CN110206399A - A kind of the automatic sliding cover pinch-proof structure and method of intelligent door lock - Google Patents

Abstract

The present invention relates to a kind of automatic sliding cover pinch-proof structures of intelligent door lock, including sliding cover component, lock panel and motor；The sliding cover component is connect by sliding rail with the lock panel；The motor is arranged in the lock panel, and the motor is slided in the lock panel by sliding cover component described in gear and rack drives；The sliding cover component back side is equipped with sliding rail stroke salient point and Magnetic testi point, and the lock panel is equipped with sliding rail stroke detection part and Magnetic testi part；The Magnetic testi point is to have magnetic position；When the sliding cover component moves to end point of travel, the sliding rail stroke salient point triggers the sliding rail stroke detection part；When the sliding cover component is closed in place, the Magnetic testi point triggers the Magnetic testi part；Timer is equipped in the lock panel.The application judges by Magnetic testi part the detection of Magnetic testi point the closure situation of sliding cover component in timer setting time, thus the occurrence of preventing clamp hand.

Description

A kind of the automatic sliding cover pinch-proof structure and method of intelligent door lock

Technical field

The present invention relates to intelligent door lock technical fields, and in particular to a kind of automatic sliding cover pinch-proof structure of intelligent door lock and Method.

Background technique

Currently, the fingerprint read head of intelligent door lock much has sliding cover protection, existing slip lid is much its dozen of Electronic control It opens and is closed, use easily, but existing electronic slip lid is easy to appear following problems: due to user when verifying fingerprint Finger need to be protruded into slip lid, if time-out or in the case of other electronic slip lid glide when user finger have little time to withdraw, it is electronic Slip lid, which continues to glide, is then easy to crush the hand of user.

Summary of the invention

It is anti-it is an object of the invention to aiming at the deficiencies in the prior art, provide a kind of automatic sliding cover of intelligent door lock Clamp hand structures and methods.

To achieve this purpose, the present invention adopts the following technical scheme:

A kind of automatic sliding cover pinch-proof structure of intelligent door lock, including sliding cover component, lock panel and motor；The slip lid group Part is connect by sliding rail with the lock panel；The motor is arranged in the lock panel, and the motor passes through gear and tooth Item drives the sliding cover component to slide in the lock panel；The sliding cover component back side is equipped with sliding rail stroke salient point and Magnetic testi Point, the lock panel are equipped with sliding rail stroke detection part and Magnetic testi part；The Magnetic testi point is to have magnetic position；It is described When sliding cover component moves to end point of travel, the sliding rail stroke salient point triggers the sliding rail stroke detection part；The sliding cover component When being closed in place, the Magnetic testi point triggers the Magnetic testi part；Timer is equipped in the lock panel；In the sliding cover component Portion is equipped with circuit structure, and the surface of the sliding cover component is touch tablet, and when touching the surface of the sliding cover component, the motor turns It is dynamic.

Further description, the sliding rail stroke salient point include the first salient point and the second salient point, first salient point and Second salient point is separately positioned on the upper and lower ends of the sliding cover component；The sliding cover component downlink in place when, second salient point Trigger the sliding rail stroke detection part, the sliding cover component uplink in place when, first salient point triggers the sliding rail stroke inspection Survey part.

Further description, first salient point and the second salient point are smooth cambered surface protrusion；The sliding rail stroke Detection piece is equipped with the detection contact of cambered surface convex.

Further description, the lock panel are equipped with the first guide groove component and the second guide groove component, the slip lid group Part bottom is equipped with sliding block；First guide groove component and the second guide groove component are provided separately, the two sides of first guide groove component Opposite direction opens up the first guide groove inwardly, and the sliding rail slides in first guide groove；Two sides of second guide groove component to The second guide groove is opened up outside, the opposite sliding block outstanding slides in second guide groove inwardly.

