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CN214475430U - Multi-strategy tunnel optical interception system - Google Patents

Multi-strategy tunnel optical interception system Download PDF

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Publication number
CN214475430U
CN214475430U CN202120767640.0U CN202120767640U CN214475430U CN 214475430 U CN214475430 U CN 214475430U CN 202120767640 U CN202120767640 U CN 202120767640U CN 214475430 U CN214475430 U CN 214475430U
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tunnel
light
led lamp
interception
intercepting
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张一鸣
李赟鹏
王雪雅
李婧
高宇
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Hebei University of Technology
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Hebei University of Technology
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Abstract

The utility model discloses a many tactics optics interception system. The intercepting system comprises a light curtain structure and/or a grating structure which are arranged at an entrance and exit hole of the tunnel, and a projection spotlight which is arranged at the top in the tunnel and is positioned at an adjacent lane; a plurality of projection spot lamps are arranged along the length direction of the tunnel; the light source of the light curtain structure and/or the grating structure is a vertically downward light source. The multi-strategy optical arresting system forms a plurality of optical barriers through the light curtain and the projection lamp, so that on one hand, the following vehicles can be reminded that the vehicles cannot pass in front and can be avoided immediately; the tunnel fire fighting is guaranteed, and the smooth traffic is guaranteed to the greatest extent; on the other hand, by adopting an optical blocking means, even if the subsequent vehicles are braked or are not avoided timely, the vehicles cannot be damaged when the vehicles are driven in. The system can effectively reduce the danger of manually arranging the obstacles, and simultaneously intercepts in a more striking way, ensures the effectiveness of an interception place, and also maximally reduces the damage of the interception device to the place which can not avoid and drive in the vehicle.

Description

Multi-strategy tunnel optical interception system
Technical Field
The utility model relates to a geotechnical engineering technical field specifically is a multi-strategy tunnel optics interception system.
Background
Along with the development of transportation, people increasingly use vehicles and roads. The increase of vehicles makes people have more difficulty in dealing with the problems of road maintenance, traffic accidents, fire disasters and the like in tunnels. Particularly on a highway, when a vehicle runs fast, if a front accident happens, an intercepting or warning device needs to be arranged, so that a secondary accident caused by untimely braking of the vehicle is avoided. Due to the particularity of the tunnel, the processing difficulty after an accident is higher, and firstly, the environment brightness is low, the driving visibility is low, and the accident potential exists; secondly, the environmental noise is large, the normal thinking judgment and the reaction capability of a driver are influenced, and potential safety hazards exist; thirdly, if the warning or the interception is not timely, secondary accidents are easy to happen, however, the closed environment in the tunnel has space limitation, and interlinked accidents can be caused, and the consequences are serious; and fourthly, traffic management and scheduling are difficult, when an accident occurs, a tunnel needs to be closed for induced evacuation, the time required for the induced evacuation is long, and traffic jam and the like are inevitably caused. The traditional interception means is easy to cause the problems of no effect of means due to the problems of untimely interception warning, unobvious warning marks and the like, and can also cause the problems of traffic jam, interlinking accidents and the like. Therefore, after an accident occurs in the tunnel, in order to avoid serious adverse effects of traffic jam, fire-fighting vehicle rescue difficulty and interlink accidents caused by vehicle driving, the accident can be effectively solved in time, and it is necessary to install a multi-strategy tunnel optical interception system.
The traditional interception method is generally that an accident warning board, a guardrail, an anti-collision barrel, a roadblock warning lamp and the like are arranged before a tunnel entrance or an accident scene, warning signs are not obvious and warning is not timely, and the traditional interception method is solid, so that once a vehicle is braked untimely, the vehicle collides with an obstacle, and a driver is injured. Basically, the traditional road interception means are strong interception, and the driver easily rushes out of an interception position due to untimely reaction, so that the set interception device is damaged, and danger is caused. Subsequent vehicles do not get early warning of danger and continue to enter, so that secondary accidents are caused, and more serious traffic jam can be caused.
In the prior art, a speed-measuring telescopic type barrier stopping device is used for arranging a liftable barrier stopping device at the bottom of a road, when a vehicle normally runs and does not overspeed, the road is in a flat state, only bumping can be generated aiming at overspeed vehicles, when overspeed vehicles are detected, the barrier stopping device is lifted to perform speed reduction prompting and processing, and a stopping device capable of forcibly stopping is arranged aiming at overspeed vehicles which are not subjected to speed reduction through multiple times of barrier prompting. Such devices do not provide advance warning information to the driver and may cause danger of directional runaway due to a suddenly rising barrier when the driver is traveling faster. For the prior art, a multi-strategy tunnel optical interception system is lacked, on one hand, the system can effectively remind the following vehicles that the vehicles cannot pass in front in time and avoid immediately, so that the fire fighting channel is ensured to be smooth and unobstructed, dangerous accidents are treated in time, and meanwhile, lanes without accidents can be reasonably utilized, so that the smooth traffic is ensured as much as possible; on the other hand, the optical blocking means is adopted, compared with the traditional method for setting physical barriers and warning boards, the method not only enables a driver to visually receive the traffic prohibition information and take measures to avoid influencing accident treatment in the tunnel, but also prevents the vehicle from being damaged when the vehicle drives in even if the subsequent vehicle is braked or avoided untimely, and the multiple blocking means work together to block the vehicle more efficiently, which is an important research subject at present.
