KR102329549B1 - Providing method of GS-based image processing system - Google Patents

Abstract

The present invention provides a method for providing an image processing system for processing a video image secured in units of pixels, wherein the method comprises a step of installing a transmission unit (10) that is interlocked with a GPS satellite (S) and transmits road condition information. The image processing system comprises: a navigation device (20) mounted on a vehicle, receiving road condition information from the transmission unit (10), and displaying the road condition information; and a management verification system that photographs and monitors production of the transmission unit and the installation and operation processes of the transmission unit, and provides information to follow-up verification of the occurrence of abnormalities. The transmission unit (10) comprises a connection member (R) composed of a pillar (11) installed on the ground, a fixing unit (R1) installed at the pillar (11), and an insertion unit (R2) extending from the fixing unit (R1) toward a road. The management verification system comprises: a camera bracket fixing device for securing a video image for video image processing; a camera cover (10'); and a frame (20') connected to the camera cover (10') to support the camera cover (10'). According to the present invention, unnecessary update of a navigation device can be avoided.

Description

A method of providing an image processing system that processes an image image obtained in units of pixels {Providing method of GS-based image processing system}

The present invention relates to a method for providing an image processing system for processing an image image secured in units of pixels based on GIS. The navigation device is not updated unnecessarily, it consumes less power by sending a wireless signal to a nearby vehicle, and it is based on GIS, which deletes road traffic information after a certain period of time so that unnecessary data is not stored for a long time. It relates to a method of providing an image processing system that processes an image image secured in units of pixels based on a GIS.

It is difficult for a vehicle driver to check the warning board while driving, and especially at night, when it is difficult to check the surroundings, it is more difficult to check the warning board, which increases the risk of an accident. In order to solve this problem, Japanese Laid-Open Patent Publication No. 11-328581 (Road Traffic Information System) was invented. The road traffic information system transmits road condition information indicating the abnormality of the road to all areas ranging from several meters to several kilometers centered on the abnormality point, and upgrades the navigation device of the vehicle that does not pass the abnormality occurrence point. Accordingly, as the data of the navigation device of the vehicle that does not pass the abnormality occurrence point was unnecessarily upgraded, unnecessary data was accumulated, thereby slowing the data processing speed. On the other hand, the data transmitted from the abnormality point is temporary, and when the abnormality occurs, the vehicle's navigation device no longer needs to store road condition information. However, since the road traffic information system continuously stores data once the vehicle's navigation device stores data, unnecessary data is stored in the navigation device for a long time, which slows down the data processing speed of the navigation device. In addition, the road traffic information system needs to format all data and download new information when the driver of the vehicle updates the navigation device by itself. . In addition, since the road traffic information system needs to transmit road condition information to a wide area, a high-output transmission unit is required, which causes a problem in that a lot of power is consumed. In addition, there was a disadvantage that it is dangerous because it is necessary to climb to a high place on a holding for maintenance.

Korean Patent No. 10-1708891

The problem to be solved by the present invention is that the navigation device of a vehicle that does not require road traffic information is not updated unnecessarily by transmitting road traffic information only to the corresponding vehicle passing the relevant area, and by transmitting a wireless signal to a vehicle in a short distance, power is reduced It is consumed, and road traffic information is deleted after a certain period of time to prevent unnecessary data from being stored for a long time. It relates to a method of providing an image processing system for processing a video image.

In addition, GIS-based pixel unit based on GIS, which provides a means to monitor and verify whether proper installation and operation have been made in all overall processes, including the installation and post-installation of these systems. It relates to a method of providing an image processing system that processes an image image secured by

In addition, when installing these means, it is possible to operate flexible shooting operation through its own variable flow, thereby increasing the efficiency and stability of shooting. It relates to a method of providing an image processing system for processing

In addition, it relates to a method of providing an image processing system for processing an image image secured in units of pixels based on a GIS based on a GIS including a camera bracket fixing device for securing a video image for image processing for verification.

In addition, the main components of each bracket provided together with the camera are connected to each other and fixed, and in this connection, a fixing force is given to ensure the stability of camera shooting and improvement of shooting quality based on GIS. It relates to a method of providing an image processing system that processes image images secured in units of pixels based on GIS.

In addition, when applying the fixing force, considering the environment in which the camera and the bracket are installed (eg, the type of the site, the frequency of impact, the intensity of impact, etc.) It relates to a method of providing an image processing system for processing an image image secured in pixel units based on GIS based on GIS.

In addition, based on GIS, which reinforces the part that can be vulnerable to impact caused by the vertical movement of the camera, etc. to reinforce the fixing force in response to the movement of the camera and to perform reliable shooting, the GIS-based It relates to a method of providing an image processing system that processes an image image secured in units of pixels.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The present invention provides a method for providing an image processing system for processing an image image secured in units of pixels based on GIS, which is interlocked with a GPS satellite (S) and secures and transmits image information of road condition information as a stereo image in units of pixels and installing a transmission unit 10 to and a management verification system that monitors and monitors the installation process and operation process of the sending unit and provides information to follow-up verification of the occurrence of an abnormality, wherein the sending unit 10 includes a pillar 11 installed on the ground and , GIS-based pixel unit, including a connection member (R) consisting of a fixing part (R1) installed on the pillar (11) and an insertion part (R2) extending from the fixing part (R1) toward the road A method for providing an image processing system for processing a video image is provided.

According to the present invention as described above, there are one or more of the following effects.

According to the present invention, by transmitting road traffic information only to the vehicle passing through the area, the navigation device of the vehicle that does not require road traffic information is not updated unnecessarily, and by transmitting a wireless signal to a nearby vehicle, less power is consumed, and the road By deleting traffic information after a certain period of time, unnecessary data is not stored for a long time, and in particular, GIS-based video images are processed in pixel units based on GIS, which facilitates the installation and maintenance of landlords. It relates to a method of providing an image processing system.

