CN114856322A

CN114856322A - Face identification intelligence lock based on thing networking

Info

Publication number: CN114856322A
Application number: CN202210285391.0A
Authority: CN
Inventors: 王延青
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-23
Filing date: 2022-03-23
Publication date: 2022-08-05

Abstract

The invention provides a face recognition intelligent door lock based on the Internet of things, wherein a camera is rotated at the upper end of a lock body, a handle is swung on the surface of the lock body, a lock cylinder is rotatably connected below the lock body, a signal transmitter and a processor are installed inside the lock body, convex strips are respectively swung at two ends of the handle and the lock cylinder close to the lock body, a transmission mechanism capable of adjusting the rotation direction of the camera by utilizing air flow impact is arranged inside the lock body, when the door lock is required to be opened, the handle is manually swung downwards, when the handle inclines 60 degrees, the convex strips swing synchronously, the convex strips at one side of the lower end of the handle are firstly extruded to one side of the slide block, the slide block and the push rod slide synchronously, and the push rod is extruded to one side of the extrusion layer, the extrusion layer is deformed, so that the gas in the gas bag flows upwards, because the hole at the upper end of the air bag is smaller, the air is discharged through the hole quickly, and the gas discharged by the air bag can be further utilized to impact the lower end of the pushing frame.

Description

Intelligent face recognition door lock based on Internet of things

Technical Field

The invention relates to the technical field of intelligent door locks, in particular to a face recognition intelligent door lock based on the Internet of things.

Background

The intelligent door lock is an improved lockset which is different from the traditional mechanical lock and is more intelligent, simple and convenient in the aspects of user safety, identification and manageability, and the intelligent door lock closes and opens a door through intelligent control and aims at the technical inspiration of the intelligent door lock;

the research on the intelligent door lock finds the following problems:

the intelligent door lock usually identifies a human face through a camera, the camera is fixed, and the direction of the camera cannot be automatically adjusted by airflow when the door lock swings downwards to be opened, so that the intelligent door lock is assisted to identify the human face;

at present, CN202111134403.1 in the prior art discloses an intelligent door lock, an unlocking control method of the intelligent door lock, an induction unlocking device and an intelligent door lock, the unlocking control method applied by the invention can realize non-contact unlocking, unlocking is realized in the process that a user approaches a door, and the door opening is more convenient; when the first signal is not available, the intelligent door lock is dormant, so that energy consumption can be saved, and the working time of the intelligent door lock can be prolonged; when two conditions of the first signal and the second signal are met, unlocking is carried out, and the safety of the door lock is improved;

the invention mainly solves the problem that the direction of the camera cannot be adjusted by airflow.

Disclosure of Invention

In order to solve the technical problems, the invention provides a face recognition intelligent door lock based on the internet of things, so as to solve the problems described in the background technology.

The invention relates to a purpose and an effect of a face recognition intelligent door lock based on the Internet of things, which are achieved by the following specific technical means: the utility model provides a face identification intelligence lock based on thing networking, includes the lock body, the upper end rotation of lock body has the camera, the surface swing of lock body has the handle, the below swivelling joint of lock body has the lock core, the internally mounted of lock body has signal transmitter and treater, the both ends that handle and lock core are close to the lock body swing respectively have the sand grip, the inside of lock body is provided with the usable air current and strikes the drive mechanism who adjusts camera direction of rotation.

Further, camera and signal transmitter and treater electric connection, and signal transmitter and cell-phone end radio signal are connected, and the camera shoots the people's face, with signal transmission to the inside of treater after the shooting, the treater discerns the people's face, and the treater is simultaneously with signal transmission to signal transmitter's inside, signal transmitter is with signal transmission to cell-phone end for this kind of intelligence lock can be based on the thing networking.

Furthermore, the convex strip at the lower end of the handle is arranged in an inclined manner by 35-40 degrees, the handle swings by 90 degrees at one side of the lock body, the convex strips at the two ends of the lock cylinder are arranged in a vertical one-shaped manner, and when the handle swings downwards, the handle drives the transmission mechanism to move, so that the transmission mechanism can utilize air flow impact to adjust the steering of the camera.

