CN201094021Y - Electronic dial compass - Google Patents
Electronic dial compass Download PDFInfo
- Publication number
- CN201094021Y CN201094021Y CNU2007201292426U CN200720129242U CN201094021Y CN 201094021 Y CN201094021 Y CN 201094021Y CN U2007201292426 U CNU2007201292426 U CN U2007201292426U CN 200720129242 U CN200720129242 U CN 200720129242U CN 201094021 Y CN201094021 Y CN 201094021Y
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- pilot pin
- pin
- angle
- compass
- sun
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Abstract
The utility model relates to an electronic dial compass for measuring and displaying the direction or the position accurately by adopting the shadow of the sun. The dial compass of the utility model comprises a housing, a register pin, a sundial pin, a sensor and a circuit device, wherein, the sundial pin which is an object with a shape of a straight pin is fixed on the revolving axle center of the register pin and is perpendicular to the plane of rotation of the register pin, the sensor is fixed on the housing, when the register pin rotates to be coincident with the shadow of the sundial pin, the measured angle value of the object is sensed, the measured value is compared with the shadow angle by the circuit device arranged inside the dial device and the information of the difference value is outputted by a display device as well as the azimuth of the object to be measured is displayed. The measuring method realizes the measurement by adopting the device. The utility model can adopt the shadow of the sun to determine the azimuth of the object to be measured; therefore, the determined direction has high accuracy; the electronic dial compass suppresses the interference of the terrestrial magnetism and adopts the electronic way to ensure that the calculation is quicker and more convenient and the direction data can be read more conveniently.
Description
Technical field
The utility model relates to a kind of compass, relates to the electric dial compass that a kind of shadow that utilizes sun projection is accurately measured display direction also or position particularly.
Background technology
In a lot of fields, for example build, decoration, navigation, military affairs etc., all need accurately to determine direction.In general, in above-mentioned field, utilize needle to determine direction, for example magnetic compass.Magnetic compass utilizes the earth itself to have the character of south magnetic pole and magnetic north pole, comes direction indication by the rotatable device that has pointer.In actual applications, near the magnetic field of the earth the magnetic compass may be subjected to the interference of the metal of other magnetic fields or near iron content, and therefore effectively field compensation is very important to obtaining accurate orientation.
The semiconductor devices KMZ52 that PHILIPS company produces is a kind of two magnetic field sensors that are specifically designed to the electronics magnetic compass, utilizes magnetic resistance (MR) technology, and is offset with the turnover technology erasure signal.Have the digital compass that utilizes this sensor design in the prior art, for example " the electronic product world " 2005 the 4th interim disclosed, compensate the inaccurate digital compass of precision that magnetic field of the earth and sensor KMZ52 self character cause with circuit.
Another device of measuring direction is a gyrocompass, principle based on rate gyro unit, on different azimuth, measure the component of rotational-angular velocity of the earth, measure meridianal orientation by the method for calculating rotational-angular velocity of the earth, or under the gyroscopic couple effect that earth rotation produces, make the axial meridian convergence of gyrorotor,, thereby determine north orientation around the meridian swing.
The utility model content
No matter be to utilize needle, still utilize digital compass to come direction of measurement, all because of the character in magnetic field of the earth itself and in fact other magnetic fields and ferrous metal existence and influence the accuracy of measurement.Simultaneously, there is certain angular deviation between terrestrial magnetic pole and the true bearing.Even utilize the method for circuit to compensate, accuracy is still undesirable, may introduce the new precision factor that influences because of the electrology characteristic of measuring element itself simultaneously.Utilize the apparatus structure complexity of gyrocompass, the cost height, and have velocity deviation.Therefore need a kind of disengaging earth magnetism, still can accurately determine the apparatus and method of direction.
The utility model provides a kind of compass device, comprise shell, pilot pin, the corona pin, sensor and circuit arrangement, wherein the corona pin is straight spicule, be fixed in the axis of rotation of pilot pin, vertical with the plane of pilot pin rotation, sensor is fixed on the shell, rotates to when overlapping with corona pin shadows cast by the sun in pilot pin, the value of taking measurement of an angle of sensing testee, the circuit arrangement that is arranged on compass device inside compares above-mentioned measured value and intrinsic shadows cast by the sun angle, and difference information is exported by display device, shows the position angle of testee.