In addition, GIS-based pixel unit based on GIS, which provides a means to monitor and verify whether proper installation and operation have been made in all overall processes, including the installation and post-installation of these systems. It relates to a method of providing an image processing system that processes an image image secured by

In addition, when installing these means, it is possible to operate flexible shooting operation through its own variable flow, thereby increasing the efficiency and stability of shooting. It relates to a method of providing an image processing system for processing

In addition, it relates to a method of providing an image processing system for processing an image image secured in units of pixels based on a GIS based on a GIS including a camera bracket fixing device for securing a video image for image processing for verification.

In addition, the main components of each bracket provided together with the camera are connected to each other and fixed, and in this connection, a fixing force is given to ensure the stability of camera shooting and improvement of shooting quality based on GIS. It relates to a method of providing an image processing system that processes image images secured in units of pixels based on GIS.

In addition, when applying the fixing force, considering the environment in which the camera and the bracket are installed (eg, the type of the site, the frequency of impact, the intensity of impact, etc.) It relates to a method of providing an image processing system for processing an image image secured in pixel units based on GIS based on GIS.

In addition, based on GIS, which reinforces the part that can be vulnerable to impact caused by the vertical movement of the camera, etc. to reinforce the fixing force in response to the movement of the camera and to perform reliable shooting, the GIS-based It relates to a method of providing an image processing system that processes an image image secured in units of pixels.

1 is a schematic diagram showing a numerical map production system according to the present invention;
2 is a perspective view showing a transmission unit constituting a numerical map production system according to the present invention;
3 is a block diagram showing a numerical map production system according to the present invention;
4 is an operational diagram showing the operation of the numerical map production system according to the present invention;
5 is an exemplary view of an improved transmission unit according to the present invention,
6 is an exemplary view showing the installation structure of the improved post according to the present invention,
7 and 8 are enlarged views and enlarged cross-sectional views of the main part of FIG. 6,
9 is an exemplary view of a screw shaft installed in an improved post according to the present invention.
10 is a perspective view schematically showing the configuration of a bracket device for a CCTV camera notifying a risk according to the management verification system of the present invention.
11 is a cross-sectional view of a bracket device for a CCTV camera notifying a risk according to the management verification system of the present invention.
12 is a cross-sectional view showing an embodiment in which the light emitting means is mounted in a different direction in the bracket device for a CCTV camera notifying the danger according to the management verification system of the present invention.
13 is a block diagram showing a communication unit, a control unit, and a sensor unit formed in the frame of the bracket device for a CCTV camera notifying the risk according to the management verification system of the present invention.
14 shows another example of the communication unit, the control unit, and the sensor unit formed in the frame of the bracket device for a CCTV camera notifying the risk according to the management verification system of the present invention.
15 to 16 are views schematically showing the configuration of a bracket device for a CCTV camera according to FIG.

Hereinafter, preferred embodiments according to the present invention will be described in more detail with reference to the accompanying drawings. Prior to the description of the present invention, the following specific structural or functional descriptions are merely provided to explain embodiments according to the concept of the present invention. For the purpose of illustration, embodiments according to the concept of the present invention may be implemented in various forms, and should not be construed as being limited to the embodiments described herein. In addition, since the embodiment according to the concept of the present invention may have various changes and may have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments according to the concept of the present invention to a specific disclosed form, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

The present invention uses as it is, prior Patent No. 0905497, which will be described later. Therefore, all of the device configuration features described below are those described in Korean Patent Registration No. 0905497. However, in the present invention, among the configurations disclosed in Patent Registration No. 0905497, the blade, that is, the improved part to fold the wing is the most essential configuration feature. Accordingly, the device configuration, features, and operation relationship to be described below will be cited as it is in Patent Registration No. 0905497, and the configuration related to the main features of the present invention will be described in detail at the rear end.

As shown in Figures 1 to 3, the present invention, a plurality of GPS satellites (S), a transmission unit 10 for transmitting road condition information, is mounted on a vehicle, and from the transmission unit 10 from the pixel unit It consists of a navigation device 20 that receives road condition information secured by shooting as a stereo image and displays it. The sending unit 10 includes a column 11 installed in a vertical direction on the ground, a connecting member R installed on the column 11, and a transverse bar 12 movably installed on the connecting member R. And, the detection sensor 13 installed on the transverse bar 12, and the input for setting road condition information

It is composed of an output unit 14 , a control unit 15 to which road condition information is set by the input unit 14 , and a transmission unit 16 for wirelessly transmitting road condition information of the control unit 15 .

The pillar 11 is a circular pillar shape, the lower end is buried in the ground, the upper end is exposed in the vertical direction. The connecting member (R) has a fixed part (R1) which is inserted and fixed to the column (11) in a circular tube shape, and has a long square column shape with a space formed therein, and has one end fixed to the fixing part (R1) and the other end is opened. It consists of an insertion part R2 extending towards the road.

The transverse bar 12 has a rectangular column shape, one end is movably inserted into the insertion portion R2 of the connecting member R, and the other end is exposed toward the road direction.

The detection sensor 13 is a normal ultrasonic sensor that detects the presence/absence of an object by comparing and detecting the change or intensity of the received amount reflected and returned by transmitting ultrasonic waves, and is installed on the front of the transverse bar 12, the transverse bar (12) Sends an ultrasonic wave to the vehicle heading to.

The input unit 14 is a part for the manager to input road condition information, and includes a distance value input button 14a indicating the distance to an abnormal point and a status value input button 14b indicating the road condition. The control unit 15 stores in advance road information indicating distance values and electrical construction, water pipe construction, water pipe freezing, etc.

uh there At this time, the control unit 15 sets each road condition information according to the operation of the input unit 14 , and when a proximity signal indicating that the vehicle is approaching is input from the detection sensor 13 , the set road condition information is transmitted to the transmission unit 16 . It is transmitted to a nearby vehicle through The transmission unit 16 is operated and controlled by the control unit 15 , and is installed on the front side of the transverse bar 12 , and transmits the road condition information of the control unit 15 to an adjacent vehicle.

