CN213869357U - Intelligent door of integrative integrated interconnection of intelligence hardware and software - Google Patents

Abstract

The utility model discloses an intelligent door integrated and interconnected by intelligent hardware and software, which comprises a door plate, an automatic lock body, an electric control transmission mechanism and a drive control system, wherein the door plate is provided with a panel and a handle which is integrated with the panel; the automatic lock body comprises a main lock body and is arranged on the side surface of the door plate; the main lock body is provided with a main lock tongue, an oblique tongue and a safety tongue; a microswitch is arranged below a tongue rod of the safety tongue in the main lock body, so that the tongue rod of the safety tongue can touch the microswitch after the door is closed; the electric control transmission mechanism is arranged in the main lock body and can be linked with the main lock tongue and the oblique lock tongue; the drive control system is arranged in the main lock body and is electrically connected with the micro switch, so that when receiving a touch signal of the micro switch, the drive control system is used for controlling the transmission of the electric control transmission mechanism, the main lock tongue can be driven to lock the latch bolt, and the effect of automatically locking the latch bolt when the door is closed is achieved.

Description

Intelligent door of integrative integrated interconnection of intelligence hardware and software

Technical Field

The utility model relates to a door lock technical field especially relates to an intelligent door of integrative integrated interconnection of intelligence hardware and software.

Background

At present, all need installation panel and handle on the door plant, with the panel installation on the door plant after, be fixed in the panel through the mode of screw fixation with the handle again. This results in: the production process is more, the handle is troublesome to install, and the manufacturing cost is increased. The panel and the handle are arranged independently, so that the workload of installing the handle is increased, the connecting strength between the handle and the panel is insufficient, and the structure is not compact enough.

In addition, the mortise lock body on the existing door plate generally comprises a dead bolt and a dead bolt, when the door is closed, the dead bolt is not locked, namely the dead bolt is not in a door locking state after the door is closed, and the dead bolt can be opened only by rotating a handle on the door plate; when the latch bolt needs to be locked, the lock core needs to be rotated through the key to drive the latch bolt to extend out, and the effect of locking the latch bolt is achieved. For users who want to close the door to lock the latch bolt, the mortise lock body of this type cannot meet the user requirements.

SUMMERY OF THE UTILITY MODEL

The utility model aims to prior art not enough, the utility model aims to provide an intelligent door of integrative integrated interconnection of intelligence hardware and software, this intelligent door is except through designing handle and panel integrated into one piece for joint strength between them is higher, and the structure is compacter, removes the equipment process between the two from, in order to improve production efficiency, and it can also realize closing the door when can be automatic locking, the effect of facilitating the use to the spring bolt.

The purpose of the utility model is realized by adopting the following technical scheme:

an intelligent door integrating and interconnecting intelligent hardware and software, comprising:

the door comprises a door plate, a handle and a door handle, wherein the door plate is provided with a panel and the handle which is integrally formed with the panel;

the automatic lock body comprises a main lock body and is arranged on the side surface of the door plate;

the main lock body is provided with a main lock tongue, an oblique tongue and a safety tongue;

a microswitch is arranged below a tongue rod of the safety tongue in the main lock body, so that the tongue rod of the safety tongue can touch the microswitch after the door is closed;

the electric control transmission mechanism is arranged in the main lock body and can be linked with the main lock tongue and the oblique lock tongue;

and the drive control system is arranged in the main lock body and is electrically connected with the microswitch, so that when receiving a touch signal of the microswitch, the drive control system is used for controlling the transmission of the electric control transmission mechanism, and the main lock tongue can be driven to lock the latch bolt.

Further, the electric control transmission mechanism comprises a motor gear box, a shifting peach gear assembly and a shifting rod gear assembly, wherein the shifting peach gear assembly is in meshing transmission with the motor gear box and can be linked with the latch bolt;

the shifting rod gear assembly is in meshing transmission with the shifting peach gear assembly and is linked with the main lock tongue;

after the door is closed, the tongue rod of the safety tongue touches the microswitch, and the drive control system drives the motor gear box to start after receiving a signal fed back by the microswitch, so that the poking wheel gear assembly is driven to drive the poking rod gear assembly to transmit, and further the main spring bolt is driven to extend out of or retract into the main lock body.

Further, the stick gear assembly includes:

the main bolt connecting plate A is used for connecting the main bolt;

the main bolt connecting plate B is slidably arranged in the main lock body and is connected with the main bolt connecting plate A;

the main spring bolt deflector rod is arranged on the main spring bolt connecting plate B and is linked with the main spring bolt connecting plate B;

the deflector rod gear is rotatably arranged in the main lock body and can drive the main lock tongue deflector rod to rotate;

the shifting rod gear is driven by the shifting peach gear assembly and can drive the main spring bolt shifting rod to rotate, and the main spring bolt shifting rod is driven to rotate to drive the main spring bolt connecting plate B to slide, so that the main spring bolt connecting plate A can be driven to move, and the main spring bolt can be driven to stretch.

