CN204065410U - A kind of device utilizing subregion networking to improve navigation mark positioning precision - Google Patents
A kind of device utilizing subregion networking to improve navigation mark positioning precision Download PDFInfo
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- CN204065410U CN204065410U CN201420368919.1U CN201420368919U CN204065410U CN 204065410 U CN204065410 U CN 204065410U CN 201420368919 U CN201420368919 U CN 201420368919U CN 204065410 U CN204065410 U CN 204065410U
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- 230000006855 networking Effects 0.000 title claims abstract description 16
- 238000004891 communication Methods 0.000 claims abstract description 40
- 230000015572 biosynthetic process Effects 0.000 claims description 4
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 3
- 238000005516 engineering process Methods 0.000 description 2
- 238000009434 installation Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000005265 energy consumption Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000013178 mathematical model Methods 0.000 description 1
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- 238000010295 mobile communication Methods 0.000 description 1
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Abstract
The utility model discloses a kind of device utilizing subregion networking to improve navigation mark positioning precision, comprise a main equipment and more than one from equipment; The control circuit board I (2) that the equipment box I (1) of described main equipment is inner is provided with 3G communicator (6) and 2.4G radio communication device I (4); The control circuit board II (15) of the described inside of the equipment box II (14) from equipment is provided with 2.4G radio communication device II (17); Described main equipment and carry out wireless connections by 2.4G radio communication device I (4) and 2.4G radio communication device II (17) between equipment; Described main equipment, by 3G communicator (6) and remote server wireless connections, realizes subregion networking.This apparatus structure is simple, reasonable in design, utilizes 2.4G radio communication device to carry out automatic network-building in subregion, both ensure that hi-Fix, again reduce the use cost of positioning equipment.
Description
Technical field
The utility model relates to a kind of locating device, has been specifically related to a kind of device utilizing subregion networking to improve navigation mark positioning precision; It is mainly used in cruiseway, the navigation mark in seashore navigation channel controls and location.
Background technology
Now, gps satellite location technology obtains good application in many industries, and the positioning precision of normal domestic also reaches about 10 meters, if adopt differential technique, can be lifted to about 5 meters.But the positioning precision of 5 meters is far from being enough for the positioning requirements of natural navigable waterway.In natural navigable waterway, boat groove often very narrow, boats and ships against often boat trough rim rock navigation, particularly at some dangerous shoal.So the positioning precision of 5 meters often can not meet the needs of sea-route management and ship's navigation, be necessary positioning precision to bring up to about 1 meter, even higher.Now, use high precision instrument, under the cooperation at difference station, positioning precision can reach centimetre-sized, but its use cost is very high, is difficult to apply.
The application of navigation mark remote control telemetering system, greatly improves the management level of navigation mark, reduces the labour intensity of managerial personnel, makes managerial personnel just can grasp the actual conditions of navigation mark in real time in office, can Timeliness coverage problem and dealing with problems.If we can realize high-precision localizing objects at low cost, will more be conducive to the promotion and application of navigation mark remote control telemetering system.
Summary of the invention
The purpose of this utility model is for the deficiencies in the prior art, provides a kind of device utilizing subregion networking to improve navigation mark positioning precision; It not only ensure that hi-Fix, and use cost is low, is conducive to navigation mark remote control telemetering system and arranges that the place of locating and monitoring equipment is applied in a large number at the needs such as navigation channel, harbour.
To achieve these goals, the utility model have employed following technical scheme:
Utilize subregion networking to improve a device for navigation mark positioning precision, comprise a main equipment and more than one from equipment; Described main equipment is primarily of equipment box I and control circuit board I formation being fixedly mounted on equipment box I inside; Described control circuit board I is provided with several wiring draw-in grooves, described wiring draw-in groove is installed respectively master controller I, GPS locating device I, 3G communicator and 2.4G radio communication device I; Described equipment box I is also provided with gps antenna interface I, 3G communication antenna interface, 2.4G radio antenna interface I, serial line interface I, LED navigation light interface I and power interface I; Described gps antenna interface I, 3G communication antenna interface are connected with 2.4G radio communication device I with GPS locating device I, 3G communicator respectively with 2.4G radio antenna interface I; Described serial line interface I, LED navigation light interface I are connected with master controller I respectively with power interface I;
Described from equipment primarily of equipment box II and control circuit board II formation being fixedly mounted on equipment box II inside; Described control circuit board II is provided with several wiring draw-in grooves, described wiring draw-in groove is installed respectively master controller II, GPS locating device II and 2.4G radio communication device II; Described equipment box II is also provided with gps antenna interface II, 2.4G radio antenna interface II, serial line interface II, LED navigation light interface II and power interface II; Described gps antenna interface II is connected with 2.4G radio communication device II with GPS locating device II respectively with 2.4G radio antenna interface II; Described serial line interface II, LED navigation light interface II are connected with master controller II respectively with power interface II;
Described main equipment and carry out wireless connections by 2.4G radio communication device I and 2.4G radio communication device II between equipment; Described main equipment, by 3G communicator and remote server wireless connections, realizes subregion networking.