Further description, the lock panel are additionally provided with motor mounting box, the motor mounting box by the first box body and Second box body fastens and is formed the cavity for accommodating the motor, and the motor is mounted in the motor mounting box； The motor mounting box is fixed at the empty avoiding position of the lock panel by screw installation.

Further description further includes fingerprint read head, and the fingerprint read head is arranged in second guide groove component.

Further description, the gear are connected with the output end of the motor, the rack gear and the sliding cover component It is connected.

Further description, the interior dismountable magnet of setting of the Magnetic testi point.

It is including as follows using a kind of method of the automatic sliding cover pinch-proof structure of intelligent door lock as described in benefit requires 2 or 3 Step:

Open sliding cover component: when touching the touch tablet on the sliding cover component surface, the Magnetic testi part detects Magnetic testi Point, if Magnetic testi point aligned magnetic detection piece, sliding cover component uplink described in the motor driven；When the sliding rail stroke is examined Part is surveyed when detecting second salient point, the sliding cover component uplink in place, the motor stalls；

It closes sliding cover component: being more than setting when touching the touch tablet on the sliding cover component surface or in open state Time when not touching the sliding cover component, sliding cover component downlink described in the motor driven, while the timer starts Countdown；If the Magnetic testi point is not detected in the Magnetic testi part, then the electricity when timer after timing zero Machine inverts at once；If the Magnetic testi part detects the Magnetic testi point, and institute when the timer after timing zero When stating sliding rail stroke detection part and detecting the first salient point, the sliding cover component closure in place, the motor stalls.

Beneficial effects of the present invention: the standard by Magnetic testi point and Magnetic testi part as triggering sliding cover component closure in place, Accurate trigger signal is provided for the folding of sliding cover component；Sliding rail stroke salient point and sliding rail stroke detection part are transported as sliding cover component The examination criteria of row in place, for sliding cover component operation, the stalling of control motor provides trigger signal afterwards in place；Pass through the timing of setting Detection of the device to the runing time of sliding cover component cooperates the judgement of Magnetic testi point and Magnetic testi part to sliding cover component position, so that it may Whether there are obstacles in closing stroke to judge sliding cover component, and such detection mode is simple and easy, due to only with The mode of physical structure detects, and is capable of the electricity of high degree saving door lock.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the overall structure diagram of one embodiment of the present of invention；

Fig. 2 is the structural schematic diagram of the sliding cover component of one embodiment of the present of invention；

Fig. 3 is the schematic diagram of the sliding rail stroke detection part of one embodiment of the present of invention.

Wherein: sliding cover component 1, sliding rail 11, rack gear 12, sliding rail stroke salient point 13, the first salient point 131, the second salient point 132, Magnetic testi point 14, lock panel 2, sliding rail stroke detection part 21, detection contact 211, Magnetic testi part 22, motor mounting box 23, first Box body 231, the first guide groove component 24, the first guide groove 241, the second guide groove component 25, the second guide groove 251, refers to second box body 232 Line read head 26, motor 3 and gear 31.

Specific embodiment

To further illustrate the technical scheme of the present invention below with reference to the accompanying drawings and specific embodiments.

As shown in Figure 1-Figure 3, the automatic sliding cover pinch-proof structure of a kind of intelligent door lock, including sliding cover component 1, lock panel 2 With motor 3；The sliding cover component 1 is connect by sliding rail 11 with the lock panel 2；The motor 3 is arranged in the lock panel 2 Interior, the motor 3 drives the sliding cover component 1 to slide in the lock panel 2 by gear 31 and rack gear 12；The slip lid 1 back side of component is equipped with sliding rail stroke salient point 13 and Magnetic testi point 14, and the lock panel 2 is equipped with sliding rail stroke detection part 21 and magnetic Detection piece 22；The Magnetic testi point 14 is to have magnetic position；When the sliding cover component 1 moves to end point of travel, the cunning Rail stroke salient point 13 triggers the sliding rail stroke detection part 21；When the sliding cover component 1 is closed in place, the Magnetic testi point 14 is touched Send out Magnetic testi part 22 described；Timer is equipped in the lock panel 2；Circuit structure, the cunning are equipped with inside the sliding cover component 1 The surface of cap assemblies 1 is touch tablet, and when touching the surface of the sliding cover component 1, the motor 3 is rotated.