The navigation device 20 includes a GPS (Global Positioning System) receiver 21 for receiving a navigation message transmitted by a plurality of GPS satellites S, and a sensor unit for detecting a driving state according to the driving of the vehicle ( 26), a numerical map data storage unit 22 storing numerical map data for searching and guiding the driving route of the vehicle, and a state signal receiver for receiving road condition information from the transmitter 16 of the transmitting unit 10 (23), a control unit (24) for matching the navigation message received by the GPS receiver (21) and road condition information from the status signal receiver (23) to the numerical map data, and operation control by the control unit (24) It is composed of a display unit 25 that displays the current position of the vehicle and the road condition.

The GPS receiver 21 receives a navigation message transmitted by a plurality of GPS satellites through an antenna. The sensor unit 26 is provided with various sensors including a gyroscope for detecting a running angle and a speed sensor for detecting a running speed of the vehicle, and detects a running state according to the running of the vehicle. The numerical map data storage unit 22 stores in advance numerical map data for searching and guiding the driving route of the vehicle.

On the other hand, the numerical map is produced by aerial photography, and a reference point corresponding to the position of the pillar 11 installed on the road is imposed on the numerical map, and the position of the sending unit 10 is accurately indicated on the numerical map. The condition signal receiver 23 receives road condition information from the transmitting unit 16 of the transmitting unit 10 . The control unit 24 determines the current position of the vehicle using a mixed navigation method using a navigation message received by the GPS receiver 21 and a vehicle driving detection signal detected by the sensor unit 26, and a numerical map data storage unit The driving route from the departure point of the vehicle to the destination is searched using the numerical map data stored in (22). In addition, the control unit 24 controls displaying the determined current position of the vehicle by matching it with the numerical map data, and controls guiding the vehicle to travel according to the searched driving route when driving.

Meanwhile, the control unit 24 receives road condition information from the condition signal receiver 23 and displays the condition of the road by matching it with the numerical map data. That is, the control unit 24 indicates the road condition of the section to be passed on the display unit 25 . Here, the control unit 24 matching and displaying the road condition with the numerical map data is referred to as image drawing. At this time, the control unit 24 deletes the road condition information matched with the numerical map data when a predetermined time has elapsed.

The display unit 25 is a typical display device that is operated and controlled by the control unit 24, and the driving route of the vehicle including the numerical map data, the current position of the vehicle, the starting position of the driving path of the vehicle, and the driving path ending position; Inform the driver of road conditions. At this time, the display unit 25 is further provided with a voice alarm device, it is possible to alert the driver audibly as well as visually notify the road construction.

Hereinafter, the operation of the numerical map production system according to the present invention will be described. First, when it is necessary to adjust the position of the detection sensor 13 or the sending unit 16 in the state shown in FIG. 4, the degree of insertion of the transverse bar 12 inserted into the insertion part R2 of the connecting member R is adjusted. to adjust the position of the detection sensor 13 or the transmission unit 16 . Subsequently, the operator presses the distance value input button 14 of the input unit 14 to input a distance value indicating the distance to the abnormal point, and presses the state value input button 14b to input road condition information. In this embodiment, the road condition information is under construction of a water pipe 50m ahead. In the installed state as described above, when the vehicle approaches the transverse bar 12 of the transmission unit 10, the detection sensor 13 detects it and transmits a detection signal to the control unit 15, and the control unit 15 that receives it outputs the preset road condition information that the 50m front water pipe is under construction through the transmission unit 16 to the outside. At this time, the transmitter 16 transmits the road condition information only to the corresponding vehicle detected by the detection sensor 13 .

At this time, the status signal receiver 23 of the navigation device 20 mounted on the vehicle receives the road condition information transmitted from the transmission unit 16 of the transmission unit 10 and sends it to the control unit 24 . The control unit 24 receiving this matches the state of the road to the numerical map data and displays a letter or symbol indicating that the water pipe is under construction 50 m ahead on the display unit 25, and informs the driver that there is a construction section ahead. On the other hand, the control unit 24 of the navigation device 20 deletes the road condition information matched with the numerical map data when a predetermined time has elapsed so that the data is not stored unnecessarily. As described above, in the numerical map production system according to the present invention, the navigation device 20 of the vehicle that does not pass the abnormal point is not upgraded, so the navigation device 20 of the vehicle that does not pass the abnormal point is not upgraded. Since it is not upgraded unnecessarily, unnecessary data is not accumulated in the navigation device 20 , and thus the data processing speed of the navigation device 20 is not slowed down.

In addition, in the present invention, when a predetermined time elapses, the road condition information stored in the navigation device 20 is deleted, so that data is not stored unnecessarily. Since the present invention operates only on the vehicle heading to the abnormal point, there is no need to set the transmission unit 16 of the transmission unit 10 to high output, and there is no need to transmit road condition information when the vehicle is not detected. , it does not consume much power. In the present invention on the basic premise of such a structure, as shown in FIG. 5 , an example of configuring the sending unit 10 to provide an automatic withdrawing/inserting function of the transverse bar 12 to facilitate operation and improve workability can be further implemented. . To this end, first, the upper end of the column 11, more precisely, the upper column 630 (refer to FIG. 6) protrudes the fixing part R1 in a direction orthogonal thereto, and the protruding fixing part R1 has an insertion part After (R2) is inserted, it is firmly fixed and installed by binding through the fixing pin (PIN).

