CN204229150U - A kind of hotel guest room energy-saving control system - Google Patents

Abstract

The utility model provides a kind of hotel guest room energy-saving control system, comprise intelligent electronic lock and power switch control, intelligent electronic lock comprises door lock control circuits, data storage circuitry, door state detection circuit, human body infrared detection circuit, the first telecommunication circuit and electric actuator, door state can be monitored, whether people is had in room, the virtual key mated with this electronic lock whether is there is in room, and then judge whether to need to power to this guest room according to these monitoring results, thus control power switch control, there is the automatic energy saving control realized guest room, improve Consumer's Experience, the beneficial effect of economize energy, the free break-make realizing electric power controls, thus reach energy-conservation object, solve requisite item---the electron key in kind that in prior art, guest room intelligence power taking gauge tap has controlled owing to having lacked guest room electric power supply, the technical matters of original Energy Saving Control cannot be realized.

Description

A kind of hotel guest room energy-saving control system

Technical field

The utility model relates to field of energy-saving technology, particularly relates to a kind of energy-saving control system being applied to hotel guest room.

Background technology

At present, the electric power supply that hotel guest room generally adopts guest room intelligence power taking gauge tap to realize guest room controls.After guest enters room, the electron key (CUSTOM HOUSE HOTEL) provided when checking in is inserted power taking gauge tap, power taking gauge tap is by the information of checking in reading, identification, comparison electron key, as comparison is correct, electricity-getting switch is opened and is controlled the electric power supply in guest room; Because need to carry with electron key when guest goes out, after electron key takes out from power taking gauge tap, power taking gauge tap automatically shuts down the electric power supply in guest room, thus realizes people at the Energy Saving Control opening electricity, people walks to close electricity.

Along with the development of technology of Internet of things, by running corresponding application software on smart mobile phone, using the mobile phone of guest as virtual electronic key (application software of mobile phone), replace and used electron key in kind (CUSTOM HOUSE HOTEL) for many years, guest can complete move in without the need to obtaining above-mentioned electron key (CUSTOM HOUSE HOTEL) from foreground.

Therefore when guest adopts virtual electronic key to move in, requisite item---the electron key in kind that existing guest room intelligence power taking gauge tap has controlled owing to having lacked guest room electric power supply, cannot realize original Energy Saving Control.

Utility model content

In order to solve in prior art hotel guest room adopt virtual electronic key to move in time, requisite item---the electron key in kind that existing guest room intelligence power taking gauge tap has controlled owing to having lacked guest room electric power supply, cannot realize the technical matters of original Energy Saving Control, the utility model provides a kind of novel hotel guest room energy-saving control system.

To achieve these goals, the technical solution adopted in the utility model is: provide a kind of hotel guest room energy-saving control system, it is characterized in that, comprising for the intelligent electronic lock of locking door and the power switch control for controlling guest room electric power supply that communicates to connect with described intelligent electronic lock;

Wherein, described intelligent electronic lock comprises door lock control circuits, data storage circuitry, door state detection circuit, human body infrared detection circuit, the first telecommunication circuit and electric actuator;

Described door lock control circuits is connected by interface circuit with described data storage circuitry, described door state detection circuit, described human body infrared detection circuit, described first telecommunication circuit and described electric actuator respectively.

Preferably, described first telecommunication circuit comprises bluetooth-communication unit and Z-Wave wireless communication unit, described bluetooth-communication unit is for receiving the input information of described intelligent terminal, and described Z-Wave wireless communication unit is used for communicating to connect with described power switch control.

Preferably, the microprocessor that described door lock control circuits is SAM_20G15 by model realizes, comprise first group of I/O pin for transmitting and receive data, second group of I/O pin, the 3rd group of I/O pin, the 4th group of I/O pin and the 5th group of I/O pin, data line and the clock cable of described first group of I/O pin and described data storage circuitry are connected; Described second group of I/O pin is connected with the control signal output terminal of described human body infrared detection circuit, to receive the result of detection input signal from described human body infrared detection circuit; Described 3rd group of I/O pin is connected with the input/output terminal able to programme of described bluetooth-communication unit, to receive the unlatching identifying information from described bluetooth-communication unit; The transmission data terminal of described 4th group of I/O pin and described Z-Wave wireless communication unit and receive data terminal and be connected, to send controlled in wireless order; Forward control input end and the Reverse Turning Control input end of described 5th group of I/O pin and described electric actuator are connected.

