KR20130119179A - Camera strobo flash for traffic enforcement adjustable precision floodlight position - Google Patents

Abstract

PURPOSE: A strobe flash for a traffic regulation camera precisely adjusting the location of light projection is provided to be accurately and rapidly installed, thereby improving the efficiency of work. CONSTITUTION: A strobe flash (200) for a traffic regulation camera precisely adjusting the location of light projection includes a camera (101), an infrared light emitting diode (201), a light emitting printed circuit board (202), a visible ray laser light emitting module (400), and an intermittent power supply unit (401). The camera is operated according to the operation signal of a control unit (102). The infrared light emitting diode is synchronized with the camera and is operated. The multiple infrared light emitting diodes are installed in the light emitting printed circuit board. The visible ray laser light emitting module is installed in the light emitting printed circuit board, and projects light in the same direction and angle as a light source. The intermittent power supply unit supplies power to the visible ray laser light emitting module. [Reference numerals] (AA) Image signal output

Description

Camera Strobo Flash for Traffic Enforcement Adjustable Precision Floodlight Position}

The present invention relates to a strobe flash for a traffic control camera for irradiating infrared rays which are invisible light in order to crack down a speeding vehicle, a signal violation vehicle, etc. at night, and in particular, can precisely adjust the light-emitting position to meet the shooting purpose. It relates to a strobe flash for a traffic control camera capable of precisely adjusting the light emission position.

As is well known, traffic laws stipulate that 'in no case shall the vehicle driver be obstructed,' and therefore invisible light when photographing the license plate of the vehicle for traffic control at night. Infrared light is emitted by the strobe flash and shot with the infrared camera installed.

A specific example using such an infrared stroboscopic and image capturing camera is Republic of Korea Patent No. 473170 (Name of the invention: a license plate and a reflective vehicle license plate recognition device using a single image capturing camera and double illumination: hereinafter referred to as 'quotation invention'.) It can be seen by the configuration example of Figure 1 shown in the prior art.

According to this cited invention, the overhead device 12 is connected to the roof coil 11 and the loop coil detector 13 for detecting the state of the loop coil 11 and the loop coil detector 13 when the vehicle enters. Image capture camera 16 to receive an input signal from the image capture device and an image capture camera 14 to capture an image according to a drive signal of the image capture device 16 and a drive signal from the image capture device 16. It consists of the infrared strobe 15 which irradiates a fixed amount of light.

In addition, the image capturer 17 receives the image captured by the image capturer 16 and automatically recognizes the license plate of the vehicle, and receives and specifies the recognition result and the captured image from the image recognizer 17. And an image search transmitter 18 for determining and transmitting the vehicle.

According to this cited invention, when installing an intermittent device using infrared rays, it is necessary to accurately transmit the infrared ray to a shooting target point so that a desired image can be captured. Since the projection position cannot be accurately determined, the projection position is estimated and installed.Then, the actual image is taken, the position is corrected and manipulated according to the result, and the image is taken again to confirm the result. This was to be taken.

Therefore, the projection position adjustment process becomes very cumbersome, such as performing the position adjustment work up and down at the height where the equipment is installed in the projection position adjustment process, and there is a problem that it is difficult to accurately set the projection position.

Republic of Korea Patent No. 473170 (Invention name: General vehicle license plate and reflection vehicle license plate recognition device using one image capture camera and dual illumination)

An object of the present invention is to install a laser visible light emitting module in the center of the infrared light source to solve this problem by adjusting the position of the light source in the horizontal, vertical, height direction so that the laser visible light is irradiated to the desired target, To provide a strobe flash for traffic control cameras that can be precisely and automatically adjusted so that the installation of the equipment can be easily performed and can be completed quickly.

In order to achieve the above object, the present invention includes an image camera operated according to a driving signal of a control unit, an infrared LED serving as a light source operated in synchronization with the image camera, and a light emitting PCB provided with a plurality of infrared LEDs.

Visible light laser light emitting module which is installed on the light emitting PCB to emit light in the same direction and at the same angle as the light source, and a power supply control means for supplying power to the visible light laser light emitting module. Provides strobe flash for camera.

In addition, the present invention is provided with a video camera operated according to the drive signal of the control unit, an infrared LED as a light source operated in synchronization with the video camera, and a light emitting PCB provided with a plurality of the infrared LED,

The visible light laser light emitting module and the visible light laser light emitting module which is installed as a bracket on the light emitting plate to which the light emitting PCB is fixed to emit light in the same direction and at the same angle as the infrared LED of the light emitting PCB through the through hole of the light emitting plate, and supplies power to the visible light laser light emitting module Provided is a strobe flash for a traffic control camera capable of precisely adjusting a light-transmission position provided with a power supply control means.