At this time, of course, the pin hole PH should be formed in the fixing part R1 and the insertion part R2 so that the fixing pin PIN can be inserted. In addition, a predetermined length is cut from the front end of the lower end surface of the insertion portion R2 to form the open portion 500 . The open part 500 is to remove the interference problem when the transverse bar 12 including the sending part 16 and the detection sensor 13 is withdrawn into the insertion part R2 as before. That is, the operation cylinder 100 is fixed to a portion of the lower end surface of the insertion portion R2 where the opening portion 500 is not formed, and the operation

An operation rod 110 is connected to the front end of the cylinder 100 , and the front end of the operation rod 110 is movable through the first and second hinges 200 and 210 and the connecting bar 220 , and the lower end of the transverse bar 12 . fixed to the side Therefore, when the transverse bar 12 is retracted, the first and second hinges 200 and 210 and the connecting bar 220 interfere with the lower end of the insertion part R2, thereby causing a problem of inability to retract. By configuring the part 500, the first and second hinges 200 and 210 and the connecting bar 220 can be smoothly retracted without interference.

On the other hand, the pillar 11 is divided into a plurality of pieces as shown in FIG. 6 and separated into a base pillar 600, a lower pillar 610, an intermediate pillar 620, and an upper pillar 630 so that they can be assembled with each other. is composed In this case, the number of the intermediate pillars 620 may be arbitrarily increased to increase the length drawn out to the upper part, that is, the total length of the pillar 11 . Therefore, it is sufficient to determine the number of divisions of the pillars and the length to be divided according to the design length.

For example, if it is assumed that the pillar 11 is divided into four as shown in FIG. 6 , the base pillar 600 becomes a support pillar to be located at the lowermost portion. At this time, the base plate 700 is assembled on the lower end surface of the base column 600 , and the base plate 700 is a plate-shaped member having a relatively larger area than the lower end area of the base column 600 and is a base. The pillar 600 is a means for stably standing. Therefore, it must have a relatively large area to be stably attached to the ground. Here, the base plate 700 may be integrally formed on the lower surface of the base column 600, but if it is formed in this way, it is not attached to the freight vehicle due to the presence of the base plate 700 when moving for on-site construction It is very difficult to load, and even if loaded, the base plate 700 protrudes, so it takes up a lot of space unnecessarily, and the loading amount is rapidly reduced. follow For this reason, in the improved example of the present invention, all of the above-mentioned inconveniences were solved by separating the base pillar 600 and the base plate 700 . And, the base plate 700 has fixed stability because it is usually fixed to the mounting surface with an anchor bolt.

Therefore, the base column 600 is fastened on the base plate 700 without taking a general method of fixing the column, for example, directly fixing the flange to the concrete surface with anchor bolts, thereby facilitating separation and disassembly. one of them That is, in the case of a general method, the concrete surface must be damaged during dismantling or separation, but in the improvement of the present invention, the base plate 700 is left on the concrete surface and only the bolts fastened thereon are loosened to separate the base column 600. It is very efficient and has the advantage of not having to damage the concrete surface. More specifically, as shown in FIGS. 6 and 8 , an installation groove 710 into which a lower portion of the base pillar 600 can be inserted is formed on the upper surface of the base plate 700 , and an installation groove 710 . A square groove 720 is concave formed in the center of the base pillar 600, and a square projection 602 fitted into the square groove 720 protrudes from the center of the lower end surface of the base pillar 600, and around the square projection 602 The protrusion groove 604 is concave at least at two points or more.

And, the base pillar 600 inserted into the installation groove 710 is fixed in a lateral fastening manner by an anchor bolt (ANB).

In addition, the square groove 720 has a stepped groove (DT) from which a part of the surface is cut as shown in the form of FIG. 8, a spring insertion groove (SPH), a spring (SP) installed in the spring insertion groove (SPH), and a spring The flow protrusion (MVB) flowing in the insertion groove (SPH), and the protrusion cover (DCV) and the protrusion cover (DCV) that are screwed to the stepped groove (DT) to prevent the flow protrusion (MVB) from being separated are formed on the flow protrusion ( A haunting hole TH in which MVB) appears and protrudes is formed. Such a configuration is formed on at least two or more of the circumferential surfaces of the square groove 720 . Therefore, when the base pillar 600 is inserted into the installation groove 710, the square projection 602 enters into the square groove 720. At this time, the flow projection MVB is slightly pushed back and the spring SP. At the moment when the tip of the flow projection MVB coincides with the projection groove 604 of the square projection 602, it is pushed out by the force of the spring SP, and the tip of the flow projection MVB enters the projection groove 604. It is fitted and fixed.

In this way, the base pillar 600 has a double fixing structure such as elastic fixing by the flow protrusion MVB and bolt fixing by the anchor bolt ANB, so that it can be firmly fixed. In addition, as shown in FIG. 7 , an openable and openable door DR is further provided on one side of the base pillar 600 , so that it is better if it can be utilized when replacing or repairing interior parts. Meanwhile, a screw bearing 606a is fixed to the center of the inner bottom surface of the base column 600, and a lower end of the screw shaft 800 is fixed to the screw bearing 606a. In addition, a driving motor 606b is fixed to the bottom surface of the base column 600, and the driving motor 606b has a motor shaft disposed upward, and a gear 606c is fixed to the motor shaft, and a gear ( 606c) is toothed with the screw shaft 800 . Such a structure is completed before installing the lower pillar 610, and it is preferable to maintain the pre-assembled state in the factory, and in the field, simply the lower pillar 610, the middle pillar 620, and the upper pillar 630 are sequentially arranged. It is desirable to make it possible only by assembling it with

Even at this time, the assembling only needs to be assembled to be toothed with the screw shaft 800 in a state in which the columns are laid down, and only need to be erected using a crane or the like after assembly. In addition, a portion of the inner circumferential surface of the base pillar 600, preferably, the base engaging projection 606d in the middle of the vertical length protrudes. The base locking jaw (606d) is a means for locking the lower end of the lower pillar (610). In addition, a detection hole 606e is formed through the upper end of the base pillar 600, and a detection sensor 606f such as a photosensor or a proximity sensor is embedded in the detection hole 606e, and the lower end of the lower pillar 610 A marker (MR) is provided at the outer peripheral surface corresponding point to transmit a detection signal to the control unit (not shown) to stop the driving of the driving motor 606b when the detection sensor 606f detects it, and the control unit receives the signal and drives The motor 606b is stopped.

And, the lower pillar 610 is assembled so that the center of the inner bottom surface is toothed with the screw shaft 800, and the upper locking jaw 612 protrudes from the inner diameter of the upper and lower lengths, and the upper locking jaw 612 has the middle The lower end of the pillar 620 is caught. In addition, the center of the inner bottom surface of the lower column 610 is assembled to be toothed with the screw shaft 800, and the middle column 620 is assembled in the same manner as the upper column 610 inside, and the lower column ( 610) is inserted into, the inner diameter of the intermediate pillar 620, the intermediate locking jaw 622 protrudes at an intermediate position of the vertical length, and the lower end of the upper pillar 630 is caught on the intermediate locking jaw 622. In addition, the upper inner diameter of the upper column 630 is formed with a toothing portion 632 to be toothed with the screw shaft 800 is toothed to each other.

At this time, the screw shaft 800 is divided into a plurality, preferably 1, 2, 3, and 4 shafts 810, 820, 830, 840, as shown in FIG. 9, and a rectangular fitting hole 850 is protruded from one side of each boundary surface. and a fitting groove 860 is formed on the other side to be mutually fitted. In particular, in order to prevent easy separation after fitting, the magnet 870 may be further embedded in the fitting hole 850 and the fitting groove 860 so that opposite poles face each other. The present invention having such a configuration has the following operating relationship. When the base plate 700 is installed on the floor surface, the base column 600 is fitted thereon, and then the anchor bolts (ANB) are fastened laterally along the circumference of the base plate 700, the installation of the base column 600 is completed This state is a state in which the screw shaft 800 and the lower column 610, the intermediate column 620, and the upper column 630 are inserted into the base column 600 in the assembled state.

However, since they are fitted only up to half of the vertical length of the base pillar 600 , the overall height is not high. Therefore, it is easy to stand up and install. Thereafter, when the base pillar 600 is fixed, the driving motor 606b is rotated. Then, the screw shaft 800 is rotated in place, and the lower column 610, the intermediate column 620, and the upper column 630 toothed therewith are drawn out with the same moving speed and upward, respectively, and the detection sensor 606f ) detects the marker MR, the driving is stopped. Accordingly, since most of the pillars are drawn out more by the remaining half, the pillar 11 has a desired height. In addition, when it is necessary to lower the connecting member R including the insertion part R2 for maintenance during use, the driving motor 606b is rotated in reverse to lower it by half the height, so it is easy to work. In other words, safety is increased because there is no need to work at height.

Referring to Figure 15, the bracket device (1') for a CCTV camera notifying the risk of the management verification system of the present invention may mainly include a camera cover (10') and a frame (20'). The camera cover 10', in order to emit the light emitted from the light emitting means 11' to the outside, the camera cover 10' is made of a material (eg, acrylic, polycarbonate, etc.) in which light is diffused without being reflected. ') is preferred. In addition, the frame 20' to be described later may also be made of the same material as the cover 10'. In this case, the light emitting means 11 ′ may be configured in a transverse direction of the camera cover 10 ′ as shown in FIG. 16 of the accompanying drawings, or may be configured in a longitudinal direction as shown in FIG. 12 . In addition, the arrangement method of the light emitting means 11' may have various arrangement methods so that the light of the light emitting means 11' can be realized.

For example, the light emitting means 11' may be arranged in various ways, such as horizontally, vertically, diagonally, and obliquely. In addition, the light emitting means 11 ′ may be composed of an LED and a surface light emitting sheet, and in addition to this, other components capable of emitting light may be used. When the light emitting means 11' is an LED, it may be composed of a chip, a lamp, or a device. The light emitting means 11' may emit a plurality of colors to detect danger and warn of danger. The color of light implemented through the light emitting means 11 ′ may emit colors such as red, yellow, green, blue, and white. In this case, the white light may be implemented as white by mixing red, green, and blue light, and such white light may be used for a lighting function or a crime prevention function at night.

That is, at night (normal time), white light can be emitted to illuminate the surroundings, and when a danger is sensed, other colors (blue, red, yellow and green') other than white are emitted to alert the surroundings. have. In addition, the light emitted according to the present invention can be designed to flicker or alternate, which will be described later. According to different design conditions, the camera cover 10 ′ may be configured in various shapes to correspond to various types of cameras, such as a box type, a square, and a bullet type, in addition to the dome type camera according to the accompanying drawings. Accordingly, it is possible to apply the bracket device for a CCTV camera according to the present invention regardless of the type of camera, thereby reducing the installation cost. The frame 20' may be configured on the upper part of the camera cover 10' depending on the type of CCTV camera or on the lower part of the camera cover 10' depending on the user.

As shown in FIG. 15 , the frame 20 ′ may be configured on the top of the dome-type camera, but box-type and bullet-type cameras may be configured on the top or bottom. In addition, it may be configured integrally with the camera cover 10 ′, or configured to be separately configured to be coupled through a bolt and a nut. In addition, a screw thread may be formed on one side of the camera cover 10 ′ to which the outer surface of the frame and the frame are connected, and may be configured to be connected by screwing them.

The frame 20' is connected to the camera cover 10' and performs a function of fixing the camera cover 10' to a wall, a ceiling or a pole.