Furthermore, the driving lever gear assembly further comprises a reset torsion spring, one end of the reset torsion spring is fixed on the inner side wall of the main lock body, and the other end of the reset torsion spring is connected with the end part of the driving lever gear assembly.

Furthermore, the electric control transmission mechanism also comprises a limiting block shifting fork assembly, and the peach shifting gear assembly is connected with the latch bolt through the limiting block shifting fork assembly;

when the peach-poking gear assembly drives the main lock tongue to retract into the main lock body, the limiting block shifting fork assembly is synchronously driven to be separated from the connection with the latch bolt;

the end, arranged in the main lock body, of the latch bolt is rotatably connected with a latch bolt connecting piece, an elastic piece is fixed on the latch bolt connecting piece relative to the end connected with the latch bolt, and the elastic piece is fixed in the main lock body;

under the state that the limiting block shifting fork assembly is separated from the connection with the inclined tongue, the inclined tongue can rotate to open the door under the action of the door opening force by virtue of the elasticity of the elastic piece.

Further, the peach poking gear assembly comprises a peach poking barrel body and a peach poking gear,

the peach poking barrel is rotatably arranged in the main lock body, and a poking peach extends out of the outer wall of the peach poking barrel;

the shifting peach gear is rotatably arranged on the shifting peach barrel and is meshed with the shifting peach gear, so that the shifting peach gear can drive the shifting peach barrel to rotate under the driving of the motor gear box; and the number of the first and second electrodes,

only when the peach poking gear drives the poking rod gear to drive the main lock bolt to retract into the main lock body, the peach poking part can poke the limiting block and the shifting fork assembly to be separated from the connection with the latch bolt.

Further, the limiting block shifting fork assembly comprises a limiting block and a limiting block shifting fork,

the limiting block is slidably arranged in the main lock body and is provided with a sliding block and a groove;

the limiting block shifting fork is rotatably arranged in the main lock body and is connected with a torsion spring;

one end of the limiting block shifting fork can be inserted into the groove, and the other end of the limiting block shifting fork can be used for shifting the shifting peach;

one side of the latch bolt is provided with a sliding groove for inserting the sliding block;

the shifting peach gear drives the shifting lever gear to drive the main spring bolt to retract into the main lock body, the shifting peach can shift the limiting block, the limiting block shifting fork drives the sliding block to break away from the sliding groove under the action of the torsion spring, so that the limiting block is disconnected with the inclined tongue, and the inclined tongue can rotate to open the door under the action of the door opening force.

Furthermore, the drive control system comprises an electric control board and an induction assembly, and the electric control board is arranged in the main lock body;

the induction assembly comprises an induction switch A and an induction switch B, the induction switch A and the induction switch B are arranged on the electric control board and positioned at the bottom of the main bolt connecting board A, and the induction switch A and the induction switch B are relatively spaced and arranged along the moving direction of the main bolt connecting board A;

the induction assembly further comprises an induction switch separation blade, the induction switch separation blade is fixed on the main spring bolt connecting plate A, and when the main spring bolt is retracted into the main lock body, the induction switch A transmits a main spring bolt retraction signal to the electric control plate when the induction switch separation blade is induced with the induction switch A;

when the main spring bolt extends out of the main lock body, the inductive switch B transmits a signal that the main spring bolt extends out to the electric control board when the inductive switch separation blade is inducted with the inductive switch B.

Furthermore, the induction assembly also comprises a gear switch blocking piece and a blocking piece induction switch, and the blocking piece induction switch is arranged on the electric control board and can be induced with the gear switch blocking piece;

the gear switch blocking piece is connected with the peach shifting gear, but does not interfere with the meshing of the peach shifting gear, the shift lever gear and the motor gear box, so that the gear switch blocking piece rotates along with the rotation of the peach shifting gear, when the gear switch blocking piece rotates to the position of the blocking piece induction switch, the blocking piece induction switch feeds back a signal to the electric control board, and the electric control board controls the motor gear box to stop running.