SUMMERY OF THE UTILITY MODEL
The technical problem to be solved by the present invention is to provide a multi-strategy tunnel optical interception system and a method of use. The utility model aims at providing an adopt optical technology to form the optics interception system in multiple method realization tunnel. The light curtain and the projection shadow lamp are adopted, the visibility of light is utilized, and the system is matched with the system arranged in the tunnel, so that the purposes of fire alarm and dangerous accident alarm in the tunnel are realized, the problem that when dangerous events such as fire, car accidents and the like occur in the tunnel, the alarm is given in time is effectively solved, and the problems of accident enlargement, tunnel congestion, serious property loss, inconvenience in personnel rescue and treatment and the like caused by the fact that people find vehicles cannot enter the tunnel timely or not intercept the vehicles in time are solved.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
in a first aspect, the utility model provides a multi-strategy tunnel optics interception system, its characterized in that: the intercepting system comprises a light curtain structure and/or a grating structure which are arranged at an entrance and exit hole of the tunnel, and a projection spotlight which is arranged at the top in the tunnel and is positioned at an adjacent lane;
a plurality of projection spot lamps are arranged along the length direction of the tunnel;
the light source of the light curtain structure and/or the grating structure is a vertically downward light source.
The light curtain structure or the grating structure comprises a plurality of spotlights, the plurality of spotlights are arranged at intervals along the arc-shaped contour of the top of the tunnel portal, each light curtain comprises a light source, a light-transmitting lampshade and a condensing lens, the light source is converted into a parallel light source by the light-transmitting lampshade 20 and the condensing lens 19 by utilizing the lens light refraction principle, and the parallel light source vertically irradiates the ground; the light emitting areas of the spotlights are overlapped with each other to form a light curtain structure, and the overlapping areas among the spotlights do not exist to form a grating structure.
The tunnel is internally provided with a plurality of lanes, all the spot lamps arranged in each lane area are connected in series, and the spot lamps in different lanes are connected in parallel, so that the light curtain structure or the grating structure of each lane can be selectively opened or closed when an accident happens.
The interception system also comprises an atomizer, preferably an ultrasonic atomizer, the number of said atomizers being a plurality, the atomizer being arranged between two adjacent spotlights.
The spotlight comprises LED lamp beads 17, an LED lamp panel 18, a condenser lens 19 and a light-transmitting lampshade 20, wherein the size of the LED lamp panel 18 is 80mm x 80mm, the interior of the spotlight is composed of 4 LED lamp beads 17 with the model of EMC2016 red light, the LED lamp beads are distributed at four corners of the LED lamp panel 18, the LED lamp panel 18 is vertically arranged at the top of a tunnel opening, and parallel light emitted by the LED lamp beads is vertically emitted to the ground; each LED lamp panel 18 is provided with a condenser lens 19 and a light-transmitting lampshade 20, a convex rod is arranged in the middle of the LED lamp panel 18, a groove is formed in the bottom of the condenser lens 19, and the condenser lens is fixedly arranged in the middle of the LED lamp panel 18 through the matching of the convex rod and the groove; the LED lamp panel 18 is vertically illuminated to the ground, and the condensing lens 19 and the light-transmitting lampshade 20 are fixedly sleeved on the outer side of the LED lamp panel 18.
The projection lamps can rotate 360 degrees on respective projection lamp supports, the projection lamps project in different directions according to the positions of accidents, the projection lamps 15 are connected in parallel, the positions and the number of the projection lamps 15 can be selected to be turned on after the specific positions of the accidents are determined through the monitoring device 2, and then the left-handed rotation or the right-handed rotation of 90 degrees are controlled to project red traffic prohibition characters on the ground of a specific lane.
In a second aspect, the utility model provides a multi-strategy tunnel optical interception system, which is characterized in that the interception system comprises a power supply device 1, a monitoring device 2, a control device 3 and an interception device,
the power supply device supplies power to the monitoring device and the intercepting device;
the monitoring device is used for monitoring whether a fire disaster occurs or not and whether an accident occurs or not and sending an alarm signal to the control device;
the control device is used for controlling the work of each device;
the intercepting device comprises a first heavy optical intercepting device at the position of the tunnel opening, a second heavy optical intercepting device in the tunnel opening and a water mist intercepting device at the tunnel opening;
the intercepting device realizes multi-strategy interception of the vehicle in a multi-optical interception and water mist interception mode.
