CN115981197A - Hotel guest room energy-saving control method and hotel guest room energy-saving control system - Google Patents

Abstract

The invention discloses an energy-saving control method for hotel guest rooms, which comprises the following steps that a door entry sensor detects that a person enters a guest room, and sends information that the person enters the room to a master control circuit; the master control circuit controls the switch circuit to be communicated so that the power supply power supplies power to the room; the main induction controller and the auxiliary induction controller monitor whether the human body in the guest room and the toilet has information in real time and transmit the information to the master control circuit; the master control circuit controls the switching circuit to be switched off according to the information that no person exists in the guest room and the toilet, so that the power supply is used for powering off the room; the invention also discloses a hotel guest room energy-saving control system. This application is through the circular telegram foundation that the monitoring information of entering door inductor got into the guest room as the people, and the monitoring information of rethread main induction controller and vice induction controller is as the outage foundation that the people left the guest room, and the break-make of switching on the source in so can intelligent realization guest room, the people incoming telegram is passed through, and the energy-conserving effect of power failure is walked to the people.

Description

Hotel guest room energy-saving control method and hotel guest room energy-saving control system

Technical Field

The invention relates to the technical field of hotel power consumption energy conservation, in particular to a hotel guest room energy conservation control method and a hotel guest room energy conservation control system.

Background

At present, most hotel rooms adopt a card-inserting power-taking switch as a room master control switch, and the power-taking switch is connected with a room master power supply after the card is inserted. Some hotels start to use electronic coded locks, but cannot be locked without cards, and still need to provide electricity taking cards, so that self-service or front-desk-free guard check-in cannot be realized.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a hotel room energy-saving control method and a hotel room energy-saving control system.

The invention discloses a hotel guest room energy-saving control method which comprises the following steps:

the door sensor detects that a person enters a guest room and sends information that the person enters the room to the master control circuit;

the master control circuit controls the switch circuit to be communicated so that the power supply supplies power to the room;

the main induction controller and the auxiliary induction controller monitor whether the human body in the guest room and the toilet has information in real time and transmit the information to the master control circuit;

the master control circuit controls the switch circuit to be switched off according to the information that no person exists in the guest room and the toilet, so that the power supply is used for powering off the room.

According to an embodiment of the present invention, the method further comprises the steps of:

the master control circuit sends the room number of the guest room and the information about the existence of people to the feedback processor;

the feedback processor forms a guest room service suggestion according to the guest room number and the information of the existence or nonexistence of the human body and displays the guest room service suggestion on the display;

and the service personnel performs the room service according to the room service suggestion.

According to one embodiment of the invention, the room service includes one or more of sanitation cleaning, room grooming, and linen changing.

According to an embodiment of the present invention, the method further comprises the steps of:

the master control circuit sends the duration information of the effective information of the monitoring main body to the feedback processor;

and the feedback processor judges the abnormal condition according to the duration information of the effective information of the monitoring main body, and if the judgment is yes, the display displays the duration information of the effective information of the monitoring main body and the reminding information of the abnormal condition.

According to an embodiment of the invention, the abnormal situation reminding information includes a toilet fall abnormal situation.

The invention discloses a hotel room energy-saving control system which is used for executing the hotel room energy-saving control method.

The beneficial effect of this application lies in: the monitoring information of the door sensor is used as the power-on basis for people to enter the guest room, and the monitoring information of the main sensing controller and the auxiliary sensing controller is used as the power-off basis for people to leave the guest room, so that the energy-saving effects of switching on and off of a power source in the guest room, power on and off of people and power off of people can be intelligently realized. And the electronic coded lock of the existing guest room door is matched, so that the function of guest self-check-in can be realized, and the management cost is saved. In addition, the information about the existence of the guest room can be fed back to the service personnel, guest room service can be flexibly performed, and service perception is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a control block diagram of an energy-saving control system for hotel rooms in an embodiment;

FIG. 2 is a schematic block diagram of a card-free power-taking switch in the embodiment;

FIG. 3 is a schematic block diagram of a master induction controller in an embodiment;

FIG. 4 is a functional block diagram of a secondary sense controller;

FIG. 5 is a schematic block diagram of a feedback device in an embodiment;

fig. 6 is a flowchart of an energy-saving control method for hotel rooms in the embodiment.

