CN110942607A - Water return device control system based on Bluetooth MESH protocol and control method thereof - Google Patents

Abstract

The invention discloses a water return device control system based on a Bluetooth MESH protocol and a control method thereof. It includes mobile control end, water return ware, a plurality of water using mouths, the water using mouth on be equipped with temperature sensor, mobile control end, water return ware and temperature sensor in all be equipped with bluetooth module, bluetooth module built-in have the MESH agreement, water return ware and temperature sensor between constitute the MESH network through the MESH agreement in the bluetooth module, mobile control end link into the MESH network through the MESH agreement in the bluetooth module. The invention has the beneficial effects that: the opening and closing of the water return device can be determined only by the temperature change of the temperature sensor on the water using port, and the water flow is not required to be detected, so that the false starting can be effectively reduced; the mobile control end can realize the operation of the water return device and the water using port through remote control, and the stability of the MESH network is high.

Description

Water return device control system based on Bluetooth MESH protocol and control method thereof

Technical Field

The invention relates to the technical field of wireless control, in particular to a water return device control system based on a Bluetooth MESH protocol and a control method thereof.

Background

The water return device mainly adopts rivers to detect at present and carries out opening of return water function, and wireless control also only mainly relies on 2.4g or 433M agreement to realize, and the mode that detects through rivers can better realize the remote control of automatic return water at technique itself, but the water pressure in most houses is unstable, especially can flow because of reasons such as pressure night, and this flows and can lead to the water return device mistake to start. In addition, if 2.4g is adopted for control, due to the problem of transmission distance and poor wireless transmission (multiple doors and multiple walls) of a household, good control cannot be performed at some positions, and 433M is generally only used as single-line control and cannot confirm whether the water return device is responded after being controlled.

Disclosure of Invention

The invention provides a water return device control system based on a Bluetooth MESH protocol and a control method thereof, which are used for overcoming the defects in the prior art and reducing false start and can be remotely controlled.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a water return ware control system based on bluetooth MESH agreement, includes mobile control end, water return ware, a plurality of water consumption mouth, the water consumption mouth on be equipped with temperature sensor, mobile control end, water return ware and temperature sensor in all be equipped with bluetooth module, bluetooth module built-in have the MESH agreement, water return ware and temperature sensor between constitute the MESH network through the MESH agreement in the bluetooth module, the mobile control end link into the MESH network through the MESH agreement in the bluetooth module.

The water return device and the water using port form an MESH network through a built-in MESH protocol of the Bluetooth module, so that the opening and closing of the water return device can be determined only through the temperature change of a temperature sensor on the water using port, and water flow does not need to be detected, so that the false starting can be effectively reduced; and through the design of MESH network for the operation of water return ware and water consumption mouth can be realized through remote control to the mobile control end, and the stability of MESH network is high moreover.

Preferably, the mobile control terminal is a smart phone, and the bluetooth module is arranged in the smart phone. The mountable APP software of smart mobile phone when the bluetooth module of smart mobile phone opens, can visit whole MESH network to can set for the water mouth that needs use.

As another preferred mode, the mobile control terminal is a bluetooth BLE remote controller, and the bluetooth module is embedded in the bluetooth BLE remote controller. The access to the whole MESH network can be realized, so that the transmission characteristics of the MESH network have better advantages in the aspects of wall penetration, use distance and the like.

Preferably, the MESH network refers to one or more of a private MESH network, a SIG MESH network and a special MESH network, wherein the private MESH network refers to a MESH network independently established by a private person and is not easily accessed or connected by other devices; the SIG MESH network refers to a standard MESH protocol issued by a Bluetooth alliance, and other devices adopting the SIG MESH in a family are accessed into the MESH network, so that more devices can be provided and controlled by a mobile control terminal; the special MESH network refers to establishing a special ecological MESH network, and accessing other ecological MESH devices to the MESH network, so that more devices can exist and are controlled by the mobile control end.

Preferably, the other MESH devices include MESH lamps and MESH fans.

The invention also provides a water return device control method based on the Bluetooth MESH protocol, which comprises the following specific operation steps:

(1) setting nodes and temperatures of the water return device and each water using port through the mobile control end;

(2) initiating a command to return water on the mobile control end, wherein the command is transmitted to a Bluetooth module of a water return device in an MESH network through the Bluetooth module;

(3) after receiving a backwater instruction, a Bluetooth module of the backwater device interacts with the backwater device through a GPIO or a UART and controls the backwater device to backwater;

(4) the Bluetooth module of water return ware sends the instruction of inquiry water consumption mouth temperature for the temperature sensor of each water consumption mouth through the MESH network, and temperature sensor passes through the MESH network with the temperature that detects and uploads to the water return ware, judges whether the node of required return water has reached the temperature of return water and closes the water return ware.

Preferably, in step (1), the set contents are as follows: setting a node needing water return for a water using port, setting the highest temperature and the lowest temperature of the water return for the water using port needing water return, and storing the node, the recovered highest temperature and the recovered lowest temperature of the water return in a water return device.

