CN117333971A - Intelligent lockset-based room electricity taking control system and electricity taking method - Google Patents

Abstract

The invention aims to disclose a room power taking control system and a power taking method based on an intelligent lockset, and relates to the technical field of intelligent lockset control, wherein the intelligent lockset comprises a door and an intelligent lockset arranged on the door, and the intelligent lockset comprises a control unit and a wireless unit; the intelligent lockset comprises a wireless unit, a control unit and a power-taking switch, wherein the wireless unit is used for transmitting a locking signal of the intelligent lockset to the power-taking switch; compared with the prior art, the invention has the following technical effects that the power-taking switch is controlled to be started and stopped by the back locking signal: after a user enters a room through legal authorization to unlock the intelligent lockset, the intelligent lockset must be reversely locked, and the power-taking switch is conducted through a reverse locking signal of the intelligent lockset, so that on one hand, the residence of the user is safer, the condition of forgetting the reverse locking is avoided, and on the other hand, after the user leaves the room, the power-taking switch cannot receive the reverse locking signal, so that automatic power-off is realized, and the energy-saving control is realized.

Description

Intelligent lockset-based room electricity taking control system and electricity taking method

Technical Field

The invention relates to the technical field of intelligent lockset control, in particular to a room electricity taking control system and an electricity taking method based on an intelligent lockset.

Background

At present, an intelligent hotel, a civil house and a network appointment house adopt an IC card or an identity card to take electricity, and with the appearance of a new consumption mode of an unattended intelligent hotel, a network appointment house and a short rented house, the IC card has large issuing workload and has the problem of easy loss, and the room power use is more energy-saving and environment-friendly and needs to be supported by new operation equipment.

In view of the foregoing, there is a need for developing a room power taking control system and a power taking method based on intelligent locks to overcome the above-mentioned drawbacks.

Disclosure of Invention

In order to solve the technical problems, the invention aims to disclose a room electricity taking control system and an electricity taking method based on an intelligent lock, and an electricity taking switch in a room is controlled by a counter lock signal of an intelligent door lock, so that safety and electricity taking energy saving are realized.

The first invention aims to provide a room power taking control system based on intelligent locks.

The second invention aims to provide a room wireless electricity taking method based on an intelligent lockset.

In order to achieve the first object, the invention provides a room power taking control system based on an intelligent lock, which comprises a door and an intelligent lock arranged on the door, wherein the intelligent lock comprises a control unit and a wireless unit;

the intelligent lockset comprises a wireless unit, a control unit and a power-taking switch, wherein the wireless unit is used for transmitting a locking signal of the intelligent lockset to the power-taking switch;

the back locking signal controls the start and stop of the power-taking switch;

the power taking switch is provided with a bidirectional thyristor, an overcurrent protection circuit breaker and an electrifying state detection module, the overcurrent protection circuit breaker is used for overcurrent protection, the electrifying state detection module is used for detecting the conducting and closing states of the power taking switch, if the intelligent lockset is locked but the power taking switch is not conducted, the electrifying state detection module feeds back the contradicting signal to a user manager through a wireless unit, and the intelligent lockset is reminded of faults;

the intelligent lockset is characterized in that the intelligent lockset is also provided with a smoke sensing unit and/or a gas sensing unit, when the smoke sensing unit or the gas sensing unit senses danger, the intelligent lockset automatically releases the back lock, sends a power-off instruction to the power-taking switch through a wireless unit and gives an alarm.

Preferably, the control unit is an MCU controller, the wireless unit is a WiFi module or a Bluetooth module, and the wireless unit is paired with the power taking switch.

Preferably, the control unit is an MCU controller, the wireless unit is a WiFi SoC chip or a Bluetooth SoC chip, and the wireless unit is paired with the power switch.

Preferably, a displacement sensor is arranged on a counter lock tongue of the intelligent lockset, and the counter lock signal is position information of the counter lock tongue.

Preferably, the back locking signal is back locking motor execution information of the intelligent lockset.

Preferably, the appearance of the electricity taking switch is in the shape of a card inserting panel, and the electricity taking switch is arranged at one side of the entrance door; or the appearance of getting the electric switch is the circuit breaker shape, get the electric switch and set up in the block terminal.