Detailed Description

In the following description, for purposes of explanation, numerous implementation details are set forth in order to provide a thorough understanding of the various embodiments of the present invention. It should be understood, however, that these implementation details are not to be interpreted as limiting the invention. That is, in some embodiments of the invention, such practical details are not necessary. In addition, for the purpose of simplifying the drawings, certain well-known and conventional structures and components are shown in the drawings in a simplified schematic manner.

It should be noted that all the directional indicators in the embodiments of the present invention, such as up, down, left, right, front, and back, 8230, are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture as shown in the drawings, and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to the first, the second, etc. in the present invention are only used for description purposes, do not particularly refer to order or sequence, and do not limit the present invention, but only distinguish the elements or operations described in the same technical terms, and are not understood to indicate or imply relative importance or implicitly indicate the number of the indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

In order to further understand the contents, features and effects of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings:

example one

Referring to fig. 1 and 2, fig. 1 is a control block diagram of a hotel room power saving induction control system in an embodiment, and fig. 2 is a schematic block diagram of a card-free power-taking switch in the embodiment. The hotel guest room electricity-saving induction control system in the embodiment comprises a card-free electricity-taking switch 1, a main induction controller 2 and an auxiliary induction controller 3. The card-free power supply switch 1 is arranged at the door of the guest room; the card-free electricity taking switch 1 comprises a power supply source 11, an entrance sensor 12, a master control circuit 13 and a switch circuit 14, wherein the master control circuit 13 is respectively electrically connected with the power supply source 11, the entrance sensor 12 and the switch circuit 14, the power supply source 11 is electrically connected with the switch circuit 14, and the entrance sensor 12 is used for detecting whether a person enters a guest room; the main induction controller 2 is in communication connection with a master control circuit 13; the main induction controller 2 is arranged in a guest room and used for monitoring whether a person exists in the guest room; the auxiliary induction controller 3 is in communication connection with the master control circuit 13; the auxiliary sensing controller 3 is installed in the guest room washroom and used for monitoring whether a person exists in the guest room washroom. The master control circuit 13 is connected with the switch circuit 14 according to a signal sent by the door entry sensor 12 that a person enters a room, so that the power supply 11 supplies power to the guest room, and is connected with the switch circuit 14 according to a signal sent by the main induction controller 2 and the auxiliary induction controller 3 that no person exists, so that the power supply 11 cuts off the power of the guest room.

When a guest enters a room through a door, the guest inevitably passes through the position of the card-free electricity-taking switch 1 at the door opening of the guest, at the moment, the door-entering sensor 12 monitors a signal that the guest enters the room and transmits the signal to the master control circuit 13, the master control circuit 13 controls the switch circuit 14 to be closed, and the power supply 11 supplies power to the room. And after the people entered the room, at this moment, take over human body monitoring by main induction controller 2 and vice induction controller 3, whether main induction controller 2 and vice induction controller 3 initiatively monitor guest room and bathroom respectively have the people to have the signal, and send the signal regularly for control circuit 13, control circuit 13 receives the people who main induction controller 2 and vice induction controller 3 any send and to have the signal all can maintain switch circuit 14 closed state, only when control circuit 13 receives main induction controller 2 and vice induction controller 3 both sent the signal that the human body does not exist, control circuit 13 just can control switch circuit 14 disconnection, power supply 11 cuts off the room power. In specific application, the number and the installation positions of the main sensing controller 2 and the auxiliary sensing controller 3 can be flexibly set according to the sizes of different hotel rooms and toilets, and the size is not limited here.

Therefore, through the cooperation of the card-free power-taking switch 1, the main induction controller 2 and the auxiliary induction controller 3, automatic power supply of a guest room when a person enters the guest room and automatic power off management of a guest room when the person leaves the guest room can be realized, and the electricity consumption waste of the guest room is avoided. And moreover, the electronic coded lock matched with the existing guest room door can realize self-help guest check-in and save the management cost.

Specifically, the power supply 11 and the switch circuit 14 may be conventional power supply circuits and switch circuits, and are not limited herein. Wherein the power supply 11 is also the power supply of the card-free power switch 1. The door sensor 12 in this embodiment is a radar sensor or an infrared sensor; specifically, the door sensor 12 may be implemented by using an existing radar or infrared sensing chip, which is not described herein any more, and the master control circuit 13 may be implemented by using an integrated control chip in an existing control circuit, which can implement simple functions of information receiving, logic determination and instruction sending, which are not described herein any more.

