CN219012244U - Human body induction linkage door lock device and door body - Google Patents

Abstract

The utility model provides a human body induction linkage door lock device, which is applied to a door body, wherein the door body comprises a door lock, and the human body induction linkage door lock device comprises: the human body induction assembly, the lock core assembly and the main control assembly; the main control component is used for receiving the induction signal output by the human body induction component and controlling the lock core component to link the door lock according to the induction signal so as to close the door body, so that collision with passers-by when a user opens the door body is avoided. According to the door lock linkage device, the door lock linkage is realized when a person outside the door is detected through the human body sensing assembly, so that collision between a user and passers-by when the user opens the door body is avoided.

Description

Human body induction linkage door lock device and door body

Technical Field

The utility model belongs to the technical field of intelligent door locks, and particularly relates to a human body induction linkage door lock device and a door body.

Background

With the rapid development of the intelligent door lock technology, the intelligent door lock is widely applied, and particularly in houses, the intelligent door lock brings higher safety and convenience for households. However, the existing intelligent door lock is not provided with a human body detection mechanism on the door body, so that the door body can be opened or closed at any time, whether people pass outside the door cannot be detected, as most of residence burglary-resisting doors are opened from inside to outside, indoor users are in a state of unknown people outside the door to open the door, when people pass outside the door, the users can still open the door body through the intelligent door lock, and the opened door easily collides with the passerby just passing outside the door by mistake, so that body injury is brought to the passerby.

Disclosure of Invention

The utility model aims to provide a human body induction linkage door lock device and a door body, and aims to realize door lock linkage when detecting that a person exists outside a door through a human body induction assembly so as to avoid collision with passers-by when a user opens the door body.

In order to achieve the above object, the present utility model provides a human body induction linkage door lock device, which is applied to a door body, wherein the door body comprises a door lock, and the human body induction linkage door lock device comprises:

the human body induction component is used for outputting induction signals when the human body is induced;

a cylinder assembly for interlocking the door lock to close the door body;

the input end of the main control component is connected with the output end of the human body induction component; the first output end of the main control component is connected with the first input end of the lock core component;

the main control component is used for outputting a locking signal when receiving the induction signal so as to control the lock cylinder component to link the door lock to close the door body, so that collision with passers-by when a user opens the door body is avoided.

Optionally, the human body induction linkage door lock device further comprises:

a delay component;

the input end of the delay component is connected with the second output end of the main control component, and the output end of the delay component is connected with the second input end of the lock core component;

the master control assembly is further used for outputting an unlocking signal when receiving the sensing signal, and controlling the delay assembly to output the unlocking signal to the lock core assembly after delaying to a preset time, so that the lock core assembly is linked with the door lock to open the door body.

Optionally, the human body induction linkage door lock device further comprises:

an alarm assembly;

the input end of the alarm component is connected with the third output end of the main control component;

the main control assembly is further used for controlling the alarm assembly to send out alarm sound according to the induction signal when receiving the induction signal.

Optionally, the human body induction linkage door lock device further comprises:

an indicator light;

the input end of the indicator lamp is connected with the fourth output end of the main control component;

the main control assembly is further used for controlling the indication lamp to be turned on according to the induction signal when the induction signal is received.

The utility model also provides a door body, which comprises a door lock and the human body induction linkage door lock device;

and a door handle is arranged in the middle of the door lock.

Optionally, the human body induction linkage door lock device further comprises:

an indicator light;

the input end of the indicator lamp is connected with the fourth output end of the main control component;

the main control assembly is further used for controlling the indication lamp to be turned on according to the induction signal when the induction signal is received.

Optionally, the indicator light is disposed at a position above the door handle.

Optionally, the door lock is of a box-shaped structure, and two right angles at the upper end of the door lock and two right angles at the lower end of the door lock are rounded.

Optionally, the door handle is of a cuboid structure, and two ends of the door handle are of semicircular structures.

Optionally, the door body is a door or a car door.

