervision and detection device for the fire emergency lamp according to claim 1, characterized in that: and a plurality of magnets are uniformly distributed on the outer side of the polygonal through hole and are used for adsorbing and fixing the shading cloth.

3. The intelligent supervision and detection device for the fire emergency lamp according to claim 1, characterized in that: and the closed teeth at the bottom of the sealing buckle cover are respectively provided with a buffer rubber pad.

4. The intelligent supervision and detection device for the fire emergency lamp according to claim 1, characterized in that: the controller is connected with a command input device and a radiator, the command input device is used for transmitting a control command to the controller, and the radiator is used for reducing the temperature rise in the sealed detection space; the controller passes through the driver and links to each other with sharp push rod, still is connected with the time-recorder on the controller, the time-recorder is used for taking notes check-out time, is connected with the display instrument through the communication line on the controller, the controller is connected with the host computer through the GPRS communicator to carry out the teletransmission of testing data.

5. The intelligent supervision and detection device for the fire emergency lamp according to claim 4, characterized in that: the model of controller is STM32F103C8T6, is equipped with 64 pins on the controller, the controller links to each other with the instruction input ware through No. four pins, the controller links to each other with the radiator through No. ten pins and No. eleven pin, the controller links to each other with the AD converter through No. fifteen pins, the controller links to each other with the GPRS communicator through No. twenty pin, No. twenty-one pin and No. twenty-two pin, the controller links to each other with the reality instrument through No. thirty-three pin, the controller links to each other with the driver through No. thirty-eight pin, the controller links to each other with proximity switch through No. forty pin, the controller links to each other with the time-recorder through No. forty-five pins.

6. The intelligent supervision and detection device for the fire emergency lamp according to claim 5, characterized in that: the model of the instruction input device is TLP290, four pins are arranged on the instruction input device, the first pin of the instruction input device is a control instruction input pin, a ninth resistor, a tenth resistor and a fourth capacitor are connected in parallel between the first pin and the second pin of the instruction input device, a fifth capacitor and an eighth resistor are connected in parallel between the third pin and the fourth pin of the instruction input device, and the third pin of the instruction input device is connected with the fourth pin of the controller.

7. The intelligent supervision and detection device for the fire emergency lamp according to claim 5, characterized in that: the type of the radiator is TC4427, 8 pins are arranged on the radiator, the second pin of the radiator is connected with the tenth pin of the controller, the fourth pin of the radiator is connected with the eleventh pin of the controller, and the fifth pin of the radiator is connected with a cooling fan through a first resistor, a second resistor and an MOS (metal oxide semiconductor) tube which are connected in parallel.

8. The intelligent supervision and detection device for the fire emergency lamp according to claim 5, characterized in that: the AD converter is characterized in that the model of the AD converter is AD8551, 8 pins are arranged on the AD converter, the AD converter is connected with a No. fifteen pin of the controller through a No. six pin, and the AD converter is connected with the temperature sensor and the illuminance detector through a No. three pin; the type of the temperature sensor is SHT20, and the illuminance detector is an Evos high-precision digital illuminometer.

9. The intelligent supervision and detection device for the fire emergency lamp according to claim 5, characterized in that: the type of the GPRS communicator is SIM800C, 42 pins are arranged on the GPRS communicator, a first pin of the GPRS communicator is connected with a twenty-first pin of a controller through a third resistor, a second pin of the GPRS communicator is connected with a twenty-first pin of the controller through a fourth resistor, a sixth pin of the GPRS communicator is connected with a twenty-second pin of the controller through a fifth resistor, and a sixth resistor and a seventh resistor which are connected in parallel are arranged between the second pin and the sixth pin of the GPRS communicator; the GPRS communicator is connected with an SIM card through a pin fifteen, a pin sixteen, a pin seventeen and a pin eighteen, a fourth capacitor, a fifth capacitor and a sixth capacitor are respectively arranged on the pin fifteen, the pin sixteen and the pin seventeen of the GPRS communicator, a seventh capacitor is connected on the pin eighteen of the GPRS communicator, and an antenna is arranged on the pin thirty-two of the GPRS communicator.

10. The intelligent supervision and detection device for the fire emergency lamp according to claim 5, characterized in that: the driver is in a ULN2003 model, 16 pins are arranged on the driver, the driver is connected with thirty-eight pins of the controller through a first pin, a first relay is connected with a sixteen pin of the driver, a first resistor and a first diode which are connected in parallel are arranged on the first relay, and a linear push rod interface is arranged on the first relay; the type of the timer is DS1302, 8 pins are arranged on the timer, a fourth resistor and a fourth capacitor which are connected in parallel are arranged between a sixth pin and a seventh pin of the timer, and the seventh pin of the timer is connected with a forty-five pin of the controller.

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