In the utility model, a subregion arranges a main equipment, then as required, arranges several from equipment; And at main equipment be provided with 2.4G radio communication device from equipment respectively, and automatically set up WLAN (wireless local area network) by it, carry out data transmission; And be provided with 3G communicator in the host, and carry out radio communication by it and remote server; Achieve subregion networking like this, do not need each positioning equipment to communicate with remote server, namely ensure that hi-Fix, again reduce the use cost of equipment.In addition, equipment box is arranged each class interface, facilitate equipment other external units external, improve and expand the performance of this positioning equipment.
Further illustrate as of the present utility model, the control circuit board I of described main equipment and be also provided with reset circuit and working station indicator from the control circuit board II of equipment.
Further illustrate as of the present utility model, described serial line interface I, LED navigation light interface I, power interface I, serial line interface II, LED navigation light interface II and power interface II adopt water proof type aviation plug respectively.
In the utility model, the parts finished products such as master controller I, 2.4G radio communication device I, 3G communicator I, GPS locating device I, master controller II, 2.4G radio communication device II and GPS locating device II all commercially can be bought and obtain, and to the not specific requirement of concrete model, as long as corresponding function can be possessed.And the utility model key of dealing with problems there are provided a kind of these parts that adopt and carries out integrating the equipment linked together; do not relate to related components (as controller, communicator, locating device) internal circuit or the improvement of program; that is; the utility model is required for protection is which parts this equipment includes; then these parts are how to arrange installation in equipment box; how interconnective be between them, namely fixing between these parts installation site and fixing annexation.
Compared with prior art, the beneficial effect that has of the utility model:
1. the utility model only need use high-precision GPS locating device can realize the function of differential reference station on the master, reduces the expense that base station is built.
2. the utility model only needs main equipment and server communication, from equipment by main equipment and server communication, reduces construction cost and the mobile communication expense of 3G communicator like this.
3, the 2.4G radio communication device block that the utility model intercommunication uses has feature low in energy consumption, is conducive to small-sized solar and powers, reach the needs of environmental protection.
4, the utility model is not when having difference station, by main equipment is fixed, is used as difference station and uses, can provide to from equipment parameter of well rectifying a deviation yet after adopting mathematical model optimizing.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model main equipment.
Fig. 2 is the structural representation of the utility model from equipment.
Reference numeral: 1-equipment box I, 2-control circuit board I, 3-master controller I, 4-2.4G radio communication device I, 5-2.4G radio antenna interface I, 6-3G communicator, 7-3G communication antenna interface, 8-GPS locating device I, 9-GPS antennal interface I, 10-working station indicator, 11-serial line interface I, 12-LED navigation light interface I, 13-power interface I, 14-equipment box II, 15-control circuit board II, 16-master controller II, 17-2.4G radio communication device II, 18-2.4G radio antenna interface II, 19-GPS locating device II, 20-GPS antennal interface II, 21-serial line interface II, 22-LED navigation light interface II, 23-power interface II.
Embodiment
Below in conjunction with drawings and Examples, the utility model is further illustrated, but protection domain of the present utility model is not only confined to following specific embodiment.
Embodiment:
As shown in Figure 1-2, a kind of device utilizing subregion networking to improve navigation mark positioning precision, comprises a main equipment and more than one from equipment; Described main equipment is primarily of equipment box I 1 and control circuit board I 2 formation being fixedly mounted on equipment box I 1 inside; Described control circuit board I 2 is provided with several wiring draw-in grooves, described wiring draw-in groove is installed respectively master controller I 3, GPS locating device I 8,3G communicator 6 and 2.4G radio communication device I 4; Described equipment box I 1 is also provided with gps antenna interface I 9,3G communication antenna interface 7,2.4G radio antenna interface I 5, serial line interface I 11, LED navigation light interface I 12 and power interface I 13; Described gps antenna interface I 9,3G communication antenna interface 7 are connected with 2.4G radio communication device I 4 with GPS locating device I 8,3G communicator 6 respectively with 2.4G radio antenna interface I 5; Described serial line interface I 11, LED navigation light interface I 12 are connected with master controller I 3 respectively with power interface I 13;
Described is formed from equipment primarily of equipment box II 14 and the control circuit board II 15 being fixedly mounted on equipment box II 14 inside; Described control circuit board II 15 is provided with several wiring draw-in grooves, described wiring draw-in groove is installed respectively master controller II 16, GPS locating device II 19 and 2.4G radio communication device II 17; Described equipment box II 14 is also provided with gps antenna interface II 20,2.4G radio antenna interface II 18, serial line interface II 21, LED navigation light interface II 22 and power interface II 23; Described gps antenna interface II 20 is connected with 2.4G radio communication device II 17 with GPS locating device II 19 respectively with 2.4G radio antenna interface II 18; Described serial line interface II 21, LED navigation light interface II 22 are connected with master controller II respectively with power interface II 23;
Described main equipment and carry out wireless connections by 2.4G radio communication device I 4 and 2.4G radio communication device II 17 between equipment; Described main equipment, by 3G communicator 6 and remote server wireless connections, realizes subregion networking.