The utility model provides a human body induction linkage door lock device, which is applied to a door body, wherein the door body comprises a door lock, and the human body induction linkage door lock device comprises: the human body induction assembly, the lock core assembly and the main control assembly; the human body sensing assembly is used for outputting a sensing signal when sensing a human body; the lock core component is used for linking the door lock to close the door body; the main control component is used for receiving the induction signal and controlling the lock core component to link the door lock according to the induction signal so as to close the door body, so that collision with passersby when a user opens the door body is avoided. When the human body sensing assembly detects a human body, the master control assembly is triggered to control the lock core assembly to realize door lock linkage so as to close the door body, thereby preventing collision phenomenon with passersby when a user opens the door body.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a circuit functional module of a human body induction linkage door lock device and a door body of the utility model;

FIG. 2 is a schematic diagram of a circuit function module of another embodiment of a door body and a human body induction linkage door lock device according to the present utility model;

FIG. 3 is a schematic view of a human body induction linkage door lock device and a door body according to the present utility model;

fig. 4 is a schematic circuit diagram of a human body induction linkage door lock device and a door body according to the present utility model.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present utility model, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, if the meaning of "and/or" is presented throughout this document, it is intended to include three schemes in parallel, taking "a and/or B" as an example, including a scheme, or B scheme, or a scheme where a and B meet simultaneously. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

It can be appreciated that with the rapid development of the intelligent door lock technology, the intelligent door lock is widely applied, and is different from a general mechanical lock, and has an electronic induction locking function, for example, the intelligent door lock can automatically lock when sensing that the door body is in a closed state, and the intelligent door lock can also unlock the door lock through fingerprint, password input and face recognition, so that higher safety and convenience can be brought to the households in hotels or apartments. However, the existing intelligent door lock can only realize the functions of intelligently opening and closing the door body, but cannot realize the function of detecting whether a person passes by the outside of the door, and as most of the door bodies need to be opened from inside to outside, indoor users are caused to open the door in a state of unknown someone outside the door, and the opened door is easy to collide with a passerby just passing by the outside of the door, thereby bringing physical injury to the passerby.

To this end, the present utility model proposes a human body induction linkage door lock 70 device, which is applied to a door body, the door body includes a door lock 70, the human body induction linkage door lock 70 device includes:

a human body sensing assembly 10 for outputting a sensing signal when sensing a human body;

a cylinder assembly 30 for interlocking the door lock 70 to close the door body;

the input end of the main control assembly 20 is connected with the output end of the human body induction assembly 10; the control end of the main control assembly 20 is connected with the controlled end of the lock cylinder assembly 30;

the main control assembly 20 is configured to receive the sensing signal, and control the lock cylinder assembly 30 to link the door lock 70 according to the sensing signal to close the door body, so as to avoid collision with passers-by when the user opens the door body.

Alternatively, the master control assembly 20 may be implemented using a master control chip, such as an MCU, a DSP (Digital Signal Process, digital signal processing chip), an FPGA (Field Programmable Gate Array, programmable gate array chip), or the like. In this embodiment, the master control assembly 20 is implemented by an MCU. In the actual application of the MCU, the MCU receives the sensing signal output by the human body sensing assembly 10 and controls the lock cylinder assembly 30 to be locked, so that the door lock 70 is locked, and the door body cannot be opened.

Alternatively, the human body sensing assembly 10 may be implemented using a human body infrared sensing detector. The human body infrared induction detector internally comprises two induction elements, when a human body is in a preset range monitored by the human body infrared induction detector, an infrared signal emitted by the human body triggers the human body infrared induction detector, the two internal induction elements correspondingly generate charges, and a potential difference is formed along with the movement of the charges, and is amplified by a control unit in the human body infrared induction detector and then is output in the form of an induction signal. In the practical application of the human body infrared induction detector, the user is in the induction range of the human body infrared induction detector, the human body infrared induction detector senses the infrared signal sent by the user, and the human body infrared induction detector correspondingly outputs the induction signal according to the sensed infrared signal, the main control component 20 receives the induction signal, judges that a person passes outside the door at the moment, and controls the lock core component 30 to enable the door lock 70 to be in a closed state. The human body infrared induction detector in the embodiment determines the existence of the human body and reacts by sensing the temperature of the human body, even if the action amplitude of the human body is small, the human body can react as long as the human body is in the scanning range of the human body infrared induction detector.