The energy supply device adopts a solar charging lithium battery pack, when the solar photovoltaic panel receives sunlight, solar energy is converted into electric energy to generate induction current, the electric current realizes storage management of the electric quantity of the charging battery through the charging and discharging management unit, and the input end of the lithium battery is connected with the solar photovoltaic panel outside the tunnel opening, so that the aim of maintaining the power supply of the whole system is fulfilled;
the solar photovoltaic panel 5 is arranged in a region with stronger light and sufficient sunshine time outside the tunnel portal, adopts a 28010 model and is 20m2The working voltage is 5V, and the current is about 100 mA; the charging and discharging management unit adopts a CN3063 chip to realize charging and discharging management, the charging and discharging management unit is automatically adjusted to be charging current according to the current output capacity of the rechargeable battery, the CN3063 charging voltage is 4.2V, when the charging voltage does not exist, the working current of the rechargeable lithium battery is lower than 3 mu A, the chip automatically enters a sleep mode, and the energy consumption is effectively reduced;
the monitoring device monitors whether an abnormal phenomenon occurs in the tunnel; after the monitoring device is installed in the tunnel, the position is fixed to form a network, the specific position of the tunnel accident can be accurately monitored, when the monitoring device monitors that an abnormal phenomenon occurs in the tunnel, the monitoring device sends out an alarm signal, and after artificial confirmation, subsequent operation is continued;
the monitoring device preferably selects a remote monitoring camera, a fiber grating fire detector, an infrared geminate transistor monitoring array and a Zigbee network to monitor and warn dangerous accidents, supports the data communication of the whole system by constructing the Zigbee network in the tunnel,
the fiber bragg grating fire detectors are arranged in the middle of the tunnel in a single row, the distance between every two adjacent fiber bragg grating fire detectors is 10m, the distance between every two adjacent groups of infrared pair tubes is 2m, the infrared pair tubes are arranged on the tunnel walls on the two sides of the tunnel at a height of 1m from the ground, a Zigbee network is built in the tunnel to support data communication of the whole system, the infrared pair tubes are distributed on the two sides of the tunnel to form monitoring arrays according to the above, after an accident occurs, obstacles in the tunnel can stand still in the tunnel, the infrared pair tube arrays are shielded, signal blocking and high level output continuously occur, and alarm processing can be automatically sent out; when a fire disaster is monitored, the fiber bragg grating fire detector sends out an alarm signal, and an alarm instruction is uploaded through a Zigbee network to determine the position of the accident;
installing remote monitoring cameras in the tunnel, wherein one remote monitoring camera is installed every 50m and is electrically connected with the control device, checking and confirming whether an accident occurs and the position of the accident through the remote monitoring camera connected with a computer after a detector gives an alarm so as to open an intercepting device in time and specifically according to the position of the accident, and meanwhile, the remote monitoring cameras have a video storage function and are used for determining accident responsibility and solving accident disputes;
the switches of all the components of the intercepting device are electrically connected with the control device, and the components of the intercepting device are selectively started through the control device to perform multi-strategy optical interception.
The third aspect of the present invention provides a method for using a multi-strategy tunnel optical interception system, which is characterized in that the method comprises the steps of:
(1) connecting the monitoring device and the intercepting device in the tunnel with the control device to complete initial setting; the intercepting device comprises a light curtain structure and/or a grating structure which are arranged at the entrance and exit of the tunnel, and a projection spotlight which is arranged at the top in the tunnel and is positioned at the adjacent lane;
(2) the method comprises the steps that a manager monitors whether an alarm occurs at a terminal, namely whether a fire or an accident occurs or not, and sends an alarm signal, after the manager receives the alarm signal at the terminal, the manager confirms the number of a monitoring device at the alarm position through the terminal, calls out the video monitoring of the alarm position, and further determines whether the fire or the accident occurs and the specific position;
(3) after the accident is confirmed, a manager opens a light curtain structure and/or a grating structure of a corresponding lane in the intercepting device through the control device, a light curtain and/or a grating is formed at a tunnel entrance of the corresponding lane, and light beams vertically irradiate the ground to perform first optical interception;
according to the position of an accident, simultaneously starting a top projection spotlight at the position close to the accident occurrence position of the tunnel, adjusting the projection spotlight at a terminal by a manager, rotating the projection spotlight to the lane of the accident by rotating the projection spotlight by 90 degrees leftwards or by 90 degrees rightwards, projecting red characters which are forbidden to pass to the ground, and optically intercepting the red characters;
(4) after the fire disaster is confirmed, all light curtain structures and/or grating structures in the intercepting device are opened by a manager through the control device, a light curtain and/or a grating is formed at the tunnel entrance, and first optical interception is carried out; meanwhile, all the projection spot lamps rotate 90 degrees alternately, red 'no-pass' words are projected alternately to the left lane and the right lane of the projection spot lamps, and second optical interception is carried out, so that the closed tunnel is realized.
Arranging an atomizer between two adjacent spot lights, and starting the atomizers at the same time at the lane position where the accident is confirmed in the daytime; or after the fire disaster is confirmed in the daytime, all the atomizers are opened to form water mist to reduce the light dispersion and enhance the warning effect.
The power supply device is placed at a position where light rays are sufficient outside the tunnel, the size of a solar photovoltaic panel of the power supply device is 20 square meters, the model 28010 is suggested to be adopted, solar energy is converted into electric energy, an infrared pair tube monitoring array detection system of the monitoring device comprises a plurality of groups of infrared pair tubes, an IR333C-A infrared emission tube and a PT333-3B infrared receiving tube are adopted, the distance between each group of infrared pair tubes is 2m, and the height between each group of infrared pair tubes and the ground is 1m, and the infrared pair tubes are arranged on tunnel walls on two sides of the tunnel. The fiber bragg grating fire detectors in the monitoring device are of a PI-FBGB3 model and are arranged in the middle of the tunnel in a single row at intervals of 2.5m, and each fiber bragg grating fire detector 8 is arranged at a distance of 0.5m from the top end of the tunnel. The remote monitoring camera of the monitoring device is model ES-WIP650YA, installed one every 50 m. The light curtain in the intercepting device is arranged at the entrance and exit hole and arranged along the arc top wall of the hole, and each lane is provided with an LED lamp panel with the size of 80mm multiplied by 80mm according to every 500mm, wherein the interior of the LED lamp panel is formed by 4 LED lamp beads with the model number of EMC2016 red light, as shown in figure 5. Ultrasonic atomization ware in the light curtain arranges the midpoint department at two adjacent LED lamp plates, and two adjacent ultrasonic atomization wares are 500mm along the interval of tunnel width direction promptly. Projection spotlights in the intercepting device are arranged at adjacent lanes and arranged along the length direction of the tunnel, and are arranged from 2m inward from the entrance and exit of the tunnel, and one projection spotlight is arranged every 50 m.