Furthermore, the transmission mechanism comprises a sliding block, a push rod, a fixing frame, a telescopic rod, a sliding rail, a sliding strip, an air bag, an extrusion layer, a pushing frame, a shaft arm, a rotating shaft, a support and a disc.

Further, the slider slides in the inside both sides of lock body, the push rod slides in one side of slider, the mount is installed in the both sides of lock body inner wall, the telescopic link is flexible to slide in the both ends of push rod, the slide rail swings in the inside both ends of mount, the slide bar slides in the one end of telescopic link, the air pocket is flexible in the inside both sides of lock body, the extrusion layer is inlayed in one side of air pocket, the pushing frame slides in the top of air pocket, the pivot articulates in the both sides of pushing frame lower extreme, the armshaft swings in the both ends of pivot, the support slides in the upper end of armshaft, the disc swings in one side of support.

Further, slider and push rod are horizontal "T" form setting, and the slider distributes in the both sides of handle, and one side that the slider is close to the handle is the semicircle arcuation setting, and the push rod slides and runs through in the inside of mount, and the mount is inside to be the cavity form setting, and the slide rail articulates in the inner wall of mount, and the mount can be injectd the slip direction of push rod.

Further, the telescopic link is the three-section and cup joints the setting, and the telescopic link sets up with the slip strip is supporting, and the slip strip slides in the inside of slide rail, and when the telescopic link is the horizontal slip, the slip strip is the slope slip laminating in the inside of slide rail, and the slide rail is horizontal "one" word and arranges, and the slide rail is whole to be the slope swing, and the fulcrum of slide rail is in one side at the slide rail back.

Furthermore, the extrusion layer is made of rubber, the extrusion layer and the push rod are extruded in a horizontal sliding mode, the thickness of the extrusion layer is smaller than that of the inner wall of the air bag by 0.3-0.6cm, the extrusion layer can assist air in the air bag to be discharged quickly, the upper end of the pushing frame extends to the two sides of the camera, and when the pushing frame slides upwards, the pushing frame can assist the camera to swing in an angle mode integrally.

Further, the inner wall in the lock body is inlayed in the one end of armshaft, and the armshaft is two sections and cup joints the setting, and the armshaft of pivot one side is the triangle form setting, and the setting of armshaft can be to the thrust frame when forming the support, and the direction thrust frame is perpendicular reciprocal slip.

Further, drive mechanism includes lever frame, sleeve, fixture block and spacing, and lever frame articulates in the inside both sides of lock body, and the sleeve swings in lever frame's upper end, and the fixture block is inlayed in the inside lower extreme of sleeve, and spacing slip nestification is in telescopic one side.

Has the advantages that:

1. when the door lock needs to be opened, the handle is manually swung downwards, when the handle is inclined by 60 degrees, the convex strips synchronously swing, the convex strips on one side of the lower end of the handle are firstly extruded to one side of the sliding block, the sliding block and the push rod synchronously slide, the push rod is extruded to one side of the extrusion layer, the extrusion layer deforms, so that gas in the air bag flows upwards, and the gas is quickly discharged through the holes due to the fact that the holes in the upper end of the air bag are small, and then the gas discharged from the air bag can be used for impacting the lower end of the pushing frame;

2. the pushing frame swings upwards, the upper end of the pushing frame can drive the camera to swing in an angle mode, so that when the door lock is opened, the angle of the camera can be automatically adjusted, the shaft arms on two sides of the pushing frame swing upwards through the rotating shaft, the shaft arms drive the support to swing around the outer side of the disc, and due to the shape of the disc, the support returns downwards quickly, and the pushing frame can be assisted to return;

3. when the push rod slides horizontally, the telescopic rod slides synchronously, and then the telescopic rod drives the sliding strip to slide in the sliding rail;

4. when the handle inclines by 90 degrees, the convex strip on the other side of the handle is extruded to one side of the sliding block, so that the pushing frame on the other side in the lock body can drive the camera to obliquely swing again;

5. when lock core swing angle is less than 90, the sand grip extrudees to the lower extreme of lever frame, the whole slope swing of lever frame, lever frame drive sleeve is the angle swing, after sleeve single quick swing, because inertia, the upper end quick slip of spacing and fixture block, and the lock core is less than 90 back at 3 swing angles, and spacing constantly removes to one side of lock core, and it is spacing to utilize the both sides of lock core to form spacing, and then can open the failure back 3 times to the lock core, reaches the effect of theftproof.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic cross-sectional view of the lock body of the present invention.