Alternatively, in another embodiment, the body sensing assembly 10 may be implemented using a microwave sensor. The inside of the microwave inductor comprises a transmitter and a receiver, the transmitter is used for transmitting millimeter waves to collect microwave signals sent by a human body within a preset range of the microwave inductor, and meanwhile, corresponding induction signals are returned to the receiver of the microwave module in the air, and the microwave inductor outputs the induction signals in a low level or high level mode. In the practical application of the microwave sensor, the user acts within the range of the microwave sensor, the microwave sensor emits millimeter waves for collecting microwave signals sent by the user due to the action within the preset range, at this time, corresponding induction signals are returned to the microwave mode sensor in the air, the main control component 20 receives the induction signals, and the condition that a person passes outside the door at this time is judged, and the door lock 70 is in a closed state by controlling the lock core component 30. The microwave sensor in another embodiment can timely react to the movement of the object, and has the effect of high reaction speed.

In this embodiment, the plug assembly 30 includes a plug. Specifically, when the main control assembly 20 receives the sensing signal output by the human body sensing assembly 10 to determine that a person is on the outer side of the door body, a locking signal is output to the lock core, and the lock core is correspondingly locked and simultaneously linked with the door lock 70 to be in a locking state after receiving the locking signal, so that the door body cannot be opened.

In practical application of the human body induction linkage door lock 70 device, a user needs to open the door body from the inner side to the outer side when going out, and before the door is opened, the human body induction assembly 10 arranged in the human body induction linkage door lock 70 device can detect whether passersby exists on the outer side of the door body; when the human body sensing assembly 10 detects that a passerby on the outer side of the door body passes or the passerby stays on the outer side of the door, the sensing signal is correspondingly output to the main control assembly 20, the main control assembly 20 judges that the passerby is on the outer side of the door at the moment, and simultaneously outputs a locking signal to the lock core assembly 30 to control the lock core assembly 30 to lock the door lock 70, so that the locked door body cannot be opened by a user, and the phenomenon that the user can collide with the passerby when opening the door in a trade manner is prevented. It should be noted that, the lock cylinder assembly 30 is controlled to lock the door lock 70 so that the user cannot open the locked door body, and the door body is only limited to be opened temporarily, and may be opened after delay or output a prompt warning.

The utility model provides a human body induction linkage door lock 70 device, which is applied to a door body, wherein the door body comprises a door lock 70, and the human body induction linkage door lock 70 device comprises: the human body induction component 10, the lock cylinder component 30 and the main control component 20; the human body sensing assembly 10 is used for outputting a sensing signal when sensing a human body; the cylinder assembly 30 is used to interlock the door lock 70 to close the door body; the main control assembly 20 is used for receiving the sensing signal and controlling the lock cylinder assembly 30 to link the door lock 70 according to the sensing signal to close the door body, so as to avoid collision with passers-by when the user opens the door body. The utility model utilizes the human body induction assembly 10 to trigger the main control assembly 20 to control the lock cylinder assembly 30 when detecting the human body so as to realize the linkage of the door lock 70 to close the door body, thereby preventing the collision phenomenon with passersby when the user opens the door body.

Further, referring to fig. 2 and 3, the human body induction linkage door lock 70 further includes:

a delay component 40;

the input end of the delay component 40 is connected with the second output end of the main control component 20, and the output end of the delay component 40 is connected with the second input end of the lock core component 30;

the master control assembly 20 is further configured to output an unlock signal when receiving the sensing signal, and control the delay assembly 40 to output the unlock signal to the lock cylinder assembly 30 after delaying until a preset time, so that the lock cylinder assembly 30 links the door lock 70 to open the door body.

It should be understood that the human body sensing assembly 10 detects that a person is outside the door body, and outputs a sensing signal to trigger the main control assembly 20 to control the lock core assembly 30 to link the door lock 70, so that the door body is in a locking state; when the passer-by leaves the outside of the door body, the door lock 70 needs to be unlocked manually by the user to open the door, and the master control assembly 20 cannot flexibly adjust the lock cylinder assembly 30 to link the door lock 70 to unlock the door body.

Thus, the main control assembly 20 in this embodiment can also output an unlocking signal while receiving the sensing signal, so as to control the lock cylinder assembly 30 to link the door lock 70 to unlock the door body, thereby achieving the effect of automatically unlocking the door body. It should be understood that the lock signal and the unlock signal output by the main control assembly 20 do not reach the lock cylinder assembly 30 in the same unit time, so in this embodiment, a delay assembly 40 is further provided to reach the lock cylinder assembly 30 within a preset time after the unlock signal output by the main control assembly 20.