Sliding cover component 1 is driven by motor 3, when user input signal triggering sliding cover component 1 opens or closes, if magnetic at this time Detection piece 22 has signal input, i.e. 14 aligned magnetic detection piece 22 of Magnetic testi point, then controls the rotation of motor 3 and drive on sliding cover component 1 Row, sliding rail stroke detection part 21 starts to have detected whether signal input, when sliding rail stroke detection part 21 has detected signal input When, i.e., sliding rail stroke salient point 13 triggers sliding rail stroke detection part 21, and in place, control circuit control motor 3 stops 1 uplink of sliding cover component Rotation stop is dynamic, completes the opening of sliding cover component 1；Magnetic testi part 22 when if user input signal triggering sliding cover component 1 opens or closes There is no signal input, i.e. 14 misalignment Magnetic testi part 22 of Magnetic testi point, then controls motor 3 and drive 1 downlink of sliding cover component；Work as time-out When not having instruction input or user input signal triggering 1 downlink of sliding cover component to close, the rotation of motor 3 is driven under sliding cover component 1 Row, while timer starts countdown, the time that Timer is set is taken by 1 downlink of normal condition downslide cap assemblies It is long, when finishing when timer, judge whether Magnetic testi part 22 has signal input, i.e. whether Magnetic testi point 14 is directed at Magnetic testi Part 22, if timing completes Magnetic testi part 22 and do not have signal input, i.e. the also non-downlink of sliding cover component 1 in place, may there is obstacle at this time Object stops the downlink of sliding cover component 1, and the reversion of motor 3 is immediately controlled in control circuit, and sliding cover component 1 does not continue to downlink and is changed to Row, that is, can avoid the case where crushing user's finger.

Further description, the sliding rail stroke salient point 13 include the first salient point 131 and the second salient point 132, and described the One salient point 131 and the second salient point 132 are separately positioned on the upper and lower ends of the sliding cover component 1；1 downlink of sliding cover component is in place When, second salient point 132 triggers the sliding rail stroke detection part 21,1 uplink of sliding cover component in place when, described first is convex The 131 triggering sliding rail stroke detection part 21 of point.

1 uplink of sliding cover component in place when the second salient point 132 can trigger sliding rail stroke detection part 21；Sliding cover component 1 is gone downwards to When position, the first salient point 131 can trigger sliding rail stroke detection part 21.Cost since two salient points being arranged on sliding rail 11 will be much Reach the mesh of saving cost by two salient points of setting lower than two sliding rail stroke detection parts 21 of setting, therefore in the application 's.Only one sliding rail stroke detection part 21 can reduce the route inside lock panel 2 simultaneously, prevent in limited lock panel 2 Sliding cover component 1 slides up and down touching and pulls All other routes in inner space.In addition, single sliding rail stroke detection part 21 is to motor 3 turn stop providing single signal detection source, improve the response speed of control circuit, reduce the mistake of logical process process Rate.

Further description, first salient point 131 and the second salient point 132 are smooth cambered surface protrusion；The cunning Rail stroke detection part 21 is equipped with the detection contact 211 of cambered surface convex.

Sliding cover component 1 move up and down during there can be no apparent Caton phenomenon, otherwise influence user experience.When When the detection contact 211 of one salient point, 131 second salient point 132 and sliding rail stroke detection part 21 is smooth cambered surface protrusion, even if Sliding cover component 1 is run in place, when triggering sliding rail stroke detection part 21, there will not be apparent Caton, and whole process is steadily smooth, The friction between the first salient point 131, the second salient point 132 and sliding rail stroke detection part 21 is reduced simultaneously, reduces friction to each other Loss, prolongs the service life.