Preferably, described power switch control comprises second communication circuit, ON-OFF control circuit and the electronic relay for communicating to connect with described intelligent electronic lock; Described ON-OFF control circuit is communicated to connect by interface circuit with described second communication circuit and described electronic relay respectively.

Preferably, described Z-Wave wireless communication unit comprises radio frequency input/output terminal, for being connected with the second communication circuit communication of described power switch control.

Preferably, described door lock control circuits comprises the 6th group of I/O pin, and described intelligent electronic lock also comprises and the 6th of described door lock control circuits the group of clock circuit that I/O pin is connected, for providing work clock for described door lock control circuits.

Preferably, described intelligent electronic lock also comprises the power circuit be connected with described door lock control circuits, for powering for whole intelligent electronic lock.

Preferably, the chip that described human body infrared detection circuit is BISS0001 by model realizes, and the serial storage that described data storage circuitry is 24C64 by model realizes, and described electric actuator comprises the driving chip that model is BA6287F.

Preferably, described door state detection circuit is door magnetic detector.

Preferably, described door magnetic detector is made up of tongue tube and magnet, and described tongue tube is arranged on described intelligent electronic lock side, and described magnet is arranged on doorframe side.

After adopting technique scheme, the utility model can obtain following Advantageous Effects: the utility model can monitor door state by intelligent electronic lock, whether people is had in room, the virtual key mated with this electronic lock whether is there is in room, and then, intelligent electronic lock can judge whether to need to power to this guest room according to these monitoring results, thus control power switch control, there is the automatic energy saving control realized guest room, improve Consumer's Experience, the beneficial effect of economize energy, the free break-make realizing electric power controls, thus reach energy-conservation object, to solve in prior art hotel guest room when adopting virtual electronic key to move in, requisite item---the electron key in kind that existing guest room intelligence power taking gauge tap has controlled owing to having lacked guest room electric power supply, the technical matters of original Energy Saving Control cannot be realized.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

Fig. 1 is the circuit block diagram of the hotel guest room energy-saving control system that the utility model relates to;

Fig. 2 is the circuit block diagram of the intelligent electronic lock that the utility model relates to;

Fig. 3 is the circuit block diagram of the power switch control that the utility model relates to;

Fig. 4 is the circuit theory diagrams of the door lock control circuits that the utility model relates to;

Fig. 5 is the circuit theory diagrams of the bluetooth-communication unit that the utility model relates to;

Fig. 6 is the circuit theory diagrams of the Z-Wave wireless communication unit that the utility model relates to;

Fig. 7 is the circuit theory diagrams of the human body infrared detection circuit that the utility model relates to;

Fig. 8 is the circuit theory diagrams of the data storage circuitry that the utility model relates to;

Fig. 9 is the circuit theory diagrams of the electric actuator that the utility model relates to.

Embodiment

In order to solve in prior art hotel guest room adopt virtual electronic key to move in time, requisite item---the electron key in kind that existing guest room intelligence power taking gauge tap has controlled owing to having lacked guest room electric power supply, cannot realize the technical matters of original Energy Saving Control, the main technical schemes that the utility model adopts is:

A kind of hotel guest room energy-saving control system being provided, comprising for the intelligent electronic lock of locking door and the power switch control for controlling guest room electric power supply that communicates to connect with intelligent electronic lock.Wherein, intelligent electronic lock comprise door lock control circuits, for storing data information data storage circuitry, for monitor the door state in this guest room door state detection circuit, for monitor whether have people in this guest room human body infrared detection circuit, carry out opening or closing motion electric actuator for the first telecommunication circuit of transmitting data information and the steering order for sending according to the door lock control circuits that receives.