Referring to fig. 3 and 4 together, fig. 3 is a schematic block diagram of a main sensing controller in an embodiment, and fig. 4 is a schematic block diagram of a sub sensing controller. Further, the main induction controller 2 includes a first power supply circuit 21, a first control circuit 22, a first human body inductor 23, and a first communicator 24; the card-free power-taking switch 1 further comprises a main communicator 15 electrically connected with the master control circuit 13; the first control circuit 22 is electrically connected to the first power supply circuit 21, the first human body sensor 23, and the first communicator 24, respectively, and the first communicator 24 is connected to the main communicator 15 in a wireless communication manner; the first human body sensor 23 is used to monitor whether a person exists in a room of the guest room. The secondary sensing controller 3 comprises a second power circuit 31, a second control circuit 32, a second human body sensor 33 and a second communicator 34, wherein the second control circuit 32 is respectively electrically connected with the second power circuit 31, the second human body sensor 33 and the second communicator 34, and the second communicator 34 is in wireless communication connection with the main communicator 15; the second human body sensor 33 is used for monitoring whether a person exists in the guest room toilet.

Through first communicator 24 and the wireless communication connection of main communicator 15, second communicator 34 and the setting of main communicator 15 wireless communication connection, make no card get electric switch 1 can form the wireless communication relation with main induction controller 2 and vice induction controller 3 respectively, so, the nimble setting of main induction controller 2 and vice induction controller 3 position of can being convenient for, make the transformation of can be more convenient on current hotel guest room circuit of hotel guest room economize on electricity induction control system in this embodiment, during the construction, mainly carry out no card and get electric switch 1's replacement, main induction controller 2 and vice induction controller 3 need not additionally to lay communication line, the construction is simple, and is low in cost.

Specifically, the first power circuit 21 is used for supplying power to the main sensing controller 2, and after the first human body sensor 23 detects a signal indicating whether a person is present in a room, the first control circuit 22 periodically transmits the signal to the main control circuit 13 through the cooperation of the first communicator 24 and the main communicator 15, for example, once in 10 min. The first power circuit 21 and the first control circuit 22 may adopt an existing power supply and control circuit, which are not described herein again, wherein the periodic transmission function may be implemented by a control chip integrated in the first control circuit 22. The first human body sensor 23 is a radar presence sensor or an infrared presence sensor. In specific application, the radar presence sensor or the infrared presence sensor can adopt an existing sensing chip with radar or infrared human body presence sensing function. It is worth to be noted that, compared to the common radar sensor and the infrared sensor, the radar presence sensor and the infrared presence sensor can monitor the presence of a human body in an active state and can also monitor the presence of the human body in a static state or a micro-motion state. When a person is in a guest room, an active state, a micro-motion state or a static state can exist, so that the first human body sensor 23 is set as a radar existence sensor or an infrared existence sensor, and the condition that the person cannot be monitored in the room can be ensured to be avoided.

The second power circuit 31 is used for supplying power to the power supply of the secondary sensing controller 3, and after the second human body sensor 33 detects a signal indicating whether a human body exists in the restroom, the second control circuit 32 is periodically transmitted to the main control circuit 13 through the cooperation of the second communicator 34 and the main communicator 15, for example, once transmission for 10 min. The second power circuit 31 and the second control circuit 32 may adopt existing power supplies and control circuits, which are not described herein again, and the periodic sending function may be implemented by a control chip integrated in the second control circuit 32. In this embodiment, the second human body sensor 33 is a radar presence sensor, an infrared presence sensor, a radar sensor, or an infrared sensor, and the specific implementation can be found in the foregoing. It can be understood that, the human body can be in different states in the different regions of guest room bathroom, then use at the environment of human body relative stillness and have the inductor, activity space such as bathroom then can use ordinary inductor, because the human body has the inductor cost higher, need set up when two or more than two inductors in great bathroom the inside, can set up the radar respectively according to actual conditions and have the inductor, infrared existence inductor, radar inductor or infrared inductor, when satisfying bathroom perception demand, reduce the cost as far as possible.

Preferably, the master control circuit 13 turns off the switch circuit 14 according to the unmanned signal sent by the main induction controller 2 and the auxiliary induction controller 3 twice continuously, or the master control circuit 13 turns off the switch circuit 14 in a delayed manner, for example, delayed by 5min, according to the unmanned signal sent by the main induction controller 2 and the auxiliary induction controller 3. The switch circuit 14 is turned off by continuously confirming that no person exists for two times, so that misjudgment can be avoided, and the switch circuit 14 is turned off in a delayed manner through a signal, so that perception can be improved when a guest forgets that something suddenly returns when going out. In addition, some human body existence sensors need a certain time for sensing human body existence information in a certain area, and the time delay disconnection is also reserved time for continuously sending the unmanned existence signal twice.