Preferably, in the step (4), after the water returning device receives the real-time temperature sent by the temperature sensor, comparing the real-time temperature with the highest temperature of the returned water set in the water returning device, and if the real-time temperature does not reach the highest temperature of the returned water, continuing the water returning operation; and if the real-time temperature reaches the highest temperature of the backwater, closing the backwater device.

Preferably, in the step (4), after the water returning device is closed, the water returning device sends a command of inquiring the temperature of the water using ports to the temperature sensors of the water using ports at intervals, the temperature sensors upload the detected temperature to the water returning device through the MESH network, the water returning device receives the real-time temperature sent by the temperature sensors and compares the real-time temperature with the lowest temperature of the return water arranged in the water returning device, and if the real-time temperature is not lower than the lowest temperature of the return water, the water returning device is continuously closed; and (4) if the real-time temperature is lower than the lowest temperature of the returned water, starting the water returning device, and returning to the step (4).

The invention has the beneficial effects that: the opening and closing of the water return device can be determined only by the temperature change of the temperature sensor on the water using port, and the water flow is not required to be detected, so that the false starting can be effectively reduced; the mobile control end can realize the operation of the water return device and the water using port through remote control, and the stability of the MESH network is high.

Drawings

FIG. 1 is a schematic diagram of the system architecture of the present invention.

In the figure: 1. a water return device, 2, a water using port and 3, a mobile control end.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

In the embodiment shown in fig. 1, a water return control system based on bluetooth MESH protocol includes a mobile control end 3, a water return 1, a plurality of water consumption ports 2, a temperature sensor is arranged on each water consumption port 2, bluetooth modules are arranged in each of the mobile control end 3, the water return 1 and the temperature sensor, a MESH protocol is arranged in each bluetooth module, a MESH network is formed between the water return 1 and the temperature sensor through the MESH protocol in the bluetooth module, and the mobile control end 3 is connected to the MESH network through the MESH protocol in the bluetooth module. Mobile control end 3 is the smart mobile phone, places the smart mobile phone in the bluetooth module, and smart mobile phone mountable APP software can visit whole MESH network when the bluetooth module of smart mobile phone opens to can set for the water consumption mouth 2 that needs use. Or, mobile control end 3 is bluetooth BLE remote controller, and bluetooth module places in the bluetooth BLE remote controller, and bluetooth BLE remote controller can hand-held use also can adopt wall-hanging installation to use, can insert in whole MESH network, and through the transmission characteristics of MESH network, there is better advantage in the aspects such as wearing the wall, working distance.

The MESH network refers to one or more of a private MESH network, a SIG MESH network and a special MESH network, wherein the private MESH network refers to a MESH network which is established by a private person independently and is not easy to be accessed or connected by other equipment; the SIG MESH network refers to a standard MESH protocol issued by a Bluetooth alliance, and other devices adopting SIGMESH in a family are accessed to the MESH network, so that more devices can be provided and controlled by a mobile control terminal 3; the special MESH network refers to establishing a special ecological MESH network, such as an ecological MESH network of a barremba, an ecological MESH network of a Tencent, and the like, and accessing other ecological MESH devices to the MESH network, so that more devices are available and controlled by the mobile control end 3. Other MESH devices include MESH lights, MESH fans, and the like.

The invention also provides a water return device control method based on the Bluetooth MESH protocol, which comprises the following specific operation steps:

(1) setting nodes and temperatures of the water return device 1 and each water using port 2 through the mobile control end 3; the set content is as follows: setting a node needing water return for the water using port 2, setting the highest temperature and the lowest temperature of the water return for the water using port 2 needing water return, and storing the node, the recovered highest temperature and the recovered lowest temperature of the water return in the water return device 1;

(2) initiating a command on the mobile control end 3 to return water, wherein the command is transmitted to a Bluetooth module of the water return device 1 in an MESH network through the Bluetooth module;

(3) after receiving a water return instruction, a Bluetooth module of the water return device 1 interacts with the water return device 1 through a GPIO or a UART and controls the water return device 1 to return water;

(4) the Bluetooth module of the water return device 1 sends a command for inquiring the temperature of the water using ports 2 to the temperature sensors of the water using ports 2 through an MESH network, the temperature sensors upload the detected temperature to the water return device 1 through the MESH network, and the water return device 1 is closed by judging whether a node needing water return reaches the temperature of the water return or not;

after receiving the real-time temperature sent by the temperature sensor, the water return device 1 compares the real-time temperature with the highest temperature of return water set in the water return device 1, and if the real-time temperature does not reach the highest temperature of the return water, the water return operation is continued; if the real-time temperature reaches the highest temperature of backwater, closing the backwater device 1; after the water return device 1 is closed, the water return device 1 sends a command for inquiring the temperature of the water consumption ports 2 at intervals to the temperature sensors of the water consumption ports 2 through the MESH network, the temperature sensors upload the detected temperature to the water return device 1 through the MESH network, the water return device 1 receives the real-time temperature sent by the temperature sensors and compares the real-time temperature with the lowest temperature of return water arranged in the water return device 1, and if the real-time temperature is not lower than the lowest temperature of the return water, the water return device 1 is continuously closed; and (5) if the real-time temperature is lower than the lowest temperature of the returned water, starting the water returning device 1, and returning to the step (4).

