CN207133834U - non-contact induction driving device - Google Patents

non-contact induction driving device Download PDF

Info

Publication number
CN207133834U
CN207133834U CN201721070387.3U CN201721070387U CN207133834U CN 207133834 U CN207133834 U CN 207133834U CN 201721070387 U CN201721070387 U CN 201721070387U CN 207133834 U CN207133834 U CN 207133834U
Authority
CN
China
Prior art keywords
drive device
substrate
contactless inductive
antenna
inductive drive
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201721070387.3U
Other languages
Chinese (zh)
Inventor
林玉玲
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Application granted granted Critical
Publication of CN207133834U publication Critical patent/CN207133834U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Landscapes

  • Credit Cards Or The Like (AREA)
  • Near-Field Transmission Systems (AREA)

Abstract

A non-contact induction driving device comprises a substrate, an antenna and a reading unit, wherein the reading unit is an external reading device and provides reading for mutual induction of the non-contact induction driving device, the non-contact induction driving device further comprises a biological identification group, a first display element, a switch group or a battery unit, the biological identification group, the first display element, the switch group and the battery unit can be matched with the non-contact induction driving device, the required effect is achieved by arranging the required functions in the non-contact induction driving device, the reading unit is used for inducing the antenna to generate a power supply, the electric quantity for driving the non-contact induction driving device is formed, and a non-contact transmission induction mode is achieved.

