KR101716474B1 - GIS based CCTV monitoring system - Google Patents

Abstract

The present invention relates to a GIS-based CCTV control system. The GIS-based CCTV control system comprises: a plurality of first, second, and third CCTV cameras (100, 100, 100) which are installed on a monitored region and automatically generate an event signal when an event occurs; a GIS database (200) in which CCTV location data (210), including longitude and latitude coordinate information regarding locations at which the plurality of first, second, and third CCTV cameras (100, 100, 100) are installed, and GIS map data (220), including longitude and latitude coordinate information regarding locations of geographic features and administrative area boundaries, have been stored in a form of an electronic map; a control server (300) which controls the plurality of first, second, and third CCTV cameras (100, 100, 100) on the electronic map; and a wired and/or wireless communication network (400) which connects the plurality of first, second, and third CCTV cameras (100, 100, 100), the GIS database (200), and the control server (300).

Description

GIS based CCTV monitoring system [

The present invention relates to a GIS-based CCTV control system, and more particularly, to a GIS-based CCTV control system capable of performing a crime prevention and location tracking function on an electronic map.

Generally, a CCTV control system is composed of a CCTV camera installed in a specific place, and a display installed at a remote place through the CCTV camera and a wired / wireless network, and the image captured by the CCTV camera is transmitted to a remote display through a network And monitors the place where the image is taken through the display.

Meanwhile, a GIS system (GIS) is a system for inputting and processing various kinds of geographical information into a computer and providing geographical information analyzed and integrated by various methods in accordance with the needs of users .

In recent years, a GIS-based CCTV control system that displays a plurality of CCTV icons on an electronic map by combining a CCTV control function with a GIS system and displays a CCTV screen photographed by the corresponding CCTV camera when a specific CCTV icon is clicked Has been developed and used in various fields. A prior art related to this is disclosed in Patent Registration No. 10-1321444 under the name CCTV monitoring system.

However, in the case of the above-mentioned GIS-based CCTV control system, when a crime occurs in a specific area, the controller must search for a CCTV camera in a specific area on an electronic map. Since a large number of CCTV cameras are displayed on the electronic map, It was very difficult to search CCTV cameras in the area, and now the controller is searching for CCTV cameras by his learning experience. Therefore, if the criminal can not immediately detect the CCTV camera, the criminal could not get out of the crime area and could not control it.

The present invention has been made to solve the above problems, and it is an object of the present invention to provide a CCTV camera installed in a crime area in a specific area, , And to provide a GIS-based CCTV control system capable of accurate and rapid control.

Another object of the present invention is to provide a GIS-based CCTV control system capable of preventing a crime by determining a criminal situation and warning a CCTV camera.

In order to achieve the above object, a GIS-based CCTV control system according to the present invention is installed in a control area and includes a plurality of first, second and third CCTV cameras CCTV position data 210 having latitude and longitude coordinate information on the installation positions of the first, second and third CCTV cameras 100, 100 ', 100 " A GIS database 200 in which GIS map data 220 having the latitude and longitude coordinate information on the feature and the administrative boundary are stored in the form of an electronic map; A control server 300 for controlling the first, second and third CCTV cameras 100, 100 'and 100''on the electronic map, and a plurality of first, second and third CCTV cameras 100 100 ') 100'', a database 200, and a control server 300;
The control server 300 includes: a control screen 310 on which an electronic map is displayed; A CCTV coordinate recognition unit for extracting and recognizing in real time the coordinate values of the first, second and third CCTV cameras 100, 100 'and 100 "displayed on the control screen 310 in the GIS map data 220, And an event image (P1) to be automatically displayed on the control screen (310) when the event signal is generated in the first CCTV camera (100) (P3) photographed by the second and third cameras (100 ') and (100'') closest to one side and the other side of the first CCTV camera (100) 310) for automatically displaying the event image (P1) on one side and the other side of the event image (P1);
The first, second and third CCTV cameras 100, 100 'and 100''include a base 110 fixed at a specific place, and a sound sensor 110 installed in the base 110, A housing unit 120 having a microphone 120a for generating a corresponding sound detection signal and a warning alarm 120b for generating a warning sound, a camera module 130 fixed to the housing unit 120, An ID assignment unit 140 for assigning a unique ID to the housing unit 120, an event state analysis unit for analyzing a sound sensing signal generated by the microphone 120a, An event signal generator 150 for generating an event signal to be transmitted to the event image display unit 330 when an event is generated, and an alarm signal for operating the alarm 120b interlocked with the event signal Warning signal An ultrasonic receiver 180 for receiving an ultrasonic wave from the outside, an ultrasonic receiver 180 for receiving an ultrasonic wave from the ultrasonic receiver 180, And a proximity event signal generator 190 for generating a proximity event signal for transmission to the proximity event image display unit 340.