Another aspect of the present utility model is, described compass device also comprises rotating disc, wherein the center of pilot pin is coaxial with the center of rotating disc, and the position between pilot pin and rotating disc relation is maintained fixed, and described sensor comprises light source and light activated element two parts.
The utility model also provides a kind of compass device, comprise, shell, pilot pin, the corona pin, with reference to dish and intrinsic shadows cast by the sun angle calculation device, wherein the corona pin is straight spicule, is fixed in the axis of rotation of pilot pin, and is vertical with the plane of pilot pin rotation, this has the angle information of 1-360 degree with reference to dish, can with the coaxial rotation of pilot pin, rotate to when overlapping the value of taking measurement of an angle of sensing testee with corona pin shadows cast by the sun in pilot pin, above-mentioned measured value and intrinsic shadows cast by the sun angle are compared, calculate the position angle of testee.
The north in earth axle center is called as the geographical north, and the geographical north is different with the magnetic north of earth magnetism.Because the orientation measured of the utility model is orientation and the angle of being brought with north and south, earth axle center two directions, and is not orientation and the angle that earth magnetism brings, so the direction that the utility model is measured is real north, is real orientation in the earth body.
The utility model can utilize the shadow of the sun to determine the position angle of testee, and determined bearing accuracy height has been got rid of the interference of earth magnetism, adopts the electronics mode can make calculating more quick, and it is convenient more to read bearing data.The electric dial compass apparatus structure that utilizes the utility model to provide is simple, and cost is relatively low.
Description of drawings
In conjunction with following accompanying drawing, will carry out further details to the utility model and describe:
Accompanying drawing 1 is the stereographic map of a kind of embodiment of electric dial compass of the present utility model;
Accompanying drawing 2 is the compass apparatus structure relation cooperation synoptic diagram according to a kind of embodiment of the utility model;
Accompanying drawing 3 is the compass apparatus structure decomposing schematic representation according to a kind of embodiment of the present utility model;
Accompanying drawing 4 is the circuit arrangement synoptic diagram according to a kind of embodiment of the utility model;
Accompanying drawing 5 is the electric dial compass device workflow diagram according to a kind of embodiment of the utility model;
The synoptic diagram of accompanying drawing 6 under daylight, working according to the electric dial compass device of a kind of embodiment of the present utility model.
Embodiment
Figure 1 shows that its shell is a rectangular parallelepiped according to the stereographic map of 1 one kinds of embodiments of electric dial compass device of the present utility model, comprise pilot pin 101 and corona pin 102.Pilot pin 101 is for flat straight strip and have two ends, and an end is more sharp-pointed.From the center in pilot pin front, use the whole bag of tricks of the prior art to the direction of sharp end, for example, smear the stain method, form the coloured straight line 107 different with the pilot pin color, be preferably white painted line.Corona pin 102 is elongated straight spicule, can be fixed in the center of pilot pin 101, makes the surface of corona pin 102 perpendicular to pilot pin 101 fronts.When electric dial compass device 1 is idle, corona pin 102 can be taken out from the pilot pin center.Selectively, be formed centrally white silk-screen water droplet shape in pilot pin 101, the sharp end 103 of pilot pin is pointed at the top of water droplet.Can utilize multiple nature of the prior art or synthetic material, for example organic glass, metal, alloy, wood, bamboo prepare pilot pin 101, are preferably transparent polymethyl methacrylate, can utilize the CNC machine work to form.