Further description, the lock panel 2 are equipped with the first guide groove component 24 and the second guide groove component 25, the cunning 1 bottom of cap assemblies is equipped with sliding block；First guide groove component 24 and the second guide groove component 25 are provided separately, the first guide groove group Opposite direction opens up the first guide groove 241 inwardly for the two sides of part 24, and the sliding rail 11 slides in first guide groove 241；Described The two sides of two guide groove components 25 open up the second guide groove 251 outward, and the opposite sliding block outstanding is in second guide groove inwardly Sliding in 251.

The slide-and-guide of sliding cover component 1 is mainly limited by the first guide groove component 24, the sliding block in the second guide groove 251 Auxiliary balance supporting role is played, sliding cover component 1 is made not occur significantly to shake.The first guide groove component 24 being provided separately and Two guide groove components 25 can effectively save the space in lock panel 2, provide enough empty avoiding positions for accommodate circuit part and Various winding displacements.

Further description, the lock panel 2 are additionally provided with motor mounting box 23, and the motor mounting box 23 is by the first box Body 231 and the second box body 232 fasten and form the cavity for accommodating the motor 3, and the motor 3 is mounted on the electricity In machine mounting box 23；The motor mounting box 23 is fixed at the empty avoiding position of the lock panel 2 by screw installation.

Motor 3 is set to be installed to the medium position of lock panel 2, to reduce the integral thickness of lock panel 2.Motor installation simultaneously Box 23 wraps motor 3, can play a certain protective role to motor 3.

Further description further includes fingerprint read head 26, and the fingerprint read head 26 is arranged in second guide groove component In 25.

Second guide groove component 25 wraps up fingerprint read head 26 from surrounding, protects to fingerprint read head 26, while rationally utilizing Space among second guide groove component 25 reduces the whole volume of lock body.

Further description, the gear 31 are connected with the output end of the motor 3, the rack gear 12 and the slip lid Component 1 is connected.

The power of motor 3 is applied directly on the rack gear 12 at 1 back side of sliding cover component after the output of gear 31, simplifies intermediate mistake The power transmission relationship of journey, so that the cost of lock body is lower, it is easier to safeguard.

Further description, the interior dismountable magnet of setting of the Magnetic testi point 14.

Facilitate maintenance replacement magnet.

It is including as follows using a kind of method of the automatic sliding cover pinch-proof structure of intelligent door lock as described in benefit requires 2 or 3 Step:

Open sliding cover component 1: when touching the touch tablet on 1 surface of sliding cover component, 22 detection magnetic of Magnetic testi part Test point 14, if 14 aligned magnetic detection piece 22 of Magnetic testi point, the motor 3 drives 1 uplink of sliding cover component；Work as institute When stating sliding rail stroke detection part 21 and detecting second salient point 132, in place, the motor 3 stops 1 uplink of sliding cover component Rotation；

It closes sliding cover component 1: being more than to set when touching the touch tablet on 1 surface of sliding cover component or in open state When the fixed time does not touch the sliding cover component 1, the motor 3 drives 1 downlink of sliding cover component, while the timer Start countdown；If the Magnetic testi point 14 is not detected in the Magnetic testi part 22 when the timer after timing zero, Then the motor 3 inverts at once；If the Magnetic testi part 22 detects the magnetic when timer after timing zero Test point 14, and when the sliding rail stroke detection part 21 detects the first salient point 131, the closure of sliding cover component 1 is in place, described Motor 3 stops operating.

The above is only a preferred embodiment of the present invention, for those of ordinary skill in the art, according to the present invention Thought, there will be changes in the specific implementation manner and application range, and the content of the present specification should not be construed as to the present invention Limitation.