Furthermore, the automatic lock body also comprises an auxiliary lock body which is arranged at two sides of the main lock body; the auxiliary lock body is provided with an auxiliary lock tongue, a fixed plate, a connecting plate and a linkage plate, the fixed plate is arranged in the auxiliary lock body and is fixedly connected with one end, located in the auxiliary lock body, of the auxiliary lock tongue, the linkage plate is linked with the fixed plate, one end of the connecting plate is linked with the linkage plate, and the other end of the connecting plate extends out of the auxiliary lock body;

the main bolt connecting plate A is linked with a world connecting rod along two ends of the length direction of the main bolt connecting plate A, and the world connecting rod is connected with one end of the connecting plate extending out of the auxiliary lock body by virtue of a connecting piece, so that the auxiliary bolt can be synchronously stretched with the main bolt.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the utility model discloses a below at the tongue pole of insurance tongue is provided with micro-gap switch, and after the door was closing, this micro-gap switch can be touched to the tongue pole of insurance tongue, and after micro-gap switch was touched, it fed back the signal in drive control system, automatically controlled drive mechanism under drive control system's control, the main spring bolt of drive locks the oblique tongue to the realization is closed the door and can be locked the tongue automatically, the effect that facilitates the use.

2. The utility model discloses an intelligence door is through designing handle and panel integrated into one piece for joint strength between them is higher, and the structure is compacter, removes the equipment process between the two from, with improvement production efficiency.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the internal structure of the main lock body according to the embodiment of the present invention;

fig. 3 is a schematic view of the internal structure of the main lock body at another angle according to the embodiment of the present invention;

fig. 4 is a schematic perspective view of a main lock body according to an embodiment of the present invention;

fig. 5 is a schematic perspective view of another angle of the main lock body according to the embodiment of the present invention;

fig. 6 is a schematic perspective view of a motor gear box according to an embodiment of the present invention;

FIG. 7 is a schematic structural view of a shifter lever gear assembly according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a main bolt connecting plate B in an embodiment of the present invention;

fig. 9 is a schematic structural view of a main lock tongue deflector rod according to an embodiment of the present invention;

FIG. 10 is a schematic structural view of the embodiment of the present invention, wherein the limiting block shifting fork assembly, the shifting peach gear assembly and the latch bolt are connected;

fig. 11 is a schematic structural diagram of a limiting block in an embodiment of the present invention;

fig. 12 is a schematic structural view of the latch bolt according to an embodiment of the present invention;

fig. 13 is a schematic structural view of a latch bolt connecting member according to an embodiment of the present invention;

fig. 14 is a schematic structural diagram of a main lock body according to an embodiment of the present invention;

fig. 15 is another angle structure diagram of the main lock body according to the embodiment of the present invention;

fig. 16 is a schematic structural view of an automatic lock body according to an embodiment of the present invention;

FIG. 17 is an enlarged view of the structure at A in FIG. 16;

fig. 18 is another angle structure diagram of the automatic lock body according to the embodiment of the present invention;

fig. 19 is an enlarged schematic view of the structure at B of fig. 18.

In the figure: 1. a door panel; 10. a panel; 100. a handle; 2. an automatic lock body; 20. a main lock body; 200. a lock body housing seat; 2000. a lock body shell cover; 201. a main bolt; 202. a latch bolt; 2020. mounting grooves; 20200. a latch tongue connector; 202001, an arc surface mounting groove; 2021. a chute; 2022. an arc-shaped surface; 203. a safety tongue; 204. a microswitch; 205. a motor gear box; 206. a driving lever gear assembly; 2060. a main bolt connecting plate A; 20601. a top-to-bottom connecting rod; 2061. a main bolt connecting plate B; 20610. a sliding groove; 20611. an arc-shaped slot; 2062. a connecting plate fixing seat; 2063. a main spring bolt deflector rod; 20630. a traveler; 20631. an arc-shaped kidney slot; 20632. mounting holes; 206320, guide posts; 2064. a shift lever gear; 20640. a deflector rod rivet; 207. a peach shifting gear assembly; 2070. a peach shifting barrel; 20700. shifting peaches; 2071. a peach shifting gear; 208. a return torsion spring; 2080. a spring locating stud; 209. a limiting block shifting fork assembly; 2090. a limiting block; 20900. a groove; 20901. a slider; 2091. the limiting block is pulled out; 20910. a torsion spring; 210. a drive control system; 2100. an electric control board; 2101. an inductive switch catch; 2102. an inductive switch A; 2103. an inductive switch B; 2104. a gear switch catch; 2105. a catch inductive switch; 21. an auxiliary lock body; 211. an auxiliary bolt; 2110. a fixing sheet; 212. a linkage piece; 213. connecting sheets; 3. a connecting member.