Description

Contactless inductive drive device
Technical field
It the utility model is related to a kind of contactless inductive drive device, espespecially a kind of contactless sensing drive device.
Background technology
Existing contactless inductive drive device such as credit card or EasyCard or all-purpose card etc., it has what can be stored data Chip, but above-mentioned provided card security has doubt, easily produces the right of privacy and privacy problem, it could even be possible into The chance utilized for scientific and technological hacker, existing contactless inductive drive device are the portable plastic clip provided with IC wafer Piece, data access can be carried out using induction mode or the way of contact, at most be used in popular transport facility at present EasyCard, electronic money bag, chip fiscard, credit card, electronic bill and employee's permit identification, it is above-mentioned all have it is stolen or by The risk problem for stealing brush produces.
Nowadays many contactless inductive drive devices in the prior art, have no and make detailed retouch to its used power supply State, and it is existing in supplied containing enclosed power supply, but due to for the comparison of such as identification of fingerprint, it is necessary to sizable power supply Consumption, this still can not support the ultra-thin battery for meeting this existing application the permanent use of product, in other words, credit card Or identity card is usually to change within several years once to be come out according to manufactured by above-mentioned technology existing and can not possess permanent service life.
Utility model content
The utility model technical problem to be solved is to provide a kind of contactless inductive drive device, and espespecially one kind makes People can reach by the contactless inductive drive device and quickly sense and lift convenience safe to use.
Technological means is as described below used by the utility model.
A kind of contactless inductive drive device is provided, includes a substrate;One is electrically connected with and is arranged on the substrate side Antenna;And the biological identification group for being electrically connected with the substrate and the antenna.
Further, one is further included to be electrically connected with the biological identification group and be located at the first display member of the substrate side Part.
Further, one is further included to be electrically connected with first display element and be located at the switches set of the substrate side.
A kind of contactless inductive drive device, includes a substrate;One is electrically connected with and is arranged on the day of the substrate side Line;And first display element for being electrically connected with the substrate and the antenna.
Further, one is further included to be electrically connected with first display element and be located at the switches set of the substrate side.
A kind of contactless inductive drive device, includes a substrate;One is electrically connected with and is arranged on the day of the substrate side Line;And the switches set for being electrically connected with the substrate and the antenna.
Further, one is further included to be electrically connected with the switches set and be located at the biological identification group of the substrate side.
A kind of contactless inductive drive device, includes a substrate;One is electrically connected with and is arranged on the day of the substrate side Line;And the battery unit for being electrically connected with the substrate and the antenna.
Further, the reading unit of a sensing contactless inductive drive device is further included.
Further, the reading unit has one second display element.
Technique effect is as follows caused by the utility model.
1. the utility model senses the antenna by the reading unit produces power supply, formed and drive the contactless inductive driving The electricity of device.
2. the utility model provides by the biological identification module and more maintains secrecy and be not easy to be cracked.
3. the utility model provides the contactless inductive driving by first display element or second display element and filled The display put is passed on, and allows user to understand the state used.
4. the utility model turns on or hindered the home loop of the but contactless inductive drive device by the switches set.
Brief description of the drawings
Fig. 1 is the utility model first embodiment plan.
Fig. 2 is to continue Fig. 1 to increase the plan of structure.
Fig. 3 is to continue Fig. 2 to increase the plan of structure.
Fig. 4 is the utility model second embodiment plan.
Fig. 5 is to continue Fig. 4 to increase the plan of structure.
Fig. 6 is the utility model 3rd embodiment plan.
Fig. 7 is to continue Fig. 6 to increase the plan of structure.
Fig. 8 is the utility model fourth embodiment plan.
Fig. 9 is that the utility model implements schematic diagram.
Figure number explanation:
Contactless inductive drive device .1
Substrate .2
Antenna .3
Biological identification group .4
First display element .5
Switches set .6
Battery unit .7
Reading unit .8
Second display element .81.
Embodiment
Refer to shown in Fig. 1 and Fig. 9, the utility model provides a kind of contactless inductive drive device 1, includes a substrate 2nd, an antenna 3, a biological identification group 4 and a reading unit 8, wherein, the reading unit 8 is external read device, there is provided is read Take the contactless inductive drive device 1 and mutual induction, the reading unit 8 have one second display element 81, second display Element 81 is LED display lamps or screen display, and second display element 81, which provides, shows the contactless inductive drive device 1 Whether start, or provide information give user;Wherein, the function of the antenna 3 is in addition to power supply (beneath detailed description), Shang Neng The substrate 2 is electrically connected with to provide sensing driving, in another implementation, the substrate 2 itself can also have signal antennas, to this then It is not required to reach sensing driving with the antenna 3, you can using the signal antennas of itself and the reading unit 8 sensed, only The essential structure of the substrate 2 is that habit has technology, non-technology demand of the present utility model, therefore does not add to repeat.The antenna 3 is set Put in the side of the substrate 2 and be electrically connected with the substrate 2, the biological identification group 4 is electrically connected between the substrate 2 and the antenna 3, The biological identification group 4 can be that identification of fingerprint, voice recognition, iris identification and DNA are recognized, and the biological identification group 4 and the base The microprocessor of plate 2 connects by circuit line group, makes microprocessor to compare the biological characteristic such as user, by for the biology Identification group 4 checks information.