As described above, the present invention operates the power supply control means in the process of installing the camera strobe for traffic control, and determines whether the position where the laser visible light arrives by the laser visible light emitting module is a target point and needs to adjust the position. Adjust the fixed position of the camera strobe so that the position where the laser visible light has reached coincides with the target point, and then operate the power supply control means so that the laser visible light emission stops. Since it is possible to shoot, the strobe flash for the camera for traffic control can be installed accurately, and the installation can be completed accurately and quickly, thereby greatly improving work efficiency. By repeating There is a useful effect of being able to maintain and repair correctly.

1 is a schematic diagram showing a specific example using a conventional infrared stroboscopic and image capturing camera.
Figure 2 is a side view showing the configuration of the infrared stroboscopic according to the present invention.
Figure 3 is a side view showing the configuration of an infrared strobe according to another embodiment of the present invention.
Figure 4 is a schematic diagram showing the electrical configuration of the embodiment consisting of a stroboscopic flash for the camera for traffic enforcement and image capture camera according to the present invention.
Figure 5 is a schematic diagram showing the electrical configuration of the embodiment consisting of a stroboscopic flash for the camera for traffic control and an image capture camera according to another embodiment of the present invention.
Figure 6 is an exploded perspective view showing the overall assembly state of the strobe flash for traffic cameras according to the present invention.
Figure 7 is a perspective view showing the back of the floodlight plate is installed infrared LED board according to the present invention.
Figure 8 is a longitudinal sectional view showing a structure in which a floodlight plate is installed on the fixing plate of the present invention.
Figure 9 is a longitudinal cross-sectional view showing a state in which the position and angle of the fixing plate and floodlight plate according to the present invention is adjusted.
10 is an explanatory view showing a state in which the laser emission angle of the visible light laser light emitting module fixed to the rear surface of the floodlight panel according to the present invention is in the vertical normal direction.
Figure 11 is an explanatory view showing a state in which the laser emission angle of the visible light laser light emitting module fixed to the rear side in the floodlight plate according to the present invention is upward.
12 is an explanatory view showing a state in which the laser emission angle of the visible light laser light emitting module fixed to the rear side of the floodlight plate according to the present invention is in a downward direction.
Fig. 13 is an explanatory view showing a state in which the laser emission angle of the visible light laser light emitting module fixed to the rear surface of the floodlight plate according to the present invention is in the horizontally forward direction;
Fig. 14 is an explanatory view showing a state in which the laser firing angle of the visible light laser light emitting module fixed to the rear side in the floodlight plate according to the present invention is left biased;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The most basic form of the stroboscopic flash for cameras for traffic control according to the present invention, which can be accurately adjusted, is shown in FIG. 2.

As can be seen from the present invention, the installation of a plurality of infrared LED 201 on the light emitting PCB 202 as a strobe flash for cameras for traffic control, and the infrared LED 201 by such light emitting PCB 202 In contrast to the visible light laser light emitting module 400, the light emission direction and all the up, down, left and right angles are the same.

Accordingly, since the arrival position of the infrared LED 201 is completely coincident with the laser arrival position of the visible light laser light emitting module 400, the strobe flash 200 is only confirmed by confirming the visible light position by the visible light laser light emitting module 400. The mounting position and angle of can be determined.

That is, in the present invention, since the light by the infrared LED 201 is 700 nm or more, it is invisible light, so it is not known whether the location of the strobe flash 200 is correctly set when the traffic control equipment is installed. Since the laser emission direction and angle of the light emitting module 400 are completely coincident with the light emitting PCB 202, the power is applied to the visible light laser light emitting module 400 to check the position of the visible light reaching the target, and thus confirmed. By fixing the position and angle of the strobe flash 200 in the state, the cumbersome positioning work is simply completed.

In addition, in the present invention, an embodiment in which the infrared LED 201 and the visible light laser light emitting module 400 are installed together in one light emitting PCB 202 is illustrated in FIG. 2, but as shown in FIG. The light emitting PCB 202 is fixed to the light emitting PCB 202 and the light emitting plate 300 through holes 203 and 305, and the bracket 301 is formed on the light emitting plate 300. ), And the visible light laser light emitting module 400 may be installed inside the bracket 301.