Detailed Description

In the following, the present invention is described with priority in conjunction with the accompanying drawings and the detailed description, and it should be noted that, in the premise of no conflict, the embodiments or technical features described below may be arbitrarily combined to form a new embodiment.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "horizontal", "vertical", "top", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, or through both elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The implementation mode is as follows:

please refer to fig. 1-19, the utility model discloses an integrative integrated interconnected intelligent door of intelligence hardware and software, including door plant 1, automatic lock body 2, automatically controlled drive mechanism and drive control system 210, install panel 10 on the door plant 1 and with this panel 10 integrated into one piece's handle 100, also promptly the utility model discloses an intelligent door is through designing handle 100 and panel 10 integrated into one piece for joint strength between them is higher, and the structure is compacter, removes the equipment process between the two from to improve production efficiency. Certainly, the panel 10 is provided with an intelligent control recognition device connected with the driving control system 210, and with the help of the intelligent control recognition device, a user can unlock the lock by pressing a password or swiping a card or by fingerprint or face recognition, that is, the intelligent control recognition device is used for recognizing the identity information of an unlocking person, and after the recognition is successful, the driving control system 210 can drive the electric control transmission mechanism to control the lock tongue to unlock the lock.

The automatic lock body 2 is arranged on the side surface of the door panel 1, the automatic lock body 2 comprises a main lock body 20, and the main lock body 20 is provided with a main lock bolt 201, an oblique bolt 202 and a safety bolt 203; a microswitch 204 is arranged below the tongue rod of the safety tongue 203 arranged in the main lock body 20, so that the tongue rod of the safety tongue 203 can touch the microswitch 204 after the door is closed; the electric control transmission mechanism is arranged in the main lock body 20 and can be linked with the main lock tongue 201 and the latch bolt 202; the driving control system 210 is disposed in the main lock body 20 and electrically connected to the micro switch 204, so that when receiving a touch signal from the micro switch 204, the driving control system 210 is used to control the transmission of the electric control transmission mechanism, and thus the main bolt 201 can be driven to lock the latch bolt 202. That is the utility model discloses a below at the tongue pole of insurance tongue 203 is equipped with micro-gap switch 204, after the door is closing, this micro-gap switch 204 can be touched to the tongue pole of insurance tongue 203, after micro-gap switch 204 is touched, it feeds back the signal in drive control system 210, automatically controlled drive mechanism is under drive control system 210's control, drive main spring bolt 201 locks oblique tongue 202 to the realization is closed the door and can be locked the tongue automatically, the effect of facilitating the use.

Specifically, the electric control transmission mechanism comprises a motor gear box 205, a shifting lever gear assembly 206, a shifting peach gear assembly 207 and a limiting block shifting fork assembly 209, wherein the shifting peach gear assembly 207 is in meshing transmission with the motor gear box 205; the shifting lever gear assembly 206 is in meshing transmission with the shifting peach gear assembly 207 and is linked with the main bolt 201, namely the shifting lever gear assembly 206 can shift the main bolt 201 to extend and retract. It can be understood that when the door is closed, the rod of the safety tongue 203 touches the micro switch 204, and the driving control system 210 receives a signal fed back by the micro switch 204 and drives the motor gear box 205 to start, so as to drive the shift lever gear assembly 207 to drive the shift lever gear assembly 206 to transmit, and further drive the main lock tongue 201 to extend out or retract into the main lock body 20. Of course, the peach-setting gear assembly 207 can also be linked with the latch bolt 202, that is, the peach-setting gear assembly 207 is connected with the latch bolt 202 through a limiting block fork pulling assembly 209; the end of the latch bolt 202, which is arranged in the main lock body 20, is rotatably connected with a latch bolt connecting piece 20200, an elastic piece is fixed on the end of the latch bolt connecting piece 20200, which is opposite to the end connected with the latch bolt 202, and the elastic piece is fixed in the main lock body 20, and is preferably a spring; it should be noted that when the main bolt 201 is driven by the peach-setting gear assembly 207 to retract into the main lock body 20, the limit block fork assembly 209 can be synchronously driven to be disconnected from the latch bolt 202, and the latch bolt 202 can rotate under the action of the opening force by means of the elastic force of the elastic member when the limit block fork assembly 209 is disconnected from the latch bolt 202 to open the door.

The shift lever gear assembly 206 comprises a main bolt connecting plate a2060, a main bolt connecting plate B2061, a main bolt shift lever 2063 and a shift lever gear 2064, wherein the main bolt connecting plate a2060 is used for connecting the main bolt 201 and is slidably arranged in the main lock body 20; the main bolt connecting plate B2061 is slidably arranged in the main lock body 20 and is connected with the main bolt connecting plate A2060; the main bolt shift lever 2063 is arranged on the main bolt connecting plate B2061 and is linked with the main bolt connecting plate B2061; the shift lever gear 2064 is rotatably arranged in the main lock body 20 and can drive the main bolt shift lever 2063 to rotate; the shift lever gear 2064 is driven by the shift lever gear assembly 207, the shift lever gear 2064 can drive the rotation of the main bolt shift lever 2063, the rotation of the main bolt shift lever 2063 drives the main bolt connecting plate B2061 to slide, the sliding of the main bolt connecting plate B2061 can drive the movement of the main bolt connecting plate a2060, and the movement of the main bolt connecting plate a2060 drives the expansion of the main bolt 201.