The utility model provides a tunnel take place the invalid problem of traditional method interception vehicle behind the dangerous accident, compare with prior art, have following advantage:
1. the utility model adopts a multi-strategy interception form, and when the first interception defensive line is invalid, the subsequent defensive line still exists, thus ensuring the interception effect;
2. the utility model adopts a novel interception means, fully utilizes means such as light and fog, and utilizes potential danger signals such as water fog (atomizer) and red light (projection spotlight) to effectively remind passing vehicles in time so as to ensure the fire fighting passage to be smooth;
3. compared with the traditional intercepting means, the utility model can reasonably utilize the lane without accidents, and ensure the smooth road traffic as much as possible while sealing the necessary lane;
4. compared with the traditional interception means, the utility model not only can make the driver more intuitively accept the no-pass information and take measures to avoid influencing the accident treatment in the tunnel, but also can not damage the vehicle and the personnel when the subsequent vehicle is braked or avoided untimely;
5. the utility model has low overall power consumption, adopts solar energy for power supply, is low-carbon and environment-friendly, and can ensure long-term working state;
6. the utility model discloses simple structure, high efficiency, adverse circumstances such as suitable tunnel, the durability is high. And the raise dust in the tunnel can further promote the display effect of projection lamp.
7. The utility model carries out preliminary positioning to the position where the accident occurs through the detection device, and can arrange effective interception measures in time;
8. the utility model discloses the sensor that interception system originally laid in can the lug connection tunnel (if fire smoke alarm, fiber grating detector, if do not lay in the tunnel, increase required infrared geminate transistor array), can upgrade the transformation to current tunnel, reduce cost is favorable to promoting the digital process of china's tunnel traffic.
The utility model discloses a multi-strategy tunnel optics interception system and application method to form such as photoelectricity picture and text and water smoke realize neotype interception, fully considered the adverse circumstances in the tunnel (big like the difference in temperature round the clock in tunnel), the structure is complete, and the suitability is strong. By applying the light energy power supply technology, the infrared laser array technology and the light shadow effect, the vehicle can be effectively intercepted while the accident position is accurately positioned, if the passing vehicle is not in time, the vehicle and the driver can not be injured when the passing vehicle drives into the water mist, the safety is higher, the secondary accident can not be caused, only the atomizer is arranged at the entrance of the tunnel, the water is atomized, generates suspended fine water drops in the air so as to improve the display effect of the light curtain in the daytime, secondly, the visibility of the water mist is used for forming the water mist similar to that formed by an air humidifier in the air to remind passing vehicles, the influence of too much water curtain on sight is avoided, compared with the traditional intercepting device, the device has better interception effect, is more intelligent and has timeliness, reduces the potential danger caused by artificial arrangement of the interception device, and provides scientific guidance for the intelligent research of tunnel traffic.
Drawings
FIG. 1 is a block diagram of the multi-strategy optical interception system of the present invention;
FIG. 2 is a flowchart illustrating the operation of the multi-strategy optical interception system of the present invention;
fig. 3 is a schematic plan view illustrating the installation of each device of the tunnel in the multi-strategy optical interception system of the present invention; the dimensions in the figure are in mm;
FIG. 4 is a schematic view of the H-H section structure of each device installed in the tunnel of the multi-strategy optical interception system of the present invention;
fig. 5 is a schematic structural diagram of a spotlight of the multi-strategy optical interception system of the present invention;
in the figure: a power supply device 1, a solar photovoltaic panel 5, a charge and discharge management unit 6 and a lithium battery 7,
the system comprises a monitoring device 2, a fiber bragg grating detector 8, an infrared transmitting tube 9, an infrared receiving tube 12, a Zigbee network 10 and a remote monitoring camera 11;
a control device 3;
intercepting device 4, spotlight 14, projection shot-light 15, ultrasonic nebulizer 16, LED lamp pearl 17, LED lamp plate 18, condensing lens 19, light lampshade 20.
Detailed Description
The present invention will be further explained with reference to the drawings and examples.
The utility model relates to a many tactics tunnel optics interception system, this system include power supply unit 1, monitoring devices 2, controlling means 3, intercepting device 4. The power supply device 1 supplies power to the whole system; when the monitoring device 2 monitors dangerous accidents such as fire and car accidents, an alarm signal is sent to the control device 3, and a manager immediately checks and confirms the accident occurrence position after hearing the alarm signal; the control device 3 controls the actions of each device; the intercepting device 4 starts or closes the intercepting device 4 according to the instruction of the control device 3, so that the aims of timely intercepting vehicles and warning when dangerous accidents happen are fulfilled.
