CN106815946B - Distributed bathing system and method thereof - Google Patents

Abstract

The invention discloses a distributed bathing system and a method thereof, wherein the system comprises a plurality of bathhouse centralized control cabinets in distributed layout, each bathhouse centralized control cabinet comprises a waterproof cabinet body, a control circuit board is arranged in each bathhouse centralized control cabinet, a microprocessor is arranged on each control circuit board and connected with an electronic switch of the cabinet body, and the microprocessor is used for controlling the electronic switch of the cabinet body to be switched on and off and sending a current switching state signal of the electronic switch of the cabinet body to a server; the mobile terminal is used for sending a cabinet electronic switch password preset by a user and user attribute information to the server, and the server generates a reservation list of the dynamic queue number and sends the reservation list to the mobile terminal according to a preset time interval; and the microprocessor is also used for receiving the cabinet electronic switch password sent by the corresponding user and transmitting the cabinet electronic switch password to the server when the dynamic queue number is 0, comparing the cabinet electronic switch password with the cabinet electronic switch password stored in the server and preset by the user, and if the cabinet electronic switch password and the cabinet electronic switch password are consistent, receiving the cabinet electronic switch opening command sent by the server and responding.

Description

Distributed bathing system and method thereof

Technical Field

The invention belongs to the field of electronic equipment, and particularly relates to a distributed bathing system and a method thereof.

Background

Most of the traditional water control machine charging is flow charging, and when the water flow speed changes, the flow charging generally cannot be accurately and simultaneously responded with the flow change, so that the problems that most of the flow charging is insensitive to charging and the like exist. As another disadvantage, the output signal of the existing water control machine is an analog signal, and after the analog signal is often transmitted to the central control machine at a distance, the analog signal is greatly attenuated, which causes inaccurate charging. Because of the current water accuse machine is the card-swiping type of response and goes out water, when the water card is lost, the condition that the card was stolen to be swiped can appear, also often takes place to appear duplicating the card, so can influence operator's income. Meanwhile, the shower position in the bathroom is usually far less than the total number of people in the dormitory, so that people who need to take a bath in a certain period of time are too many, and people have to wait in line, and much time is wasted.

In addition, the bathhouse wardrobe in the existing bathing system generally adopts mechanical locks to perform safety protection on the wardrobe, and each mechanical lock needs a key matched with the mechanical lock to open the bathhouse wardrobe. However, if the key is not properly stored in the bathing process of the user, the situation that the key is lost is easy to occur, so that the bathhouse wardrobe is difficult to open, and the bathhouse wardrobe can be opened only after the bathhouse wardrobe is damaged, so that the use efficiency of the bathhouse wardrobe is reduced, and the safety of the bathhouse wardrobe is also reduced.

Disclosure of Invention

In order to solve the drawbacks of the prior art, a first object of the present invention is to provide a distributed bathing system.

The invention discloses a distributed bathing system, which comprises:

the system comprises a plurality of bathhouse centralized control cabinets in distributed layout, wherein each bathhouse centralized control cabinet comprises a waterproof cabinet body, a control circuit board is installed in each waterproof cabinet body, a microprocessor is arranged on each control circuit board and connected with a cabinet body electronic switch, the microprocessor is used for controlling the opening and closing of the cabinet body electronic switch and sending a current opening and closing state signal of the cabinet body electronic switch to a server, and a cabinet body electronic switch password preset by a user is stored in the server;

the server is also connected with a mobile terminal, the mobile terminal is used for sending the cabinet electronic switch password and the user attribute information preset by the user to the server, and the server generates a reservation list of the dynamic queue number and sends the reservation list to the mobile terminal according to a preset time interval; wherein, the dynamic queue number represents the real-time position of the user in the bathing queue according to the bathing sequence;

the microprocessor is also used for receiving a cabinet electronic switch password sent by a corresponding user and transmitting the cabinet electronic switch password to the server when the dynamic queue number is 0, comparing the cabinet electronic switch password with a cabinet electronic switch password stored in the server and preset by the user, and if the two passwords are consistent, receiving a cabinet electronic switch opening command sent by the server and responding; otherwise, the microprocessor does not act.