Further, the main lock body 20 of the present invention includes a lock body housing seat 200 and a lock body housing cover 2000, the lock body housing cover 2000 is adapted to the lock body housing seat 200, the lock body housing seat 200 is provided with a connecting plate fixing seat 2062, the main bolt connecting plate B2061 is placed on the connecting plate fixing seat 2062 and connected to the main bolt connecting plate a2060, the main bolt connecting plate B2061 is provided with a sliding groove 20610, and the sliding groove 20610 is arranged along the direction of the main bolt 201 extending and retracting; a guide post 206320 is provided on the connecting plate holder 2062 along the height direction thereof, the guide post 206320 passes through the sliding groove 20610, and the main tongue connecting plate B2061 can slide on the connecting plate holder 2062 by means of the guide post 206320 and the sliding groove 20610. Of course, an arc-shaped slot 20611 is further disposed on the main lock tongue connecting plate B2061, a sliding post 20630 is disposed at one end of the main lock tongue shift lever 2063, the sliding post 20630 can slide in the arc-shaped slot 20611, a mounting hole 20632 adapted to the guide post 206320 is disposed at the other end of the main lock tongue shift lever 2063, and the guide post 206320 passes through the mounting hole 20632 and can rotate. An arc-shaped kidney-shaped groove 20631 is further formed in the main bolt shifting lever 2063, the shifting lever gear 2064 is rotatably mounted at the top of the guide post 206320, a shifting lever rivet 20640 is mounted on the shifting lever gear 2064, and the shifting lever rivet 20640 can rotate in the arc-shaped kidney-shaped groove 20631. That is, the shift lever gear 2064 rotates under the driving of the shift peach gear assembly 207, the rotation of the shift lever gear 2064 drives the rotation of the main bolt shift lever 2063, and the main bolt shift lever 2063 rotates while the sliding column 20630 can slide in the arc-shaped groove 20611, so that the bolt shift lever is linked with the main bolt connecting plate B2061, and thus the sliding of the main bolt connecting plate B2061 can drive the main bolt connecting plate a2060 to move, and further drive the main bolt 201 to extend out of the main lock body 20 or retract into the main lock body 20.

In addition, the shifting lever gear assembly 206 further includes a return torsion spring 208, one end of the return torsion spring 208 is fixed on the inner side wall of the main lock body 20, and the other end thereof is connected with the end of the shifting lever gear assembly 206. Preferably, a spring positioning stud 2080 is arranged in the lock body housing 200, one end of the reset torsion spring 208 is fixed to one end of the main bolt connecting plate B2061, and the other end of the reset torsion spring 208 is fixed to the spring positioning stud 2080, so that the installation of the reset torsion spring 208 is facilitated, and the installation requirement is met. When the main bolt 201 extends out of the main lock body 20, the reset torsion spring 208 is in a twisted state, and when the main bolt 201 retracts into the main lock body 20, the reset torsion spring 208 automatically restores to the original state.

The peach-shifting gear assembly 207 comprises a peach-shifting barrel 2070 and a peach-shifting gear 2071, the peach-shifting barrel 2070 is rotatably mounted in the main lock body 20, and a peach-shifting 20700 extends out of the outer wall of the peach-shifting barrel 2070; the peach-poking gear 2071 is rotatably mounted on the peach-poking cylinder 2070 and engaged with the rod gear 2064, so that the peach-poking gear 2071 can drive the rotation of the peach-poking cylinder 2070 under the driving of the motor gear box 205; moreover, only when the peach-dialing gear 2071 drives the lever gear 2064 to drive the main bolt 201 to retract into the main lock body 20, the peach-dialing gear 20700 can dial the limit block fork assembly 209 to be disconnected from the latch bolt 202. It can be understood that when the shift lever gear 2071 drives the shift lever gear 2064 to drive the main bolt 201 to retract into the main lock body 20, that is, the main bolt 201 is not locked to the latch bolt 202, the shift lever 20700 on the outer wall of the shift lever barrel 2070 can shift the stopper fork assembly 209 to be disconnected from the latch bolt 202, when the stopper fork assembly 209 is disconnected from the latch bolt 202, if a user needs to open the door, the user only needs to pull the handle 100 lightly, and because the latch bolt 202 is rotatably connected to the latch bolt connector 20200, and under the elastic force of the elastic member, the latch bolt 202 can rotate under the acting force of the open the door, so that the purpose of opening the door can be achieved, the handle 100 does not need to rotate, and the use is convenient.

