CN201881661U - Numerically controlled dynamic seal mechanism for bank receipts - Google Patents
Numerically controlled dynamic seal mechanism for bank receipts Download PDFInfo
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- CN201881661U CN201881661U CN2010205000236U CN201020500023U CN201881661U CN 201881661 U CN201881661 U CN 201881661U CN 2010205000236 U CN2010205000236 U CN 2010205000236U CN 201020500023 U CN201020500023 U CN 201020500023U CN 201881661 U CN201881661 U CN 201881661U
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- seal
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- wheel
- printing ink
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Abstract
The utility model relates to a numerically controlled dynamic seal mechanism for bank receipts. The numerically controlled dynamic seal mechanism comprises a machine frame, a paper feeding mechanism, a seal mechanism and a squeegee oil supply mechanism, wherein, the paper feeding mechanism comprises a driving device and a paper advance passage, the seal mechanism comprises a vertical seal driving mechanism and a horizontal seal driving mechanism, and printing ink wheels of the squeegee oil supply mechanism comprise a horizontal seal printing ink wheel and a vertical seal printing ink wheel. The numerically controlled dynamic seal mechanism has the advantages that firstly, two stepping motors are adopted to work, the rotational speed of the stepping motors is strictly proportional to the frequency of stepping impulse sources, so that numerically controlled accurate displacement, accurate synchronization and zero accumulated error can be obtained, and synchronous operation with a printer can be realized; secondly, a vertical seal roller and a horizontal seal roller are driven through forward and reverse rotations of the stepping motors of the seal mechanism and strictly execute seal directives sent by a computer, and fully serve proper purposes; and finally, the seal repeatability position accuracy is ensured through the positioning of a groove-shaped optical coupler arranged at the flange of a seal roller gear piece.
Description
Technical field:
The utility model relates to a kind of printer technology, more specifically to the dynamic stamping mechanism of a kind of bank's receipt numerical control.
Background technology:
In the prior art, bank to the statement of public client every month by the bank finance system print, printing the back is got in the drawer of regulation by the client, recently for saving the space and the cost of bank, released self-service apparatus for returning-back of bills, promptly on the self-aided terminal machine, print, made things convenient for client and bank by customer demand.But, receipt just can become legal voucher because need being stamped the official seal of bank, if adopt the way of printing official seal in advance, the keeping of its receipt, registering for going and getting, invalidated ticket processing etc. all belong to the important documents management, loaded down with trivial details degree is bound to arouse fear, this link still is on the mode of artificial treatment so affix one's seal at present, does not reach self-service purpose fully yet.
The utility model content:
The purpose of this utility model is to provide a kind of at the prior art weak point and be installed in self-service apparatus for returning-back of bills output, can distinguish the receipt way of output and select the dynamic stamping mechanism of bank's receipt numerical control of horizontal seal of lid or perpendicular seal automatically.
The purpose of this utility model is to realize by following measure: the dynamic stamping mechanism of a kind of bank's receipt numerical control has:
(1) by the upper and lower intake roller of inlet that is installed on the machine frame at two sides, the paper feed channel that upper and lower palate plate constitutes exports the paper advance mechanism that upper and lower feeding-in roll is formed;
(2) stamping mechanism of forming by motor, seal roller and roll shaft;
(3) the stamp-pad ink organization of supply of forming by inking wheel and printing ink wheel shaft;
It is characterized in that:
(1.1) described paper advance mechanism also has by the timing belt pulley on first stepper motor and the output shaft thereof, the timing belt pulley that is installed in the enterprising paper roller frame overhanging end of inlet, the timing belt pulley that is installed in the last paper feeding roll shaft frame overhanging end of outlet, the drive unit that synchronous belt is formed;
(1.2) feeding-in roll is installed on the seal roll shaft by bearing under the outlet of described paper advance mechanism;
(2.1) motor of described stamping mechanism is second stepper motor, is equipped with on the motor output shaft just to produce powershift gear and the powershift gear that reverses out;
(2.2) described stamping mechanism seal roller and roll shaft are formed perpendicular seal driving mechanism, horizontal seal driving mechanism;