Based on the same principle of the invention, in order to solve the second object of the invention, the invention provides a room wireless electricity taking method based on an intelligent lockset, which comprises the following steps:

the user opens the intelligent lockset through legal authorization and enters the user;

the user back locks the intelligent lockset;

the control unit detects a back locking signal of the intelligent lockset and sends the back locking signal to the power taking switch through the wireless unit;

the power-taking switch is conducted;

the power-on state detection module is used for detecting the on and off states of the power-on switch, and if the intelligent lockset is reversely locked, but the power-on switch is not turned on, the power-on state detection module feeds back the contradiction signal to a user manager through the wireless unit to remind the intelligent lockset of faults;

when the smoke sensing unit or the gas sensing unit of the intelligent lockset senses danger, the back lock is automatically released, a power-off instruction is sent to the power-off switch through the wireless unit, and an alarm is sent.

Preferably, the method further comprises the following steps:

if all users leave, releasing the back locking state of the intelligent lockset, and closing the power taking switch;

if part of users leave, the indoor users are required to keep the back locking state of the intelligent lockset, and the electricity taking switch is turned on.

Preferably, the control unit is an MCU controller, the wireless unit is one of a WiFi module, a bluetooth module, a WiFi SoC chip or a bluetooth SoC chip, and the wireless unit is paired with the power-taking switch;

the anti-lock tongue of the intelligent lockset is provided with a displacement sensor, and the anti-lock signal is the position information of the anti-lock tongue;

the power taking switch is provided with a bidirectional thyristor, an overcurrent protection circuit breaker and an electrified state detection module;

the appearance of getting the electric switch is the circuit breaker shape, get the electric switch setting in the block terminal.

Compared with the prior art, the invention has the following technical effects:

(1) After a user enters a room through legal authorization to unlock the intelligent lockset, the intelligent lockset must be reversely locked, and the power-taking switch is conducted through a reverse locking signal of the intelligent lockset, so that on one hand, the residence of the user is safer, the condition of forgetting the reverse locking is avoided, and on the other hand, after the user leaves the room, the power-taking switch cannot receive the reverse locking signal, so that automatic power-off is realized, and the energy-saving control is realized.

(2) The room manager can remotely send the authorization key information of the intelligent lockset to the user, so that the room management is facilitated.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of a room management system of the present invention.

Fig. 2 is a schematic block diagram of a room radio access control system of embodiment 1 of the present invention.

Fig. 3 is a schematic block diagram of a room radio access control system of embodiment 3 of the present invention.

Fig. 4 is a schematic block diagram of a room radio access control system of embodiment 3 of the present invention.

Fig. 5 is a flow chart of a room radio method based on the intelligent lock of the invention.

Fig. 6 is a flow chart of a room radio method of the present invention when all users leave.

Fig. 7 is a flow chart of a method of room radio access upon exit of a portion of the user of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the embodiments shown in the drawings, but it should be understood that the embodiments are not limited to the present invention, and functional, method, or structural equivalents and alternatives according to the embodiments are within the scope of protection of the present invention by those skilled in the art.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Example 1

Referring to fig. 1 to 2, this embodiment discloses a specific implementation of a room radio access control system (hereinafter referred to as "system") based on an intelligent lock.

The room wireless power taking control system based on the intelligent lockset comprises a door and the intelligent lockset arranged on the door, wherein the intelligent lockset comprises a control unit and a wireless unit; the intelligent lockset comprises a wireless unit, a control unit and a power-taking switch, wherein the wireless unit is used for transmitting a locking signal of the intelligent lockset to the power-taking switch; and the back locking signal controls the start and stop of the power taking switch.

Specifically, referring to fig. 1, a room manager manages intelligent locks of a plurality of rooms through a terminal and a cloud system, on one hand, legal authorization keys are provided for users through the cloud system, and on the other hand, the cloud system monitors the state of each intelligent lock and the electricity consumption condition of a corresponding room, so that the management efficiency can be improved, and an intelligent management mode is provided for new consumption modes of unattended intelligent hotels, network about rooms and short rents.