On continuous, Fig. 2 refer to and multiple as shown in fig.9, the contactless inductive drive device 1 has further included one and the biology Identification group 4 is electrically connected with and is located at the first display element 5 of the side of substrate 2, first display element 5 be LED display lamps or Screen display, the information inside the use state for showing the contactless inductive drive device 1 or display storage is thereby provided, with Just user is provided to be more convenient to see whether that the contactless inductive drive device 1 is used.
Continue, refer to Fig. 3 and it is multiple as shown in fig.9, the contactless inductive drive device 1 further included one with this first Display element 5 is electrically connected with and is located at the switches set 6 of the side of substrate 2, and when needing to use, the contactless inductive driving is filled 1 convergence is put in the reading unit 8, the surrounding of antenna 3 is produced magnetic field, now the contactless inductive drive device 1 is once cut Magnetic field will produce electric current because of the change in magnetic field, turn into the power source of running, and the switches set 6 is set to out, and make interior Portion's circuit line group conducting, thereby provides the biological identification group 4 and the electricity of the first display element 5, and can avoid using When but cause because of false touch transaction withhold or data leakage.
In another embodiment, Fig. 4 is referred to and multiple as shown in fig.9, the contactless inductive drive device 1 includes this Substrate 2, the antenna 3, first display element 5 and the reading unit 8, wherein, in the substrate 2 that above-mentioned implementation equally possesses And the antenna 3, different from above-described embodiment, first display element 5 substitutes the biological identification group 4, makes this contactless inductive Drive device 1 by first display element 5 come show the contactless inductive drive device 1 whether start, or show that this is non- Information inside contact induction drive device 1.
On continuous, refer to Fig. 5 and it is multiple as shown in fig.9, the contactless inductive drive device 1 further included it is first aobvious with this Show that element 5 is electrically connected with and is located at the switches set 6 of the side of substrate 2, non-connect by the switches set 6 to close or open this Sense of touch answers the circuit line group of drive device 1, and reaches in required time, makes the contactless inductive driving by the switches set 6 Device 1 initiates start, and the situation that start occurs when avoiding being without the use of produces, and in an embodiment, the switches set 6 presses Afterwards, the circuit line group of the contactless inductive drive device 1 is made to close or open.
In another embodiment, Fig. 6 is referred to and multiple as shown in fig.9, the contactless inductive drive device 1 includes this Substrate 2, the antenna 3, the switches set 6 and the reading unit 8, wherein, in the substrate 2 and the day that above-mentioned implementation equally possesses Line 3, different from above-described embodiment, the switches set 6 is electrically connected between the substrate 2 and the antenna 3, and the switches set 6 makes It is described with being performed as described above, the circuit line group of the contactless inductive drive device 1 is turned on and off by the switches set 6, and reach To start or the difference without start.
Continue, refer to Fig. 7 and multiple as shown in fig.9, the contactless inductive drive device 1 has further included and the switches set 6 are electrically connected with and are located at the biological identification group 4 of the side of substrate 2, and the biological identification group 4 is comparing the biology such as user Feature, by the verification information of the biological identification group 4, and only when the switches set 6 is opened, the biological identification group 4 is just able to start.
In another embodiment, Fig. 8 is referred to and multiple as shown in fig.9, the contactless inductive drive device 1 includes this Substrate 2, the antenna 3, a battery unit 7 and the reading unit 8, wherein, the substrate 2 that equally possesses in above-mentioned implementation and should Antenna 3, is electrically connected with the battery unit 7 between the substrate 2 and the antenna 3, and the battery unit 7 provides the contactless inductive drive The dynamic electricity of device 1 makes its start, avoids not making the contactless inductive start of drive device 1 when not enough power supply and can not merchandising Or identification.
In actual use, referring back to shown in Fig. 1 to Fig. 9, the contactless inductive drive device 1 is needed close to the reading Unit 8 is taken, the surrounding of antenna 3 is produced magnetic field, now once incision magnetic field will be because of magnetic for the contactless inductive drive device 1 Change and produce electric current, it is driven the contactless inductive drive device 1 and is reached contactless transaction, and by upper State the biological identification group 4, first display element 5, the switches set 6 and the battery unit 7 and be mutually combined collocation, and reach more work( The contactless inductive drive device 1 of energy, and have the different effects encrypted using effect and strick precaution.
As described above, the utility model is compared with existing, the utility model can provide multinomial and different efficacies this and non-connect Sense of touch answers drive device 1, compared with existing, more can reach according to needed for user, and the specifically configured contactless inductive drive Dynamic device 1, and and can increases secrecy effect without being cracked easily.