Respectively installing each component of the multi-strategy tunnel optical interception system on the tunnel along the length direction of the tunnel; when the monitoring device is in the sun, the power supply device absorbs sunlight, solar radiation energy is converted into electric energy through the photoelectric effect, the storage battery is charged and stored, and then energy is supplied to all components of the monitoring device and the intercepting device; after the monitoring device is installed in the tunnel, the position is fixed to form a monitoring network, so that the specific position of the tunnel accident can be accurately positioned; when the monitoring device monitors that an abnormal phenomenon occurs in the tunnel, the monitoring device sends an alarm signal, the control device is connected with a Zigbee network provided by the monitoring device to further control and check each component of the monitoring device, CAMS for HIS integrated alarm management software of the control device automatically pops out prompt information and sends out alarm sound when an accident occurs, a manager remotely checks whether the accident occurs through a remote camera connected with a computer, after the accident occurs, the intercepting device is remotely controlled through the control device, a light curtain of the intercepting device of the left lane or the right lane is opened according to the specific position of the accident, and the deviation of a projection spotlight in the intercepting device is controlled to realize the projection of a 'no-pass' word on the ground; if a fire disaster happens, the control device simultaneously opens the intercepting devices of all lanes to realize the sealing work of the whole tunnel.
The power supply device 1 is a power supply system installed in a tunnel. The power supply device 1 is a group of storage battery sets charged by solar energy, and comprises a solar photovoltaic panel 5, a charging and discharging management unit 6 and a lithium battery 7. The solar photovoltaic panel 5 is 28010 type, has a design size of 20 square meters, a working voltage of 5V and a current of about 100mA, and is arranged outside a tunnel opening in a region with strong light and sufficient sunshine time; the charging and discharging management unit 6 adopts a CN3063 chip to realize charging and discharging management, the charging and discharging management can be automatically adjusted to be charging current according to the current output capacity of a charging battery, the CN3063 charging voltage is 4.2V, when the charging voltage does not exist, the working current of the charging lithium battery is lower than 3uA, the chip automatically enters a sleep mode, and the energy consumption can be effectively reduced; the lithium battery 7 adopts a model ICR18650, and the voltage is 3.7V. When the solar photovoltaic panel 5 receives sunlight, solar energy is converted into electric energy to generate induced current, the electric energy is stored and managed by the charging and discharging management unit 6, resources are effectively saved, the charging and discharging management unit 6 can prevent the lithium battery 7 from being affected irreversibly by over-charging and over-discharging, and the service life of the lithium battery 7 is prolonged. The input end of the lithium battery 7 is connected with the solar photovoltaic panel 1 outside the tunnel portal, the induced current generated by the solar photovoltaic panel 1 is used for charging the lithium battery 3 of the sensing node through the charging and discharging management unit 2, the electric energy is stored, and the purpose of supplying power to the whole system and maintaining work is achieved.
The monitoring device 2 is a device for monitoring dangerous accidents such as fire disasters, car accidents and the like in the tunnel. Because the development of the areas in China is unbalanced and the construction degree of the tunnel engineering is different, the monitoring device 2 is divided into two situations. If the tunnel is provided with a fire and accident detector, the control device is connected with the original detector. When the detector sends an alarm signal, after the monitoring center manager confirms that a dangerous accident occurs, the control device 3 at the computer end is used for remotely controlling the intercepting device 4 artificially to perform optical interception. If the tunnel is not equipped with conflagration and accident detection ware, the utility model discloses the suggestion adopts fiber grating fire detector 8, infrared geminate transistor monitoring array, Zigbee network 10 to carry out dangerous accident monitoring such as conflagration and car accident and warn, and infrared geminate transistor monitoring array comprises infrared geminate transistors 12 of N group, and every infrared geminate transistor of group contains two devices: the infrared transmitting tube 9 and the infrared receiving tube 12 adopt a remote monitoring camera 11 to confirm the accident. The fiber grating fire detectors 8 are of PI-FBGB3 type and are arranged in the middle of the tunnel in a single row at intervals of 2.5m, and the fiber grating fire detectors 8 are arranged in the length direction of the tunnel at a distance of 0.5m from the top end of the tunnel. The fiber grating fire detector 8 has good anti-interference capability and high reliability, and can accurately monitor whether a fire disaster occurs. The infrared pair tube monitoring array consists of a plurality of groups of infrared pair tubes, the infrared emitting tubes of types IR333C-A and the infrared receiving tubes of types PT333-3B are adopted, the distance between each group of infrared pair tubes is 2m, and the infrared pair tubes are arranged on the tunnel walls at two sides of the tunnel at the height of 1m from the ground. The infrared geminate transistors monitoring array supports data communication of the whole system by building the Zigbee network 10 in the tunnel, the infrared geminate transistors are distributed on two sides of the tunnel to form the monitoring array, after an accident generally occurs, a barrier in the tunnel can be static in the tunnel, the infrared geminate transistors array is shielded, signals are continuously generated to block and output high level, an alarm can be automatically sent out, and an alarm instruction is uploaded through the Zigbee network 10. Remote monitoring cameras 11 (the monitoring is arranged in a common tunnel in China and can be directly used) with the model of ES-WIP650YA are arranged in a single row in the middle of the tunnel, one monitoring camera is arranged every 50m, when the fiber bragg grating fire detector 8 alarms, a manager checks and confirms whether an accident occurs and the position of the accident through the remote monitoring camera 11 connected with a computer, so that the intercepting device 3 can be opened in time, and meanwhile, the remote monitoring cameras 11 have a video storage function and can be used for determining accident responsibility and solving accident disputes. After the fiber grating fire detector 8 and the infrared geminate transistor monitoring array are installed in the tunnel, the positions are fixed to form a network, so that the accurate position of the tunnel accident can be accurately positioned, monitoring personnel can specifically determine which lane nearby fiber grating fire detector 8 or infrared geminate transistor 12 gives an alarm through video monitoring identification obtained by a remote monitoring camera 11 and connected with a computer, and after the accident is determined to be really generated, the lane intercepting device 4 for the accident is remotely controlled to be started through a computer-side control device 3 to perform optical interception. The fiber grating fire detector 8 mainly alarms according to the change of the temperature in the tunnel, and is only arranged at the top of the tunnel and penetrates through the whole tunnel for the fire in the tunnel. Once a fire disaster occurs, all lanes of the tunnel are closed, so that only one lane needs to be arranged.
