CN110298937A - A kind of fingerprint identification device can control rotation angle - Google Patents

Abstract

The present invention is suitable for intelligent door lock field, it is desirable to provide one kind can control the fingerprint identification device of rotation angle when fingerprint identification device can be made to hide, use.Content is as follows: including lock panel, and the drive part, fingerprint module, the limiting device that are arranged in lock panel；Fingerprint identification device is hidden in inside lock panel, when needing with fingerprint unlatching burglar-proof door, touches touch area in lock panel with finger, fingerprint module is under the drive of the motor, it can flip an angle, outside by the recording quantity for being provided with fingerprint sensor, fingerprint authentication can be used to open the door at this time.Under program control, after verifying is opened the door successfully, fingerprint module reversely rotates certain angle again, and such fingerprint sensor is hidden within lock panel again.Realize effect: it is outer that the present apparatus avoids identification device from being exposed to, against the irradiation of dust, rainwater or daylight.

Description

A kind of fingerprint identification device can control rotation angle

Technical field

The present invention relates to the fingerprint identification devices used on intelligent door lock, in particular to can rotate automatically and can control rotation The fingerprint identification device of gyration.

Background technique

Currently, being both provided with fingerprint identification device on some intelligent locks greatly, existing fingerprint identification device is all direct It is connected on the panel of intelligent lock, therefore, placement direction has been fixed, and can not be changed, cannot be according to the practical need of client Rotation angle is sought, user experience is reduced.

In addition, the intelligent door lock of a part, is especially applied on family security door more with the intelligent door lock of fingerprint recognition Come more universal.Because the use environment of anti-theft intelligent door lock is more severe, be often used at high temperature or low temperature, ultraviolet light irradiation, Or under moist environment.So the developers of intelligent lock in order to protect identification device, be often required to design one can more than The slip lid of lower slider protects fingerprint head, and protective device is designed to that a window is renovated by the designer also having.In order to more comfortable Experience powered on as long as touching, slip lid or flip lid will be automatically turned on or be turned over usually by slip lid or flip designs at automatic device Turn.Above structure is complex, at high cost, and does not hide to fingerprint head (identification device).

Summary of the invention

The present invention is intended to provide a kind of can be such that the fingerprint that can control rotation angle when hiding fingerprint identification device, use knows Other device.Solve the problems, such as: it is complex to solve existing cover sliding device structure, more using material, at high cost, and fingerprint module is not The problem of capable of being protected well.

Realize effect: it is outer that the present apparatus avoids identification device from being exposed to, against the irradiation of dust, rainwater or daylight, this hair It is bright that fingerprint identification device is hidden in inside lock panel, when needing with fingerprint unlatching burglar-proof door, touched in lock panel with finger Touch area, fingerprint module under the drive of the motor, can flip an angle, the recording quantity for being provided with fingerprint sensor existed Outside, i.e. available fingerprint authentication opens the door at this time.Under program control, after verifying is opened the door successfully, fingerprint module reversely rotates one again Determine angle, such fingerprint sensor is hidden within lock panel again.

Summary of the invention is as follows: a kind of rotatable fingerprint identification device of the present invention, including lock panel, and Drive part, fingerprint module, limiting device in lock panel are set；

The drive part includes decelerating motor and swinging block, and the limiting device includes pin and limited block, the fingerprint mould Packaged fit over is connected by pin with swinging block between limited block and lock panel；The limited block is fixed in lock panel；It is described Pin one end other end that is connected with swinging block is fixed on the fingerprint module, and the pin passes through the limited block and can be Sliding, the sliding stroke of the pin are limited by the shape of the slot of limited block in the slot of the limited block, the limited block The first U-lag that slot is.

Further in order to optimize using effect, the present apparatus includes magnetoelectric induction device, including the PCBA on fingerprint module Plate, the magnetoelectric induction being welded in PCBA board switch, the magnetic receiver being mounted in lock panel, the magnet being mounted in magnetic receiver, When work, magnetoelectric induction switchs the control module that can be sensed magnetic field and will feed back to the signal sensed on PCBA.