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The base 110 is fixed to a specific place and includes a base body 111 having a step 111a formed downward and a first contact surface 111b formed on a lower end surface of the step 111a, A first terminal 112 provided at the center of the first contact surface 111b and a plurality of first connection terminals 113c provided at the first contact surface 111b and having a plurality of first connection terminals 113c, 113); The housing unit 120 includes a housing body 121 formed with a rim 121a that engages with the step 111a and a second contact surface 121b that is in close contact with the first contact surface 111b, A second detachable member 122 fixed to the second contact surface 121b and attached to the first detachable member 112 and a second detachable member 122 provided on the second contact surface 121b, And a second connection terminal 123 having a second connection terminal 123c connected thereto. At this time, a guide groove 111c for guiding the engaging position of the housing unit 120 is formed on a side surface of the step 111a; A guide protrusion 121c engaging with the guide groove 111c is formed on the inner circumferential surface of the rim 121a.

According to the present invention, when a crime occurs in a specific area, the CCTV camera installed in the crime-causing area is automatically activated, and the crime-causing area can be immediately photographed, thereby enabling accurate and prompt control.

In addition, the CCTV camera itself can judge the criminal situation and give an immediate warning to let potential criminals give up the crime.

And, if continuous monitoring of moving objects is required during the control, the controller can move the pointer easily on the control screen and trace the route, so that the CCTV monitoring can be performed more quickly and efficiently.

1 is a diagram for explaining the overall configuration of a GIS-based CCTV control system according to the present invention;
FIG. 2 is a view for explaining that a plurality of first, second and third CCTV cameras are displayed on the control screen of FIG. 1;
FIG. 3 illustrates the display of the proximity event image photographed by the second and third CCTV cameras, which are closest to one side and the other side of the first CCTV camera, when the event image of the specific first CCTV camera is displayed in FIG. Drawings,
4 is a view for explaining a configuration of the first, second and third CCTV cameras of FIG. 1,
5 is a block diagram illustrating the configuration of the first, second and third CCTV cameras of FIG. 4,
FIG. 6 is a view for explaining the structure of the first and second terminal stages for electrically connecting the base and the housing unit of FIG. 4;
FIG. 7 is an exploded perspective view showing the housing unit of FIG. 4,
8 is an assembled view of the first, second and third CCTV cameras shown in Fig.

Hereinafter, a GIS-based CCTV control system according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view for explaining the overall configuration of a GIS-based CCTV control system according to the present invention. FIG. 2 is a view for explaining a plurality of first, second and third CCTV cameras displayed on a control screen of FIG. FIG. 3 is a view for explaining the display of the proximity event image photographed by the second and third CCTV cameras nearest to one side and the other side of the first CCTV camera, when the event image of the specific first CCTV camera is displayed in FIG. FIG.

As shown in the figure, the GIS CCTV CCTV control system according to the present invention is installed in the control area and includes a plurality of first, third, and third CCTV cameras 100, 100 CCTV position data 210 having latitude and longitude coordinate information on installation positions of a plurality of first, second and third CCTV cameras 100, 100 'and 100' ', A GIS database 200 in which GIS map data 220 having latitude and longitude coordinate information on boundaries is stored in the form of an electronic map; A control server 300 for controlling the first, second and third CCTV cameras 100, 100 ', 100' 'on the electronic map, a plurality of first, third and third CCTV cameras 100' ) 100 '', a GIS database 200, and a control server 300. As shown in FIG.

Although the number of the CCTV cameras may be from several tens to several hundreds, in the present embodiment, three CCTV cameras installed close to each other for easy explanation are defined as first, second and third CCTV cameras. At this time, a CCTV camera in the center of the first, second and third CCTV cameras is defined as a first CCTV camera 100 and a CCTV camera positioned closest to one side and the other side of the first CCTV camera 100 is defined as a second CCTV camera 100 100 ') (100 ").