As shown in Figures 2 and 3, electric dial compass device 1 also comprises dial plate 201, main case 202 and synchronous rotating disc 203.Last dial plate 201 is disc-shape with synchronous rotating disc 203.The back side of pilot pin has main shaft 204, in mode as shown in Figure 3, last dial plate 201, main case 202, synchronous rotating disc 203 is connected in the main shaft 204 of pilot pin 101.The end of main shaft 204 has the shape that matches with synchronous rotating disc 203 front center, relative position between pilot pin 101 and the synchronous rotating disc 203 is maintained fixed, when being pilot pin 101 rotations, synchronous rotating disc 203 is followed pilot pin 101 and is rotated together.Replacedly, main shaft 204 is fixed on the synchronous rotating disc 203, and successively main case 202, last dial plate 201, pilot pin 101 is placed on the main shaft 204, utilize similar methods, pilot pin 101 is combined with synchronous rotating disc 203, make pilot pin with synchronous rotating disc 203 rotations.As shown in Figure 3, in main case 202, the both sides of synchronous rotating disc 203, direction along synchronous rotating disc 203 radiuses, fixing a plurality of sensors 304, preferred sensor is by light source, light activated element two parts are formed, in light source and the light activated element on a kind of demarcation strip 301 that is fixed in the main case 202, arrange along same radius, different with the distance in the center of circle, another kind in light source and the light activated element is fixed on the shell with preceding a kind of corresponding compass device 1, is positioned at the opposite side (not shown) of synchronous rotating disc 203, and wherein light activated element can be photodiode or photistor.As shown in Figure 2, on synchronous rotating disc 203,, form many group stripe shapes codings 209, for use in exporting Gray code (gray code), binary code or binary-coded decimal by transparent and nontransparent zone.Owing to synchronous rotating disc 203 rotates synchronously with pilot pin 101, described sensor 304 can sense the angle variation that pilot pin 101 is rotated synchronous rotating disc 203 rotations that bring, thus the angle information of measurement and positioning pin 101.
Selectively, be printed on reference position information on last dial plate 201 surfaces, for example, the ray that gives off from the center of circle, with whole disk equably surface segmentation be four zones; The clockwise mark in mark north, south, west, east successively on four regional lines that divided, wherein with 0 scale designation on the regional line that contains " north ", uniform labelling 1-360 degree successively clockwise then.Adopt this reference information, can make the user directly read the angle that pilot pin 101 moves with under the situation of circuit arrangement from last dial plate 201, thereby determine the position unfavorable.Selectable, also can be marked with the information of the Heavenly Stems, twelve Earthly Branches on the surface of last dial plate 201 simultaneously, for example, can form a plurality of concentric circless in disc surfaces around the center of circle, since the place of 0 each 7.5 degree of degree both sides these concentric circless are divided into 24 parts equably, since zones that the place surrounded of 0 each 7.5 degree of degree both sides, mark successively clockwise: son, the last of the ten Heavenly stems; Ugly, blunt, the third of the twelve Earthly Branches; First, the fourth of the twelve Earthly Branches, second; Occasion, xun, one of the Eight Diagrams, the sixth of the twelve Earthly Branches; The third, noon, fourth; Not, female, Shen; Heptan, the tenth of the twelve Earthly Branches, suffering; The eleventh of the twelve Earthly Branches, the universe, the last of the twelve Earthly Branches; The ninth of the ten Heavenly Stems is wherein with son, the last of the ten Heavenly stems; Ugly, the fourth of the twelve Earthly Branches, second; Occasion, noon, fourth; Not, the tenth of the twelve Earthly Branches, suffering; The eleventh of the twelve Earthly Branches, 12 parts are labeled as " the moon ", and other parts are labeled as " sun "; The universe, son, blunt, the fourth of the twelve Earthly Branches, xun, one of the Eight Diagrams, noon, eight parts female, the tenth of the twelve Earthly Branches are labeled as " my god ", with the last of the ten Heavenly stems; The third of the twelve Earthly Branches; Second; The sixth of the twelve Earthly Branches; Fourth; The Shen; Hot; Eight parts of the last of the twelve Earthly Branches are labeled as " people ", all the other eight parts be labeled as " "; Wherein the ninth of the ten Heavenly Stems, are labeled as in son, the last of the ten Heavenly stems " bank "; Be labeled as ugly, blunt, the third of the twelve Earthly Branches " blunt "; First, the fourth of the twelve Earthly Branches, second are labeled as " shake "; Are labeled as in occasion, xun, one of the Eight Diagrams, the sixth of the twelve Earthly Branches " xun, one of the Eight Diagrams "; The third, noon, fourth be labeled as " from "; , female, Shen is not labeled as " female "; Heptan, the tenth of the twelve Earthly Branches, suffering are labeled as " converting "; The eleventh of the twelve Earthly Branches, the universe, the last of the twelve Earthly Branches are labeled as " universe ".To the mark of above-mentioned information, help when reading positional information, with reference to the information content of relevant the Heavenly Stems, twelve Earthly Branches.