The latch tongue 202 and the latch tongue connector 20200 are rotatably connected by forming an installation groove 2020 for the latch tongue connector 20200 on the latch tongue 202, wherein an arc-shaped surface 2022 is provided in the installation groove 2020, and an arc-shaped surface installation groove 202001 adapted to the arc-shaped surface 2022 is provided on a side of the latch tongue connector 20200 connected to the latch tongue 202, so that the latch tongue 202 and the latch tongue connector 20200 can be rotatably connected by installing the latch tongue 202 in the installation groove 2020 and using the arc-shaped surface 2022 to cooperate with the arc-shaped surface installation groove 202001.

The limiting block shifting fork assembly 209 comprises a limiting block 2090 and a limiting block shifting fork 2091, wherein the limiting block 2090 is slidably mounted in the main lock body 20 and is provided with a sliding block 20901 and a groove 20900; the limit block shift fork 2091 is rotatably installed in the main lock body 20 and connected to a torsion spring 20910, that is, after the limit block shift fork 2091 rotates, it can be automatically reset without the action of driving force. One end of the limiting block shifting fork 2091 can be inserted into the groove 20900, and the other end of the limiting block shifting fork 2091 can be used for shifting the peach shifting 20700; a sliding groove 2021 for inserting the sliding block 20901 is formed in one side of the latch tongue 202; in the process that the peach-dial gear 2071 drives the lever gear 2064 to drive the main bolt 201 to retract into the main lock body 20, the peach-dial 20700 can dial the limit block 2090, the limit block shift fork 2091 drives the slider 20901 to separate from the sliding groove 2021 under the action of the torsion spring 20910, so that the limit block 2090 is separated from the latch tongue 202, and the latch tongue 202 can rotate under the action of the door opening force to achieve the purpose of opening the door.

The driving control system 210 includes an electric control board 2100 and a sensing assembly, the electric control board 2100 is disposed in the main lock body 20, that is, the electric control board 2100 is disposed on the lock body housing 200; the sensing assembly comprises a sensing switch A2102 and a sensing switch B2103, the sensing switch A2102 and the sensing switch B2103 are arranged on the electric control board 2100 and are located at the bottom of the main bolt connecting board A2060, and the sensing switch A2102 and the sensing switch B2103 are oppositely spaced and are arranged along the moving direction of the main bolt connecting board A2060; the sensing assembly further comprises a sensing switch blocking piece 2101, the sensing switch blocking piece 2101 is fixed on the main bolt connecting plate A2060, and in the process that the main bolt 201 retracts into the main lock body 20, when the sensing switch blocking piece 2101 senses the sensing switch A2102, the sensing switch A2102 transmits a signal that the main bolt 201 retracts to the position where the signal is located on the electric control plate 2100; when the inductive switch retainer 2101 senses the inductive switch B2103 during the process of extending the main bolt 201 out of the main lock body 20, the inductive switch B2103 transmits a signal that the main bolt 201 extends to the position of the electronic control board 2100. That is, it can be understood that when the main bolt connecting plate a2060 drives the main bolt 201 to retract into the main lock body 20, if the inductive switch blocking piece 2101 senses the inductive switch a2102, the inductive switch a2102 will transmit a signal that the main bolt 201 retracts into the electric control board 2100; in the process that the main bolt connecting plate a2060 drives the main bolt 201 to extend out of the main lock body 20, if the inductive switch retainer 2101 is inductive with the inductive switch B2103, the inductive switch B2103 transmits a signal that the main bolt 201 extends to the right position to the electric control plate 2100, so that the automatic extension and retraction of the main bolt 201 are realized.

In order to ensure that each component in the main lock body 20 can be accurately matched, the sensing assembly further comprises a gear switch baffle 2104 and a baffle sensing switch 2105, wherein the baffle sensing switch 2105 is arranged on the electric control board 2100 and can sense the gear switch baffle 2104; the gear switch blocking piece 2104 is connected with the peach dialing gear 2071, but does not interfere with the meshing of the peach dialing gear 2071, the shift lever gear 2064 and the motor gear box 205, so that the gear switch blocking piece 2104 rotates along with the rotation of the peach dialing gear 2071, when the gear switch blocking piece 2104 rotates to the position of the blocking piece induction switch 2105, the blocking piece induction switch 2105 feeds back a signal to the electric control board 2100, and the electric control board 2100 controls the motor gear box 205 to stop running, so that the accurate working state of the motor gear box 205 is further ensured, and the accurate degree of automation is improved.