Intelligent electronic lock can monitor in door state, room the virtual key whether having in people, room and whether exist and mate with this electronic lock, and can judge whether to need to power to this guest room according to these monitoring results according to these testing results, and then control power switch control, the free break-make realizing electric power controls, thus reaches energy-conservation object.

Below in conjunction with accompanying drawing, embodiment of the present utility model is explained in detail.

It is the circuit block diagram of the hotel guest room energy-saving control system related to for the utility model shown in Fig. 1, can find out from this figure, hotel guest room energy-saving control system 10 comprises intelligent electronic lock 100 and power switch control 200, wherein, intelligent electronic lock 100 is for the door of locking hotel guest room, power switch control 200 and intelligent electronic lock 100 communicate to connect, for controlling the supply of guest room electric power.

Be the circuit block diagram of the intelligent electronic lock that utility model relates to shown in Fig. 2, intelligent electronic lock 100 comprises door lock control circuits 110, data storage circuitry 120, door state detection circuit 130, human body infrared detection circuit 140, first telecommunication circuit 150 and electric actuator 170.

Be the circuit block diagram of the power switch control that utility model relates to shown in Fig. 3, power switch control 200 comprises second communication circuit 210, ON-OFF control circuit 220 and electronic relay 230 for communicating to connect with intelligent electronic lock 100; ON-OFF control circuit 220 communicates to connect with second communication circuit 210 and electronic relay 230 respectively.The control information that second communication circuit 210 sends for receiving intelligent electronic lock 100, and this control information is transferred to ON-OFF control circuit 220, ON-OFF control circuit 220 controls opening of electronic relay 230 or closed with the control information that changing-over receives, thus controls the supply of electric power in room.

Composition graphs 2, door lock control circuits 110 is communicated to connect with data storage circuitry 120, door state detection circuit 130, human body infrared detection circuit 140, first telecommunication circuit 150 and electric actuator 170 respectively by interface circuit.Concrete, door lock control circuits 110 is realized by microprocessor, such as model is SAM_20G15, comprise first group of I/O pin for transmitting and receive data, second group of I/O pin, the 3rd group of I/O pin, the 4th group of I/O pin and the 5th group of I/O pin, wherein, first group of I/O pin is connected with the data line of described data storage circuitry 120 and clock cable respectively; Second group of I/O pin is connected with the control signal output terminal of human body infrared detection circuit 140, to receive the result of detection input signal from human body infrared detection circuit 140; 3rd group of I/O pin is connected with the input/output terminal able to programme of bluetooth-communication unit, to receive the unlatching identifying information from bluetooth-communication unit; The transmission data terminal of the 4th group of I/O pin and Z-Wave wireless communication unit and receive data terminal and be connected, to send controlled in wireless order; Forward control input end and the Reverse Turning Control input end of the 5th group of I/O pin and electric actuator 170 are connected.

First telecommunication circuit 150 comprises bluetooth-communication unit and Z-Wave wireless communication unit, and bluetooth-communication unit is for receiving the input information of intelligent terminal, i.e. virtual key identifying information, Z-Wave wireless communication unit is used for communicating to connect with power switch control 200.Concrete, Z-Wave wireless communication unit and second communication circuit 210 communicate to connect, and send controlled in wireless order by second communication circuit 210 to power switch control 200.

Be the circuit theory diagrams of the door lock control circuits 110 that the utility model relates to shown in Fig. 4, door lock control circuits 110 can be realized by SAM_20 series microprocessor, and in the present embodiment, being preferably model is the microprocessor of SAM_20G15.Performance about SAM_20G15 is existing known technology, repeats no more here.

The circuit theory diagrams of the bluetooth-communication unit that the utility model relates to as shown in Figure 5, bluetooth-communication unit can be realized by common BT_Module, composition graphs 4, door lock control circuits 110 is realized by SAM_20G15 microprocessor, 3rd group of I/O pin of SAM_20G15 microprocessor, namely two I/O pins (No. 17 pins and No. 20 pins) respectively with the input/output terminal BT_Link able to programme of bluetooth-communication unit, BT_Connect connects, receive the input information from bluetooth-communication unit, the transmitting and receiving data end RXD of bluetooth-communication unit, TXD is connected with outside communication of mobile terminal.