(2.3) described perpendicular seal driving mechanism has by the seal roll shaft of bearing fixing on the frame biside plate, perpendicular seal roller, perpendicular seal roller travelling gear sheet, be fixed on two ends on the frame the middle major axis of transition gear is installed, second stepper motor is just producing powershift gear, perpendicular seal roller is fixed on and is positioned at paper advance mechanism outlet feeding-in roll one side down on the seal roll shaft, perpendicular seal roller travelling gear sheet is fixed on the seal roll shaft and is meshed with the transition gear of middle major axis one side by frame one side, and the transition gear of middle major axis opposite side is just producing powershift gear with second stepper motor and is being meshed;
(2.3) described horizontal seal driving mechanism has horizontal seal roller, the gear sheet, second stepper motor that are fixed on horizontal seal roller one side reverses out powershift gear, horizontal seal roller is installed in by bearing and is positioned at paper advance mechanism outlet feeding-in roll opposite side down on the seal roll shaft, and gear sheet and second stepper motor powershift gear that reverses out is meshed;
(2.4) described stamping mechanism is provided with the rubber roller platen, the rubber roller platen is installed in the paper advance mechanism outlet and goes up on the paper feeding roll shaft, the width of rubber roller platen descends the overall width of feeding-in roll and horizontal seal roller corresponding with perpendicular seal roller, outlet on being installed in the seal roll shaft, and the rubber roller platen touches mutually with perpendicular seal roller, horizontal seal roller, its external diameter is also identical;
(3.1) described stamp-pad ink organization of supply inking wheel is horizontal chapter inking wheel and perpendicular chapter inking wheel;
(3.2) described stamp-pad ink organization of supply is axially moveable stop collar, support spring, pin, printing ink wheel shaft, printing ink core wheel in addition; The described stop collar cylinder that is axially moveable is provided with the slotted hole parallel with its axis, horizontal chapter inking wheel and perpendicular chapter printing ink bye are enclosed within on the printing ink core wheel, the printing ink core wheel is fixed on the printing ink wheel shaft, horizontal seal roller on the position of horizontal chapter inking wheel and perpendicular chapter inking wheel and the seal roll shaft, perpendicular seal roller position is corresponding, horizontal chapter inking wheel and perpendicular chapter inking wheel and horizontal seal roller, perpendicular seal roller touches mutually, the printing ink wheel shaft is equipped with support spring in printing ink core wheel one side, insertion is axially moveable in the stop collar by pin and inserts in the aperture of the slotted hole that is axially moveable stop collar and printing ink wheel shaft, printing ink wheel shaft opposite side inserts another and is axially moveable in the stop collar by pin and inserts in the aperture of the slotted hole that is axially moveable stop collar and printing ink wheel shaft, and the printing ink wheel shaft is axially moveable in the open pore that stop collar snaps in machine frame at two sides by two ends.
Palate plate is equipped with reflective optocoupler at inlet and exit on the described paper advance mechanism paper feed channel;
Described horizontal seal roller one side gear sheet edge is provided with an aperture, and the gear sheet wheel rim place identical with little pore radius is provided with the grooved optocoupler.
Described perpendicular seal roller travelling gear sheet edge is provided with an aperture, and the gear sheet wheel rim place identical with little pore radius is provided with the grooved optocoupler.
Compared with prior art, owing to adopted the dynamic stamping mechanism of bank's receipt numerical control of the present utility model, have following advantage: 1) the utility model adopts two stepper motor work, the strictness of stepper motor rotating speed is proportional to the frequency in step-by-step impulse source, so can obtain the precise displacement of numerical control, accurately synchronously and do not have an accumulated error, can with the printer synchronization job; 2) stepper motor by stamping mechanism positive and negative transfers and drags vertical seal roller and horizontal seal roller, and the instruction of affixing one's seal that strict separately object computer is sent is given full play to and made the best use of everything; 3) the grooved optocoupler location that is provided with by seal roller gear sheet wheel rim, the repeated positional precision of guaranteeing to affix one's seal.
Description of drawings:
Fig. 1 is the utility model example structure schematic diagram.
Fig. 2 is Fig. 1 embodiment side view.
Fig. 3 is Fig. 1 embodiment paper advance mechanism schematic diagram.