Specifically, the magnetoelectric induction switch is Hull switch or tongue tube etc electronic component.

Using the above structure, when work, motor driven swinging block, swinging block drives pin, turns so as to cause fingerprint module It is dynamic.Pin needs the first U-lag on limited block, when fingerprint module turns to certain angle, limited block in assembly On the first U-lag will limit it and continue to rotate.Fingerprint module has had been rotated by certain angle at this time, i.e. sensor is sudden and violent It exposes outside.After fingerprint module turns to this angle, the PCBA board tail portion being fixed on fingerprint module has also sticked up, welding After magnetoelectric induction inductive switching to magnet in PCBA board, this switch can cut off circuit, motor stalls.It can test at this time Card opens the door.Under program control, it is verified the rear regular hour, motor can rotate backward, and fingerprint module also can reversely turn Dynamic, sensor will be hidden within lock panel at this time.

Further in order to optimize using effect, setting touches electrifying device on the fingerprint module, and the touch powers on Device includes touching metal plate, conductive structure；The conductive structure can be spring structure, when installing PCBA board, be welded on Metallic conduction spring in PCBA board can be contacted with metal plate is touched, so that touch signal to be sent to the control mould in PCBA board Block.

Using the above structure, when fingerprint sensor module is hidden in inside lock panel, lower touch metal plate is gently touched, Touch signal transmits a signal to the control module of PCBA by power spring, and control module issues motor rotation command, fingerprint Module rotation.

The further present apparatus includes resetting structure, and the resetting structure includes a torsion for being mounted on fingerprint module lower part Turn spring, torsionspring seat, torsionspring pin, the tail portion of fingerprint module is installed and acted in one end of torsionspring, reverses bullet It is fixed on torsionspring pin in the middle part of spring, torsionspring pin is fixed on torsionspring seat, and the torsionspring other end acts on lock On panel.

Using the above structure, it can prevent fingerprint module from arbitrarily flipping out, unless motor driven or pressing energetically The tail portion of fingerprint module.It goes wrong in driving mechanism, when cisco unity malfunction, the tail of fingerprint module can be pressed energetically at this time Portion allows fingerprint module to flip out, to verify enabling, does so and ensure that the safety used.

Specifically, there is protruding end on the fingerprint module, there is concave inward structure on the limited block, the protruding end with it is described Concave inward structure matches, using this structure, so that fingerprint module preferably cooperates with the limited block, so that fingerprint module rotates It will not be moved in the up-down direction when to the position matched with limited block by limited block limit, particularly, the protruding end For circle protrusion, the concave inward structure is the structure cooperated with the protruding end, and the fingerprint module can be convex around the circle Axial direction rotation out.

There is the first hole on the specific fingerprint module, first hole and the pin assemble, when the pin rotation The fingerprint module is driven to rotate, the pin passes through the first U-lag of the limited block, and first U-lag has first gear Side and the second rib rotate out of the state of lock panel, the pin for fingerprint module when the pin is rotated to the first rib The state into lock panel is hidden when rotation to the second rib for fingerprint module rotation.

Specifically, the decelerating motor include the first reducing gear, it is the second reducing gear, third reducing gear, the 4th reducing gear, defeated Gear out, the first reducing gear are connected to the motor, and the second reducing gear is connected with the first reducing gear, third reducing gear and the 4th reducing gear It is connected, the 4th reducing gear is connected with output gear, and the output gear is connected with swinging block, and the movement of the swinging block is exported Gear drives.

Specifically, there is third U-lag on the swinging block, the pin is connected with swinging block and is existed by swinging block driving It is slided in the space that the third U-lag is formed；The both ends of the third U-lag are respectively third rib, fourth gear side, work as institute The state for rotating out of lock panel when pin is rotated to the first rib for fingerprint module is stated, at this time pin and fourth gear side phase It supports；The state into lock panel is hidden for fingerprint module rotation when the pin is rotated to the second rib when, at this time the pin It offsets with the third rib.