Specifically, the delay component 40 is implemented by adopting an RC delay circuit, where the RC delay circuit includes a first capacitor C1 and a first resistor R1; the first end of the first resistor R1 is an input end of the RC delay circuit, that is, an input end of the delay component 40, the second end of the first resistor R1 is connected with the first end of the first capacitor C1, and the interconnection point a is an output end of the RC delay circuit, that is, an output end of the delay component 40, and the second end of the first capacitor C1 is grounded. It should be understood that the second output end of the master control assembly 20 is connected to the input end of the delay assembly 40, that is, the second output end of the master control assembly 20 is connected to the input end of the RC delay circuit, the unlock signal output by the master control assembly 20 is a voltage signal, the voltage corresponding to the voltage signal charges the first capacitor C1 after passing through the first resistor R1, when the first capacitor C1 is charged, the voltage value of the interconnection point a between the second end of the first resistor R1 and the first end of the first capacitor C1 will rise from zero until the time of rising to the effective voltage required by the lock core assembly 30 is considered as the time of delay; meanwhile, the increased effective voltage is output from the interconnection point A between the second end of the first resistor R1 and the first end of the first capacitor C1; since the second input terminal of the lock cylinder assembly 30 is connected to the output terminal of the delay assembly 40, that is, the second input terminal of the lock cylinder assembly 30 is connected to the output terminal of the RC delay circuit, the second input terminal of the lock cylinder assembly 30 may receive the effective voltage output by the RC delay circuit, and the effective voltage may correspond to the unlock signal delayed by the RC delay circuit.

The RC delay process can be understood as a capacitor charging process, and has the advantages of simplicity, practicability and low cost. The RC delay circuit may change the charging time of the first capacitor C1 according to the value of the first capacitor C1, and in this embodiment, the delay time of the RC circuit of the first capacitor C1 set correspondingly may be 30s, that is, the master control assembly 20 outputs the unlocking signal to the RC delay circuit and reaches the lock core assembly 30 after 30 s. In this embodiment, the RC delay circuit is used to delay the unlocking signal, so that the master control assembly 20 can output the locking signal to lock the door lock 70, and the master control assembly 20 can unlock the door lock 70 after 30s of the unlocking signal is output; in practical applications, the master assembly 20 controls 30s after the lock cylinder assembly 30 is locked to connect with the door lock 70, and the master assembly 20 also controls the lock cylinder assembly 30 to connect with the door lock 70 to unlock, so that the user does not need to manually operate the unlocking to open the door.

Further, referring to fig. 2 and 3, the human body induction linkage door lock 70 further includes:

an alarm assembly 50;

the input end of the alarm assembly 50 is connected with the third output end of the main control assembly 20;

the main control component 20 is further configured to control the alarm component 50 to send out an alarm according to the sensing signal when receiving the sensing signal.

It can be understood that when the user at the inner side of the door body is about to open the door body, passersby passes through the outer side of the door body, the passersby is in a state that whether the user at the inner side of the door body can open the door body can not be known, and the passersby passes through the outer side of the door body under the unknown condition, and is easy to collide with the suddenly opened door body. For this purpose, the present embodiment utilizes the alarm assembly 50 to alert passers-by that the door is about to be opened.

Alternatively, the alarm assembly 50 may be implemented using a buzzer and a horn. The alarm assembly 50 in this embodiment is implemented by an electromagnetic buzzer, which is composed of an oscillator, an electromagnetic coil, a magnet, a vibrating diaphragm, a housing, and the like. Specifically, after the electromagnetic buzzer is powered on, the audio signal current generated by the oscillator passes through the electromagnetic coil, so that the electromagnetic coil generates a magnetic field; the vibrating diaphragm periodically vibrates and sounds under the interaction of the electromagnetic coil and the magnet. In the practical application of the electromagnetic buzzer, the human body sensing assembly 10 in the human body sensing linkage door lock 70 outputs a sensing signal when detecting that a human body exists at the outer side of the door, and the main control assembly 20 outputs an electric signal to the electromagnetic buzzer while receiving the sensing signal, so that the electromagnetic buzzer periodically vibrates and sounds. In this embodiment, by using the vibration sounding function of the electromagnetic buzzer, passers-by on the outer side of the door can be reminded that the door body will be opened to perform avoidance actions.

In this embodiment, referring to fig. 2 and 3, the human body induction linkage door lock 70 device further includes:

an indicator lamp 60;

the input end of the indicator lamp 60 is connected with the fourth output end of the main control assembly 20;

the main control assembly 20 is further configured to control the indicator lamp 60 to be turned on according to the sensing signal when the sensing signal is received.