FIG. 3 is a schematic diagram of a slider plane structure according to the present invention.

Fig. 4 is a schematic view of the slide rail structure of the present invention.

FIG. 5 is an enlarged view of the structure at A in FIG. 2 according to the present invention.

FIG. 6 is a schematic view of the airbag module of the present invention.

FIG. 7 is an enlarged view of the structure at B in FIG. 2 according to the present invention.

In fig. 1 to 7, the correspondence between the component names and the reference numbers is:

1-lock body, 101-handle, 102-lock core, 103-camera, 104-signal transmitter, 105-processor, 106-raised strip, 2-slide block, 201-push rod, 202-fixed frame, 203-telescopic rod, 204-slide rail, 205-slide bar, 3-air bag, 301-extrusion layer, 4-pushing frame, 401-shaft arm, 402-rotating shaft, 403-bracket, 404-disc, 5-lever frame, 501-sleeve, 502-clamping block and 503-limiting frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Example (b):

as shown in figures 1 to 7:

example 1: a face recognition intelligent door lock based on the Internet of things comprises a lock body 1, wherein a camera 103 is rotatably arranged at the upper end of the lock body 1, a handle 101 is swung on the surface of the lock body 1, a lock cylinder 102 is rotatably connected to the lower side of the lock body 1, a signal transmitter 104 and a processor 105 are arranged in the lock body 1, protruding strips 106 are respectively swung at two ends, close to the lock body 1, of the handle 101 and the lock cylinder 102, and a transmission mechanism capable of adjusting the rotation direction of the camera 103 by utilizing air flow impact is arranged in the lock body 1;

wherein: the camera 103 and the signal transmitter 104 are electrically connected with the processor 105, the signal transmitter 104 is in wireless signal connection with the mobile phone end, the camera 103 shoots a face, the shot face transmits a signal to the inside of the processor 105, the processor 105 identifies the face, the processor 105 simultaneously transmits the signal to the inside of the signal transmitter 104, and the signal transmitter 104 transmits the signal to the mobile phone end, so that the intelligent door lock can be based on the internet of things;

the convex strips 106 at the lower end of the handle 101 are arranged in an inclined manner at 35-40 degrees, the handle 101 swings at 90 degrees on one side of the lock body 1, the convex strips 106 at the two ends of the lock cylinder 102 are arranged in a vertical one-line manner, when the handle 101 swings downwards, the handle 101 drives the transmission mechanism to move, and then the transmission mechanism can adjust the steering of the camera 103 by utilizing air flow impact;

example 2: referring to fig. 2-6 of the specification, embodiment 2 is different from embodiment 1 in that the transmission mechanism includes a sliding block 2, a push rod 201, a fixed frame 202, an expansion rod 203, a sliding rail 204, a sliding strip 205, an air bag 3, an extrusion layer 301, a push frame 4, a shaft arm 401, a rotating shaft 402, a support 403 and a disk 403, the sliding block 2 slides on two sides of the inside of the lock body 1, the push rod 201 slides on one side of the sliding block 2, the fixed frame 202 is installed on two sides of the inner wall of the lock body 1, the expansion rod 203 slides on two ends of the push rod 201 in an expansion way, the sliding rail 204 swings on two ends of the inside of the fixed frame 202, the sliding strip 205 slides on one end of the expansion rod 203, the air bag 3 extends on two sides of the inside of the lock body 1, the extrusion layer 301 is embedded on one side of the air bag 3, the push frame 4 slides on the upper side of the air bag 3, the rotating shaft 402 is hinged on two sides of the lower end of the push frame 4, the shaft 401 swings on two ends of the rotating shaft 402, the bracket 403 slides on the upper end of the shaft arm 401, and the disc 404 swings on one side of the bracket 403;