Referring also to fig. 5, fig. 5 is a schematic block diagram of a feedback device in an embodiment. Furthermore, the hotel room power saving induction control system in the embodiment further comprises a feedback device 4; the feedback device 4 is in wireless communication connection with the master control circuit 13. By means of the feedback device 4, the hotel attendant can be made aware of the presence of the person in the room to perform room services, such as sanitation cleaning.

Specifically, the feedback device 4 has a display 41, a third communicator 42 and a feedback processor 43, and the feedback processor 43 is electrically connected to the display 41 and the third communicator 42, respectively; the third communicator 42 is in wireless communication with the master communicator 15; the feedback processor 43 receives the room number and the information about the existence of the guest sent by the master control circuit 13 through the main communicator 15 and the third communicator 42, and performs the information about the room number, the information about the existence of the guest, the information about whether cleaning is recommended, and the information about whether there is an abnormal condition on the display 41 after the processing. When the first human body sensor 23 and the second human body sensor 33 do not monitor the human body presence signal, the power supply 11 stops the power supply to the guest room, at this time, the master control circuit 13 also sends the guest room number and the information that the guest does not exist to the feedback processor 43 remotely through the wireless communication relationship between the main communicator 15 and the third communicator 42, and the feedback processor 43 analyzes and judges after receiving the signal, gives a suggestion whether the cleaning can be performed, and displays the suggestion on the display 41 so as to facilitate the further processing of the service personnel. The main communicator 15, the first communicator 24, the second communicator 34 and the third communicator 42 in this embodiment may all use conventional wireless communication chips, and are not described herein again. The feedback processor 43 may employ an existing chip for processing the analysis. Certainly, in specific applications, the APP can be implemented by a built-in APP of a device with a display, such as a smart phone, and is not described here again.

Preferably, the master control circuit 13 calculates the effective information duration of the monitoring subject while receiving the human presence signal sent by the first human body sensor 23 or/and the second human body sensor 33, and feeds the calculated effective information duration of the monitoring subject back to the feedback processor 43. The duration of the effective information of the monitoring subject is the duration that the first human body sensor 23 or the second human body sensor 33 continuously sends the human presence information, for example, when a human moves in a guest room for 2 hours, only the first human body sensor 23 in the guest room can monitor the human presence signal, and the duration of the effective information of the monitoring subject of the first human body sensor 23 is 2 hours. By monitoring the feedback of the duration of the main effective information, the feedback processor 43 can remind the information of the abnormal condition. For example, when the duration of the main body valid information of the second human body sensor 33 is 3 hours, it indicates that a person has been in a toilet for 3 hours, and it is not normal in general situations, so that there is a risk that the person falls down and cannot move in the toilet, and a human attention is needed, and for example, when the duration of the main body valid information of the first human body sensor 23 is 72 hours, it is not normal, and a flexible process is needed.

Example two

Referring to fig. 6 again, fig. 6 is a flowchart of an energy saving control method for hotel rooms in the embodiment, where the energy saving control method for hotel rooms in the embodiment is implemented based on the energy saving control system for hotel rooms in the first embodiment, and specifically includes the following steps:

s1, an entrance sensor 12 detects that a person enters a room of a guest room and sends information that the person enters the room to a master control circuit 13;

s2, the master control circuit 13 controls the switch circuit 14 to be communicated, so that the power supply 11 supplies power to the room;

s3, the main sensing controller 2 and the auxiliary sensing controller 3 monitor whether information exists in the guest room and the human body in the toilet in real time and transmit the information to the master control circuit 13;

and S4, the master control circuit 13 controls the switching circuit 14 to be switched off according to the information that no person exists in the guest room and the toilet, so that the power supply 11 is powered off for the room.

The monitoring information of the door sensor 12 is used as a power-on basis for people to enter the guest room, and the monitoring information of the main sensing controller 2 and the auxiliary sensing controller 3 is used as a power-off basis for people to leave the guest room, so that the energy-saving effects of switching on and off of a power source in the guest room, power on and off of people and power off of people can be intelligently realized. And the electronic coded lock of the existing guest room door is matched, so that the function of guest self-check-in can be realized, and the management cost is saved. The specific implementation process of the steps S1 to S4 can be referred to in the first embodiment, and is not described herein again.