Can utilize in the prior art any suitable material to prepare the described dial plate of going up, for example organic glass, plastics, metal, alloy etc. preferably use the acrylonitrile-butadiene-styrene (ABS) that scribbles mute silver lacquer to prepare; Can utilize method one-body molded or moulding respectively to prepare pilot pin 101 and main shaft 204; For example can utilizing, plastics prepare main case 202; Can utilize that material any insulation and that be easy to fixation of sensor prepares described demarcation strip 301, for example transparent organic glass in the prior art; Can utilize any material of the prior art to make synchronous rotating disc 203, change as long as described sensor 304 can sense signal when rotating disc 203 moves synchronously.
Intrinsic shadows cast by the sun angle is meant at a time, the true anomaly of a certain longitude and latitude position (trueanomaly), be measurement point itself intrinsic character, in time, longitude and latitude changes, and do not change with other factors, described time, longitude and latitude are local information.The method that has the described angle of multiple calculating in the prior art.For example use Clear Sky Institute, in the website
Http:// www.clearskyinstitute.com/xephem/Last disclosed method, or Britain corona association (British Sundial Society) is in their website
Http:// www.sundialsoc.org.uk/Disclosed method.Here, with in the above-mentioned website in the application before the applying date disclosed content be incorporated among the application as prior art.
For example shown in Figure 3, electric dial compass device 1 comprises that also the data that sensor 304 is exported are handled, device shown.Comprise counting circuit 401, storer 402, input (time on date longitude and latitude) device 403, display screen 404 and subtracter 405 4 parts.Wherein counting circuit 401 can be single-chip microcomputer, and for example microprocessor controller (MCU) or special IC (ASIC) are used for the equation of the intrinsic shadows cast by the sun angle of storage computation θ.The intrinsic shadows cast by the sun angle θ of final acquisition.
By calculating θ in the data input equation of input media 403 with date, time and the longitude and latitude of measurement point; Storer 402 can be EEPROM (Electrically Erasable Programmable Read Only Memo) (EEPROM), perhaps read-only storage (nonvolatile memory), the information that is used for storing date, time and time zone, place longitude and latitude; Input media 403 can be imported for button; Display screen 404 can be LCDs; As shown in Figure 4, input media 403 is with in date, time and the latitude and longitude information input store 402, storer 402 obtains intrinsic shadows cast by the sun angle θ with above-mentioned information input counting circuit 401, measurement point that θ and sensor 304 are read and the differential seat angle between the shadows cast by the sun
Input subtracter 405 is exported real azimuth angle alpha, is shown on the display screen 404, and by selector button, institute's canned data and intrinsic shadows cast by the sun angle θ in the display screen 404 all right display-memories 402.Utilize low-voltage DC to power, be preferably the 9-12V direct current and utilize switch that the entire circuit device is controlled to said apparatus.
Selectively, the utility model can also adopt ordinary GPS positioning system 406 to obtain local information, obtains local longitude and latitude by look-up table then, by the intrinsic shadows cast by the sun angle of given Time Calculation.Utilize the advantage of gps system to be, when using electric dial compass device, the user does not need to import voluntarily, just can obtain latitude and longitude information automatically.