The circuit theory diagrams of the Z-Wave wireless communication unit that the utility model relates to as shown in Figure 6, Z-Wave wireless communication unit is connected with door lock control circuits 110 by serial communication interface circuit, and the controlled in wireless order sent by door lock control circuits 110 sends to power switch control 200 by data output end (Z RXD).Concrete, the chip that Z-Wave wireless communication unit is ZM3102N by model realizes, its radio frequency input/output terminal RF is used for communicating to connect with power switch control 200, its send data terminal TXD and receive data terminal RXD respectively with the 4th group of I/O pin of SAM_20G15 microprocessor, namely No. 7 I/O pins are connected with No. 8 I/O pins.ZM3102N chip is a low cost, simple for structure, low-power consumption, and reliability is high, the both-way communication chip that is applicable to closely networking, and its detailed principle of work has been known technology, repeats no more here.

Door lock control circuits 110 can also be communicated to connect by other wired or wireless modes and door state detection circuit 130 and human body infrared detection circuit 140.Or this door lock control circuits 110 can also be communicated to connect by inner input/output end port mode and door state detection circuit 130 and human body infrared detection circuit 140.Wherein, wired mode comprises RS-485, RS-232, Ethernet etc.General wired data communication mode; Radio connection comprises the general wireless data communication modes such as 4G/LTE, 3G/WCDMA/CDMA2000/TD-SCDMA, 2G/GRPS/EVDO, Wifi, Z-Wave, Zigbee, Enocean, bluetooth.Certainly, it is not limited to this.This door state detection circuit 130 and human body infrared detection circuit 140 can be communicated to connect by common connected mode each other.

Be illustrated in figure 7 the circuit theory diagrams of human body infrared detection circuit, human body infrared detection circuit 140 preferably has the transducing signal process integrated circuit of superior performance, the integrated chip being BISS0001 by model realizes, inside is integrated with transducing signal pre-process circuit, operational amplifier, comparer, counter circuit etc., effectively can process transducing signal.Concrete, composition graphs 4, the control signal output terminal VO of BISS0001 chip and second group of I/O pin of SAM_20G15 microprocessor, namely No. 2 I/O pins are connected, for being transmitted control signal to SAM_20G15 microprocessor by control signal output terminal VO.Its specific works principle is known technology, repeats no more here.

Human body infrared detection circuit 140 is for monitoring in this guest room whether have people, and its quantity can be one, also can be multiple, and sends signal power switch control 200 according to monitoring result.The model of this human body infrared detection circuit 140 can be the human body infrared detector of common type number, the detector of the models such as such as HM01, YAB-T201.The quantity of human body infrared detection circuit 140 can be one, also can be multiple, adopts multiple human body infrared detection circuit 140 that client can be made regardless of which region in guest room, all can be monitored to.

Monitoring result for monitoring the door state in this guest room, and is sent a signal to power switch control 200 and human body infrared detection circuit 140 by this door state detection circuit 130, and the state of this door comprises and opening or closing.Second communication circuit 210 and this intelligent electronic lock 100 of power switch control 200 communicate to connect to receive the control information that the first telecommunication circuit 150 sends.Door state detection circuit 130 can adopt a magnetic detector, and preferably, door magnetic detector is made up of tongue tube and magnet, and tongue tube is arranged on the side at intelligent electronic lock 100 place, and magnet is arranged on the side of doorframe.Certainly, it is not limited to this, and other common apparatus also can be adopted to detect door state.

The circuit theory diagrams of data storage circuitry shown in Fig. 8, data storage circuitry 120 is preferably serial storage, in the present embodiment, the serial storage that data storage circuitry 120 is 24C64 by model realizes, model is data line SDA and the clock cable SCL formation universal serial bus of 24C64 serial storage, can transmit and receive data.Concrete, composition graphs 4, the microprocessor that door lock control circuits 110 is SAM_20G15 by model realizes, the data line SDA of 24C64 serial storage and first group of I/O pin of SAM_20G15 microprocessor, namely 13 number pins connect, its clock cable SCL is connected with No. 14 Clock Signal pin of SAM_20G15 microprocessor, thus, transmits and receive data between 24C64 serial storage and SAM_20G15 microprocessor by data line SDA and clock cable SCL.