It will be appreciated that the lock cylinder assembly 30 is in a locked condition, the user cannot open the door from the inside, but the user cannot determine whether the unopened door is in a damaged condition without a corresponding door lock 70 condition indication, and therefore a prompt device is required to alert the user to the current door lock 70 condition.

Specifically, in this embodiment, the indicator lamp 60 is implemented by an LED indicator lamp. Specifically, when someone passes through the outside of the door body, the master control assembly 20 controls the lock core assembly 30 to link the door lock 70 to be locked, and at the same time, the master control assembly 20 controls the LED indicator lamp to be turned on, so as to remind the user that the current door lock 70 is in a locked state. In this embodiment, the indicator lamp 60 is provided, so that the user knows the state of the current lock cylinder assembly 30 in real time, and thus knows whether a passerby passes by on the outer side of the door body.

The utility model also provides a door body, referring to fig. 2 and 3, comprising a door lock 70 and the human body induction linkage door lock 70 device;

a door handle 80 is arranged in the middle of the door lock 70;

the indicator lamp 60 is disposed at a position above the door handle 80.

The door body in this embodiment includes a door lock 70 that can be used to close the door body in a locked state and to open the door body in an unlocked state. A door handle 80 is provided at a middle position of the door lock 70, and the door lock 70 is integrally connected with the door handle 80. The indicator lamp 60 is disposed above the door handle 80, and can be used for prompting a user whether a person passes by the outer side of the current door body, when the indicator lamp 60 is turned on, the user can judge that the person passes by the outer side of the current door body, so as to avoid the collision caused by the direct opening of the door body with the outer side of the door body. In the practical application of the indicator lamp 60, when the door handle 80 is used to open the door body, the user can conveniently see whether the indicator lamp 60 is in a lit state through the indicator lamp 60 arranged above the door handle 80, so as to know whether the current door lock 70 is in a locked or unlocked state.

In this embodiment, referring to fig. 3, the door lock 70 has a box-shaped structure, and both right angles at the upper end of the door lock 70 and both right angles at the lower end of the door lock 70 are rounded. Meanwhile, the door handle 80 has a rectangular parallelepiped structure, and both ends of the door handle 80 have a semicircular structure.

It can be appreciated that the door lock 70 in this embodiment is of a box-shaped structure, and the upper end two right angles of the door lock 70 are rounded, the rounded design can facilitate the installation of the installer, and the door lock 70 of the rounded structure can prevent the accident of the user from damaging the door lock, thereby improving the use safety.

In addition, the door handle 80 is integrally connected to the door lock 70, the door handle 80 has a rectangular parallelepiped structure, and both ends of the door handle 80 have a semicircular structure. It should be understood that, the door handle 80 with a cuboid structure is opened by pressing down force, and compared with the door handle 80 with a round structure, the door handle 80 with a cuboid structure in the embodiment can be more convenient for a user to press to open the door body; and the two ends of the door handle 80 are in semicircular structures, so that the arrangement of right-angle structures is avoided, and the hand of a user is prevented from being cut due to the fact that the two ends of the door handle 80 are too sharp when being pressed.

Optionally, the door body is a door or a car door.

In this embodiment, referring to fig. 2 and 3, the door body is a door. It should be understood that some doors are opened by pushing from inside to outside, and users need to push the doors from inside to outside before going out to open the doors. Before the door is opened, most users usually rarely leave a room door to see whether passers-by passes or not, and the user opens the room door to collide with the passers-by under the condition that the user does not know the outside of the room door, so the human body sensing assembly 10 is arranged to detect whether the outside of the room door is occupied or not. In practical application, when the human body sensing assembly 10 detects that a passerby passes by the outside of the door or the passerby stays at the outside of the door, the sensing signal is correspondingly output to the main control assembly 20, the main control assembly 20 judges that the passerby is on the side of the door at the moment, and simultaneously outputs a locking signal to the lock cylinder assembly 30 so as to control the lock cylinder assembly 30 to lock the door lock 70, so that a user cannot open the locked door body; the main control component 20 controls the lock core component 30 to lock the door lock 70 and also controls the LED prompting lamp to light up so as to remind a user on the inner side of the door that a person passes by the outer side of the door and the door is in a locked state; at the same time, the main control component 20 also controls the alarm component 50 to send out alarm sound, and passers-by outside the door can know that the user inside the door is about to open the door according to the alarm sound, so that the passer-by is ready to avoid in advance.