According to the invention, the bathing room centralized control cabinet is associated with the mobile terminal and the server, and through information interaction between the server and the mobile terminal, the mobile terminal sends the reservation information containing the electronic switch password of the cabinet body to the server, and then the server receives the reservation information and feeds back the reservation success information to the mobile terminal, so that the bathing time of a user who arranges a queue outside the bathing room is saved, the queuing time of the user is saved through network reservation, and the working efficiency of the whole bathing room is improved;

the invention also utilizes the server to receive the cabinet electronic switch password sent by the microprocessor and compare the password with the cabinet electronic switch password stored in the server, and when the password is consistent with the password, the server sends a command for opening the cabinet electronic switch to the microprocessor, so that the opening and closing of the cabinet electronic switch are controlled in the form of the electronic password, and the use efficiency and the safety of the waterproof cabinet are improved; and the microprocessor also sends the current on-off state signal of the electronic switch of the cabinet body to the server, and the server monitors the real-time working state of the bathroom centralized control cabinet in real time.

Further, the control circuit board is provided with a waterproof layer. In order to prevent the bathhouse centralized control cabinet from being affected by damp and normal operation of the bathhouse centralized control cabinet, the waterproof layer is arranged on the control circuit board to protect the control circuit board.

Further, microprocessor still links to each other with the display screen, the display screen sets up on the waterproof cabinet body. The display screen is used for displaying the working state of the electronic switch of the cabinet body and the time information of the user using the bathing room centralized control cabinet.

Furthermore, the microprocessor is also connected with an electromagnetic valve, the electromagnetic valve is installed on a water pipe, one end of the water pipe is connected with the bathhouse water storage tank, and the other end of the water pipe is connected with the spray head.

The invention also utilizes the microprocessor to monitor the on-off of the water flow switch of the system, the water flow switch is arranged on the water pipe, and the charging is carried out through the on-off time of the water flow switch, thus not only avoiding the waste of water resources in the whole bathing process, but also avoiding the problem that the traditional card is lost or copied only by sensing card-swiping type water outlet, which causes the stealing of water charge in the IC card.

Furthermore, a water mixing valve is also installed on the water pipe. The invention utilizes the water mixing valve to adjust the proportion of hot water and cold water in the bathing process so as to meet the requirements of different users.

The second purpose of the invention is to provide a working method of the distributed bathing system.

The working method of the distributed bathing system comprises the following steps:

step 1: the microprocessor controls the on-off of the electronic switch of the cabinet body and sends a current on-off state signal of the electronic switch of the cabinet body to the server, wherein a cabinet body electronic switch password preset by a user is stored in the server;

step 2: the mobile terminal sends a cabinet electronic switch password preset by a user and user attribute information to the server, and the server generates a reservation list of dynamic queue numbers and sends the reservation list to the mobile terminal according to a preset time interval; wherein, the dynamic queue number represents the real-time position of the user in the bathing queue according to the bathing sequence;

and step 3: the microprocessor receives a cabinet electronic switch password sent by a corresponding user and transmits the cabinet electronic switch password to the server when the dynamic queue number is 0, the cabinet electronic switch password is compared with a cabinet electronic switch password stored in the server and preset by the user, and if the two passwords are consistent, the microprocessor receives a cabinet electronic switch opening command sent by the server and responds; otherwise, the microprocessor does not act.

Furthermore, whether the microprocessor of the bathhouse centralized control cabinet is connected with the server or not is detected by using a heartbeat package method.

The invention can detect the connection condition of the microprocessor and the server in real time by a heartbeat packet method, and ensures the smoothness of information interaction between the microprocessor and the server.

Further, the method further comprises: and the microprocessor sends the electronic switch password of the cabinet body to the server by adopting a get method.

According to the invention, the electronic switch password of the cabinet body is sent to the server by the get method, so that the safety of data transmission and the real-time property of data transmission are ensured.

Further, if the microprocessor sends the cabinet electronic switch password to the server overtime, the microprocessor sends the cabinet electronic switch password to the server again.

Therefore, the information sent by the microprocessor to the server can be prevented from being lost, and the integrity of data transmission is ensured.

Further, the method further comprises:

the microprocessor receives a storage request sent by a user and a cabinet electronic switch password and sends the storage request and the cabinet electronic switch password to the server, and when the cabinet electronic switch password transmitted by the microprocessor is consistent with a cabinet electronic switch password stored in the server and preset by the user, the microprocessor controls the cabinet electronic switch and the electromagnetic valve to be opened.

The invention also utilizes the microprocessor to control the opening and closing of the electromagnetic valve and detect the on-off time of the water flow switch, thus not only avoiding the waste of water resources in the whole bathing process, but also avoiding the problem that the water charge in the IC card is stolen because the traditional card is lost or copied only by sensing card-swiping type water outlet.