That is, when configuring the present invention as shown in Fig. 15, the bracket can be fixed to the wall, and the frame 20' is not configured in a ''' shape as shown in Fig. 15, but in the vertical direction of the camera cover 10'. In the case of being configured in a straight shape, the bracket may be fixed to the ceiling. Furthermore, when the frame 20' is configured in a ''' shape as shown in FIG. 15, although not shown in the drawings, it may be designed to be fixed to a separate pole. At this time, the frame 20' is made of acrylic, polycarbonate, etc. having a high light transmittance as described above, so that the light emitted from the light emitting means 11' of the camera cover 10' is emitted from the frame 20'. ) can be configured to spread through

In addition, the frame 20' may be made of a metal material at one end to fix the CCTV camera to the ceiling or wall, and may be made of a material that can support the CCTV camera and/or the camera cover 10'. can In addition, the frame 20 ′ may include a communication unit 100 ′, a control unit 200 ′, and a sensor unit 300 ′ in order to detect and notify the surrounding dangerous situation. This will be described with reference to FIGS. 13 and 14 of the accompanying drawings. 13 is a block diagram showing a communication unit, a control unit, and a sensor unit formed in the frame of the bracket device for a CCTV camera for notifying the danger according to the present invention.

That is, as shown in FIG. 13 of the accompanying drawings, the frame 20' is a communication unit 100', a control unit 200' and a sensor so that the bracket device 1' for a CCTV camera recognizes the danger and informs the surroundings of the danger. It may be configured to include a unit 300'. The communication unit 100' includes a communication module 110' capable of transmitting and receiving information through wireless communication with a management center located at a remote location.

The wireless communication that can be used here can be configured to communicate by adopting a wireless communication method such as Bluetooth, wCDMA, Zigbee or Wi-Fi. Thus, the microphone 410' and the speaker 420' may be activated. The communication interface 400', the microphone 410', and the speaker 420' may be configured on a wall or a pole on which the bracket device for a CCTV camera according to the present invention is installed, or may be formed on the frame 20'. That is, the microphone 410' and the speaker 420' are activated through the communication interface 400' so that a voice call can be made with the manager located in the control center.

Accordingly, it is natural that a microphone and a speaker (not shown in the drawing) are formed on the control center side as well. Therefore, the manager located in the control center can quickly recognize the danger that occurred around the bracket device for the CCTV camera, and accordingly, by operating the CCTV camera and controlling the lighting, it informs the surroundings of the danger, and prompt follow-up measures such as reporting to the competent authority can be carried out. possible. The control unit 200' may include a risk recognition module 210', a lighting control module 220', and a risk notification module 230'.

The risk recognition module 210 ′ may recognize the occurrence of a risk by the detection value of the sensor unit 300 ′. A description of the sensor unit 300' will be described later.

The risk recognition module 210' may classify and store the degree of risk, for example, it may be divided into three steps. The first stage is a stage in which the danger is not recognized, and when darkness is recognized through the illuminance sensor 330' in the usual surrounding situation, and there is no information detected from the heat and smoke sensors, it can be divided into stage 1. The second stage is a stage of caution and warning, and when the smoke is detected through the smoke detection sensor 320', it can be divided into two stages.

Step 3 is an emergency step, and when heat and smoke are simultaneously detected through the heat sensor 310' and the smoke sensor 320', it can be divided into three steps. Step 3 described above is given as an example for easy explanation of the management verification system of the present invention, and can be classified into more various steps such as step 4 or step 5 according to different design conditions. When a risk is recognized by the risk recognition module 210', the lighting control module 220' may control the light emission of the light emitting means 11'. Here, as described above, the light emission of the light emitting means 11' is controlled to emit light of one color (white') and then light of another color (yellow, red, etc.) according to the degree of danger. can

According to other design conditions, the light emitted from the light emitting means 11' may be controlled to blink in a single color. According to another design condition, the colors of a plurality of colors (red, blue, yellow, green and white') that can be emitted by the light emitting means 11' may be alternately controlled. That is, by causing the light to flicker or alternate in the light emitting means 11 ′, there is an advantage in that when a danger occurs, people present in the vicinity can further evoke the danger. More specifically, when ambient smoke is detected through the smoke detection sensor 320 ′, the risk recognition module 210 ′ recognizes in two stages regardless of day or night, and the yellow light emitting means 11 ′ blinks. This can alert those around you to danger. In addition, when heat and smoke are simultaneously detected through the heat sensor 310' and the smoke sensor 320', the risk recognition module 210' recognizes a three-step emergency, and the red light emitting means 11' ) may flash.

Here, the flashing means that a dangerous situation can be quickly recognized in the vicinity while the light-emitting means repeats on/off, and the colors of the light-emitting means 11' of yellow indicating a warning and red indicating an emergency emit light alternately to prevent danger. can be recognized quickly. In this way, the lighting control module 220' may recognize the occurrence of danger and control the light emitting means 11' to inform the surroundings of the danger. The sensor unit 300' includes a heat sensor 310' capable of detecting ambient heat, a smoke sensor 320' capable of detecting smoke, and an illuminance sensor 330 capable of detecting ambient illuminance. ') may be included.

In addition, various sensors may be further configured depending on the location of the CCTV camera to be installed, and a gas sensor, a flame sensor, and a radiation sensor may be included around the factory handling the compound. When the risk notification module 230' recognizes the risk, it may notify the risk to the manager of the control center through the communication module 110' of the risk. 14 is a block diagram illustrating another example of a communication unit, a control unit, and a sensor unit formed in the frame of the bracket device for a CCTV camera to inform the danger according to the present invention. Another embodiment of the management verification system of the present invention is a bracket device for a CCTV camera that notifies the risk is a camera communication module 120' to the communication unit 100', an image analysis module to the control unit 200', as shown in the attached FIG. 240') may be further included.