Have the advantage that intelligent door lock unlatching is more convenient reliable using the above structure, experience is more humanized, comfortably Change.Due to using automatic turning structure, modern sense, technology sense is extremely strong.Compact structure dexterously solves fingerprint sensor The problem of dust-proof, waterproof and resisting ultraviolet radiation.When designing lock panel, locking face board size can do small, can save so big The alloy material cost of amount.Structure is reliable, and since the flip angle of fingerprint module is smaller, mechanical breakdown can accordingly be reduced very It is more.In addition compared with electronic slip lid, since electronic slip lid stroke ratio is longer, its structure is complicated, and power consumption is bigger when operation, this Kind structure can save more battery capacities.

Detailed description of the invention

Fig. 1 is component explosion diagram of the present invention.

Fig. 2 is inventive touch electrifying device decomposition diagram.

Fig. 3 is drive part decomposition diagram of the present invention.

Fig. 4 is that fingerprint module of the present invention hides the schematic diagram into lock panel.

Fig. 5 is the schematic diagram that fingerprint module of the present invention rotates out of lock panel.

Specific embodiment

Embodiment 1

As shown in Figure 1, a kind of fingerprint identification device that can control rotation angle of the present invention, including lock panel 1, and Drive part, fingerprint module 2, limiting device in lock panel 1 are set；The drive part includes decelerating motor 3 and swings Block 4, the limiting device include pin 5 and limited block 6, and the fingerprint module 2, which is assemblied between limited block 6 and lock panel 1, to be led to Pin 5 is crossed to be connected with swinging block 4；The limited block 6 is fixed in lock panel 1；Described 5 one end of pin is connected separately with swinging block 4 One end is fixed on the fingerprint module 2, and the pin 5 passes through the first U-lag 12 of the limited block 6, and the pin 5 is in institute State sliding in the first U-lag 12 of limited block 6.

The further present apparatus includes magnetoelectric induction device, including on fingerprint module 2 PCBA board 7, be welded on PCBA board 7 On Hull switch 8, the magnetic receiver 9 being mounted in lock panel 1, the magnet 10 that is mounted in magnetic receiver 9, when work, Hull is opened Close 8 control modules that can be sensed magnet 10 and the signal sensed will be fed back in PCBA board 7.

Using the above structure, when work, motor driven pin 5, so as to cause the rotation of fingerprint module 2.Pin 5 is in assembly Need the first U-lag 12 on limited block 6, the first U-shaped when fingerprint module 2 turns to certain angle, on limited block 6 Slot 12 will limit it and continue to rotate.Fingerprint module 2 has had been rotated by certain angle at this time, i.e. sensor has been exposed to outer ?.After fingerprint module 2 turns to this angle, 7 tail portion of PCBA board being fixed on fingerprint module has also sticked up, and is welded on After Hull switch 8 in PCBA board 7 senses magnet 10, this switch can cut off circuit, motor stalls.It can verify at this time It opens the door.Under program control, it is verified the rear regular hour, motor can rotate backward, and fingerprint module 2 also can reversely turn Dynamic, sensor will be hidden within lock panel 1 at this time.

Setting touches electrifying device on the fingerprint module 2, and the touch electrifying device includes touching metal plate, PCBA board On have conductive structure；Design has cylinder on the touch metal plate, and conductive structure is welded in the PCBA board to be connected with cylinder, from And touch signal is sent to the control module in PCBA board 7.

Using the above structure, when fingerprint sensor module is hidden in 1 inside of lock panel, lower touch metal plate is gently touched , touch signal is connected by power spring transmits a signal to the control module of PCBA, and control module issues motor rotation and refers to It enables, fingerprint module 2 rotates.