Preferably, the energy-saving control method for hotel rooms in the embodiment further includes the following steps:

s5, the master control circuit 13 sends the room number and the information about the existence of the guest room to the feedback processor 43;

s6, the feedback processor 43 forms a guest room service suggestion according to the guest room number and the information of the existence of the human body, and displays the guest room service suggestion on the display 41;

and S7, performing room service by service personnel according to the room service suggestion.

It can be understood that the services of room cleaning, bed sheet arrangement, cloth grass replacement and the like are generally carried out when the guest is not in the room so as to avoid disturbance. The information about the existence of people in the guest room is fed back to the service staff through the master control circuit 13, guest room service can be flexibly carried out, and service perception is improved. The room service in this embodiment includes one or more of sanitation cleaning, room preparation, and linen changing. The specific implementation process of steps S5 to S7 can be referred to the content in the first embodiment, and is not described herein again.

Preferably, the energy-saving control method for hotel rooms in the embodiment further includes the following steps:

in step S5, the master control circuit 13 further sends the duration information of the effective information of the monitoring subject to the feedback processor 43;

in step S6, the feedback processor 43 further performs an abnormal situation determination based on the monitoring subject valid information duration information, and if the determination is yes, the display 41 displays the monitoring subject valid information duration information and the abnormal situation notification information.

It can be understood that no person in the guest room can perform guest room service, and the abnormal condition can also exist in the guest room for a long time. The feedback of the time length information of the effective information of the main body is monitored in the implementation, so that the long-time manned conditions of the guest room and the toilet are monitored, the abnormal condition early warning is carried out, and the pre-arranged plan is timely made. The abnormal condition reminding information in the embodiment includes a falling abnormal condition of the toilet. Preferably, the abnormal situation reminding information further includes a situation that a person is in a room for a long time, and the specific process can refer to the content in the first embodiment, which is not described herein again.

In conclusion, the monitoring information of the door sensor 12 is used as the power-on basis for the person to enter the guest room, and the monitoring information of the main induction controller 2 and the auxiliary induction controller 3 is used as the power-off basis for the person to leave the guest room, so that the energy-saving effects of switching on and off the power source in the guest room, switching on and off the electricity when the person comes and switching off the electricity when the person goes can be intelligently realized. And the electronic coded lock of the existing guest room door is matched, so that the function of guest self-check-in can be realized, and the management cost is saved. In addition, the existence condition and the existence time of personnel in the guest room and the toilet are fed back to carry out guest room service or abnormal condition processing, and service perception is convenient to improve.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (6)

1. A hotel guest room energy-saving control method is characterized by comprising the following steps:

the door sensor (12) detects that a person enters a guest room and sends information that the person enters the room to the master control circuit (13);

the master control circuit (13) controls the switch circuit (14) to be communicated, so that the power supply (11) supplies power to a room;

the main sensing controller (2) and the auxiliary sensing controller (3) monitor whether information exists in a guest room and a human body in a toilet in real time and transmit the information to the master control circuit (13);

the master control circuit (13) controls the switch circuit (14) to be switched off according to the information that no person exists in the guest room and the toilet, so that the power supply (11) cuts off the power of the room.

2. The hotel room energy-saving control method according to claim 1, further comprising the steps of:

the master control circuit (13) sends the room number and the information about the existence of people to the feedback processor (43);

the feedback processor (43) forms a guest room service suggestion according to the guest room number and the information of the existence of the human body, and displays the guest room service suggestion on the display (41);

and the service personnel performs room service according to the room service suggestion.

3. The hotel room energy saving control method as claimed in claim 2, wherein the room service comprises one or more of sanitation cleaning, room arrangement and linen changing.

4. The hotel room energy-saving control method according to claim 1, further comprising the steps of:

the master control circuit (13) sends the effective information duration information of the monitoring main body to the feedback processor (43);

and the feedback processor (43) judges the abnormal condition according to the effective information duration information of the monitoring main body, and if the judgment is yes, the display (41) displays the effective information duration information of the monitoring main body and the abnormal condition reminding information.

5. The hotel room energy-saving control method as claimed in claim 4, wherein the abnormal situation reminding information comprises a toilet fall abnormal situation.

6. A hotel room energy saving control system, which is used for executing the hotel room energy saving control method of any one of claims 1 to 5.

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