According to this embodiment, it is possible to prevent malfunction due to the heat generation of the other infrared LED 201, such as to be installed in a separate bracket 301 to be able to perform a stable operation. 4 shows an overall system for practicing the present invention. As can be seen here, a plurality of loops 100 are connected to calculate the speed of the vehicle, and when the calculated speed is equal to or greater than the upper limit speed input in advance, the image camera operated according to the drive signal of the control unit 102 ( 101, an infrared LED 201 as a light source operated in synchronization with the image camera 101, and a light emitting PCB 202 provided with a light source, which is installed on the light emitting PCB 202 and is in the same direction as the light source. It is provided with a visible light laser light emitting module 400 and the power supply control means 401 for supplying power only when necessary for the visible light laser light emitting module 400.

As is well known, the loop 100 detects a piezoelectric voltage using a piezo that is pressed by a load of the vehicle when the vehicle passes, and detects a signal voltage by detecting a change in a magnetic field when passing through the loop 100 of the vehicle. May be in the form of,

The time difference of the signals transmitted by the plurality of loops 100 is converted into speed, and when the speed is higher than the upper limit speed, the strobe flash 200 made of the infrared LED 201 is synchronized with the image camera 101 to operate. By using it as a basis for the traffic control to obtain a clear image even in the case of the night bar, the present invention is supplied with power to determine whether the irradiation position by the strobe flash 200 is correct when the installation of such traffic control equipment By operating the intermittent means 401, the visible light is emitted from the visible light laser light emitting module 400 to the target to intuitively determine whether the infrared light of the strobe flash 200 is correct. In this way, the present invention is to adjust the installation position or the angle of the equipment so that the visible light laser is accurately reached in the visible light laser light emitting module 400, in this way, after the installation of the optimum position and angle of the power supply intermittent means ( By operating the 401, the power supplied to the visible light laser light emitting module 400 is cut off.

In the present invention, the visible light laser is emitted from the visible light laser light emitting module 400 again by operating the power supply control means 401 whenever necessary to determine whether or not the light is irradiated to the target by the infrared LED 201 correctly. Of course, you can check the position and angle in the same process, of course. In addition, in the present invention, as shown in FIG. 4, the power supply control means 401 may be a switch 402, or as shown in FIG. 5, the lighting button 406 using the remote controller 403. The remote controller 403 emits a transmission signal by operating the signal, which is incident on the remote control signal receiving circuit 404, and thus power is supplied to the laser driving circuit 405 to power the visible light laser light emitting module 400. The visible light laser can be fired by supplying, and after the adjustment is completed, the remote control signal receiving circuit 404 and the laser driving circuit 405 are operated by operating the light-out button 407 using the remote controller 403. The power supplied to the visible light laser light emitting module 400 is cut off and turned off so that only the infrared LED 201 is operated to prevent traffic from disturbing the driver's view. It is possible to make the normal operation of performing the enforcement.

In addition, the present invention has shown a more specific embodiment in Figure 6 or less, in Figure 6 or less, the bracket 301 is installed on the back of the floodlight plate 300, and the visible light laser light emitting module 400 is installed, but left The adjusting screw 302 and the right adjusting screw 303 and the upper and lower adjusting screw 304 may adjust the laser firing direction and angle of the visible light laser light emitting module 400 to match the light emitting PCB 202. .

As can be seen from the present invention is shown in Figure 6 and 7, the fixing plate 600 for fixing in front of the intermittent equipment and a plurality of fixing holes 601 formed on the left and right of the fixing plate 600 And a central screw 502 fixed to both ends of the support plate 500 and the support plate 500 installed on the fixed plate 600 and the central screw 502 to be rotatable, and by tightening the central screw 502 at a desired angle. An angle is fixed to the light transmitting plate 300 and the rear surface of the through hole 305 of the light transmitting plate 300 is installed by the bracket 301, the left adjustment screw 302 and the right adjustment screw 303 and the up and down adjustment screw The visible light laser light emitting module 400 and the front surface of the floodlight panel 300 can be adjusted by a laser beam 304 to adjust the laser emission direction and angle of the visible light laser light emitting module 400 to match the light emitting PCB 202. Is fixed to, the same position as the through hole 305 of the floodlight plate 300 203 is fixed so that the communication will composed of a plurality of infrared LED (201) is a light emitting PCB (202) arranged uniformly.

As shown in FIG. 8, the present invention is fixed to the fixing plate 600 fixed to the front of the control equipment with a fixing screw, but visible light emitted at the same direction and angle as the infrared LED 201 of the light emitting PCB 202. By operating the power supply control means 401 so that the laser is emitted from the visible light laser light emitting module 400, the visible light laser passes through the through hole 305 of the floodlight plate 300 and the through hole 203 of the light emitting PCB 202 to the target. To be investigated.