The control circuit board I 2 of described main equipment and be also provided with reset circuit and working station indicator 10 from the control circuit board II 15 of equipment.Described serial line interface I 11, LED navigation light interface I 12, power interface I 13, serial line interface II 21, LED navigation light interface II 22 and power interface II 23 adopt water proof type aviation plug respectively.
The subregion networking that utilizes of the present embodiment improves the apparatus structure of navigation mark positioning precision simply, utilizes 2.4G radio communication device to carry out automatic network-building in subregion, both ensure that hi-Fix, again reduce the use cost of positioning equipment.
Claims (3)
1. utilize subregion networking to improve a device for navigation mark positioning precision, it is characterized in that: comprise a main equipment and more than one from equipment; Described main equipment is primarily of equipment box I (1) and be fixedly mounted on inner control circuit board I (2) formation of equipment box I (1); Described control circuit board I (2) is provided with several wiring draw-in grooves, described wiring draw-in groove is installed respectively master controller I (3), GPS locating device I (8), 3G communicator (6) and 2.4G radio communication device I (4); Described equipment box I (1) is also provided with gps antenna interface I (9), 3G communication antenna interface (7), 2.4G radio antenna interface I (5), serial line interface I (11), LED navigation light interface I (12) and power interface I (13); Described gps antenna interface I (9), 3G communication antenna interface (7) and 2.4G radio antenna interface I (5) are connected with 2.4G radio communication device I (4) with GPS locating device I (8), 3G communicator (6) respectively; Described serial line interface I (11), LED navigation light interface I (12) are connected with master controller I (3) respectively with power interface I (13);
Described from equipment primarily of equipment box II (14) be fixedly mounted on the inner control circuit board II (15) of equipment box II (14) and form; Described control circuit board II (15) is provided with several wiring draw-in grooves, described wiring draw-in groove is installed respectively master controller II (16), GPS locating device II (19) and 2.4G radio communication device II (17); Described equipment box II (14) is also provided with gps antenna interface II (20), 2.4G radio antenna interface II (18), serial line interface II (21), LED navigation light interface II (22) and power interface II (23); Described gps antenna interface II (20) is connected with 2.4G radio communication device II (17) with GPS locating device II (19) respectively with 2.4G radio antenna interface II (18); Described serial line interface II (21), LED navigation light interface II (22) are connected with master controller II respectively with power interface II (23);
Described main equipment and carry out wireless connections by 2.4G radio communication device I (4) and 2.4G radio communication device II (17) between equipment; Described main equipment, by 3G communicator (6) and remote server wireless connections, realizes subregion networking.
2. the device utilizing subregion networking to improve navigation mark positioning precision according to claim 1, is characterized in that: the control circuit board I (2) of described main equipment and be also provided with reset circuit and working station indicator (10) from the control circuit board II (15) of equipment.
3. the device utilizing subregion networking to improve navigation mark positioning precision according to claim 1 and 2, is characterized in that: described serial line interface I (11), LED navigation light interface I (12), power interface I (13), serial line interface II (21), LED navigation light interface II (22) and power interface II (23) adopt water proof type aviation plug respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420368919.1U CN204065410U (en) | 2014-07-04 | 2014-07-04 | A kind of device utilizing subregion networking to improve navigation mark positioning precision |
Applications Claiming Priority (1)
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CN201420368919.1U CN204065410U (en) | 2014-07-04 | 2014-07-04 | A kind of device utilizing subregion networking to improve navigation mark positioning precision |
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CN204065410U true CN204065410U (en) | 2014-12-31 |
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CN201420368919.1U Expired - Fee Related CN204065410U (en) | 2014-07-04 | 2014-07-04 | A kind of device utilizing subregion networking to improve navigation mark positioning precision |
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2014
- 2014-07-04 CN CN201420368919.1U patent/CN204065410U/en not_active Expired - Fee Related
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Granted publication date: 20141231 |