wherein: the sliding block 2 and the push rod 201 are arranged in a transverse T shape, the sliding block 2 is distributed on two sides of the handle 101, one side of the sliding block 2, which is close to the handle 101, is arranged in a semicircular arc shape, and the push rod 201 slides and penetrates through the inner part of the fixing frame 202;

the fixing frame 202, the fixing frame 202 is arranged in a hollow shape, the sliding rail 204 is hinged to the inner wall of the fixing frame 202, and the fixing frame 202 can limit the sliding direction of the push rod 201;

the telescopic rod 203 is sleeved with the telescopic rod 203 in three sections, the telescopic rod 203 is matched with the sliding strip 205, the sliding strip 205 slides in the slide rail 204, and when the telescopic rod 203 slides horizontally, the sliding strip 205 is obliquely, slidably and attached to the slide rail 204;

the sliding rails 204 are arranged in a horizontal line shape, the whole sliding rail 204 obliquely swings, and the supporting point of the sliding rail 204 is positioned on one side of the back surface of the sliding rail 204;

when the sliding bar 205 slides, one side of the sliding rail 204 close to the sliding bar 205 swings downwards, and the sliding bar 205 can be assisted to return by utilizing the different weights of the two sides of the sliding rail 204;

the upper end of the air bag 3 is penetrated with an air outlet, the diameter of the air outlet is 0.5-1cm, the air bag 3 is horizontally arranged corresponding to the push rod 201, and the air bag 3 is vertically arranged corresponding to the lower end of the push frame 4;

the extrusion layer 301, the extrusion layer 301 is made of rubber, the extrusion layer 301 and the push rod 201 are extruded in a horizontal sliding mode, the thickness of the extrusion layer 301 is 0.3-0.6cm smaller than that of the inner wall of the air bag 3, and the extrusion layer 301 can assist the air in the air bag 3 to be rapidly exhausted;

the upper end of the pushing frame 4 extends to two sides of the camera 103, and when the pushing frame 4 slides upwards, the pushing frame 4 can assist the camera 103 to integrally swing in an angle;

the lock body 1 comprises a shaft arm 401, one end of the shaft arm 401 is embedded in the inner wall of the lock body 1, the shaft arm 401 is in two-section sleeved arrangement, the shaft arm 401 on one side of a rotating shaft 402 is in a triangular arrangement, and the arrangement of the shaft arm 401 can support the pushing frame 4 and meanwhile can enable the pushing frame 4 to vertically slide in a reciprocating manner;

the upper end of the bracket 403 is spaced from the center of the disc 404 by 2-4cm, and when the bracket 403 is static, the bracket 403 is positioned on one side of the middle of the disc 404;

wherein: when the door lock needs to be opened, the handle 101 is manually swung downwards, when the handle 101 is inclined by 60 degrees, the convex strips 106 synchronously swing, the convex strips 106 on one side of the lower end of the handle 101 are firstly extruded to one side of the sliding block 2, the sliding block 2 and the push rod 201 synchronously slide, the push rod 201 is extruded to one side of the extrusion layer 301, the extrusion layer 301 deforms, so that gas in the air bag 3 flows upwards, and the gas is quickly discharged through the holes due to the small holes in the upper end of the air bag 3, so that the gas discharged from the air bag 3 can be impacted to the lower end of the push frame 4;

the pushing frame 4 swings upwards, the upper end of the pushing frame 4 can drive the camera 103 to swing in an angle mode, so that when the door lock is opened, the angle of the camera 103 can be automatically adjusted, the shaft arms 401 on the two sides of the pushing frame 4 swing upwards through the rotating shaft 402, the shaft arms 401 drive the support 403 to swing around the outer side of the disc 404, and due to the shape of the disc 404, the support 403 returns downwards quickly, so that the pushing frame 4 can be assisted to return;

when the push rod 201 slides horizontally, the telescopic rod 203 slides synchronously, and then the telescopic rod 203 drives the sliding strip 205 to slide in the sliding rail 204, because the weights of the two sides of the sliding rail 204 are different, one side of the sliding rail 204 close to the sliding strip 205 swings downwards, and the weight of the other side of the sliding rail 204 is larger than that of one side of the sliding strip 205, so that the sliding rail 204 can assist the sliding strip 205 to return;