Accident monitoring and interception control software-CAMS for HIS integrated alarm management software for controlling each device work is integrated in the control device 3, and is installed on the computer of the manager of the tunnel monitoring center, and is controlled by computer software CAMS for HIS integrated alarm management software. The control device 3 is connected with the Zigbee network 10 of the monitoring device 2, when the monitoring device 2 sends out an alarm signal, the alarm signal is transmitted to software of the control device through the Zigbee network 10, and the automatic accident prompting frame of the software appears on a computer screen and sends out a prompting sound to prompt a manager to check and confirm the accident. For example, when a traffic accident occurs in the left lane of the tunnel, the fire and accident detector of the monitoring device 2 of the present invention is connected to the control device 3, the fire and accident detector of the monitoring device 2 detects a serious traffic accident occurring near the 12 th detector of the left lane of the tunnel, the 12 th detector transmits an alarm signal to the CAMS for HIS integrated alarm management software of the control device 3 through the Zigbee network 10, the CAMS for HIS integrated alarm management software has an automatic prompt frame and a prompt tone, the manager checks and confirms that the 12 th detector of the left lane of the tunnel has a problem through the CAMS for HIS integrated alarm management software, and confirms the specific position of the accident occurrence through the video monitoring obtained by the remote monitoring camera 11 connected to the computer, and then the control device 3 of the present invention is manually started, according to the monitoring picture fed back by the remote monitoring camera 11, and manually judging the road section needing to start the optical interception. For example, an accident occurs at a position 150m away from the tunnel entrance of the two-lane, and according to the severity of the accident seen by the camera, the whole two-lane or a certain section 140m-160m of the two-lane is manually selected to be closed, and the intercepting device 4 is started to perform multi-strategy optical interception.
The intercepting device 4 adopts a spotlight 14, a projection spotlight 15 and an ultrasonic atomizer 16 to realize multi-strategy optical interception, the spotlight is arranged on the inner side of the top of the tunnel entrance/exit hole, and the projection spotlight 15 is arranged on the top in the tunnel hole. Spotlight 14 includes LED lamp pearl 17, LED lamp plate 18, condensing lens 19, light lampshade 20, can promote the luminance of the light curtain that forms, gathers light to LED lamp pearl simultaneously to parallel light's form shows, forms the effect of the grating fence that similar stage laser spotlight light beam constitutes. The size is that 80 mm's LED lamp plate 18 is inside to constitute by 4 models for the red-colored LED lamp pearls 17 of EMC2016, and the biggest operating voltage of LED lamp pearl 17 is 5V, and power is 0.5w, distributes in 18 four corners of LED lamp plate, and LED lamp plate 18 is arranged perpendicularly in tunnel entrance to a cave top, makes it send parallel light perpendicular directive ground. Each LED lamp panel 18 is provided with a condenser lens 19 and a transparent lampshade 20, and the models of the condenser lens 19 and the transparent lampshade 20 are TJ-35 and T10-1 respectively. The bottom of the condenser lens 19 is provided with a groove which can be arranged at a convex rod in the middle of the LED lamp panel 18 and is distributed in the middle of the LED lamp panel 18; the LED lamp panel 18 shines perpendicularly to ground, and collecting lens 19, light lampshade 20 are fixed to be cup jointed in the LED lamp panel 18 outside, and the light lampshade 20 utilizes the light refraction principle of lens to turn into parallel light source with the light source that LED lamp pearl 17 sent with collecting lens 19 after the installation, forms the spotlight. The vertical downward light source can effectively prevent light pollution, prevent direct injection of human eyes to cause discomfort of a driver, effectively intercept the vehicle at the tunnel entrance and exit, and prevent the vehicle from entering the tunnel. In consideration of the fact that light visibility is weakened in the daytime, the ultrasonic atomizer 16 is arranged beside the spotlight to form water mist to reduce light dispersion, so that the light visibility is improved, the warning effect is enhanced, attention of a driver is better aroused, a first optical and water mist intercepting mode is realized, the 15W projection spotlight 15 with the lamp bead type of Kerui CREE is arranged in the hole, the support of the projection spotlight 15 can rotate 360 degrees, and the change of a projection position can be realized. The spotlight is installed in inside 1m department of tunnel business turn over department, install at the tunnel top, LED lamp plate 18 arranges a plurality ofly along tunnel width direction, horizontal distance between two adjacent LED lamp plates is 0.5m, the luminous zone of a plurality of spotlights overlaps each other and forms the light curtain structure, there is not the overlap region between a plurality of spotlights and forms the grating structure, a plurality of lanes have in the tunnel, all spotlights of installation are established ties in every lane region, the spotlight in each lane adopts parallel connection, selectively open when realizing the accident, close each lane light curtain structure or grating structure. The rotatable projection spot lamps 15 at the top in the tunnel hole are arranged between two adjacent lanes, one projection spot lamp 15 base is arranged every 50m from the entrance and exit of the tunnel, when each projection spot lamp 15 is installed, it is guaranteed that the support of the projection spot lamp 15 is rotated leftwards by 90 degrees to project red no-pass characters on the left lane ground, and simultaneously the support is rotated rightwards by 90 degrees to project red no-pass characters on the right lane ground, the projection spot lamps 15 are connected in parallel, the positions and the number of the projection spot lamps 15 can be selected to be turned on after the specific accident position is determined through the monitoring device 2, and then the left-handed rotation or the right-handed rotation of 90 degrees is controlled to project the red no-pass characters on the specific lane ground. The spotlight and the ultrasonic atomizer 16 are arranged at the top of the tunnel corresponding to each lane of the tunnel entrance and exit, and the lanes are connected in parallel, so that the spotlight can be selectively started or closed in each lane; the projection spot lamps 15 are installed at the top in the tunnel hole and connected in parallel, and each projection spot lamp 15 can be independently started or closed. The intercepting device 4 realizes information transmission through the Zigbee network 10, and if serious fire and other accidents require that the whole tunnel is forbidden to pass, spotlights of lanes at the entrance and the exit of the tunnel can be selectively opened at the same time; in order to increase the warning effect, the projection lamps 15 in the hole are also turned on at the same time, and it is suggested that the projection lamps 15 are alternately rotated by 90 degrees from left to right to project red no-pass words on the lane.