In a specific embodiment, referring to fig. 2, the control unit is an MCU controller, the wireless unit is a WiFi module or a bluetooth module, and the wireless unit is paired with the power switch; the power taking switch is provided with a bidirectional thyristor, an overcurrent protection circuit breaker and an electrifying state detection module, the bidirectional thyristor is used as a core component for the conduction and closing of the power taking switch, the overcurrent protection circuit breaker is used for overcurrent protection to prevent overheat fire, the electrifying state detection module is used for detecting the conduction and closing states of the power taking switch, if the intelligent lockset is locked, but the power taking switch is not conducted, the electrifying state detection module feeds back the contradicting signal to a user manager through a wireless unit to remind the intelligent lockset of controlling system faults; the appearance of the electricity taking switch is in the shape of a plug-in card panel, and the electricity taking switch is arranged on one side of the entrance door, so that the shape of the electricity taking switch is consistent with that of a plug-in card electricity taking panel of a traditional hotel, and a user is difficult to perceive the position of the electricity taking switch; or the appearance of getting the electric switch is the circuit breaker shape, get the electric switch and set up in the block terminal, this design makes the shape that gets the electric switch unanimous with traditional circuit breaker shape, presss from both sides between a plurality of circuit breakers, and the user is difficult to perceive the position of getting the electric switch.

The principle of controlling the start and stop of the power-taking switch through the back locking signal is as follows: the anti-lock tongue of intelligent tool to lock sets up displacement sensor, the anti-lock signal is anti-lock tongue's positional information, when the user passes through legal authority and gets into the room, must anti-lock intelligent tool to lock, in the anti-lock in-process, anti-lock tongue takes place the displacement, its displacement sensor's displacement signal is responded to, MCU controller passes through wiFi module or bluetooth module with this anti-lock signal and sends to the switch control unit who gets the electric switch, switch control unit is through the switch of control bidirectional thyristor, the start and stop of control power switch gets the electric switch and just opens, it closes when not receiving the anti-lock signal to get the electric switch, realize that the user leaves the room promptly the effect of having a power failure, the door must be locked and just get the electricity, improve user's security. After the power-taking switch is turned on, the power-on state is transmitted to the WiFi module or the Bluetooth module through the power-on state detection module, and then transmitted to a room manager through the cloud system, so that the power-on condition can be monitored conveniently; the MCU controller compares whether the back locking signal is consistent with the switching signal detected by the power-on state detection module, if so, the control unit of the intelligent lock is normal, if not, the control unit of the intelligent lock is abnormal, and abnormal information is sent to a room manager through the WiFi module or the Bluetooth module;

the intelligent hotel, the civilian destination, the network about room belong to intensive and comparatively confined place of personnel, along with the improvement of security consciousness, intelligent tool to lock still is provided with smog sensing unit and/or gas sensing unit, and smog sensing unit is used for responding to near the intelligent tool to lock the smog that arouses of burning, and gas sensing unit then is used for responding to near the intelligent tool to lock gas, inflammable or poisonous gas such as natural gas, when smog sensing unit or gas sensing unit perception danger, then automatic release lock, through wireless unit to power take the switch send outage instruction and send out the alarm, provide timely early warning function, increase the probability of fleing.

Example 2

The difference with embodiment 1 is that the back lock signal in embodiment 2 is back lock motor execution information of the intelligent lock, that is, when the MCU controller detects the back lock motor start signal of the intelligent lock, that is, the back lock is considered to be completed, and the intelligent lock is started through the WiFi module or the bluetooth module by the power switch.

The technical scheme of the intelligent lockset-based room power taking control system disclosed in the embodiment is the same as that in embodiment 1, please refer to embodiment 1, and the description is omitted here.

Example 3

The difference from embodiment 1 or embodiment 2 is that, referring to fig. 3 and 4, the wireless unit of embodiment 3 is a WiFi SoC chip or a bluetooth SoC chip, which is integrated in the MCU controller.

The technical scheme of the intelligent lock-based room power taking control system disclosed in this embodiment and the technical scheme of the same parts as those in embodiment 1 or embodiment 2 are described in embodiment 1 or embodiment 2, and are not repeated here.

Example 4

Referring to fig. 5, this embodiment discloses a specific implementation of a room wireless power taking method (hereinafter referred to as "power taking method") based on an intelligent lock.

Referring to fig. 5, a room wireless power taking method based on an intelligent lockset comprises the following steps:

step S1: the user opens the intelligent lockset through legal authorization and enters the user, specifically, a room manager manages the intelligent locksets of a plurality of rooms through the terminal and the cloud system, a legal authorization key is provided for the user remotely through the cloud system, or the legal authorization key is provided on the surface, and the user opens the intelligent lockset through the legal key and enters the user.

Step S2: after the user enters the room, the user must lock the intelligent lockset in order to ensure the personal safety of the user and open the power-taking switch.