when the handle 101 is inclined by 90 degrees, the convex strip 106 on the other side of the handle 101 is extruded to one side of the sliding block 2, so that the pushing frame 4 on the other side inside the lock body 1 can drive the camera 103 to obliquely swing again;

example 3: as can be seen from fig. 2 and 7 in the specification, embodiment 2 is different from embodiment 1 in that the transmission mechanism includes a lever frame 5, a sleeve 501, a fixture block 502, and a limiting frame 503, the lever frame 5 is hinged to two sides inside the lock body 1, the sleeve 501 swings at the upper end of the lever frame 5, the fixture block 502 is embedded at the lower end inside the sleeve 501, and the limiting frame 503 is slidably embedded at one side of the sleeve 501;

wherein: one side of the lower end of the lever frame 5 extends to one side of the lock cylinder 102, the lower end of the lever frame 5 is 1-3cm away from the lock cylinder 102, and the lever frame 5 and the sleeve 501 swing at an angle;

the fixture block 502 is arranged in a triangular shape, 3 fixture blocks 502 are distributed, and when the sleeve 501 slides, the limiting frame 503 horizontally and rapidly slides on one side of the fixture block 502 due to inertia;

one side of the limiting frame 503 extends to one side of the lock cylinder 102, and the limiting frame 503 is arranged in a transverse T shape;

wherein: when the swing angle of the lock cylinder 102 is smaller than 90 degrees, the raised line 106 is extruded to the lower end of the lever frame 5, the lever frame 5 swings obliquely integrally, the lever frame 5 drives the sleeve 501 to swing angularly, after the sleeve 501 swings rapidly for a single time, the upper ends of the limiting frame 503 and the fixture block 502 slide rapidly due to inertia, after the lock cylinder 102 swings for 3 times for an angle smaller than 90 degrees, the limiting frame 503 continuously moves to one side of the lock cylinder 102, the limiting frame 503 is utilized to limit the two sides of the lock cylinder 102, and then the lock cylinder 102 can be prevented from being stolen after being opened for 3 times and failed, and the anti-theft effect is achieved.

Claims

1. The utility model provides a face identification intelligence lock based on thing networking which characterized in that: comprises that

The lock comprises a lock body (1), wherein a camera (103) is rotatably arranged at the upper end of the lock body (1), a handle (101) is swung on the surface of the lock body (1), a lock cylinder (102) is rotatably connected below the lock body (1), a signal transmitter (104) and a processor (105) are installed inside the lock body (1), and raised lines (106) are respectively swung at two ends, close to the lock body (1), of the handle (101) and the lock cylinder (102);

the camera (103) and the signal transmitter (104) are electrically connected with the processor (105), the signal transmitter (104) is connected with a wireless signal of the mobile phone end, the camera (103) shoots a face, the shot face transmits a signal to the inside of the processor (105), the processor (105) identifies the face, the processor (105) simultaneously transmits the signal to the inside of the signal transmitter (104), and the signal transmitter (104) transmits the signal to the mobile phone end, so that the intelligent door lock can be based on the Internet of things;

the lock body comprises a handle (101), convex strips (106) at the lower end of the handle (101) are arranged in an inclined manner at 35-40 degrees, and the handle (101) swings at 90 degrees on one side of the lock body (1);

the convex strips (106) at the two ends of the lock core (102) are vertically arranged in a straight shape;

the transmission mechanism is arranged in the lock body (1) and can adjust the rotation direction of the camera (103) by utilizing air flow impact.

2. The intelligent door lock based on the face recognition of the Internet of things of claim 1, characterized in that: the transmission mechanism comprises a sliding block (2), a push rod (201), a fixed frame (202), an expansion link (203), a sliding rail (204), a sliding strip (205), an air bag (3), an extrusion layer (301), a pushing frame (4), a shaft arm (401), a rotating shaft (402), a support (403) and a disc (403), wherein the sliding block (2) slides on two sides in the lock body (1), the push rod (201) slides on one side of the sliding block (2), the fixed frame (202) is installed on two sides of the inner wall of the lock body (1), the expansion link (203) slides on two ends of the push rod (201) in a telescopic way, the sliding rail (204) swings on two ends in the fixed frame (202), the sliding strip (205) slides on one end of the expansion link (203), the air bag (3) extends on two sides in the lock body (1), the extrusion layer (301) is embedded on one side of the air bag (3), and the pushing frame (4) slides on the upper side of the air bag (3), the rotating shaft (402) is hinged to two sides of the lower end of the pushing frame (4), the shaft arms (401) swing at two ends of the rotating shaft (402), the support (403) slides at the upper end of the shaft arms (401), and the disc (404) swings at one side of the support (403).