The GIS database 200 includes GIS map data 220 for storing general map information, such as roads, alleys, and rivers, and general map information such as administrative boundaries together with latitude and longitude coordinates information, and a plurality of first And CCTV position data 220 for storing the positional latitude and longitude coordinate information for the installation positions of the 2,3CCTV cameras 100, 100 ', 100 ", etc. This GIS database 200 is generalized in a general GIS system Therefore, further detailed description will be omitted.

As shown in FIG. 1, the control server 300 includes a control screen 310 on which an electronic map is displayed on a display such as an LCD, a PDP, or the like; A CCTV coordinate recognizing unit 320 for extracting and recognizing the coordinate values of a plurality of first, second and third CCTV cameras 100, 100 ', 100 "displayed on the control screen 310 in real time in the GIS map data 220, An event image display unit 330 for automatically activating an event image P1 photographed by the first CCTV camera 100 on the control screen 310 when an event signal is generated in the specific first CCTV camera 100, (P3) photographed by the second and third cameras 100 'and 100' 'closest to one side and the other side of the first CCTV camera 100 are displayed on the control screen 310 A proximity event image display unit 340 for activating the event image P1 so as to be automatically displayed on one side and the other side of the event image P1; A pointer coordinate recognizing unit 350 for extracting and recognizing coordinate values of the pointer P displayed on the control screen 310 in real time in the GIS map data 220; And a selected image display unit 360 for displaying an image photographed by the CCTV camera on the control screen 310 when the controller moves the pointer P using the input means and designates an arbitrary CCTV camera do.

A plurality of first, second and third CCTV cameras 100, 100 'and 100' 'are displayed on the electronic map displayed on the control screen 310. The controller moves the pointer P and clicks a specific CCTV camera A sub screen 315 is formed on one side of the control screen 310 and a pointer P is displayed on the sub screen 315 when an arbitrary CCTV camera is designated. The coordinate information of the CCTV camera, the number of the map on the map according to the coordinate information, and the unique ID of the corresponding CCTV camera are displayed as text.

The CCTV coordinate recognizing unit 320 recognizes the coordinate values of the first, second and third CCTV cameras 100, 100 'and 100 "displayed on the control screen 310 in real time extraction from the GIS map data 220 .

3, when an event, for example, a crime occurs, in the area where the first CCTV camera 100 is installed in the area where the various CCTV cameras are installed, the event video display unit 330 displays the event 100, the event image P captured by the first CCTV camera 100 is automatically activated on the control screen 310 and displayed. Accordingly, when the event occurs, the controller does not have to search for the specific first CCTV camera 100, and the event image P can be immediately confirmed by the control screen 310, so that accurate and immediate control becomes possible.

The proximity event image display unit 340 displays a proximity event image 330 captured by the second and third CCTV cameras 100 'and 00' closest to one side and the other side of the first CCTV camera 100 that captures the event image P1, The controller 100 automatically activates and displays the images P1 and P2 on the control screen 310. Thus, by the event image P and the proximity event images P1 and P2, The path and direction can be predicted, allowing precise control.

For ease of explanation, the first, second and third CCTV cameras 100 and 100 'for photographing the event image P1 and the proximity event images P2 and P3 on the control screen 310 of FIG. ) ≪ / RTI > (100 ").

The pointer coordinate recognizing unit 350 recognizes the coordinate value of the position of the pointer P displayed on the control screen 310 on the basis of the GIS map data 220 according to the operation of the mouse and the keyboard connected to the control server 300, .

When the controller moves the pointer P on the control screen 310 to select an arbitrary CCTV camera, the selected image display unit 360 displays an image photographed by the corresponding CCTV camera on the control screen 310. Accordingly, the controller can perform the control of the specific area through the CCTV camera for the specific purpose separately from the event situation.

FIG. 4 is a view for explaining the configuration of the first, second and third CCTV cameras of FIG. 1, FIG. 5 is a block diagram of the first, second and third CCTV cameras of FIG. 4 is an exploded perspective view showing the housing unit of FIG. 4, and FIG. 8 is an exploded perspective view of the housing unit of FIG. 5 It is an assembly diagram of 1,2,3CCTV camera.