Embodiment 2

As shown in Fig.1 and Fig.2, on the basis of embodiment 1, setting touches electrifying device, the touch on the fingerprint module 2 Electrifying device includes touching metal plate 13, power spring 14, metal screws 15；There are two circles for design on the touch metal plate 13 Column, power spring 14 are mounted on described two cylinders, and there are two screw column, power springs on the shell of the fingerprint module 2 Two screw columns on 2 shell of fingerprint module are passed through on 14 axis, are designed to through-hole in screw column, and power spring 14 is just and metal Screw 15 is connected；Metal screws 15 are connected in fixed PCBA board 7 with two contact points in PCBA board 7, to will touch Signal is sent to the control module in PCBA board 7.

Using the above structure, when fingerprint sensor module is hidden in 1 inside of lock panel, lower touch metal plate is gently touched 13, touch signal, which is connected by power spring 14 with metal screws 15, transmits a signal to the control module of PCBA, control module Motor rotation command is issued, fingerprint module 2 rotates.

Embodiment 3

As shown in Figure 1, on the basis of embodiment 1, the present apparatus includes resetting structure, the resetting structure includes being mounted on fingerprint A torsionspring 16, torsionspring seat 11, the torsionspring pin 17 of 2 lower part of module, one end of torsionspring 16 is installed and is made It used in the tail portion of fingerprint module 2, is fixed in the middle part of torsionspring 16 on torsionspring pin 17, torsionspring pin 17 is fixed on torsion On spring base 11,16 other end of torsionspring is acted in lock panel 1.

Using the above structure, it can prevent fingerprint module 2 from arbitrarily flipping out, unless motor driven or pressing energetically The tail portion of fingerprint module 2.It goes wrong in driving mechanism, when cisco unity malfunction, fingerprint module 2 can be pressed energetically at this time Tail portion allows fingerprint module 2 to flip out, to verify enabling, does so and ensure that the safety used.

Embodiment 4

As shown in Figure 1, on the basis of embodiment 1, having protruding end 18 on fingerprint module 2, having concave inward structure on the limited block 6 19, the protruding end 18 is matched with the concave inward structure 19, using this structure, so that fingerprint module 2 and the limited block 6 are more Good cooperation, so that when fingerprint module 2 rotates to the position matched with limited block 6 in above-below direction by the limit of limited block 6 On will not move, particularly, the protruding end 18 is round protrusion, and the concave inward structure 19 is to cooperate with the protruding end 18 Structure, the fingerprint module 2 can be around the axial direction rotations of the round protrusion.

There is the first hole on the specific fingerprint module 2, first hole and the pin 5 assemble, and the pin 5 rotates When drive the fingerprint module 2 to rotate, the pin 5 passes through the first U-lag 12 of the limited block 6, first U-lag 12 There are the first rib 20 and the second rib 21, rotates out of lock panel for fingerprint module 2 when the rotation of pin 5 to the first rib 20 1 state hides the state into lock panel 1 for the rotation of fingerprint module 2 when the pin 5 rotation to the second rib 21.

Embodiment 5

As shown in figure 3, on the basis of embodiment 1, the decelerating motor 3 includes the first reducing gear 31, the second reducing gear 32, the Three reducing gears 33, the 4th reducing gear 34, output gear 35, the first reducing gear 31 are connected to the motor, the second reducing gear 32 and first Reducing gear 31 is connected, and third reducing gear 32 is connected with the 4th reducing gear 34, and the 4th reducing gear 34 is connected with output gear 35, described Output gear 35 is connected with swinging block 4, and the movement of the swinging block 4 is driven by output gear 35.

Specifically, there is the second U-lag 22 on the swinging block 4, the pin 5 is connected with swinging block 4 and by swinging block 4 Driving is slided in the space that second U-lag 22 is formed；The both ends of second U-lag 22 be respectively third rib 23, Fourth gear side 24 rotates out of the state of lock panel 1, at this time when the pin 5 rotation to the first rib 20 for fingerprint module 2 Pin 5 offsets with the fourth gear side 24；It is hidden when the pin 5 rotation to the second rib 21 for the rotation of fingerprint module 2 Into the state of lock panel 1, the pin 5 offsets with the third rib 23 at this time.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any In the technical scope disclosed by the present invention, any changes or substitutions that can be easily thought of by those familiar with the art, all answers It is included within the scope of the present invention.Therefore, protection scope of the present invention should be subject to the protection scope in claims.