Fig. 4 is Fig. 1 embodiment stamping mechanism schematic diagram.
Fig. 5 is Fig. 1 embodiment stamp-pad ink organization of supply schematic diagram.
The specific embodiment:
Below in conjunction with accompanying drawing the specific embodiment is elaborated:
Fig. 1~Fig. 2 has provided the structural representation of the utility model embodiment.Among the figure, the dynamic stamping mechanism of a kind of bank's receipt numerical control has: frame 1, paper advance mechanism 2, stamping mechanism 3, stamp-pad ink organization of supply 5.
Fig. 3 is Fig. 1 embodiment paper advance mechanism schematic diagram.Among the figure, described paper advance mechanism is by drive unit 21, is installed on the inlet on the machine frame at two sides 1 intake roller 22 and intake roller 23 down, last palate plate 24 and the paper feed channel that constitutes of palate plate 25 down, and feeding-in roll 27 was formed under feeding-in roll 26 reached in the outlet; Described drive unit 21 by the timing belt pulley 212 on first stepper motor 211 and the output shaft thereof, be installed in inlet and go up the timing belt pulley 213 of 22 frame overhanging ends of intake roller, be installed in outlet and go up timing belt pulley 214, the synchronous belt 215 of 26 frame overhanging ends of feeding-in roll and formed; Feeding-in roll 27 is installed on the seal roll shaft 30 by bearing 271 under the outlet of described paper advance mechanism 2, and the seal roll shaft does not draw in Fig. 3.The last palate plate of described paper feed channel is equipped with reflective optocoupler 28,29 at inlet and exit.After paper enters paper feed channel, go up the reflective optocoupler 28 of palate plate 24 and at first obtain reaction in the porch, start first stepper motor, 211 actions of drive unit immediately, frictional force between intake roller 22, the following intake roller 23 continues paper to advance along the paper feed channel that is made of last palate plate 24, following palate plate 25 by entering the mouth upward, and the reflective optocoupler 29 in exit also obtains reacting and makes first stepper motor 211 remain in operation immediately.Because the strictness of synchronous motor rotating speed is proportional to the frequency in step-by-step impulse source, adopt synchronous belt to transmit in addition, make the paper advance mechanism inlet go up intake roller and reach intake roller down, feeding-in roll reaches feeding-in roll maintenance down synchronously in the outlet, fold can not take place in paper, meaning has not been sent paper after the reflective optocoupler at entrance and exit place all has information, turn-offs stepper motor and makes its parking.
Fig. 4 is Fig. 1 embodiment stamping mechanism schematic diagram.Among the figure, described stamping mechanism 3 is made up of second stepper motor, perpendicular seal driving mechanism, horizontal seal driving mechanism; Be equipped with on described second stepper motor, 31 output shafts and just produce powershift gear 32 and the powershift gear 33 that reverses out, described perpendicular seal driving mechanism is by by the seal roll shaft 30 of bearing fixing on the frame biside plate, perpendicular seal roller 36, perpendicular seal roller travelling gear sheet 37, be fixed on two ends on the frame the middle major axis 39 of transition gear 38 is installed, stepper motor is just producing powershift gear 32 and is forming, perpendicular seal roller 36 is fixed on and is positioned at paper advance mechanism 2 outlets feeding-in roll 27 1 sides down on the seal roll shaft 30, perpendicular seal roller travelling gear sheet 37 is fixed on seal roll shaft 30 and is meshed with the transition gear 38 of middle major axis 39 1 sides by frame one side, and the transition gear 38 of middle major axis 39 opposite sides is just producing powershift gear 32 with stepper motor and is being meshed; Described horizontal seal driving mechanism is made up of horizontal seal roller 34, the gear sheet 35, the stepper motor that the are fixed on horizontal seal roller 34 1 sides powershift gear 33 that reverses out, horizontal seal roller 34 is installed in by bearing 341 and is positioned at paper advance mechanism 2 outlet feeding-in roll 27 opposite sides down on the seal roll shaft 30, and gear sheet 35 and the stepper motor powershift gear 33 that reverses out is meshed; Described stamping mechanism is provided with rubber roller platen 40, rubber roller platen 40 is installed in paper advance mechanism 2 outlet and goes up on 26 of the feeding-in rolls, the width of rubber roller platen 40 descends the overall width of feeding-in roll 27 and horizontal seal roller 34 corresponding with perpendicular seal roller 36, outlet on being installed in seal roll shaft 30, and rubber roller platen 40 touches mutually with perpendicular seal roller 36, horizontal seal roller 34, its external diameter is also identical.