3. The intelligent door lock based on the face recognition of the Internet of things of claim 2, characterized in that: slider (2) and push rod (201) are horizontal "T" form setting, and slider (2) distribute in the both sides of handle (101), and one side that slider (2) are close to handle (101) is the semicircle arcuation setting, and push rod (201) slide and run through in the inside of mount (202).

4. The intelligent door lock based on the face recognition of the Internet of things of claim 2, characterized in that: the telescopic rod (203) is sleeved with three sections, the telescopic rod (203) is matched with the sliding strip (205), the sliding strip (205) slides in the sliding rail (204), and when the telescopic rod (203) slides horizontally, the sliding strip (205) is obliquely and slidably attached to the inside of the sliding rail (204);

the sliding rail (204) is arranged in a transverse straight line shape, the sliding rail (204) integrally swings in an inclined mode, and a fulcrum of the sliding rail (204) is located on one side of the back face of the sliding rail (204).

5. The intelligent door lock based on the face recognition of the Internet of things of claim 2, characterized in that: an air outlet penetrates through the upper end of the air bag (3), the diameter of the air outlet is 0.5-1cm, the air bag (3) and the push rod (201) are horizontally arranged correspondingly, and the air bag (3) and the lower end of the push frame (4) are vertically arranged correspondingly;

the extrusion layer (301), extrusion layer (301) are the rubber material, and extrusion layer (301) and push rod (201) are the horizontal slip extrusion, and extrusion layer (301) thickness is less than air pocket (3) inner wall thickness 0.3-0.6 cm.

6. The intelligent door lock based on the face recognition of the Internet of things of claim 2, characterized in that: the upper end of the pushing frame (4) extends to two sides of the camera (103), and when the pushing frame (4) slides upwards, the pushing frame (4) can assist the camera (103) to integrally swing in an angle;

the lock body is characterized in that the lock body is provided with a shaft arm (401), one end of the shaft arm (401) is embedded in the inner wall of the lock body (1), the shaft arm (401) is in two-section sleeved connection, and the shaft arm (401) on one side of a rotating shaft (402) is in a triangular shape.

7. The intelligent door lock based on the face recognition of the Internet of things of claim 2, characterized in that: the upper end of the support (403) is spaced from the center of the disc (404) by 2-4cm, and when the support (403) is static, the support (403) is positioned on one side of the middle of the disc (404).

8. The intelligent door lock based on the face recognition of the Internet of things of claim 1, characterized in that: the transmission mechanism comprises a lever frame (5), a sleeve (501), a clamping block (502) and a limiting frame (503), the lever frame (5) is hinged to two sides of the interior of the lock body (1), the sleeve (501) swings at the upper end of the lever frame (5), the clamping block (502) is embedded at the lower end of the interior of the sleeve (501), and the limiting frame (503) is nested on one side of the sleeve (501) in a sliding mode.

9. The intelligent lock of face recognition based on thing networking of claim 8, characterized in that: one side of the lower end of the lever frame (5) extends to one side of the lock cylinder (102), the lower end of the lever frame (5) is spaced from the lock cylinder (102) by 1-3cm, and the lever frame (5) and the sleeve (501) swing at an angle.

10. The intelligent lock of face recognition based on thing networking of claim 8, characterized in that: the clamping blocks (502) are arranged in a triangular shape, 3 clamping blocks (502) are distributed, and when the sleeve (501) slides, the limiting frame (503) horizontally and rapidly slides on one side of the clamping blocks (502) due to inertia;

one side of the limiting frame (503) extends to one side of the lock cylinder (102), and the limiting frame (503) is arranged in a transverse T shape.