The two ends of the main bolt connecting plate a2060 along the length direction are linked with a top and bottom connecting rod 20601, the top and bottom connecting rod 20601 is provided with an inclined long groove, the top and bottom connecting rod 20601 is connected with the main bolt connecting plate a2060 by virtue of a toggle column, and the toggle column can slide in the inclined long groove so as to realize the linkage between the top and bottom connecting rod 20601 and the main bolt connecting plate a2060, namely when the main bolt connecting plate a2060 drives the main bolt 201 to extend out of the main lock body 20, the top and bottom connecting rod 20601 moves towards the direction far away from the main lock body 20 along the length direction of the main lock body 20; when the main bolt connecting plate a2060 retracts the main bolt 201 into the main lock body 20, the top-bottom connecting rod 20601 moves along the length direction of the main lock body 20 to a direction close to the main lock body 20.

The automatic lock body 2 further comprises an auxiliary lock body 21, the auxiliary lock body 21 is arranged on two sides of the main lock body 20, and the auxiliary lock body 21 is also arranged on the side surface of the door plate 1; the auxiliary lock body 21 is provided with an auxiliary lock bolt 211, a fixing plate 2110, a connecting plate 213 and a linkage plate 212, wherein the fixing plate 2110 is arranged in the auxiliary lock body 21 and is fixedly connected with one end, located in the auxiliary lock body 21, of the auxiliary lock bolt 211, the linkage plate 212 is linked with the fixing plate 2110, one end of the connecting plate 213 is linked with the linkage plate 212, and the other end of the connecting plate 213 extends out of the auxiliary lock body 21; the top-bottom link 20601 is connected to the end of the connecting piece 213 extending out of the auxiliary lock body 21 by means of the connecting piece 3, so that the auxiliary bolt 211 can be synchronously extended and retracted with the main bolt 201. Also can understand, the utility model discloses a with supplementary lock body 21 with main lock body 20 is connected integratively, realizes that main spring bolt 201 stretches out and draws back with supplementary spring bolt 211's synchronization, guarantees the security performance of lock.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. An intelligent door integrating and interconnecting intelligent hardware and software, which is characterized by comprising:

the door comprises a door plate, a handle and a door handle, wherein the door plate is provided with a panel and the handle which is integrally formed with the panel;

the automatic lock body comprises a main lock body and is arranged on the side surface of the door plate;

the main lock body is provided with a main lock tongue, an oblique tongue and a safety tongue;

a microswitch is arranged below a tongue rod of the safety tongue in the main lock body, so that the tongue rod of the safety tongue can touch the microswitch after the door is closed;

the electric control transmission mechanism is arranged in the main lock body and can be linked with the main lock tongue and the oblique lock tongue;

and the drive control system is arranged in the main lock body and is electrically connected with the microswitch, so that when receiving a touch signal of the microswitch, the drive control system is used for controlling the transmission of the electric control transmission mechanism, and the main lock tongue can be driven to lock the latch bolt.

2. The intelligent door of claim 1, wherein the intelligent door comprises: the electric control transmission mechanism comprises a motor gear box, a shifting peach gear assembly and a shifting rod gear assembly,

the peach poking gear assembly is in meshing transmission with the motor gear box and can be linked with the inclined tongue;

the shifting rod gear assembly is in meshing transmission with the shifting peach gear assembly and is linked with the main lock tongue;

after the door is closed, the tongue rod of the safety tongue touches the microswitch, and the drive control system drives the motor gear box to start after receiving a signal fed back by the microswitch, so that the poking wheel gear assembly is driven to drive the poking rod gear assembly to transmit, and further the main spring bolt is driven to extend out of or retract into the main lock body.

3. The intelligent door of claim 2, wherein the intelligent door comprises: the driving lever gear assembly comprises:

the main bolt connecting plate A is used for connecting the main bolt;

the main bolt connecting plate B is slidably arranged in the main lock body and is connected with the main bolt connecting plate A;

the main spring bolt deflector rod is arranged on the main spring bolt connecting plate B and is linked with the main spring bolt connecting plate B;

the deflector rod gear is rotatably arranged in the main lock body and can drive the main lock tongue deflector rod to rotate;

the shifting rod gear is driven by the shifting peach gear assembly and can drive the main spring bolt shifting rod to rotate, and the main spring bolt shifting rod is driven to rotate to drive the main spring bolt connecting plate B to slide, so that the main spring bolt connecting plate A can be driven to move, and the main spring bolt can be driven to stretch.

4. An intelligent door integrating and interconnecting hardware and software as claimed in claim 2 or 3, wherein: the driving lever gear assembly further comprises a reset torsion spring, one end of the reset torsion spring is fixed on the inner side wall of the main lock body, and the other end of the reset torsion spring is connected with the end portion of the driving lever gear assembly.