The camera communication module 120' may communicate with a camera mounted on the camera cover 10'. The image analysis module 240 ′ includes an image receiving unit 241 ′ and an image analysis unit 242 ′ capable of analyzing and receiving an image captured by a CCTV camera. The image analysis unit 242 ′ may analyze a dangerous situation through an image captured by a CCTV camera. When a person, a prohibited area, or a fire occurs in a specific time period, the risk may be analyzed through the image analysis unit 242 ′, and an image may be received through the image receiving unit 241 ′ to notify the control center of the danger.

The bracket device for a CCTV camera that notifies the danger according to the present invention can detect the danger through the installed sensor, and the manager analyzes the CCTV image transmitted through wireless communication to detect the danger. It has the advantage of being able to inform the surrounding area according to the risk priority through the light emitting means of various colors designed to recognize the detected danger and inform the surrounding area. In addition, it is designed to replace and use only the bracket device for CCTV cameras that informs the existing CCTV of danger, thereby reducing costs. In addition, it can be applied regardless of the type of CCTV.

Referring to FIGS. 15 to 16 based on the above-mentioned cold expression, the camera bracket fixing device for securing a video image for video image processing includes a camera cover (10'); and a frame 20' connected to the camera cover to support the camera cover, wherein the frame 20' includes a vertical frame unit 21' and a horizontal frame unit connected to the vertical frame unit 21'. contains (22')

Here, the camera bracket device is interlocked on the camera cover 10' and the frame 20' to secure the fixing force and shooting performance of the camera cover 10' and the frame 20'. It further includes a structure.

The interlocking fixing structure includes a wall structure 1100 ′, an upper panel part 1110 ′ installed horizontally at the upper end of the wall structure 1100 ′, and the wall structure 1100 ′ horizontally from the lower end. Installed between the lower panel part 1120', the upper panel part 1110' and the lower panel part, the horizontal frame part 22' is installed to advance and retreat the horizontal frame part 22' It includes a horizontal frame actuator 1130' for flowing.

In addition, based on the forward and backward flow of the horizontal frame portion 22', the position of the camera cover 10' is moved. The interlocking fixing structure includes a first support body 1141' installed at the lower end of the horizontal frame part 22', and a lower portion of the first support body 1141', and the lower panel part 1120 '), a first support structure (1142') fixedly installed to the outside, a second support body (1151') installed so as to be adjacent to the outside of the first support body (1141'), and the second support body (1151') It is installed in the lower portion of the, and further includes a second support structure (1152') fixed to the lower panel portion (1120').

In addition, the first support structure 1142' and the second support structure 1152' flow downward from the first support body 1141' and the second support body 1151', respectively, and the lower panel The first support body 1141' and the second support body 1151' from the part 1120' apply a first upward force to press and support the horizontal frame part 22' upward, and the upper panel The part 1110' is provided with a press-fitting fixture for applying a first downward force corresponding to the first upward force by pressing and fixing the horizontal frame part 22' downwardly.

The press-fitting fixture 116' includes a first press-fitting fixture 1161' that is positioned at an upper opposite portion of the first support body 1141' and press-fits, and an upper portion of the second support body 1151'. A second press-in fixture 1162' positioned at the opposite side and press-fitted, and the first support body 1141 positioned between the first press-fit fixture 1161' and the second press-fit fixture 1162' ') and an intermediate press-fitting fixture 1163' for press-fitting an intermediate region between the second support body 1151', and a third press-fitting fixture adjacent to the outside of the second press-fitting fixture 1162' ( 1164') and a fourth press-fitting fixture 1165' adjacent to the outside of the third press-fitting fixture 1164'.

The first press-in fixture 1161' to the fourth press-in fixture 1165' and the intermediate press-in fixture 1163' correspond to the first lifting force or are optional or additionally depending on the required reinforcement force. As a whole, press-fitting is performed with respect to the horizontal frame part 22', and the first press-fitting fixture to the fourth press-fitting fixture 1165' and the intermediate press-fitting fixture 1163' are the horizontal frame part ( 22'), the insertion end structures 116a' to be inserted and mounted are respectively provided, and the fixing force to the horizontal frame part 22' is applied again through rotation while being mounted on the horizontal frame part 22'.

At the lower portion of one end of the upper panel part 1110', a lower outer moving body 1110a', and a lower outer moving body 1110b' fixed to the lower end of the lower outer moving body 1110a', and the lower outer driving Installed so as to be perpendicular to the lower outer movable body 1110a' in the sieve 1110b', it includes an extrapolated panel part 1110c' that is extrapolated to the vertical frame part 21', the extrapolated panel part 1110c') is moved forward or backward from the lower outer actuator 1110b' to suppress vibrations caused by impact on the vertical frame part 21' and the camera cover 10', and the vertical frame part 21') is movable in a certain range in the horizontal frame part 22' and can move downward, and the extrapolated panel part 1110c' moves forward or backward in a state where the position is determined according to the lower movement, and in the state where the position is confirmed The vertical frame part 21' is finally fixed.

Here, an outer driving part 1141a' is installed on the outer surface of the first support body 1141', and the outer driving part 1141a' is the second support body 1151' through the push means 1141b'. A push force is applied to the outside, and the wall structure 1100 ′ protrudes and protrudes from the upper region, and the first upper push module 1100a ′ which pushes and fixes the first support structure 1142 ′ and protrudes and protrudes from the lower region. A first lower push module 1100b' for pushing and fixing the first support structure 1142' is provided.

The second support structure 1152' includes a second upper push module 1100c' that presses the first support structure 1142' on a surface opposite to the first support structure 1142', and the first and a second lower push module 1100d' for pressing the first support structure 1142' on the surface opposite to the support structure 1142', wherein the second upper push module 1100c' is the first The area of the first support structure 1142' corresponding to the area opposite to the upper push module 1100a' is pressed. The second lower push module 1100d' presses the area of the first support structure 1142' corresponding to the area opposite to the first lower push module 1100b'.