Data storage circuitry 120 is for storing data information, concrete, such as, for storing the data message can transferred for door lock control circuits 110, the correlation parameter information of door lock state.

The circuit theory diagrams of the electric actuator 170 that the utility model relates to shown in Fig. 9, comprise the driving chip that model is BA6287F, the forward control input end FIN of BA6287F driving chip and Reverse Turning Control input end RIN respectively with the 5th group of I/O pin of the SAM_20G15 microprocessor of door lock control circuits 110, namely No. 45 I/O pins are connected with No. 46 I/O pins, SAM_20G15 microprocessor is transmitted control signal by I/O pin, control the action of electric actuator 170, because this control procedure is known technology, here repeat no more.

In addition, in preferred embodiment, door lock control circuits (110) comprises the 6th group of I/O pin, intelligent electronic lock 100 also comprises and the 6th of door lock control circuits 110 the group of clock circuit that I/O pin is connected 180, for providing work clock for door lock control circuits 110.Intelligent electronic lock 100 also comprises the power circuit 190 be connected with door lock control circuits 110, for powering for whole intelligent electronic lock 100.

During work, the bluetooth-communication unit of the first telecommunication circuit 150 establishes a communications link with the intelligent terminal being provided with virtual key, and carry out exchanges data with this intelligent terminal, identify this virtual key when door lock control circuits 110 and after authentication success, transmit control signal to electric actuator 170.Electric actuator 170 is opened according to this control signal, the Z-Wave wireless communication unit of the first telecommunication circuit 150 sends door-lock opening signal to the second communication circuit 210 of power switch control 200, the ON-OFF control circuit 220 of power switch control 200 receives door lock opening signal, control electronic relay 230 to close, electric power system is connected, and power for this guest room, this door lock control circuits 110 transmits control signal to door state detection circuit 130 by the first telecommunication circuit 150 simultaneously, this door state detection circuit 130 is made to start to monitor the on off state of this door.When monitoring door and opening, the status signal that power switch control 200 is opened according to the door received, keeps electronic relay 230 to close.When door state detection circuit 130 monitors door closedown, transmit control signal to this human body infrared detection circuit 140, this human body infrared detection circuit 140 opens infrared monitoring according to this control signal, and to monitor in this guest room, whether someone exists.

When not monitoring someone and exist within the predetermined period T1 time, transmit control signal to this door lock circuit circuit 110, make it monitor in this preset range and whether there is this virtual key, if exist, then send result of that probe to power switch control 200, remain guest room and power, if not, then sending result of that probe makes the electronic relay of this power switch control 200 disconnect to power switch control 200, closes the electric power supply to this guest room.When at predetermined period T1 monitoring in time to when having people to exist, send have people to exist signal to this power switch control 200, remain this guest room and power.

In the present embodiment, this virtual key is the program be installed on intelligent terminal, and this intelligent terminal can be PAD, mobile phone etc.

The utility model can monitor door state by intelligent electronic lock, whether people is had in room, the virtual key mated with this electronic lock whether is there is in room, and then, intelligent electronic lock can judge whether to need to power to this guest room according to these monitoring results, thus control power switch control, there is the automatic energy saving control realized guest room, improve Consumer's Experience, the beneficial effect of economize energy, the free break-make realizing electric power controls, thus reach energy-conservation object, to solve in prior art hotel guest room when adopting virtual electronic key to move in, requisite item---the electron key in kind that existing guest room intelligence power taking gauge tap has controlled owing to having lacked guest room electric power supply, the technical matters of original Energy Saving Control cannot be realized.

By reference to the accompanying drawings embodiment of the present utility model is described above, but the utility model is not limited to above-mentioned embodiment, such as, realize data storage circuitry, human body infrared detection circuit, etc. chip be not limited to listed by above embodiment model, can also be that other can realize the family chip of basic identical function.Above-mentioned embodiment is only schematic; instead of it is restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; do not departing under the ambit that the utility model aim and claim protect; also can make a lot of form, these all belong within protection of the present utility model.