As such, when the angle at which the visible light laser is irradiated is inappropriate, as shown in FIG. 9, the operator moves the floodlight plate 300 at an appropriate angle to rotate about the center screw inserted into the center hole 306 so as to have an appropriate angle. After adjustment, the nut (not shown in the drawing) is filled and fixed, and the fixing plate 600 is moved up and down so that the fixing screw 602 is at the proper position of the fixing hole 601, and then the fixing screw By tightening 602, it is possible to adjust the position up and down and fix it at an optimal position.

In addition, in the present invention, the vertical angle adjusting screw 304 may be adjusted by adjusting the vertical adjustment screw 304 in the visible light laser light emitting module 400. In FIG. 10, the vertical irradiation direction is shown, and the vertical adjustment shown in FIG. As shown by the dashed line in the forward direction shown by the dotted line in FIG. 11 by operating the screw 304, it is possible to enable upward upward irradiation, and rotate the up and down adjustment screw 304 in the reverse direction shown in FIG. As shown by the dashed line in the forward direction shown by the dotted line, it is possible to enable downward downward irradiation.

In this embodiment, the present invention is inserted between the bracket 301 and the visible light laser light emitting module 400 by inserting the spring 307 into the vertical adjustment screw 304 so that the vertical adjustment screw 304 can rotate while maintaining the appropriate tension. It can be interposed.

In the present invention, the left and right angles can be adjusted by adjusting the left adjusting screw 302 and the right adjusting screw 303 in the visible light laser light emitting module 400. In FIG. 7, the left adjusting screw 302 shown in FIG. 7 can be operated to enable a leftward leftward irradiation as shown by a dashed line in the forward direction shown by a dotted line in FIG. 14.

In addition, as shown in FIG. 14 by rotating the right adjustment screw 303, it is possible to check the postal mail, and the embodiment in this case is not shown.

In the above embodiment, the left adjusting screw 302, the right adjusting screw 303 and the vertical adjusting screw 304 should be coupled to a screw hole provided with a screw groove formed around the visible light laser light emitting module 400. to be.

The present invention as described above is not limited to the above-described embodiment, it is a matter of course that the present invention can be implemented in various ways by combining various elements known in the spirit and concept intended by the present invention.

100: loop 101: video camera
102: control unit 200: strobe flash
201: infrared LED 202: light emitting PCB
203: through hole of light emitting PCB 300: floodlight
301; Bracket 302: Left adjusting screw
303: right adjusting screw 304: vertical adjusting screw
305: through hole of the floodlight plate 306: center hole
307: spring 400: visible light laser light emitting module
401: power supply interrupting means 402: switch
403: remote controller 404: remote control receiving circuit
405: laser drive circuit 406: lighting button
407: light off button 500: support
501: screw thread 502: center screw
600: fixed plate 601: fixed slot
602: set screw

Claims (5)

A video camera operated according to a driving signal of a control unit, an infrared LED as a light source operated in synchronization with the video camera, and a light emitting PCB provided with a plurality of infrared LEDs are provided.
Visible light laser light emitting module is installed on the light emitting PCB to be projected in the same direction and the same angle as the light source, and a power supply intermittent means for supplying power to the visible light laser light emitting module is possible to precisely adjust the light emission position Strobe flash for traffic control cameras. A video camera operated according to a driving signal of a control unit, an infrared LED as a light source operated in synchronization with the video camera, and a light emitting PCB provided with a plurality of infrared LEDs are provided.
The visible light laser light emitting module and the visible light laser light emitting module which is installed as a bracket on the light emitting plate to which the light emitting PCB is fixed to emit light in the same direction and at the same angle as the infrared LED of the light emitting PCB through the through hole of the light emitting plate, and supplies power to the visible light laser light emitting module A strobe flash for a traffic control camera capable of precisely adjusting a floodlight location, characterized in that a power supply control means is provided for the control. 3. The method of claim 2,
The power supply control means is a strobe flash for a traffic control camera capable of precisely adjusting the light emission position, characterized in that the switch. 3. The method of claim 2,
The power supply control means is characterized in that by using a remote controller to operate the light button to emit a transmission signal from the remote controller, the power is supplied to the visible light laser light emitting module by the remote control signal receiving circuit and the laser driving circuit. Strobe flash for traffic control cameras which can precisely adjust the emission position. 3. The method of claim 2,
The visible light laser light emitting module is installed on the bracket installed on the back of the floodlight plate, and the laser emission direction and angle of the visible light laser light emitting module are adjusted by the left adjusting screw, the right adjusting screw, and the up and down adjusting screw to match the light emitting PCB. Characterized strobe flash for traffic control cameras with precise position adjustment.

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