Step S3: the control unit detects a locking signal of the intelligent lockset and sends the locking signal to the power-taking switch through the wireless unit, specifically, the control unit is an MCU controller, the wireless unit is one of a WiFi module, a Bluetooth module, a WiFi SoC chip or a Bluetooth SoC chip, and the wireless unit is matched with the power-taking switch; the appearance of the electricity taking switch is in the shape of a plug-in card panel, and the electricity taking switch is arranged on one side of the entrance door, so that the shape of the electricity taking switch is consistent with that of a plug-in card electricity taking panel of a traditional hotel, and a user is difficult to perceive the position of the electricity taking switch; or the appearance of getting the electric switch is the circuit breaker shape, get the electric switch and set up in the block terminal, this design makes the shape that gets the electric switch unanimous with traditional circuit breaker shape, presss from both sides between a plurality of circuit breakers, and the user is difficult to perceive the position of getting the electric switch.

Step S4: the power taking switch is turned on, specifically, a displacement sensor is arranged on a reverse locking tongue of the intelligent lock, the reverse locking signal is position information of the reverse locking tongue, when a user enters a room through legal authorization, the intelligent lock must be reversely locked, in the reverse locking process, the reverse locking tongue is displaced, the displacement signal of the displacement sensor is sensed, the MCU controller sends the reverse locking signal to a power switch control unit of the power taking switch through the WiFi module or the Bluetooth module, the power switch control unit controls the power taking switch to be started and stopped through controlling the switch of the bidirectional thyristor, the power taking switch is turned on after receiving the reverse locking signal, the power taking switch is turned off when not receiving the reverse locking signal, the effect that the user leaves the room, namely power is cut is achieved, the power can be taken after the door must be reversely locked, and the safety of the user is improved. After the power-taking switch is turned on, the power-on state is transmitted to the WiFi module or the Bluetooth module through the power-on state detection module, and then transmitted to a room manager through the cloud system, so that the power consumption condition can be monitored conveniently.

Step S5: the power state detection module is used for detecting the on and off states of the power taking switch, and if the intelligent lockset is reversely locked, but the power taking switch is not turned on, the power on state monitoring module feeds back the contradiction signal to a user manager through the wireless unit to remind the intelligent lockset of the control system fault; specifically, the MCU controller compares whether the back locking signal is consistent with the switching signal detected by the power-on state detection module, if so, the control unit of the intelligent lock is normal, if not, the control unit of the intelligent lock is abnormal, and abnormal information is sent to a room manager through the WiFi module or the Bluetooth module.

Step S6: when the smoke sensing unit or the gas sensing unit of the intelligent lockset senses danger, the back lock is automatically released, a power-off instruction is sent to the power-off switch through the wireless unit, and an alarm is sent; specifically, intelligent hotel, civilian, net about room belong to intensive and comparatively confined place of personnel, along with the improvement of safety consciousness, intelligent tool to lock still is provided with smog sensing unit and/or gas sensing unit, and smog sensing unit is used for responding to near the intelligent tool to lock the smog that burns and arouses, and gas sensing unit then is used for responding to near the intelligent tool to lock inflammable or poisonous gases such as coal gas, natural gas, when smog sensing unit or gas sensing unit perception danger, then automatic release back lock, through wireless unit to power take the switch send outage instruction and send the alarm, provide timely early warning function, increase escape probability.

After a user enters a room through legal authorization to unlock the intelligent lockset, the intelligent lockset must be reversely locked, and the power-taking switch is conducted through a reverse locking signal of the intelligent lockset, so that on one hand, the residence of the user is safer, the condition of forgetting the reverse locking is avoided, and on the other hand, after the user leaves the room, the power-taking switch cannot receive the reverse locking signal, so that automatic power-off is realized, and the energy-saving control is realized.

Referring to fig. 6 and 7, under the condition that a plurality of persons enter a room, the power taking switch is controlled by the following steps, and the power taking switch is divided into two cases, wherein in the first case, referring to fig. 6, if all users leave, the back locking state of the intelligent lockset is released, the power taking switch is turned off and can be turned off again after being delayed for 5 minutes, so that the power of the persons is cut off, and the energy saving is realized; in the second case, if a part of users leave, the indoor users keep the back locking state of the intelligent lockset, that is, the indoor users need to back lock again, the power taking switch is turned on, and it needs to be emphasized that in order to prevent the situation that the power taking switch is turned off when a part of users leave the stand-by horse, the power taking switch can be set to be turned off after a delay of 5 minutes, that is, if the indoor users back lock again within 5 minutes, the power taking switch is kept in a turned-on state.