The first, second and third CCTV cameras 100, 100 'and 100' 'have substantially the same configuration. The first, second and third cameras 100, 100' and 100 ' A base 110 which is formed on the base 110; A housing unit 120 attached to and detached from the base 110, the housing unit 120 having a microphone 120a for detecting a sound generated from the surroundings and a corresponding sound detection signal and a warning alarm 120b for generating a warning sound; A camera module 130 fixed to the housing unit 120 and photographing the surroundings; And an ID assignment unit (140) for assigning a unique ID to the housing unit (120). As shown in FIG. 8, the first, second and third CCTV cameras analyze a sound detection signal generated by the microphone 120a to analyze an event situation. When analyzed as an event situation, An event signal generator 150 for generating a signal; An alarm signal generator 160 interlocked with the event signal to generate an alarm signal for operating the alarm 120b; An ultrasonic wave generator 170 for generating an ultrasonic wave when a warning signal is generated; An ultrasound receiver 180 for receiving ultrasound from the outside; And a proximity event signal generator 190 for generating a proximity event signal when the ultrasonic wave receiver 180 receives ultrasonic waves.

4, the base 110 is fixed to a specific place and includes a base 111 having a step 111a formed downward and a first contact surface 111b formed on a lower end surface of the step 111a, A first terminal 112 provided on the first contact surface 111b and a plurality of first connection terminals 113c provided on the first contact surface 111b, 113), a power supply circuit (not shown) for applying power to the first terminal 113, and a signal circuit (not shown) for transmitting and receiving various signals.

The base body 111 is provided with a pole P at an upper end thereof so as to be installed on the electric pole P and guides a coupling position of a housing unit 120 to be described later on the side surface of the step 111a. A guide groove 111c is formed.

The first detachable member 112 is provided on the center side of the first contact surface 111b and is for attaching the second detachable member 122 of the housing unit 120 to be described later by magnetic force.

The first terminal 113 is electrically connected to the housing unit 120 by being automatically connected to the second terminal 123 when the housing unit 120 to be described later is coupled to the base 110, The controller 130 supplies power to the camera module 130 or receives a video signal photographed from the camera module 130. 6, the first terminal 113 includes a terminal box 113a provided on the first contact surface 111b of the base body and a terminal box 113b formed on the inside of the terminal box 113a, A first connection terminal 113c formed in the step space 113b and partially protruding from the through hole 113b so as not to be separated by the through hole 113b ' A base terminal 113d electrically connected to a power circuit (not shown) or a signal circuit (not shown) installed in the base body 111 and a base terminal 113d and a first connection terminal 113c, And a spring 113e that is installed between the two. Due to the structure of the first terminal 113, the first connection terminal 113c is kept protruded by the spring 113e to the outside of the terminal box 113a, and the spring 113e And is immersed in the terminal box 113a.

4, the housing unit 120 is selectively coupled to or separated from the base 110 and includes a rim 121a and a first contact surface 111b which are engaged with the step 111a of the base body, A second detachable member 122 fixed to the second contact surface 121b and attached to the first detachable member 112 and a second detachable member 122 fixed to the second contact surface 121b, A second connection terminal 123 provided on the contact surface 121b and having a second connection terminal 123c selectively connected to the first connection terminal 113c and a second connection terminal 123c provided on the lower side of the housing body 121, And a hemispherical cover (124) for preventing snow from flowing into the housing body (121).

On the inner peripheral surface of the rim 121a of the housing body 121, a guide protrusion 121c engaged with the guide groove 111c is formed as shown in Fig. As the guide protrusion 121c is caught in the guide groove 111c, the second connection terminal 123c of the second terminal end and the first connection terminal 113c of the first terminal end can be correctly connected.

The second detachable member 122 is provided on the center side of the second contact surface 121b and is attached to the first detachable member 112 by mutual magnetic force to fix the housing unit 120 to the base 110 will be.

One of the first and second detachable members 112 and 122 is made of a magnet and the other is a piece of iron.