The invention has the beneficial effects that:

according to the invention, the bathing room centralized control cabinet is associated with the mobile terminal and the server, and through information interaction between the server and the mobile terminal, the mobile terminal sends the reservation information containing the electronic switch password of the cabinet body to the server, and then the server receives the reservation information and feeds back the reservation success information to the mobile terminal, so that the bathing time of a user who arranges a queue outside the bathing room is saved, the queuing time of the user is saved through network reservation, and the working efficiency of the whole bathing room is improved;

the invention also utilizes the server to receive the cabinet electronic switch password sent by the microprocessor and compare the password with the cabinet electronic switch password stored in the server, and when the password is consistent with the password, the server sends a command for opening the cabinet electronic switch to the microprocessor, so that the opening and closing of the cabinet electronic switch are controlled in the form of the electronic password, and the use efficiency and the safety of the waterproof cabinet are improved; and the microprocessor also sends the current on-off state signal of the electronic switch of the cabinet body to the server, and the server monitors the real-time working state of the bathroom centralized control cabinet in real time.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the invention and together with the description serve to explain the invention and not to limit the invention.

Fig. 1 is a schematic diagram of a distributed bathing system of the present invention.

Fig. 2 is a flow chart of a working method of the distributed bathing system.

Detailed Description

It is to be understood that the following detailed description is exemplary and is intended to provide further explanation of the invention as claimed. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the invention. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

As shown in fig. 1, the distributed bathing system of the present invention comprises:

the system comprises a plurality of bathhouse centralized control cabinets in distributed layout, wherein each bathhouse centralized control cabinet comprises a waterproof cabinet body, a control circuit board is installed in each waterproof cabinet body, a microprocessor is arranged on each control circuit board and connected with a cabinet body electronic switch, the microprocessor is used for controlling the opening and closing of the cabinet body electronic switch and sending a current opening and closing state signal of the cabinet body electronic switch to a server, and a cabinet body electronic switch password preset by a user is stored in the server;

the server is also connected with a mobile terminal, the mobile terminal is used for sending the cabinet electronic switch password and the user attribute information preset by the user to the server, and the server generates a reservation list of the dynamic queue number and sends the reservation list to the mobile terminal according to a preset time interval; wherein, the dynamic queue number represents the real-time position of the user in the bathing queue according to the bathing sequence;

the microprocessor is also used for receiving a cabinet electronic switch password sent by a corresponding user and transmitting the cabinet electronic switch password to the server when the dynamic queue number is 0, comparing the cabinet electronic switch password with a cabinet electronic switch password stored in the server and preset by the user, and if the two passwords are consistent, receiving a cabinet electronic switch opening command sent by the server and responding; otherwise, the microprocessor does not act.

According to the invention, the bathing room centralized control cabinet is associated with the mobile terminal and the server, and through information interaction between the server and the mobile terminal, the mobile terminal sends the reservation information containing the electronic switch password of the cabinet body to the server, and then the server receives the reservation information and feeds back the reservation success information to the mobile terminal, so that the bathing time of a user who arranges a queue outside the bathing room is saved, the queuing time of the user is saved through network reservation, and the working efficiency of the whole bathing room is improved;

the invention also utilizes the server to receive the cabinet electronic switch password sent by the microprocessor and compare the password with the cabinet electronic switch password stored in the server, and when the password is consistent with the password, the server sends a command for opening the cabinet electronic switch to the microprocessor, so that the opening and closing of the cabinet electronic switch are controlled in the form of the electronic password, and the use efficiency and the safety of the waterproof cabinet are improved; and the microprocessor also sends the current on-off state signal of the electronic switch of the cabinet body to the server, and the server monitors the real-time working state of the bathroom centralized control cabinet in real time.

In another embodiment, the control circuit board is provided with a water barrier.

Wherein, the waterproof layer is a film comprising waterproof plastic materials or other waterproof materials.

In order to prevent the bathhouse centralized control cabinet from being affected by damp and normal operation of the bathhouse centralized control cabinet, the waterproof layer is arranged on the control circuit board to protect the control circuit board.

As shown in fig. 1, the microprocessor is further connected with a display screen, and the display screen is arranged on the waterproof cabinet body.

The display screen can be a liquid crystal display or a touch screen, and can also be an LED screen.

The display screen is used for displaying the working state of the electronic switch of the cabinet body and the time information of the user using the bathing room centralized control cabinet.

The electronic switch password of the cabinet body can adopt a field combined by numbers or letters, and a user can preset the password.

The user attribute information comprises the name and the mobile phone number information of the user.

The reservation list comprises the number of people who are currently queued and the queuing position of the reservation list.

The microprocessor is further connected with an electromagnetic valve, the electromagnetic valve is installed on a water pipe, one end of the water pipe is connected with the bathhouse water storage tank, and the other end of the water pipe is connected with the spray head. As shown in fig. 1, the microprocessor is further connected with a water flow switch or an electromagnetic flow meter, and the flow switch and the electromagnetic flow meter are both arranged on a water pipe.