The stepper motor rotation direction of decision stamping mechanism after computer-controlled self-service apparatus for returning-back of bills sends instruction receipt paper conveyance direction, if arranging, receipt need horizontal seal roller to affix one's seal when being horizontally-arranged, then second stepper motor 31 drives gear 33 rotations that counter-rotating is exerted oneself, the horizontal seal roller 34 gear sheets 35 that are meshed with gear 33 also rotate thereupon, driving horizontal seal roller rotates, horizontal seal roller rotates and just in time matches with the width of receipt paper in a week, meanwhile the gear 32 of the power that just produces on second stepper motor, 31 output shafts does not rotate, and perpendicular seal roller also stays original position motionless.When computer-controlled self-service apparatus for returning-back of bills sends instruction need erect seal and affix one's seal the time, then second stepper motor 31 drives gear 32 rotations of just producing power, driving middle major axis 39 by the transition gear 38 with gear 32 engagements rotates, the perpendicular seal travelling gear sheet 37 of the drive that continues rotates, the perpendicular seal roller of order is followed transmission, same perpendicular seal roller rotates week, and just in time the length with the receipt paper matches.The gear 33 that the counter-rotating on second stepper motor, 31 output shafts is meanwhile exerted oneself does not rotate, and horizontal seal roller also stays original position motionless.
The utility model is also taked following measure: described horizontal seal roller 34 1 side gear sheets 35 edges are provided with an aperture 41, and the gear sheet 35 wheel rim places identical with aperture 41 radiuses are provided with grooved optocoupler 42.Described perpendicular seal roller 36 travelling gear sheets 37 edges are provided with an aperture 44, and the gear sheet wheel rim place identical with little pore radius is provided with grooved optocoupler 43.The aperture 41 of horizontal seal roller 34 and corresponding grooved optocoupler 42, the aperture 43 grooved optocouplers 44 of perpendicular seal roller 36 return the starting point position in order to the horizontal seal roller of detection automatic control, perpendicular seal roller, also promptly make zero, and order is affixed one's seal to finish at every turn and is all got back on the home position.
Fig. 5 is Fig. 1 embodiment stamp-pad ink organization of supply schematic diagram.Among the figure, described stamp-pad ink organization of supply 5 by horizontal chapter inking wheel 51, perpendicular chapter inking wheel 52, be axially moveable stop collar 53, support spring 54, pin 55, printing ink wheel shaft 56, printing ink core wheel 57 and form; Described stop collar 53 cylinders that are axially moveable are provided with the slotted hole parallel with its axis 58, horizontal chapter inking wheel 51 and perpendicular chapter inking wheel 52 skies are enclosed within on the printing ink core wheel 57, printing ink core wheel 57 is fixed on the printing ink wheel shaft 56, horizontal seal roller 34 on the position of horizontal chapter inking wheel 51 and perpendicular chapter inking wheel 52 and the seal roll shaft 30, perpendicular seal roller 36 positions are corresponding, horizontal chapter inking wheel 51 and perpendicular chapter inking wheel 52 and horizontal seal roller 34, perpendicular seal roller 36 touches mutually, printing ink wheel shaft 56 is equipped with support spring 54 in printing ink core wheel 57 1 sides, insertion is axially moveable in the stop collar 53 by pin 55 and inserts in the aperture of the slotted hole 58 that is axially moveable stop collar 53 and printing ink wheel shaft 56, printing ink wheel shaft 56 opposite sides insert another and are axially moveable in the stop collar 53 and insert by pin 55 in the aperture of the slotted hole 58 that is axially moveable stop collar 53 and printing ink wheel shaft, and printing ink wheel shaft 56 is axially moveable in the open pore 59 that stop collar 53 snaps in machine frame at two sides 1 by two ends.Described horizontal chapter, perpendicular chapter inking wheel are the sponge ink roller, and it rotates to reach with the seal roller and adds stamp-pad ink and guarantee that plating analyses plump clearly.