In addition, the main control component 20 also outputs an unlocking signal when receiving the sensing signal, the delay component 40 receives the unlocking signal and outputs the unlocking signal to the lock core component 30 after 30s, so that the lock core component 30 and the linkage door lock 70 are unlocked, and a user does not need to manually operate the unlocking to open the door.

In another embodiment, referring to fig. 2 and 3, the door body is of the type of a vehicle door. It is to be understood that when a user temporarily stops an automobile at a roadside, the roadside is inevitably free from pedestrians passing through the automobile door, and when the user in the automobile prepares to get off the automobile, the user cannot know whether the pedestrians pass through the rear of the automobile or not due to the limited sight range of the automobile window, and at the moment, the user opens the automobile door very easily to cause accidents of collision with the pedestrians. Thus, another embodiment provides that the body sensing assembly 10 triggers the master control assembly 20 to output a locking signal to control the lock cylinder assembly 30 to lock the door lock 70 when detecting that a person is outside the door, so that the door cannot be opened. The main control component 20 controls the lock core component 30 to lock the door lock 70 and also controls the LED prompting lamp to be lightened so as to remind a user on the inner side of the door that a pedestrian passes by the outer side of the door and the door is in a locking state; meanwhile, the main control assembly 20 also controls the alarm assembly 50 to send out alarm sounds, and the alarm sounds can remind a user on the inner side of the passer-by door on the outer side of the door of the vehicle to open the door, so that pedestrians do avoidance actions in advance, and collision is prevented.

In addition, the main control assembly 20 also outputs an unlocking signal, and the main control assembly 20 controls the delay assembly 40 to receive the unlocking signal and output the unlocking signal to the lock cylinder assembly 30 after 30s so that the lock cylinder assembly 30 and the linkage door lock 70 are unlocked, and a user does not need to manually operate the unlocking to open the door.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. The utility model provides a human response linkage door lock device, is applied to the door body, the door body includes the lock, its characterized in that, human response linkage door lock device includes:

the human body induction component is used for outputting induction signals when the human body is induced;

a cylinder assembly for interlocking the door lock to close the door body;

the input end of the main control component is connected with the output end of the human body induction component; the first output end of the main control component is connected with the first input end of the lock core component;

the main control component is used for outputting a locking signal when receiving the induction signal so as to control the lock cylinder component to link the door lock to close the door body.

2. The body-induced linked door lock apparatus of claim 1, wherein the body-induced linked door lock apparatus further comprises:

a delay component;

the input end of the delay component is connected with the second output end of the main control component, and the output end of the delay component is connected with the second input end of the lock core component;

the master control assembly is further used for outputting an unlocking signal when receiving the sensing signal, and controlling the delay assembly to output the unlocking signal to the lock core assembly after delaying to a preset time, so that the lock core assembly is linked with the door lock to open the door body.

3. The body-induced linked door lock apparatus of claim 1, wherein the body-induced linked door lock apparatus further comprises:

an alarm assembly;

the input end of the alarm component is connected with the third output end of the main control component;

the main control assembly is further used for controlling the alarm assembly to send out alarm sound according to the induction signal when receiving the induction signal.

4. The body-induced linked door lock apparatus of claim 1, wherein the body-induced linked door lock apparatus further comprises:

an indicator light;

the input end of the indicator lamp is connected with the fourth output end of the main control component;

the main control assembly is further used for controlling the indication lamp to be turned on according to the induction signal when the induction signal is received.

5. A door body comprising a door lock and a human body induction linkage door lock device according to any one of claims 1 to 3;

and a door handle is arranged in the middle of the door lock.

6. The door body of claim 5, wherein the body-sensing linkage door lock device further comprises:

an indicator light;

the input end of the indicator lamp is connected with the fourth output end of the main control component;

the main control assembly is further used for controlling the indication lamp to be turned on according to the induction signal when the induction signal is received.

7. The door body of claim 6, wherein the indicator light is disposed at an upper position of the door handle.

8. The door body of claim 5, wherein the door lock has a box-shaped structure, and both right angles at an upper end of the door lock and both right angles at a lower end of the door lock are rounded.

9. The door body of claim 5, wherein the door handle has a rectangular parallelepiped structure, and both ends of the door handle have a semicircular structure.

10. The door body of claim 5, wherein the door body is of the type a door or a door.

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