The second terminal end 123 is electrically connected to the first terminal end 113 when the housing unit 120 is coupled to the base 110 to connect the camera module 130 installed in the housing unit 120 to the base 110). 6, the second terminal end 123 includes a terminal plate 123a on the second contact surface 121b corresponding to the first terminal end 113 and a terminal plate 123a And the second connection terminal 123c to which the first connection terminal 113c is selectively connected.

7, the camera module 130 includes a direction changing part 131 fixed to the housing body 121 inside the hemispherical cover 216, and a direction changing part 131 provided on the direction changing part 131, And a camera barrel 132 which is provided in the camera body. The direction changing part 131 includes a first rotating part 131a for rotating the camera body 132 in the front and rear direction with respect to the housing body 121 and a second rotating part 131b for rotating the first rotating part 131a 360 degrees with respect to the housing body 121 And a second rotation part 131b for rotating the second rotation part 131b. Since this camera module 130 is air in the art, further detailed description is omitted.

The ID assignment unit 140 assigns a unique ID to the housing unit 120 to distinguish the housing unit from the housing unit of another CCTV camera. The information related to the ID is transmitted to the control server 300 so that the coordinates of the first, second and third CCTV cameras 100, 100 ', 100 "are stored in the GIS map data 220 on the control screen 310 Allows you to distinguish between values independently.

The event signal generator 150 analyzes the sound generated by the microphone 120a to determine whether the event is a normal or critical event. And generates an event detection signal when it is determined that it is an event situation. For example, when an intruder meets with a strength in an alley or when a threatening situation occurs, the sound is instantly screamed, and the sound generated at this time is often larger than the set frequency region. In this case, the event signal generator 150 determines that the event is an emergency event and generates an event signal indicating that an event has occurred. This event signal is transmitted to the event image display unit 330 of the control server 300 so that the event image display unit 330 automatically displays the event image P captured by the CCTV camera 100 on the control screen 310 Activate to display.

The warning signal generator 160 generates an alarm signal in conjunction with the event signal. The warning signal causes the warning alarm 120b to generate a warning sound, and further, the ultrasonic wave generator 170 is operated to generate ultrasonic waves.

The ultrasonic wave generator 170 generates ultrasonic waves in excess of the audible frequency band that the human being can not recognize when the warning signal generator 160 generates a warning signal. Ultrasonic waves are spread relatively far in comparison with the audio frequency, and propagate to other CCTV cameras located on one side and the other side based on a specific CCTV camera.

The ultrasound receiving unit 180 receives ultrasonic waves generated from other CCTV cameras that are closest to each other and generates corresponding ultrasound reception signals.

The proximity event signal generation unit 190 transmits the proximity event signal to the proximity event image display unit 340 of the control server when the ultrasonic reception signal is generated. As described above, the proximity event image display unit 340 automatically activates and displays the proximity event image photographed from the CCTV camera in which the proximity event signal is generated, on the control screen 310, as described above.

That is, the ultrasonic wave generator 160 automatically generates ultrasonic waves when the first CCTV camera 100 recognizes an event situation, and the ultrasonic waves are generated by the second and third CCTV cameras 100 ', 100' The second and third CCTV cameras 100 'and 100' 'receiving the ultrasonic waves transmit the proximity event signals to the proximity event image display unit 340 and thereby the second and third CCTV cameras 100' The proximity event image photographed by the first CCTV camera 100 is displayed on the control screen 320. Accordingly, the controller can display not only the event image captured by the first CCTV camera 100 but also the second and third CCTV cameras 100 '(100 "), so that the criminal can predict the movement route and direction to escape, thereby enabling precise control.

As described above, according to the GIS-based CCTV control system according to the present invention, when a crime occurs in a specific area, the CCTV camera installed in the crime area is automatically activated so that the crime scene can be photographed immediately, .

In addition, the CCTV camera itself can judge the criminal situation and give an immediate warning to let potential criminals give up the crime.