Claims (10)

1. a kind of contactless inductive drive device, it is characterised in that the contactless inductive drive device, include
One substrate;
One is electrically connected with and is arranged on the antenna of the substrate side;And
One is electrically connected with the biological identification group of the substrate and the antenna.
2. contactless inductive drive device according to claim 1, it is characterised in that include one and the biological identification group It is electrically connected with and is located at the first display element of the substrate side.
3. contactless inductive drive device according to claim 2, it is characterised in that include one and first display Element is electrically connected with and is located at the switches set of the substrate side.
4. a kind of contactless inductive drive device, it is characterised in that the contactless inductive drive device, include
One substrate;
One is electrically connected with and is arranged on the antenna of the substrate side;And
One is electrically connected with first display element of the substrate and the antenna.
5. contactless inductive drive device according to claim 4, it is characterised in that include one and first display Element is electrically connected with and is located at the switches set of the substrate side.
6. a kind of contactless inductive drive device, it is characterised in that the contactless inductive drive device, include
One substrate;
One is electrically connected with and is arranged on the antenna of the substrate side;And
One is electrically connected with the switches set of the substrate and the antenna.
7. contactless inductive drive device according to claim 6, it is characterised in that include one and switches set electricity Property connection and be located at the biological identification group of the substrate side.
8. a kind of contactless inductive drive device, it is characterised in that the contactless inductive drive device, include
One substrate;
One is electrically connected with and is arranged on the antenna of the substrate side;And
One is electrically connected with the battery unit of the substrate and the antenna.
9. according to any described contactless inductive drive device in claim 1 to 8, it is characterised in that include a sensing The reading unit of the contactless inductive drive device.
10. contactless inductive drive device according to claim 9, it is characterised in that the reading unit has one second Display element.
CN201721070387.3U 2016-09-26 2017-08-25 non-contact induction driving device Active CN207133834U (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
TW105214690U TWM535832U (en) 2016-09-26 2016-09-26 Non-contact sensing driving device
TW105214690 2016-09-26

Publications (1)

Publication Number Publication Date
CN207133834U true CN207133834U (en) 2018-03-23

Family

ID=58400223

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201721070387.3U Active CN207133834U (en) 2016-09-26 2017-08-25 non-contact induction driving device

Country Status (2)

Country Link
CN (1) CN207133834U (en)
TW (1) TWM535832U (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI686767B (en) * 2018-02-06 2020-03-01 第一美卡事業股份有限公司 Transaction card with fingerprint identification

Also Published As

Publication number Publication date
TWM535832U (en) 2017-01-21

Similar Documents

Publication Publication Date Title
US10679209B2 (en) Method for replacing traditional payment and identity management systems and components to provide additional security and a system implementing said method
US7994920B2 (en) RFID security in an RFID-enabled medium
ES2320853T3 (en) PORTABLE OBJECT WITHOUT CONTACT THAT INCLUDES ONE OR VARIOUS PERIPHERAL DEVICES WITHOUT CONTACT.
US8505826B2 (en) Anti-interrogation for portable device
US8718552B2 (en) Contactless communication with authorization by human contact
CN102117515A (en) Wireless fingerprint card
US9990795B2 (en) Dynamic transaction card with EMV interface and method of manufacturing
US8676163B2 (en) Contactless communication with authorization by human contact and visual indicator
TW201229915A (en) Chip device
TWI610244B (en) Smart card holder, mobile device system with smart card holder, and smart card access system
CN103430187A (en) Method for data storage medium to interact with terminal
CN207133834U (en) non-contact induction driving device
JP2015502600A (en) High-frequency communication device whose operation is controlled by the intentional gesture of the wearer
KR100834845B1 (en) Contactless card
CN1414516A (en) Non-contact type safety card
CN202486793U (en) Card reading equipment with Bluetooth channel
CN205354084U (en) Multi -function IC card
CN103489029B (en) Radio frequency card
EP3284028A1 (en) Dynamic transaction card with emv interface and method of manufacturing
CN204515904U (en) Self-service terminal
KR101075177B1 (en) Smartcard with Keypad
US11837058B1 (en) Credit card with location tracking device
CN107665534A (en) Access control equipment
CN107665533A (en) Access control equipment
CN204423482U (en) Access door fingerprint reader integral external structure

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant