CN112379454A - Non-inductive power acquisition system and implementation method - Google Patents

Abstract

Non-inductive power taking system and implementation method for solving the power taking problem that no card is used as a medium in the existing hotel door lock, mainly comprising: bluetooth lock: contain lock mechanical part and based on the integrated circuit mainboard of bluetooth core for: data are received and sent through the Bluetooth and the power-taking switch, and corresponding operation is executed according to the received data. And (3) power taking switch: comprises a housing, an integrated circuit motherboard for: data communication is established with the bluetooth lock through the mode of bluetooth, the switch of control room electric quantity, and data communication is carried out with the bluetooth detector resume data communication through the mode of bluetooth, carries out the judgement of sight according to the data of lock and the data of detector. The Bluetooth detector: comprises a housing, an integrated circuit motherboard for: carry out data communication with getting the electric switch through the mode of bluetooth, survey the motion of the interior object of room, send data to getting the electric switch according to the motion state and the mode of object.

Description

Non-inductive power acquisition system and implementation method

Technical Field

The non-inductive power-taking system and the implementation method are applied to the field of intelligent door locks, in particular to the field of door locks, wherein the door locks are not connected with the Internet and are unlocked only through Bluetooth or other short-distance communication modes.

Background

With the continuous development of semiconductor technology, the door lock industry is also continuously evolving, and the door lock industry is shifted from an initial mechanical door lock to an electronic door lock including card swiping and fingerprint, and then to an internet door lock combined with mobile equipment.

The current internet door lock is mainly divided into 2 types, networking and offline. Networking lock adopts wireless communication protocols such as zigbee, NB-iot, Z-wave, and the lock passes through the mode of gateway or the mode of direct link internet, uses and removes app can control the lock, and off-line lock then mainly uses the bluetooth protocol as the standard, through removing app, encrypts the instruction of unblanking, sends for the lock through the mode of bluetooth to the realization is to the control of lock.

However, any of the above door locks has a problem of taking electricity. In daily operation of hotels and apartments, the electric charge can even account for 50% of the cost in the operation of low-end hotels, so that the hotels, especially the low-end hotels, have strong demand for power taking.

Current hotel lock is got the electricity, mainly adopts the mode of the electricity of plug-in card, and the user need insert the electricity switch with the room card when entering, and the room just now has the electricity, because the user goes out, all need pull out the card just can enter next time, so the user goes out and can pull out the card and go out, can accomplish the people like this and walk the efficiency of outage. Although the method can reduce the cost of the electric charge for the hotel operator, the experience of the user is also sacrificed, for example: when a user returns to a room in outdoor sports in summer, the air conditioner is closed due to the fact that the power of the room is cut off, at the moment, the user enters the room, the air conditioner needs to be opened again by the user in the hot room, and user experience is greatly reduced.

In order to solve the above problems, many methods for taking electricity are also available in the market, including: reverse locking electricity taking, induction electricity taking and the like.

Although the problem of power taking can be solved by back locking and power taking, the former habit of a user needs to be corrected, and the user can unlock the door lock to the back locking once entering the door, so that the education cost is invisibly increased.

The induction electricity taking has various schemes, but the inductor has induction limitation, and a common inductor cannot induce a static object, so that when a person enters a room and falls asleep, the inductor cannot detect the human body, and the power is cut off due to misjudgment. Meanwhile, the sensor has coverage limitation, for example, a user enters a toilet or other corners of a room, the user cannot be sensed, and misjudgment can be caused at the moment.

Patent application 201810347057.7, through detecting human motion's positive slope and negative slope, also can't realize the effect that wants to reach in actual conditions, because if many people get into the room simultaneously, positive slope and negative slope at this moment will not be judged, and when one person of them leaves the room, the inductor judges that the people cuts off the power supply after leaving the room, will live the tenant inside and cause the puzzlement.

Disclosure of Invention

Non-inductive power taking system and implementation method for solving the power taking problem that no card is used as a medium in the existing hotel door lock, mainly comprising:

bluetooth lock: contain lock mechanical part and based on the integrated circuit mainboard of bluetooth core for: data are received and sent through the Bluetooth and the power-taking switch, and corresponding operation is executed according to the received data.

And (3) power taking switch: comprises a housing, an integrated circuit motherboard for: data communication is established with the bluetooth lock through the mode of bluetooth, the switch of control room electric quantity, and data communication is carried out with the bluetooth detector resume data communication through the mode of bluetooth, carries out the judgement of sight according to the data of lock and the data of detector.

The Bluetooth detector: comprises a housing, an integrated circuit motherboard for: carry out data communication with getting the electric switch through the mode of bluetooth, survey the motion of the interior object of room, send data to getting the electric switch according to the motion state and the mode of object.

The realization of the invention needs to pass the following steps:

1) a time t is set, wherein t is more than 10s and less than 600 s.

2) Detecting the state of the door: and sending a door opening or closing instruction to the power-taking switch as long as the door lock detects that the door lock is opened or closed.

3) Powering on the room: and when the power-taking switch detects that the door is opened or closed, the room is powered on, and counting down is carried out according to t.

4) Detecting motion of objects in a room: and in the time range of t counted down, if the detector detects the movement of the object in the room, the power of the room is always kept on, and if the movement of the object in the room is not detected in the time range of t counted down, the power is cut off.

5) And (4) continuing to detect: if the detector detects the movement of an object in the room in the following time, the power is supplied again, otherwise the power-off state is maintained.

In step 3, the countdown t is automatically restarted by opening and closing the door for a plurality of times.

In step 4, a time t2, t2 < t, and in the time range 0 < t2 < t, the detection of the moving object may be set as necessary.

In step 5, if a door open/close command is detected, the entire procedure is repeated starting from step 1.

With the present invention, at least the following effects can be achieved:

1. the cost is reduced: after a user enters a door, a detector is not needed to be installed in a toilet, and the situation that a moving object cannot be detected after a tenant falls asleep, so that the power failure of the room is avoided.

2. More convenient: if a plurality of people live in the room and one person goes out, the power failure of the room can not be caused as long as the person who live in the room moves. .

Drawings

FIG. 1 is a schematic composition of the present invention.

Fig. 2 is a flow chart of an implementation of the present invention.

Detailed Description

Fig. 1 is a schematic composition diagram of the present invention, an inductively-powered system and an implementation method thereof, which mainly includes the following parts:

bluetooth lock 201: contain lock mechanical part and based on the integrated circuit mainboard of bluetooth core for: data are received and sent through the Bluetooth and the power-taking switch, and corresponding operation is executed according to the received data. The bluetooth door lock itself has other functions for unlocking, reading the unlocking record, inputting the password, etc., and the functions do not affect the functions of the invention, so the details are not repeated herein. The hardware of the Bluetooth door lock belongs to products which are commonly used in the industry, and the principle of function and realization also belongs to the known technology which is commonly used in the industry, so the details are not repeated here.

A power-taking switch 202: comprises a housing, an integrated circuit motherboard for: data communication is established with the bluetooth lock through the mode of bluetooth, the switch of control room electric quantity, and data communication is carried out with the bluetooth detector resume data communication through the mode of bluetooth, carries out the judgement of sight according to the data of lock and the data of detector. The power switch can be integrated with the existing plug-in card to obtain power or not according to the requirement, and the power switch is generally arranged in a wall body according to the size of a national standard 86 box.

The Bluetooth detector 203: comprises a housing, an integrated circuit motherboard for: carry out data communication with getting the electric switch through the mode of bluetooth, survey the motion of the interior object of room, send data to getting the electric switch according to the motion state and the mode of object. The detector function is generally realized by infrared detection and microwave, and the two functions have different principles but are common technologies.

Fig. 2 is a flow chart of an implementation of the present invention. The realization of the invention needs to pass the following steps:

step 201: a time t is set, wherein t is more than 10s and less than 600 s. The time t may be set to different values according to different application scenarios, for example, a larger room, t should be set to be relatively longer, a smaller room, t should be set to be shorter.

Step 202: detecting the state of the door: and sending a door opening or closing instruction to the power-taking switch as long as the door lock detects that the door lock is opened or closed. The command may be sent via bluetooth, both on and off, or only one of them.

Step 203: powering on the room: and when the power-taking switch detects that the door is opened or closed, the room is electrified, and counting down is carried out according to t. If the current state is the power-on state, the power-on operation may not be executed, and the countdown may be performed directly according to t. If the door opening and closing operation is performed a plurality of times, the countdown is automatically updated, and the last time of opening and closing is used as the starting time of the countdown.

Step 204: detecting motion of objects in a room: and in the time range of t counted down, if the detector detects the movement of the object in the room, the power of the room is always kept on, and if the movement of the object in the room is not detected in the time range of t counted down, the power is cut off. As an example, if t is set to 30 seconds, after the door is opened or closed, if no human body movement is detected within 30 seconds, it may be determined that there is no human body in the room, and at this time, the power-off operation may be performed. According to the requirement, a time t2, t2 < t, in the time range of 0 < t2 < t, the detection of the moving object can be set. the purpose of t2 is to prevent the detector from detecting the movement of the object if the isolation door lock is close, so the t2 can effectively prevent the error power-off operation.

Step 205: and (4) continuing to detect: if the detector detects the movement of an object in the room in the following time, the power is supplied again, otherwise the power-off state is maintained. If a door open and close command is detected, the whole procedure is repeated starting from step 1.

After the invention is used, because the power-off process is only in a period of opening and closing the door, the whole room only needs one detector to realize the desired effect, and the cost is very low. If other existing technologies are used, many problems are faced, such as:

the first problem is that: personnel go to toilet

Because of the limited range of detectors, other techniques have been used, which have resulted in a toilet that also requires a detector to be installed to prevent a person from powering down the room while in the toilet or bathing. With the method of the invention, even if the tenant goes to the toilet or takes a bath during the period, the room will not be powered off because the tenant does not operate the switch, and even if the detector is not installed in the test, because the movement of the object is detected only in a period of time after the door is opened and closed.

The second problem is that: people sleep

The detector can only detect moving objects generally, so that the detector can not detect the objects after a person falls asleep, and at the moment, according to the conventional method, a pressure sensor needs to be arranged under a bed, so that when a user takes a rest on the bed, the pressure condition on the bed can be detected, and the power failure is kept.

Claims (4)

1. The non-inductive electricity-taking system and the realizing method mainly comprise:

bluetooth lock: contain lock mechanical part and based on the integrated circuit mainboard of bluetooth core for: receiving and sending data through the Bluetooth and the power-taking switch, and executing corresponding operation according to the received data;

and (3) power taking switch: comprises a housing, an integrated circuit motherboard for: establishing data communication with a Bluetooth door lock in a Bluetooth mode, controlling the on-off of the electric quantity of a room, communicating with a Bluetooth detector resume data in the Bluetooth mode, and judging the situation according to the data of the door lock and the data of the detector;

the Bluetooth detector: comprises a housing, an integrated circuit motherboard for: carrying out data communication with a power-taking switch in a Bluetooth mode, detecting the motion of an object in a room, and sending data to the power-taking switch according to the motion state and mode of the object;

the realization of the invention needs to pass the following steps:

1) setting a time t, wherein t is more than 10s and less than 600 s;

2) detecting the state of the door: sending a door opening or closing instruction to the power-taking switch as long as the door lock detects that the door lock is opened or closed;

3) powering on the room: when the power-taking switch detects that the door is opened or closed, the room is powered on, and counting down is carried out according to t;

4) detecting motion of objects in a room: in the time range of t counted down, if the detector detects that the object moves in the room, the power of the room is always kept on, and if the object does not move in the room in the time range of t counted down, the power is cut off;

5) and (4) continuing to detect: if the detector detects the movement of an object in the room in the following time, the power is supplied again, otherwise the power-off state is maintained.

2. The non-inductive electrical system and implementation method as claimed in claim 1, wherein: in step 3, the countdown t is automatically restarted by opening and closing the door for a plurality of times.

3. The non-inductive electrical system and implementation method as claimed in claim 1, wherein: in step 4, a time t2, t2 < t, and in the time range 0 < t2 < t, the detection of the moving object may be set as necessary.

4. The non-inductive electrical system and implementation method as claimed in claim 1, wherein: in step 5, if a door open/close command is detected, the entire procedure is repeated starting from step 1.

Images