5. The intelligent door of claim 3, wherein the intelligent door comprises: the electric control transmission mechanism further comprises a limiting block shifting fork assembly, and the peach shifting gear assembly is connected with the latch bolt through the limiting block shifting fork assembly;

when the peach-poking gear assembly drives the main lock tongue to retract into the main lock body, the limiting block shifting fork assembly is synchronously driven to be separated from the connection with the latch bolt;

the end, arranged in the main lock body, of the latch bolt is rotatably connected with a latch bolt connecting piece, an elastic piece is fixed on the latch bolt connecting piece relative to the end connected with the latch bolt, and the elastic piece is fixed in the main lock body;

under the state that the limiting block shifting fork assembly is separated from the connection with the inclined tongue, the inclined tongue can rotate to open the door under the action of the door opening force by virtue of the elasticity of the elastic piece.

6. The intelligent door of claim 5, wherein the intelligent door comprises: the peach poking gear component comprises a peach poking barrel body and a peach poking gear,

the peach poking barrel is rotatably arranged in the main lock body, and a poking peach extends out of the outer wall of the peach poking barrel;

the shifting peach gear is rotatably arranged on the shifting peach barrel and is meshed with the shifting peach gear, so that the shifting peach gear can drive the shifting peach barrel to rotate under the driving of the motor gear box; and the number of the first and second electrodes,

only when the peach poking gear drives the poking rod gear to drive the main lock bolt to retract into the main lock body, the peach poking part can poke the limiting block and the shifting fork assembly to be separated from the connection with the latch bolt.

7. The intelligent door of claim 6, wherein the intelligent door comprises: the limiting block shifting fork assembly comprises a limiting block and a limiting block shifting fork,

the limiting block is slidably arranged in the main lock body and is provided with a sliding block and a groove;

the limiting block shifting fork is rotatably arranged in the main lock body and is connected with a torsion spring;

one end of the limiting block shifting fork can be inserted into the groove, and the other end of the limiting block shifting fork can be used for shifting the shifting peach;

one side of the latch bolt is provided with a sliding groove for inserting the sliding block;

the shifting peach gear drives the shifting lever gear to drive the main spring bolt to retract into the main lock body, the shifting peach can shift the limiting block, the limiting block shifting fork drives the sliding block to break away from the sliding groove under the action of the torsion spring, so that the limiting block is disconnected with the inclined tongue, and the inclined tongue can rotate to open the door under the action of the door opening force.

8. The intelligent door of claim 6, wherein the intelligent door comprises: the drive control system comprises an electric control board and an induction assembly, and the electric control board is arranged in the main lock body;

the induction assembly comprises an induction switch A and an induction switch B, the induction switch A and the induction switch B are arranged on the electric control board and positioned at the bottom of the main bolt connecting board A, and the induction switch A and the induction switch B are relatively spaced and arranged along the moving direction of the main bolt connecting board A;

the induction assembly further comprises an induction switch separation blade, the induction switch separation blade is fixed on the main spring bolt connecting plate A, and when the main spring bolt is retracted into the main lock body, the induction switch A transmits a main spring bolt retraction signal to the electric control plate when the induction switch separation blade is induced with the induction switch A;

when the main spring bolt extends out of the main lock body, the inductive switch B transmits a signal that the main spring bolt extends out to the electric control board when the inductive switch separation blade is inducted with the inductive switch B.

9. The intelligent door of claim 8, wherein the intelligent door comprises: the induction assembly further comprises a gear switch separation blade and a separation blade induction switch, and the separation blade induction switch is arranged on the electric control board and can be induced with the gear switch separation blade;

the gear switch blocking piece is connected with the peach shifting gear, but does not interfere with the meshing of the peach shifting gear, the shift lever gear and the motor gear box, so that the gear switch blocking piece rotates along with the rotation of the peach shifting gear, when the gear switch blocking piece rotates to the position of the blocking piece induction switch, the blocking piece induction switch feeds back a signal to the electric control board, and the electric control board controls the motor gear box to stop running.

10. The intelligent door of claim 3, wherein the intelligent door comprises: the automatic lock body also comprises an auxiliary lock body which is arranged at two sides of the main lock body;

the auxiliary lock body is provided with an auxiliary lock tongue, a fixed plate, a connecting plate and a linkage plate, the fixed plate is arranged in the auxiliary lock body and is fixedly connected with one end, located in the auxiliary lock body, of the auxiliary lock tongue, the linkage plate is linked with the fixed plate, one end of the connecting plate is linked with the linkage plate, and the other end of the connecting plate extends out of the auxiliary lock body;

the main bolt connecting plate A is linked with a world connecting rod along two ends of the length direction of the main bolt connecting plate A, and the world connecting rod is connected with one end of the connecting plate extending out of the auxiliary lock body by virtue of a connecting piece, so that the auxiliary bolt can be synchronously stretched with the main bolt.

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