Claims (10)

1. The room wireless power taking control system based on the intelligent lockset is characterized by comprising a door and the intelligent lockset arranged on the door, wherein the intelligent lockset comprises a control unit and a wireless unit;

the intelligent lockset comprises a wireless unit, a control unit and a power-taking switch, wherein the wireless unit is used for transmitting a locking signal of the intelligent lockset to the power-taking switch;

the back locking signal controls the start and stop of the power-taking switch;

the power taking switch is provided with a bidirectional thyristor, an overcurrent protection circuit breaker and an electrifying state detection module, the overcurrent protection circuit breaker is used for overcurrent protection, the electrifying state detection module is used for detecting the conducting and closing states of the power taking switch, if the intelligent lockset is locked but the power taking switch is not conducted, the electrifying state detection module feeds back the contradicting signal to a user manager through a wireless unit, and the intelligent lockset is reminded of faults;

the intelligent lockset is characterized in that the intelligent lockset is also provided with a smoke sensing unit and/or a gas sensing unit, when the smoke sensing unit or the gas sensing unit senses danger, the intelligent lockset automatically releases the back lock, sends a power-off instruction to the power-taking switch through a wireless unit and gives an alarm.

2. The intelligent lockset-based room power taking control system according to claim 1, wherein the control unit is an MCU controller, the wireless unit is a WiFi module or a Bluetooth module, and the wireless unit is paired with the power taking switch.

3. The intelligent lockset-based room power taking control system according to claim 1, wherein the control unit is an MCU controller, the wireless unit is a WiFi SoC chip or a Bluetooth SoC chip, and the wireless unit is paired with the power taking switch.

4. The intelligent lockset-based room power taking control system as in any one of claims 1-3, wherein a displacement sensor is arranged on a counter lock tongue of the intelligent lockset, and the counter lock signal is position information of the counter lock tongue.

5. A smart lock-based room power take-off control system as claimed in any one of claims 1 to 3, wherein said counter lock signal is counter lock motor execution information of said smart lock.

6. The intelligent lockset-based room power taking control system as claimed in any one of claims 1 to 3, wherein the power taking switch is in the shape of a plug-in panel, and is arranged at one side of a door; or the appearance of getting the electric switch is the circuit breaker shape, get the electric switch and set up in the block terminal.

7. The room wireless electricity taking method based on the intelligent lockset is characterized by comprising the following steps of:

the user opens the intelligent lockset through legal authorization and enters the user;

the user back locks the intelligent lockset;

the control unit detects a back locking signal of the intelligent lockset and sends the back locking signal to the power taking switch through the wireless unit;

the power-taking switch is conducted;

the power-on state detection module is used for detecting the on and off states of the power-on switch, and if the intelligent lockset is reversely locked, but the power-on switch is not turned on, the power-on state detection module feeds back the contradiction signal to a user manager through the wireless unit to remind the intelligent lockset of faults;

when the smoke sensing unit or the gas sensing unit of the intelligent lockset senses danger, the back lock is automatically released, a power-off instruction is sent to the power-off switch through the wireless unit, and an alarm is sent.

8. The intelligent lockset-based room wireless power taking method as in claim 7, further comprising the steps of:

if all users leave, releasing the back locking state of the intelligent lockset, and closing the power taking switch;

if part of users leave, the indoor users keep the back locking state of the intelligent lockset, and the electricity taking switch is conducted.

9. The intelligent lockset-based room wireless power taking method as in claim 7 or 8, wherein the control unit is an MCU controller, the wireless unit is one of a WiFi module, a bluetooth module, a WiFi SoC chip or a bluetooth SoC chip, and the wireless unit is paired with the power taking switch.

10. The intelligent lockset-based room wireless electricity taking method as in claim 9, wherein a displacement sensor is arranged on a counter lock tongue of the intelligent lockset, and the counter lock signal is position information of the counter lock tongue;

the power taking switch is provided with a bidirectional thyristor, an overcurrent protection circuit breaker and an electrified state detection module;

the appearance of getting the electric switch is the circuit breaker shape, get the electric switch setting in the block terminal.