Claims (10)

1. a kind of fingerprint identification device that can control rotation angle, is characterized in including lock panel, and is arranged in lock panel Drive part, fingerprint module, limiting device；The drive part includes decelerating motor and swinging block, the limiting device packet Pin and limited block are included, the fingerprint module, which is assemblied between limited block and lock panel, to be connected by pin with swinging block；It is described Limited block is fixed in lock panel；Described pin one end other end that is connected with swinging block is fixed on the fingerprint module, described Pin passes through the limited block and can slide in the slot of the limited block, and the sliding stroke of the pin is by limited block The shape of slot limits.

2. a kind of fingerprint identification device that can control rotation angle as described in claim 1, is characterized in that including magnetoelectricity sense Answer device, the magnetoelectric induction device includes PCBA board on fingerprint module, the magnetoelectric induction switch being welded in PCBA board, peace Magnetic receiver in lock panel, the magnet being mounted in magnetic receiver, when work, magnetoelectric induction switch can sense magnetic field simultaneously The signal sensed is fed back to the control module in PCBA board.

3. a kind of fingerprint identification device that can control rotation angle as claimed in claim 2, is characterized in that the fingerprint mould Setting touches electrifying device on block, and the electrifying device that touches includes touching metal plate, the conductive structure being welded in PCBA board.

4. a kind of fingerprint identification device that can control rotation angle as claimed in claim 3 is characterized in that the touch gold Belonging to design on plate has cylinder, and the conductive structure being welded in PCBA board is connected with the cylinder, so that touch signal be passed Send the control module to PCBA board.

5. a kind of fingerprint identification device that can control rotation angle as described in claim 1, is characterized in that further sheet Device includes that the resetting structure to play a protective role inside lock panel to fingerprint identification device is arranged in.

6. a kind of fingerprint identification device that can control rotation angle as claimed in claim 5 is characterized in that the reset knot Structure includes a torsionspring, torsionspring seat, the torsionspring pin for being mounted on fingerprint module lower part, one end peace of torsionspring The tail portion of fingerprint module is filled and acted on, is fixed on torsionspring pin in the middle part of torsionspring, torsionspring pin is fixed on torsion On spring base, the torsionspring other end is acted in lock panel.

7. a kind of fingerprint identification device that can control rotation angle as described in claim 1, is characterized in that the fingerprint mould There is protruding end on block, the limited block has concave inward structure, and the protruding end is matched with the concave inward structure.

8. a kind of fingerprint identification device that can control rotation angle as claimed in claim 7, is characterized in that the protruding end For circle protrusion, the concave inward structure is the structure cooperated with the protruding end, and the fingerprint module can be convex around the circle Axial direction rotation out.

9. a kind of fingerprint identification device that can control rotation angle as claimed in claim 8, is characterized in that the fingerprint mould There is the first hole with pin assembly on block, when pin rotation drives the fingerprint module to rotate, and the pin passes through First U-lag of the limited block, first U-lag have the first rib and the second rib, and the pin is rotated to first gear It rotates out of the state of lock panel when side for fingerprint module, is fingerprint module rotating concealed when the pin is rotated to the second rib Hide the state into lock panel.

10. a kind of fingerprint identification device that can control rotation angle as claimed in claim 9, is characterized in that the swinging block On have the second U-lag, the pin is connected and by swinging block driving in the space that second U-lag is formed with swinging block Sliding；The both ends of second U-lag are respectively third rib, fourth gear side, when the pin is rotated to the first rib The state of lock panel is rotated out of for fingerprint module, pin offsets with the fourth gear side at this time；When the pin is rotated to second The state into lock panel is hidden for fingerprint module rotation when rib, the pin offsets with the third rib at this time.