The utility model discloses multi-strategy tunnel optics interception system's application method, this method adopt foretell multi-strategy tunnel optics interception system, and the step is:
(1) connecting the fiber grating fire detector, the infrared geminate transistor monitoring array, the intercepting device and the control device in the tunnel to finish initial setting
(2) The method comprises the steps that a manager monitors whether an alarm occurs at a computer terminal, namely, the fiber grating fire detector monitors abnormal temperature or an infrared geminate transistor monitoring array discovers that a vehicle is standing still for a long time, an alarm signal is sent out, after the manager receives the alarm signal, the manager confirms that the fiber grating fire detector or the infrared geminate transistor at several positions is abnormal through the computer terminal (intelligent equipment loaded with CAMS for HIS integrated alarm management software), and then calls out video monitoring of the positions to further determine whether an accident occurs and the positions of the accident.
(3) After the accident is confirmed, the blocking device is opened by a manager through the control device, a light curtain is formed above the tunnel portal, light beams vertically irradiate the ground, meanwhile, the visibility of the white sky light is enhanced by the aid of the ultrasonic atomizer, and first optical blocking is carried out
(4) If the driver does not pay attention to the light curtain at the tunnel entrance, the driver continues to drive into the tunnel, the top of the tunnel close to the accident occurrence position is provided with a projection spotlight, the manager can adjust the projection spotlight at the computer terminal according to the position of the accident, and the manager can project red characters which are forbidden to pass to the ground by rotating the computer terminal by 90 degrees leftwards or 90 degrees rightwards so as to project the red characters to the lane where the accident occurs and further intercept the red characters;
if a fire occurs, the light curtain structures or the grating structures of all lanes are completely started, the atomizers are selectively started according to the situation, all projection spotlights rotate by 90 degrees alternately, red 'no pass' words are projected to the adjacent lanes for optical interception, and therefore multi-strategy interception is achieved.
The system aims to highlight that when an accident or fire occurs in the tunnel, multi-strategy optical interception is carried out on vehicles coming and going, and unnecessary harm caused by traffic jam or secondary accidents due to the fact that the vehicles drive in is avoided; meanwhile, optical interception is adopted, so that the driving vehicle cannot be damaged, higher safety is realized, and the incidence rate of accidents in the tunnel is reduced; the system comprises a monitoring device (the arrangement positions of infrared geminate transistors in the monitoring device are numbered, accidents are monitored by several infrared geminate transistors, and preliminary accident positioning is carried out according to the number of the infrared geminate transistors and the fixed arrangement distance), a control device and an intercepting device work cooperatively, so that the accurate positioning of the accidents and the rapid and safe interception of vehicles are realized; the adopted interception measures are optical interception, and the dim field condition in the tunnel is effectively responded; various interception measures work together to ensure that the vehicle can be intercepted in advance, so that the safety is higher; the utility model discloses connect the relevant sensor of laying in the tunnel of china at present, be favorable to the process of china's tunnel traffic digitization, have apparent economic value and social value.
Examples
In this embodiment, taking a high-speed tunnel with a north opening and made of tensor stone as an example, the clear width of the tunnel is 13.25m, the clear height of the tunnel is 7.80m, the full length of the left line of the tunnel with the north opening is 1660m, and the full length of the right line is 1550 m. The known solar photovoltaic panel is of a 28010 model, has a design size of 20 square meters, a working voltage of 5V, a current of about 100mA and a solar charging efficiency of 90 percent, and is from 10 am to two pm according to the local sunshine condition. The most abundant illumination, configuration lithium cell are for 60V 3000mAh four, and intercepting device (including all spotlight, projection shot-light and atomizer) power P equals 30W.
(1) The time for one-time charging of the solar photovoltaic panel is as follows:
3000mAh used by one battery, four batteries are connected in parallel, and the total of the four batteries is 12000mAh
Figure BDA0003021412440000091
The average sunshine duration in the area that sets up is about 4h, can satisfy the utility model discloses a demand of charging.
(2) The solar photovoltaic panel can supply the working time of the multi-strategy optical interception system after being charged once:
12000mAh=12Ah
p=12×60=720wh
t=720÷30=24h
but 24h of how tactics tunnel optics interception system worked according to the condition of full power promptly, however after starting optics interception system, monitoring device can be out of work, and power consumption reduces by a wide margin to if meet under the condition of continuous operation, can continue to carry out the solar charging on the second day after maintaining the work load of one day, continuously supply power, promptly the utility model discloses can be in operating condition always.