For the effect that makes test more accurate, the electric dial compass device 1 that the utility model provides can also increase calibrating installation selectively: comprise, level meter 113, be positioned over the surface of electric dial compass device 1, vacuole level meter preferably, by the position of observation vacuole, determine whether horizontal positioned of described compass device 1; Rotating disk fine setting control wheel 114, be positioned over any position of compass apparatus surface except that the bottom surface, be connected with main shaft 204, as mentioned before owing to rotating disc 203 and pilot pin 101 are rotated synchronously with main shaft 204 synchronously, therefore fine setting control wheel 114 can make synchronous rotating disc 203 and pilot pin 101 that low-angle rotation take place by control main shaft 204.Can adopt any level meter of the prior art and fine setting control wheel to realize above-mentioned functions; At least two electronic distance measuring instruments (electronic distance measurement) (not shown), ultrasonic range finder for example, infrared range-measurement system, be positioned on the surface of electric dial compass device 1, be used for when measuring the closer distance object space, difference surveyor's compass device 1 is to the distance of body surface, thus assurance reference edge 116, as shown in Figure 6, parallel with testee (for example falsework).
Fig. 5, Fig. 6 have shown the course of work that electric dial compass device 1 described in the utility model uses under sufficient sunlight.In step 501, with lip-deep certain position mark of compass 1 is measurement point 115, for measuring distance object far away, buildings for example, the user measures this measurement point 115 of this compass device 1 towards needs object 601, for the nearer object of measuring distance, the information that the user can be by electronic distance measuring instrument is with the reference edge 116 and the testee of this compass device, ornament for example, keeping parallelism; Step 502, usage level instrument 113 is a level with the position correction of compass device 1, and pilot pin 101 is turned to measurement point 115, the purpose of this step is to determine the position of testee, makes initial value of sensor 304 sensings; Step 503, positioning of rotating pin 101 makes sharp end 103 point to the shadows cast by the sun that corona pin 102 throws under the sun; Step 504, fine setting control wheel 114 is regulated, sharp end 103 and coloured straight line 107 of pilot pin 101 are coincided with the shadows cast by the sun that corona pin 102 is throwed under the sun, step 503 and 504 purpose are to make sensor 304 to sense an end value, compare with the initial value of step 502, make sensor 304 can obtain differential seat angle between testee and the shadows cast by the sun
Step 505, sensor 304 read the differential seat angle between shadows cast by the sun and the measurement point 115
As indicated above, this angle
Be intrinsic angle θ of shadows cast by the sun and the angle [alpha] of measurement point own, the difference between the promptly measured orientation angles, just
Obtain measured azimuth angle alpha and also need to carry out next step; Step 506, start counting circuit 401, to determine latitude and longitude information in the data input counting circuit 401 of the date in the storer 402, time, time zone, place longitude and latitude or by the GPS positioning system, calculate local intrinsic shadows cast by the sun angle θ, the calculating of at last above-mentioned equation being transplanted obtains measured position angle
Although in conjunction with the specific embodiments the utility model is described thus, for a person skilled in the art, much other changes and change and other use are clearly.Therefore, the utility model be not by here especially disclosed content limited.
Claims (12)
1. compass device comprises:
Shell, pilot pin, corona pin, sensor and circuit arrangement, wherein the corona pin is straight spicule, is fixed in the axis of rotation of pilot pin, and is vertical with the plane of pilot pin rotation, sensor is fixed on the shell, rotate to when overlapping in pilot pin with corona pin shadows cast by the sun, the value of taking measurement of an angle of sensing testee, the circuit arrangement that is arranged on compass device inside compares above-mentioned measured value and intrinsic shadows cast by the sun angle, and difference information exported by display device, show the position angle of testee.
2. compass device as claimed in claim 1, it is characterized in that, comprise rotating disc, wherein the center of pilot pin is coaxial with the center of rotating disc, and the relation of the position between pilot pin and the rotating disc is maintained fixed, and described sensor comprises light source and light activated element two parts.
3. compass device as claimed in claim 1 or 2, it is characterized in that, described circuit arrangement comprises counting circuit, input media, subtracter and display screen, wherein local information is imported counting circuit by input media or gps system, thereby obtain intrinsic shadows cast by the sun angle, with intrinsic shadows cast by the sun angle that obtains in the counting circuit and the angle information input subtracter that obtains testee and intrinsic shadows cast by the sun angle difference from described sensor, thereby obtain the position angle of testee, the position angle input panel is shown.