And, if continuous monitoring of moving objects is required during the control, the controller can move the pointer easily on the control screen and trace the route, so that the CCTV monitoring can be performed more quickly and efficiently.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

200 ... GIS database 210 ... CCTV location data
220 ... GIS position data 300 ... control server
310 ... control screen 320 .. CCTV coordinate recognition unit
330 ... event image display section 340 ... proximity event image display section
350 ... pointer coordinate recognition unit 360 ... selected image display unit
400 ... wired and wireless communication network
100, 100 ', 100 "... 1,2,3 CCTV camera
110 ... base 111 ... base body
111a ... step 111b ... first contact surface
111c ... guide groove 112 ... first detachable member
113 ... first terminal end 113a ... terminal box
113b ... step space 113b '... through hole
113c ... first connection terminal 113d ... base terminal
113e ... spring 120 ... housing unit
120a ... microphone 120b ... warning alarm
121 ... housing body 121a ... rim
121b ... second contact surface 121c ... guide projection
123 ... second connection terminal 123a ... terminal plate
123c ... second connection terminal 124 ... hemispherical cover
130 ... camera module 131 ... direction variable portion
131a ... First rotation part 131b ... Second rotation part
132 ... camera camera tube 140 ... ID attaching
150 ... Event signal generator 160 ... Warning signal generator
170 ... Ultrasonic wave generator 180 ... Ultrasonic wave receiver
190 ... proximity event signal generator

Claims (8)

A plurality of first, second and third CCTV cameras 100, 100 ', 100''that are installed in the control area and automatically generate an event signal when an event occurs;
CCTV position data 210 having the latitude and longitude coordinate information with respect to the installation positions of the first, second and third CCTV cameras 100, 100 ', 100 ", and the latitude and longitude coordinate information on the feature and the administrative boundary A GIS database 200 in which GIS map data 220 is stored in the form of an electronic map;
A control server 300 for controlling the first, second and third CCTV cameras 100, 100 'and 100 "on the electronic map;
And a wired / wireless communication network 400 connecting the first, second, and third CCTV cameras 100, 100 ', 100 ", the database 200, and the control server 300;
The control server 300 includes: a control screen 310 on which an electronic map is displayed; A CCTV coordinate recognition unit for extracting and recognizing in real time the coordinate values of the first, second and third CCTV cameras 100, 100 'and 100 "displayed on the control screen 310 in the GIS map data 220, And an event image (P1) to be automatically displayed on the control screen (310) when the event signal is generated in the first CCTV camera (100) (P3) photographed by the second and third cameras (100 ') and (100'') closest to one side and the other side of the first CCTV camera (100) 310) for automatically displaying the event image (P1) on one side and the other side of the event image (P1);
The first, second and third CCTV cameras 100, 100 'and 100''include a base 110 fixed at a specific place, and a sound sensor 110 installed in the base 110, A housing unit 120 having a microphone 120a for generating a corresponding sound detection signal and a warning alarm 120b for generating a warning sound, a camera module 130 fixed to the housing unit 120, An ID assignment unit 140 for assigning a unique ID to the housing unit 120, an event state analysis unit for analyzing a sound sensing signal generated by the microphone 120a, An event signal generator 150 for generating an event signal to be transmitted to the event image display unit 330 when an event is generated, and an alarm signal for operating the alarm 120b interlocked with the event signal Warning signal An ultrasonic receiver 180 for receiving an ultrasonic wave from the outside, an ultrasonic receiver 180 for receiving an ultrasonic wave from the ultrasonic receiver 180, And a proximity event signal generating unit (190) for generating a proximity event signal for transmitting the proximity event image to the proximity event image display unit (340). delete delete delete delete delete The method according to claim 1,
The base 110 is fixed to a specific place and includes a base body 111 having a step 111a formed at a lower portion and a first contact surface 111b formed at a lower end surface of the step 111a, A first detachable member 112 provided at the center of the contact surface 111b and a first terminal 113 provided on the first contact surface 111b and having a plurality of first connection terminals 113c ;
The housing unit 120 includes a housing body 121 formed with a rim 121a that engages with the step 111a and a second contact surface 121b that is in close contact with the first contact surface 111b, A second detachable member 122 fixed to the second contact surface 121b and attached to the first detachable member 112 and a second detachable member 122 provided on the second contact surface 121b, And a second connection terminal (123) having a second connection terminal (123c) connected to the GIS-based CCTV control system. 8. The method of claim 7,
A guide groove 111c for guiding a coupling position of the housing unit 120 is formed on a side surface of the step 111a;
And a guide protrusion (121c) engaging with the guide groove (111c) is formed on an inner peripheral surface of the rim (121a).

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