The utility model discloses the nothing is mentioned the part and is applicable to prior art.

Claims (8)

1. A multi-strategy tunnel optical interception system is characterized in that: the intercepting system comprises a light curtain structure and/or a grating structure which are arranged at an entrance and exit hole of the tunnel, and a projection spotlight which is arranged at the top in the tunnel and is positioned at an adjacent lane;
a plurality of projection spot lamps are arranged along the length direction of the tunnel;
the light source of the light curtain structure and/or the grating structure is a vertically downward light source.
2. The intercepting system of claim 1 wherein the light curtain structure or the grating structure each comprises a plurality of spotlights spaced along the curved profile of the top of the tunnel opening, each light curtain comprising a light source, a light-transmissive cover and a condensing lens, the light source being converted to a collimated light source by the light-transmissive cover and the condensing lens using the principle of light refraction by the lens, the collimated light source being directed vertically towards the ground; the light emitting areas of the spotlights are overlapped with each other to form a light curtain structure, and the overlapping areas among the spotlights do not exist to form a grating structure.
3. The intercepting system according to claim 1, wherein there are multiple lanes in the tunnel, all spotlights installed in each lane area being connected in series, the spotlights in different lanes being connected in parallel, enabling to selectively open or close the respective lane light curtain structure or light barrier structure in case of an accident.
4. The intercepting system according to claim 2, further comprising an atomizer, preferably an ultrasonic atomizer, the number of said atomizers being plural, the atomizer being arranged between two adjacent spotlights.
5. The intercepting system of claim 2, wherein the spotlight comprises LED lamp beads, an LED lamp panel, a condenser lens and a light-transmitting lampshade, the size of the LED lamp panel is 80mm x 80mm, the LED lamp panel is internally composed of 4 LED lamp beads with model number of EMC2016 red light and is distributed at four corners of the LED lamp panel, and the LED lamp panel is vertically arranged at the top of the tunnel opening so that parallel light emitted by the LED lamp beads is vertically emitted to the ground; each LED lamp panel is provided with a condensing lens and a light-transmitting lampshade, a convex rod is arranged in the middle of the LED lamp panel, a groove is formed in the bottom of the condensing lens, and the condensing lens is fixedly arranged in the middle of the LED lamp panel through the matching of the convex rod and the groove; the LED lamp panel vertically shines on the ground, and the condensing lens and the light-transmitting lampshade are fixedly sleeved on the outer side of the LED lamp panel.
6. The intercepting system according to claim 1, wherein the projection lamps can rotate 360 ° on their respective projection lamp supports to project in different directions according to the location of the accident, the projection lamps are connected in parallel, and the projection lamps can project red no-pass letters on the ground of a specific lane.
7. A multi-strategy tunnel optical interception system is characterized by comprising a power supply device, a monitoring device, a control device and an interception device,
the power supply device supplies power to the monitoring device and the intercepting device;
the monitoring device is used for monitoring whether a fire disaster occurs or not and whether an accident occurs or not and sending an alarm signal to the control device;
the control device is used for controlling the work of each device;
the intercepting device comprises a first heavy optical intercepting device at the position of the tunnel opening, a second heavy optical intercepting device in the tunnel opening and a water mist intercepting device at the tunnel opening;
the intercepting device realizes multi-strategy interception of the vehicle in a multi-optical interception and water mist interception mode.
8. The interception system of claim 7, wherein said power supply means is a solar-charged lithium battery pack;
the solar photovoltaic panel is arranged in a region with sufficient sunshine time at the tunnel portal and adopts a 28010 model and 20m model2The working voltage is 5V, and the current is about 100 mA;
the monitoring device comprises a remote monitoring camera, a fiber bragg grating fire detector, an infrared geminate transistor monitoring array and a Zigbee network,
the fiber bragg grating fire detectors are arranged in the middle of the tunnel in a single row, the distance between every two adjacent fiber bragg grating fire detectors is 10m, the distance between every two adjacent groups of infrared pair transistors is 2m, the infrared pair transistors are arranged on the tunnel walls on the two sides of the tunnel at a height of 1m away from the ground, and the infrared pair transistors are distributed on the two sides of the tunnel to form monitoring arrays; the data communication of the whole system is supported through a Zigbee network;
installing remote monitoring cameras in the tunnel, wherein each remote monitoring camera is installed in every 50m, the remote monitoring cameras are electrically connected with the control device, and the remote monitoring cameras have a video storage function;
the switches of all the components of the intercepting device are electrically connected with the control device, and the components of the intercepting device are selectively started through the control device.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112967472A (en) * 2021-04-15 2021-06-15 河北工业大学 Multi-strategy tunnel optical interception system and use method thereof
CN115602078A (en) * 2022-09-28 2023-01-13 招商局重庆交通科研设计院有限公司(Cn) Tunnel portal and road section all-weather emergency light blocking system based on Tyndall effect

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112967472A (en) * 2021-04-15 2021-06-15 河北工业大学 Multi-strategy tunnel optical interception system and use method thereof
CN115602078A (en) * 2022-09-28 2023-01-13 招商局重庆交通科研设计院有限公司(Cn) Tunnel portal and road section all-weather emergency light blocking system based on Tyndall effect

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