Claims (9)

1. a kind of automatic sliding cover pinch-proof structure of intelligent door lock, it is characterised in that: including sliding cover component, lock panel and motor； The sliding cover component is connect by sliding rail with the lock panel；The motor is arranged in the lock panel, and the motor passes through Sliding cover component described in gear and rack drives slides in the lock panel；It is convex that the sliding cover component back side is equipped with sliding rail stroke Point and Magnetic testi point, the lock panel are equipped with sliding rail stroke detection part and Magnetic testi part；The Magnetic testi point is with magnetism Position；When the sliding cover component moves to end point of travel, the sliding rail stroke salient point triggers the sliding rail stroke detection part；Institute When stating sliding cover component closure in place, the Magnetic testi point triggers the Magnetic testi part；Timer is equipped in the lock panel；It is described Circuit structure is equipped with inside sliding cover component, the surface of the sliding cover component is touch tablet, when touching the surface of the sliding cover component, The motor rotation.

2. a kind of automatic sliding cover pinch-proof structure of intelligent door lock according to claim 1, it is characterised in that: the sliding rail Stroke salient point includes the first salient point and the second salient point, and first salient point and the second salient point are separately positioned on the sliding cover component Upper and lower ends；The sliding cover component downlink in place when, second salient point triggers the sliding rail stroke detection part, the slip lid group Part uplink in place when, first salient point triggers the sliding rail stroke detection part.

3. a kind of automatic sliding cover pinch-proof structure of intelligent door lock according to claim 2, it is characterised in that: described first Salient point and the second salient point are smooth cambered surface protrusion；The sliding rail stroke detection part is equipped with the detection contact of cambered surface convex.

4. a kind of automatic sliding cover pinch-proof structure of intelligent door lock according to claim 1, it is characterised in that: the locking face Plate is equipped with the first guide groove component and the second guide groove component, and the sliding cover component bottom is equipped with sliding block；First guide groove component It is provided separately with the second guide groove component, opposite direction opens up the first guide groove, the sliding rail inwardly for the two sides of first guide groove component It is slided in first guide groove；The two sides of second guide groove component open up the second guide groove outward, opposite outstanding inwardly The sliding block slides in second guide groove.

5. a kind of automatic sliding cover pinch-proof structure of intelligent door lock according to claim 1, it is characterised in that: the locking face Plate is additionally provided with motor mounting box, and the motor mounting box is fastened by the first box body and the second box body and formed for accommodating the electricity The cavity of machine, the motor are mounted in the motor mounting box；The motor mounting box is fixed to by screw installation At the empty avoiding position of the lock panel.

6. a kind of automatic sliding cover pinch-proof structure of intelligent door lock according to claim 4, it is characterised in that: further include referring to Line read head, the fingerprint read head are arranged in second guide groove component.

7. a kind of automatic sliding cover pinch-proof structure of intelligent door lock according to claim 1, it is characterised in that: the gear It is connected with the output end of the motor, the rack gear is connected with the sliding cover component.

8. a kind of automatic sliding cover pinch-proof structure of intelligent door lock according to claim 1, it is characterised in that: the magnetic inspection The dismountable magnet of setting in measuring point.

9. the method for the automatic sliding cover pinch-proof structure using a kind of intelligent door lock as described in benefit requires 2 or 3, it is characterised in that Include the following steps:

Open sliding cover component: when touching the touch tablet on the sliding cover component surface, the Magnetic testi part detection magnetic test point, if The Magnetic testi point aligned magnetic detection piece, then sliding cover component uplink described in the motor driven；When the sliding rail stroke detection part When detecting second salient point, the sliding cover component uplink in place, the motor stalls；

Close sliding cover component: when touching the touch tablet on the sliding cover component surface or in open state more than setting when Between without touching the sliding cover component when, sliding cover component downlink described in the motor driven, while the timer starts to count When；If the Magnetic testi point is not detected in the Magnetic testi part when timer after timing zero, then the motor is vertical Carve reversion；If the Magnetic testi part detects the Magnetic testi point, and the cunning when timer after timing zero When rail stroke detection part detects the first salient point, the sliding cover component is closed in place, the motor stalls.