Below be described in conjunction with the accompanying drawings and embodiments, the foregoing description does not constitute restriction of the present utility model, adopts the technical scheme that form obtained that is equal to replacement or equivalent transformation in every case, all drops within the protection domain of the present utility model.
Claims (5)
1. the dynamic stamping mechanism of bank receipt numerical control has:
By the upper and lower intake roller of inlet that is installed on the machine frame at two sides, the paper feed channel that upper and lower palate plate constitutes exports the paper advance mechanism that upper and lower feeding-in roll is formed;
The stamping mechanism of forming by motor, seal roller and roll shaft;
The stamp-pad ink organization of supply of forming by inking wheel and printing ink wheel shaft;
It is characterized in that:
Described paper advance mechanism also has by the timing belt pulley on first stepper motor and the output shaft thereof, the timing belt pulley that is installed in the enterprising paper roller frame overhanging end of inlet, the timing belt pulley that is installed in the last paper feeding roll shaft frame overhanging end of outlet, the drive unit that synchronous belt is formed;
Feeding-in roll is installed on the seal roll shaft by bearing under the outlet of described paper advance mechanism;
The motor of described stamping mechanism is second stepper motor, is equipped with on the motor output shaft just to produce powershift gear and the powershift gear that reverses out;
Described stamping mechanism seal roller and roll shaft are formed perpendicular seal driving mechanism, horizontal seal driving mechanism;
Described perpendicular seal driving mechanism has by the seal roll shaft of bearing fixing on the frame biside plate, perpendicular seal roller, perpendicular seal roller travelling gear sheet, be fixed on middle major axis, second stepper motor that two ends on the frame are equipped with transition gear is just producing powershift gear, perpendicular seal roller is fixed on and is positioned at paper advance mechanism outlet feeding-in roll one side down on the seal roll shaft, perpendicular seal roller travelling gear sheet is fixed on the seal roll shaft and is meshed with the transition gear of middle major axis one side by frame one side, and the transition gear of middle major axis opposite side is just producing powershift gear with second stepper motor and is being meshed;
Gear sheet, second stepper motor that described horizontal seal driving mechanism has horizontal seal roller, the be fixed on horizontal seal roller one side powershift gear that reverses out, horizontal seal roller is installed in by bearing and is positioned at paper advance mechanism outlet feeding-in roll opposite side down on the seal roll shaft, and gear sheet and second stepper motor powershift gear that reverses out is meshed;
Described stamping mechanism is provided with the rubber roller platen, the rubber roller platen is installed in the paper advance mechanism outlet and goes up on the paper feeding roll shaft, the width of rubber roller platen descends the overall width of feeding-in roll and horizontal seal roller corresponding with perpendicular seal roller, outlet on being installed in the seal roll shaft, and the rubber roller platen touches mutually with perpendicular seal roller, horizontal seal roller, its external diameter is also identical;
Described stamp-pad ink organization of supply inking wheel is horizontal chapter inking wheel and perpendicular chapter inking wheel;
Described stamp-pad ink organization of supply is axially moveable stop collar, support spring, pin, printing ink wheel shaft, printing ink core wheel in addition; The described stop collar cylinder that is axially moveable is provided with the slotted hole parallel with its axis, horizontal chapter inking wheel and perpendicular chapter printing ink bye are enclosed within on the printing ink core wheel, the printing ink core wheel is fixed on the printing ink wheel shaft, horizontal seal roller on the position of horizontal chapter inking wheel and perpendicular chapter inking wheel and the seal roll shaft, perpendicular seal roller position is corresponding, horizontal chapter inking wheel and perpendicular chapter inking wheel and horizontal seal roller, perpendicular seal roller touches mutually, the printing ink wheel shaft is equipped with support spring in printing ink core wheel one side, insertion is axially moveable in the stop collar by pin and inserts in the aperture of the slotted hole that is axially moveable stop collar and printing ink wheel shaft, printing ink wheel shaft opposite side inserts another and is axially moveable in the stop collar by pin and inserts in the aperture of the slotted hole that is axially moveable stop collar and printing ink wheel shaft, and the printing ink wheel shaft is axially moveable in the open pore that stop collar snaps in machine frame at two sides by two ends.