In addition, the smart mobile phone can be in the MESH network under the state that bluetooth module opened, can see the temperature and the whole return water condition of each node in APP in real time, and bluetooth module in the water return ware 1 supports to link to each other with the smart mobile phone, can carry out the intelligent management that the return water started and closed through the APP in the smart mobile phone.

The water return device 1 and the water using port 2 form an MESH network through a built-in MESH protocol of the Bluetooth module, so that the opening and closing of the water return device 1 can be determined only through the temperature change of a temperature sensor on the water using port 2, and water flow does not need to be detected, so that the false starting can be effectively reduced, and the waste of resources is reduced; and through the design of MESH network for mobile control end 3 can realize the operation of return water 1 and water use mouth 2 through remote control, and the stability of MESH network is high moreover.

Claims (9)

1. The utility model provides a water return ware control system based on bluetooth MESH agreement, characterized by, includes mobile control end (3), wet return (1), a plurality of water consumption mouth (2), water consumption mouth (2) on be equipped with temperature sensor, mobile control end (3), wet return (1) and temperature sensor in all be equipped with bluetooth module, bluetooth module built-in have the MESH agreement, wet return (1) and temperature sensor between constitute the MESH network through the MESH agreement in the bluetooth module, mobile control end (3) link into the MESH network through the MESH agreement in the bluetooth module.

2. The water return control system based on the Bluetooth MESH protocol according to claim 1, wherein the mobile control terminal (3) is a smart phone, and the Bluetooth module is embedded in the smart phone.

3. The water return control system based on the Bluetooth MESH protocol according to claim 1, wherein the mobile control terminal (3) is a Bluetooth BLE remote controller, and the Bluetooth module is embedded in the Bluetooth BLE remote controller.

4. The water return control system based on the Bluetooth MESH protocol according to the claim 1, 2 or 3, wherein the MESH network refers to one or more of a private MESH network, a SIG MESH network and a special MESH network, wherein the private MESH network refers to a private individually-established MESH network which is not easy to be accessed or connected by other devices; the SIG MESH network refers to a standard MESH protocol issued by a Bluetooth alliance, and other devices adopting the SIG MESH in a family are accessed into the MESH network, so that more devices can be provided and are controlled by a mobile control terminal (3); the special MESH network refers to establishing a special ecological MESH network, and accessing other MESH devices of the ecological MESH network to the MESH network, so that more devices can be controlled by the mobile control terminal (3).

5. The system of claim 4, wherein the other MESH devices comprise MESH lights and MESH fans.

6. A water return device control method based on a Bluetooth MESH protocol is characterized by comprising the following specific operation steps:

(1) setting nodes and temperatures of the water return device (1) and each water using port (2) through the mobile control end (3);

(2) initiating an instruction on the mobile control end (3) to return water, wherein the instruction is transmitted to a Bluetooth module of the water return device (1) in an MESH network through the Bluetooth module;

(3) after receiving a backwater instruction, a Bluetooth module of the backwater device (1) interacts with the backwater device (1) through a GPIO or a UART and controls the backwater device (1) to backwater;

(4) the Bluetooth module of water return (1) sends the instruction of inquiring water consumption mouth (2) temperature to the temperature sensor of each water consumption mouth (2) through the MESH network, and temperature sensor passes through the MESH network with the temperature that detects and uploads water return (1), judges whether the node of required return water has reached the temperature of return water and closes water return (1).

7. The method as claimed in claim 6, wherein in step (1), the following settings are set: setting a node needing water return for the water consumption port (2), setting the highest temperature and the lowest temperature of the water return for the water consumption port (2) needing water return, and storing the node, the highest temperature and the lowest temperature of the water return into the water return device (1).

8. The method for controlling the water return device based on the Bluetooth MESH protocol according to the claim 7, wherein in the step (4), after receiving the real-time temperature from the temperature sensor, the water return device (1) compares the real-time temperature with the highest temperature of the return water set in the water return device (1), and if the real-time temperature does not reach the highest temperature of the return water, the water return operation is continued; and if the real-time temperature reaches the highest temperature of the backwater, closing the backwater device (1).

9. The method for controlling the water return device based on the Bluetooth MESH protocol according to the claim 8, wherein in the step (4), after the water return device (1) is closed, the water return device (1) sends a command for inquiring the temperature of the water using ports (2) to the temperature sensors of the water using ports (2) at intervals, the temperature sensors upload the detected temperature to the water return device (1) through the MESH network, after the water return device (1) receives the real-time temperature sent by the temperature sensors, the real-time temperature is compared with the lowest temperature of the return water arranged in the water return device (1), and if the real-time temperature is not lower than the lowest temperature of the return water, the water return device (1) is continuously closed; and (5) if the real-time temperature is lower than the lowest temperature of the returned water, starting the water returning device (1) and returning to the step (4).

Images