The invention also utilizes the microprocessor to control the opening and closing of the electromagnetic valve and detect the on-off time of water flow or the water consumption, thus not only avoiding the waste of water resources in the whole bathing process, but also avoiding the problem that the card is lost or copied due to the traditional fact that the card is only output by sensing card swiping, which causes the embezzlement of the water charge in the IC card.

The water pipe of the invention is also provided with a water mixing valve. The invention utilizes the water mixing valve to adjust the proportion of hot water and cold water in the bathing process so as to meet the requirements of different users.

Fig. 2 is a flow chart of a working method of the distributed bathing system.

The working method of the distributed bathing system of the present invention as shown in fig. 2 comprises:

step 1: the microprocessor controls the on-off of the electronic switch of the cabinet body and sends a current on-off state signal of the electronic switch of the cabinet body to the server, wherein a cabinet body electronic switch password preset by a user is stored in the server;

specifically, whether a microprocessor of the bathhouse centralized control cabinet is connected with the server or not is detected by using a heartbeat package method.

The heartbeat package method is the prior art, and comprises the steps that information of a heartbeat package is transmitted to a server by a microprocessor, whether the information of the heartbeat package is received or not is checked at the server side, and if the information of the heartbeat package is received, the server feeds back successfully received information to the microprocessor after receiving the information of the heartbeat package; if the server side does not receive the signal, the communication between the microprocessor and the server is interrupted.

The invention can detect the connection condition of the microprocessor and the server in real time by a heartbeat packet method, and ensures the smoothness of information interaction between the microprocessor and the server.

Step 2: the mobile terminal sends a cabinet electronic switch password preset by a user and user attribute information to the server, and the server generates a reservation list of dynamic queue numbers and sends the reservation list to the mobile terminal according to a preset time interval; wherein the dynamic queue number indicates the real-time position of the user in the bathing queue according to the bathing order.

And step 3: the microprocessor receives a cabinet electronic switch password sent by a corresponding user and transmits the cabinet electronic switch password to the server when the dynamic queue number is 0, the cabinet electronic switch password is compared with a cabinet electronic switch password stored in the server and preset by the user, and if the two passwords are consistent, the microprocessor receives a cabinet electronic switch opening command sent by the server and responds; otherwise, the microprocessor does not act.

Specifically, the microprocessor sends the cabinet electronic switch password to the server by adopting a get method.

The microprocessor and the server are communicated with each other based on HTTP; at a client, submitting data through a URL in a get mode, wherein the data can be seen in the URL; when get is used, the parameter shows that the data submitted in get mode on the address bar can only be 1024 bytes at most.

According to the invention, the electronic switch password of the cabinet body is sent to the server by the get method, so that the safety of data transmission and the real-time property of data transmission are ensured.

And if the microprocessor sends the cabinet electronic switch password to the server, the microprocessor sends the cabinet electronic switch password to the server again. Therefore, the information sent by the microprocessor to the server can be prevented from being lost, and the integrity of data transmission is ensured.

The server receives the cabinet electronic switch password sent by the microprocessor and compares the cabinet electronic switch password with the cabinet electronic switch password stored in the server, and when the two passwords are consistent, the server sends a command for opening the cabinet electronic switch to the microprocessor, so that the opening and closing of the cabinet electronic switch are controlled in the form of the electronic password, and the use efficiency and the safety of the waterproof cabinet are improved; and the microprocessor also sends the current on-off state signal of the electronic switch of the cabinet body to the server, and the server monitors the real-time working state of the bathroom centralized control cabinet in real time.

In another embodiment, the method further comprises:

the microprocessor receives a storage request sent by a user and a cabinet electronic switch password and sends the storage request and the cabinet electronic switch password to the server, and when the cabinet electronic switch password transmitted by the microprocessor is consistent with a cabinet electronic switch password stored in the server and preset by the user, the microprocessor controls the cabinet electronic switch and the electromagnetic valve to be opened.

The invention also utilizes the microprocessor to control the opening and closing of the electromagnetic valve and detect the on-off time of water flow or the water consumption, thus not only avoiding the waste of water resources in the whole bathing process, but also avoiding the problem that the card is lost or copied due to the traditional fact that the card is only output by sensing card swiping, which causes the embezzlement of the water charge in the IC card.