4. compass device as claimed in claim 3 is characterized in that described circuit arrangement also comprises storer, described memory bit is between input media and counting circuit, and directly link to each other with display screen, can store the local information of being imported, and it directly is shown in display screen.
5. as claim 1,2 or 4 described compass devices, it is characterized in that, comprise dial plate and demarcation strip between pilot pin and the rotating disc, be individually fixed on the described compass device, the described dial plate center of going up is coaxial with the center of described pilot pin and rotating disc, the described reference angle information of going up record 1-360 degree on the dial plate, and described demarcation strip is used for fixing described sensor.
6. as described any one the compass device of claim 1,2 or 4, it is characterized in that described pilot pin is flat straight strip, an end is more sharp-pointed, and has the line that connects pilot pin center and sharp end.
7. as described any one the compass device of claim 1,2 or 4, it is characterized in that, comprise level meter, fine setting control wheel and/or electronic distance measuring instrument, wherein level meter is finely tuned control wheel and electronic distance measuring instrument and all is positioned on the shell.
8. compass device as claimed in claim 7 is characterized in that, described level meter is the vacuole level meter, and described fine setting control wheel is two, and described electronic distance measuring instrument is at least two.
9. compass device, comprise, shell, pilot pin, the corona pin, with reference to dish and intrinsic shadows cast by the sun angle calculation device, wherein the corona pin is straight spicule, is fixed in the axis of rotation of pilot pin, and is vertical with the plane of pilot pin rotation, this has the angle information of 1-360 degree with reference to dish, can with the coaxial rotation of pilot pin, rotate to when overlapping the value of taking measurement of an angle of sensing testee with corona pin shadows cast by the sun in pilot pin, above-mentioned measured value and intrinsic shadows cast by the sun angle are compared, calculate the position angle of testee.
10. compass device as claimed in claim 9 is characterized in that described pilot pin is flat straight strip, and an end is more sharp-pointed, and has the line that connects pilot pin center and sharp end.
11. as claim 9 or 110 described compass devices, comprise level meter, fine setting control wheel and/or electronic distance measuring instrument, wherein level meter is finely tuned control wheel and electronic distance measuring instrument and all is positioned on the shell.
12. compass device as claimed in claim 11 is characterized in that, described level meter is the vacuole level meter, and described fine setting control wheel is two, and described electronic distance measuring instrument is at least two.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNU2007201292426U CN201094021Y (en) | 2007-08-21 | 2007-08-21 | Electronic dial compass |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CNU2007201292426U CN201094021Y (en) | 2007-08-21 | 2007-08-21 | Electronic dial compass |
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CN201094021Y true CN201094021Y (en) | 2008-07-30 |
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CNU2007201292426U Expired - Lifetime CN201094021Y (en) | 2007-08-21 | 2007-08-21 | Electronic dial compass |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101373137B (en) * | 2007-08-21 | 2010-10-06 | 椗光堂发展有限公司 | Electric dial compass and measuring method using the same |
CN102542876A (en) * | 2011-12-10 | 2012-07-04 | 刘安民 | Shadow change simulator |
CN105137742A (en) * | 2015-09-18 | 2015-12-09 | 广西大学 | Time sensing system |
CN108507470A (en) * | 2018-03-08 | 2018-09-07 | 东莞市光劲光电有限公司 | A method of measuring LED light source spatial coordinate location |
-
2007
- 2007-08-21 CN CNU2007201292426U patent/CN201094021Y/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101373137B (en) * | 2007-08-21 | 2010-10-06 | 椗光堂发展有限公司 | Electric dial compass and measuring method using the same |
CN102542876A (en) * | 2011-12-10 | 2012-07-04 | 刘安民 | Shadow change simulator |
CN105137742A (en) * | 2015-09-18 | 2015-12-09 | 广西大学 | Time sensing system |
CN108507470A (en) * | 2018-03-08 | 2018-09-07 | 东莞市光劲光电有限公司 | A method of measuring LED light source spatial coordinate location |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20080730 Effective date of abandoning: 20070821 |