In addition, the deformable structure 1100' includes a penetrating body 117' penetrating the first supporting structure 1142' and the second supporting structure 1152', and provided outside of the penetrating body 117'. and a mounting ring 118 ′ mounted to surround the outside of the camera cover 10 ′, and the mounting ring 118 ′ by the flow of the through body 117 ′ causes the camera cover 10 ′. to be fixed The upper panel portion 1110 ′ and the lower panel portion 1120 ′ flow in a direction toward or away from each other on the wall structure 1100 ′.

The camera cover 10' is rotated on the vertical frame 21' to change the shooting range of the camera, and the camera cover 10' is rotated so that the lower part faces the front and the outer side and the side part faces the lower part .

The lower panel part 1120' includes a forward panel 1120a' that flows back and forth to the outside, a vertical panel 1120b' that is provided above the forward panel 1120a', and the vertical panel 1120b'. ) and includes a support structure (1120c') provided on the upper portion of the camera cover (10') to support the lower side portion of the camera cover (10').

Here, the side portion of the camera cover 10' includes a metal material, and the support structure 1120c' is magnetically coupled to the side portion including the metal material to fix the support, and the camera cover 10') A reinforcing structure is provided between the upper surface portion positioned from the upper side to the side portion by the rotation of the second support structure 1152'.

The reinforcing structure includes a fixing structure 1152a ′ fixedly installed on the second support structure 1152 ′, and the fixing structure 1152a ′ protruding from the front surface of the fixing structure 1152a ′ and magnetically coupled to the upper surface portion including a metal material to be fixed. and a combination 1152b' that is used. The driving method of the physical components described above is based on a motor, an actuator, etc., and the forward and backward movement and rotational movement are made, and the shape and size of each component can be variously selected and provided according to the installation site and materials to be implemented. . Although the present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the management verification system of the present invention should be determined by the technical spirit of the appended claims.

10; transmission unit 11; Pillar
12; crossbar 13; detection sensor
14; input 15; control

Claims (2)

delete A method of providing an image processing system for processing an image image secured in units of pixels,
Including the step of installing a transmission unit 10 that secures and transmits the image information of the road condition information as a stereo image in units of pixels,
The image processing system,
It includes a management verification system that monitors the production of the transmission unit and the installation process of the transmission unit and provides information to follow-up verification of the occurrence of an abnormality,
The sending unit 10 is a connection consisting of a pillar 11 installed on the ground, a fixing part R1 installed on the pillar 11, and an insertion part R2 extending from the fixing part R1 toward the road. comprising a member (R),
The management verification system,
Includes a camera bracket fixing device for securing video images for video image processing,
camera cover (10'); and a frame 20' connected to the camera cover 10' to support the camera cover 10',
The frame 20' includes a vertical frame part 21' and a horizontal frame part 22' connected to the vertical frame part 21',
Camera bracket fixing device,
Further comprising an interlocking fixing structure interlocked on the camera cover 10' and the frame 20' to secure the fixing force and shooting performance of the camera cover 10' and the frame 20',
The interlocking fixing structure is,
A wall structure (1100') and,
an upper panel part 1110' installed horizontally at the top of the wall structure 1100';
A lower panel part (1120') installed horizontally at the lower end of the wall structure (1100'),
It is installed between the upper panel part 1110' and the lower panel part, and the horizontal frame part 22' is installed to move the horizontal frame part 22' forward and backward. includes,
Based on the forward and backward flow of the horizontal frame part 22', the position movement of the camera cover 10' is made au,
The interlocking fixing structure is,
A first support body (1141') installed at the lower end of the horizontal frame part (22') and,
A first support structure (1142') installed under the first support body (1141') and fixedly installed on the lower panel part (1120');
And a second support body (1151') installed so as to be adjacent to the outside of the first support body (1141');
It is installed in the lower portion of the second support body (1151'), further comprising a second support structure (1152') fixed to the lower panel part (1120'),
The first support structure 1142' and the second support structure 1152' flow downward from the first support body 1141' and the second support body 1151', respectively, and the lower panel part From (1120'), the first support body 1141' and the second support body 1151' apply a first upward force to press and support the horizontal frame part 22' upward,
The upper panel portion 1110 'is,
A press-fitting fixture 116' is installed in the lower part to press-fit the horizontal frame part 22' downward to apply a first descending force corresponding to the first ascending force,
The press-fitting body 116 'is,
A first press-fitting fixture (1161') which is located in the upper opposite portion of the first support body (1141') and press-fits;
A second press-fitting fixture 1162' which is located in the upper opposite portion of the second support body 1151' and is press-fitted;
It is positioned between the first press-in fixture 1161' and the second press-in fixture 1162' to press-in an intermediate region between the first support body 1141' and the second support body 1151'. An intermediate press-fitting fixture (1163') and
and a third press-fitting fixture 1164' adjacent to the outside of the second press-fitting fixture 1162';
Comprising a fourth press-in fixture (1165') adjacent to the outside of the third press-in fixture (1164'),
The first press-in fixture 1161' to the fourth press-in fixture 1165' and the intermediate press-in fixture 1163' correspond to the first lifting force or are optional or additionally depending on the required reinforcement force. As a whole, press-fitting is performed with respect to the horizontal frame part 22',
The first press-in fixture to the fourth press-fit fixture 1165 ′ and the intermediate press-fit fixture 1163 ′ are provided with an insertion end structure 116a ′ inserted and mounted in the horizontal frame portion 22 ′, respectively. A method of providing an image processing system for processing an image image secured in units of pixels, in which a fixing force to the horizontal frame part 22' is applied again through rotation while being mounted on the horizontal frame part 22'.

Images