According to the invention, the bathing room centralized control cabinet is associated with the mobile terminal and the server, and through information interaction between the server and the mobile terminal, the mobile terminal sends the reservation information containing the electronic switch password of the cabinet body to the server, and then the server receives the reservation information and feeds back the reservation success information to the mobile terminal, so that the bathing time of the user who arranges the bathhouse outside the bathing room is saved, the queuing time of the user is saved through network reservation, and the working efficiency of the whole bathing room is improved.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, it is not intended to limit the scope of the present invention, and it should be understood by those skilled in the art that various modifications and variations can be made without inventive efforts by those skilled in the art based on the technical solution of the present invention.

Claims (10)

1. A distributed bathing system is characterized by comprising a plurality of bathing room centralized control cabinets in distributed layout, wherein each bathing room centralized control cabinet comprises a waterproof cabinet body, a control circuit board is installed in each waterproof cabinet body, a microprocessor is arranged on each control circuit board and connected with a cabinet body electronic switch, the microprocessor is used for controlling the opening and closing of the cabinet body electronic switch and sending a current opening and closing state signal of the cabinet body electronic switch to a server, and a cabinet body electronic switch password preset by a user is stored in the server;

the server is also connected with a mobile terminal, the mobile terminal is used for sending the cabinet electronic switch password and the user attribute information preset by the user to the server, and the server generates a reservation list of the dynamic queue number and sends the reservation list to the mobile terminal according to a preset time interval; wherein, the dynamic queue number represents the real-time position of the user in the bathing queue according to the bathing sequence;

the microprocessor is also used for receiving a cabinet electronic switch password sent by a corresponding user and transmitting the cabinet electronic switch password to the server when the dynamic queue number is 0, comparing the cabinet electronic switch password with a cabinet electronic switch password stored in the server and preset by the user, and if the two passwords are consistent, receiving a cabinet electronic switch opening command sent by the server and responding; otherwise, the microprocessor does not act;

the bathhouse centralized control cabinet is associated with the mobile terminal and the server, the mobile terminal sends reservation information containing electronic switch passwords of the cabinet body to the server through information interaction between the server and the mobile terminal, and then the server receives the reservation information and feeds back the reservation success information to the mobile terminal.

2. A distributed bathing system according to claim 1 wherein said control circuit board is provided with a water barrier.

3. The distributed bathing system of claim 1 wherein said microprocessor is further connected to a display screen, said display screen being disposed on the waterproof cabinet.

4. The distributed bathing system of claim 1 wherein said microprocessor is further connected to a solenoid valve, said solenoid valve being mounted on a water line, said water line being connected at one end to the bathhouse water storage tank and at the other end to the spray head.

5. The distributed bathing system of claim 1 wherein said microprocessor is further connected to a water flow switch, said water flow switch being mounted on the water pipe for detecting the length of time the water is flowing or the amount of water used.

6. A distributed bathing system according to claim 5 wherein said water pipe is further provided with a mixing valve.

7. A method of operating a distributed bathing system according to any one of claims 1-6, comprising:

step 1: the microprocessor controls the on-off of the electronic switch of the cabinet body and sends a current on-off state signal of the electronic switch of the cabinet body to the server, wherein a cabinet body electronic switch password preset by a user is stored in the server;

step 2: the mobile terminal sends a cabinet electronic switch password preset by a user and user attribute information to the server, and the server generates a reservation list of dynamic queue numbers and sends the reservation list to the mobile terminal according to a preset time interval; wherein, the dynamic queue number represents the real-time position of the user in the bathing queue according to the bathing sequence;

and step 3: the microprocessor receives a cabinet electronic switch password sent by a corresponding user and transmits the cabinet electronic switch password to the server when the dynamic queue number is 0, the cabinet electronic switch password is compared with a cabinet electronic switch password stored in the server and preset by the user, and if the two passwords are consistent, the microprocessor receives a cabinet electronic switch opening command sent by the server and responds; otherwise, the microprocessor does not act.

8. A method of operating a distributed bathing system according to claim 7, further comprising: detecting whether a microprocessor of the bathhouse centralized control cabinet is connected with a server or not by using a heartbeat package method;

or the method further comprises: and the microprocessor sends the electronic switch password of the cabinet body to the server by adopting a get method.

9. The method of claim 7, wherein if the microprocessor sends the cabinet electronic switch password to the server over time, the microprocessor resends the cabinet electronic switch password to the server.

10. A method of operating a distributed bathing system according to claim 7, further comprising: the microprocessor receives a storage request sent by a user and a cabinet electronic switch password and sends the storage request and the cabinet electronic switch password to the server, and when the cabinet electronic switch password transmitted by the microprocessor is consistent with a cabinet electronic switch password stored in the server and preset by the user, the microprocessor controls the cabinet electronic switch and the electromagnetic valve to be opened.