2. the dynamic stamping mechanism of bank's receipt numerical control according to claim 1 is characterized in that palate plate is equipped with reflective optocoupler at inlet and exit on the described paper advance mechanism paper feed channel.
3. the dynamic stamping mechanism of bank's receipt numerical control according to claim 1 and 2 is characterized in that described horizontal seal roller one side gear sheet edge is provided with an aperture, and the gear sheet wheel rim place identical with little pore radius is provided with the grooved optocoupler.
4. the dynamic stamping mechanism of bank's receipt numerical control according to claim 1 and 2 is characterized in that described perpendicular seal roller travelling gear sheet edge is provided with an aperture, and the gear sheet wheel rim place identical with little pore radius is provided with the grooved optocoupler.
5. the dynamic stamping mechanism of bank's receipt numerical control according to claim 3 is characterized in that described perpendicular seal roller travelling gear sheet edge is provided with an aperture, and the gear sheet wheel rim place identical with little pore radius is provided with the grooved optocoupler.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010205000236U CN201881661U (en) | 2010-08-20 | 2010-08-20 | Numerically controlled dynamic seal mechanism for bank receipts |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010205000236U CN201881661U (en) | 2010-08-20 | 2010-08-20 | Numerically controlled dynamic seal mechanism for bank receipts |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN201881661U true CN201881661U (en) | 2011-06-29 |
Family
ID=44179198
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2010205000236U Expired - Lifetime CN201881661U (en) | 2010-08-20 | 2010-08-20 | Numerically controlled dynamic seal mechanism for bank receipts |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN201881661U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102358084A (en) * | 2011-10-26 | 2012-02-22 | 深圳市银之杰科技股份有限公司 | Document seal device |
| CN102371791A (en) * | 2010-08-20 | 2012-03-14 | 上海古鳌电子科技股份有限公司 | Numerical control dynamic sealing mechanism for bank receipt |
| CN104108256A (en) * | 2013-04-17 | 2014-10-22 | 北京兆维电子(集团)有限责任公司 | Seal affixing machine with double rolling seals respectively independently controlled |
-
2010
- 2010-08-20 CN CN2010205000236U patent/CN201881661U/en not_active Expired - Lifetime
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102371791A (en) * | 2010-08-20 | 2012-03-14 | 上海古鳌电子科技股份有限公司 | Numerical control dynamic sealing mechanism for bank receipt |
| CN102371791B (en) * | 2010-08-20 | 2014-03-19 | 上海古鳌电子科技股份有限公司 | Numerical control dynamic sealing mechanism for bank receipt |
| CN102358084A (en) * | 2011-10-26 | 2012-02-22 | 深圳市银之杰科技股份有限公司 | Document seal device |
| CN104108256A (en) * | 2013-04-17 | 2014-10-22 | 北京兆维电子(集团)有限责任公司 | Seal affixing machine with double rolling seals respectively independently controlled |
| CN104108256B (en) * | 2013-04-17 | 2016-04-13 | 北京兆维电子(集团)有限责任公司 | Two seal-affixing machine rolling chapter and independently control |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C56 | Change in the name or address of the patentee |
Owner name: SHANGHAI GU'AO ELECTRONIC TECHNOLOGY CO., LTD. Free format text: FORMER NAME: SHANGHAI GUAO ELECTRONIC MACHINERY CO. LTD. |
|
| CP01 | Change in the name or title of a patent holder |
Address after: 200333 Shanghai city Putuo District Tong Pu Lu Lane 1225 No. 6 Patentee after: Shanghai Guao Electronic Machinery Co., Ltd. Address before: 200333 Shanghai city Putuo District Tong Pu Lu Lane 1225 No. 6 Patentee before: Shanghai Guao Electronic Machinery Co., Ltd. |
|
| AV01 | Patent right actively abandoned | ||
| AV01 | Patent right actively abandoned | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20110629 Effective date of abandoning: 20140319 |
|
| AV01 | Patent right actively abandoned |
Granted publication date: 20110629 Effective date of abandoning: 20140319 |