Claims (10)

1. a hotel guest room energy-saving control system, it is characterized in that, comprising for the intelligent electronic lock (100) of locking door and the power switch control (200) for controlling guest room electric power supply that communicates to connect with described intelligent electronic lock (100);

Wherein, described intelligent electronic lock (100) comprises door lock control circuits (110), data storage circuitry (120), door state detection circuit (130), human body infrared detection circuit (140), the first telecommunication circuit (150) and electric actuator (170);

Described door lock control circuits (110) is connected by interface circuit with described data storage circuitry (120), described door state detection circuit (130), described human body infrared detection circuit (140), described first telecommunication circuit (150) and described electric actuator (170) respectively.

2. hotel guest room energy-saving control system as claimed in claim 1, it is characterized in that, described first telecommunication circuit (150) comprises bluetooth-communication unit and Z-Wave wireless communication unit, described bluetooth-communication unit is for receiving the input information of described intelligent terminal, and described Z-Wave wireless communication unit is used for communicating to connect with described power switch control (200).

3. hotel guest room energy-saving control system as claimed in claim 2, it is characterized in that, the microprocessor that described door lock control circuits (110) is SAM_20G15 by model realizes, comprise first group of I/O pin for transmitting and receive data, second group of I/O pin, the 3rd group of I/O pin, the 4th group of I/O pin and the 5th group of I/O pin, data line and the clock cable of described first group of I/O pin and described data storage circuitry (120) are connected; Described second group of I/O pin is connected with the control signal output terminal of described human body infrared detection circuit (140), to receive the result of detection input signal from described human body infrared detection circuit (140); Described 3rd group of I/O pin is connected with the input/output terminal able to programme of described bluetooth-communication unit, to receive the unlatching identifying information from described bluetooth-communication unit; The transmission data terminal of described 4th group of I/O pin and described Z-Wave wireless communication unit and receive data terminal and be connected, to send controlled in wireless order; Forward control input end and the Reverse Turning Control input end of described 5th group of I/O pin and described electric actuator (170) are connected.

4. hotel guest room energy-saving control system as claimed in claim 3, it is characterized in that, described power switch control (200) comprises second communication circuit (210), ON-OFF control circuit (220) and electronic relay (230) for communicating to connect with described intelligent electronic lock (100); Described ON-OFF control circuit (220) is communicated to connect by interface circuit with described second communication circuit (210) and described electronic relay (230) respectively.

5. hotel guest room energy-saving control system as claimed in claim 4, it is characterized in that, described Z-Wave wireless communication unit comprises radio frequency input/output terminal, for communicating to connect with the second communication circuit (210) of described power switch control (200).

6. hotel guest room energy-saving control system as claimed in claim 1, it is characterized in that, described door lock control circuits (110) comprises the 6th group of I/O pin, described intelligent electronic lock also comprises and the 6th of described door lock control circuits (110) the group of clock circuit that I/O pin is connected (180), for providing work clock for described door lock control circuits (110).

7. hotel guest room energy-saving control system as claimed in claim 1, it is characterized in that, described intelligent electronic lock (100) also comprises the power circuit (190) be connected with described door lock control circuits (110), for being whole intelligent electronic lock (100) power supply.

8. the hotel guest room energy-saving control system as described in claim 1-7 any one, it is characterized in that, the chip that described human body infrared detection circuit (140) is BISS0001 by model realizes, the serial storage that described data storage circuitry (120) is 24C64 by model realizes, and described electric actuator (170) comprises the driving chip that model is BA6287F.

9. the hotel guest room energy-saving control system as described in claim 1-7 any one, is characterized in that, described door state detection circuit (130) is door magnetic detector.

10. hotel guest room energy-saving control system as claimed in claim 9, it is characterized in that, described door magnetic detector is made up of tongue tube and magnet, and described tongue tube is arranged on described intelligent electronic lock (100) side, and described magnet is arranged on doorframe side.