CN217873207U - Wireless water pump control system and water using device - Google Patents

Abstract

The utility model discloses a wireless water pump control system and water using device. This wireless water pump control system includes: the water pump control module and the base control module are arranged separately; the water pump control module is arranged in the main body of the water using device, and the base control module is arranged in a base of the water using device; the water pump control module is provided with a communication and power supply module, a first control module and a first functional module, and the communication and power supply module is electrically connected with the first control module; the base control module is provided with a communication transmission module and a second control module; the communication and power supply module comprises a first communication coil, the communication transmission module comprises a second communication coil, and the first communication coil and the second communication coil are used for induction so that the water pump control module is electrically connected with the base control module. The utility model discloses technical scheme has realized energy and data information's wireless transmission between main part and the base that uses the water installation.

Description

Wireless water pump control system and water using device

Technical Field

The embodiment of the utility model provides a relate to water pump control technical field, especially relate to a wireless water pump control system and water installation.

Background

In recent years, the wireless water pump has been used in an increasing amount because it can reduce difficulties in structural design, assembly, maintenance, and the like, and is convenient to use.

At present, the wireless water pump realizes energy transmission and meets the electric energy requirement. However, the wireless water pump in the prior art does not realize wireless transmission of data, so that data information of a sensor arranged in the wireless water pump cannot be uploaded to an external control system, and the wireless water pump cannot receive a control instruction issued by the external control system.

SUMMERY OF THE UTILITY MODEL

The utility model provides a wireless water pump control system and water consuming device to make wireless water pump realize the wireless transmission of data.

According to the utility model discloses an aspect provides a wireless water pump control system, this wireless water pump control system, include: the water pump control module and the base control module are arranged separately; the water pump control module is arranged in the main body of the water using device, and the base control module is arranged in a base of the water using device;

the water pump control module is provided with a communication and power supply module, a first control module and a first function module, wherein the communication and power supply module is electrically connected with the first control module, and the first function module is electrically connected with the first control module;

the base control module is provided with a communication transmission module and a second control module, and the communication transmission module is electrically connected with the second control module;

the communication and power supply module comprises a first communication coil, the communication transmission module comprises a second communication coil, and the first communication coil and the second communication coil are induced so that the water pump control module is electrically connected with the base control module.

Optionally, the communication and power supply module includes: the device comprises a first signal modulation module and a first signal demodulation module;

the first end of the first signal modulation module and the first end of the first signal demodulation module are both electrically connected with the first communication coil, and the second end of the first signal modulation module and the second end of the first signal demodulation module are both electrically connected with the first control module; the first control module is used for collecting and transmitting the state parameters of the water using device or receiving a control instruction.

Optionally, the communication and power supply module further includes: an electric energy conversion module;

the electric energy conversion module is electrically connected with the first communication coil and used for converting received electric energy and supplying power to the water consumption device.

Optionally, the first functional module includes: a water pump motor and a water level sensor;

the water pump motor and the water level sensor are electrically connected with the first control module, the first control module is further used for acquiring and outputting state parameters acquired by the water level sensor, and controlling the running state of the water pump motor according to a received control instruction to calibrate the water level.

Optionally, the water pump control module further includes: a temperature sensor, a water quality sensor and an ultraviolet lamp;

the temperature sensor, the water quality sensor and the ultraviolet lamp are all electrically connected with the first control module; the first control module is used for reading state parameters acquired by the temperature sensor and the water quality sensor; the first control module is also used for controlling the ultraviolet lamp to operate.

Optionally, the communication transmission module includes: the second signal modulation module and the second signal demodulation module;

the first end of the second signal modulation module and the first end of the second signal demodulation module are both electrically connected with the second communication coil, and the second end of the second signal modulation module and the second end of the second signal demodulation module are both electrically connected with the second control module; the second control module is used for transmitting a control instruction or receiving a state parameter of the water using device.

Optionally, the base control module further includes: a communication module;

the communication module is electrically connected with the second control module through a communication interface, and is used for being in communication connection with the cloud equipment and transmitting a control instruction sent by the cloud equipment to the first control module through the second control module so as to adjust the state parameter of the water using device.

Optionally, the first control module and the second control module are both single-chip microcontrollers.

Optionally, the water pump control module is arranged on the first control mainboard, and the base control module is arranged on the second control mainboard.

According to another aspect of the present invention, there is provided a water using apparatus, comprising: a main body, a base and the wireless water pump control system of the first aspect;

the base is used for bearing the main body of the water using device and is electrically connected with the main body of the water using device through a communication coil;

the wireless water pump control system is separately arranged in the main body and the base of the water using device so as to control the running state of the water using device.

The utility model discloses technical scheme sets up the base control module through setting up the water pump control module in the main part of water installation in the base of water installation, and water pump control module and base control module set up separately promptly. Communication and power module that water pump control module includes are provided with first communication coil, and the communication transmission module that includes in the base control module is provided with second communication coil. The first communication coil and the second communication coil are based on the electromagnetic induction principle, and electric connection and data transmission between the water pump control module and the base control module are achieved, so that wireless transmission of data is achieved by using the wireless water pump in the water device body and the water device base.

It should be understood that the statements in this section are not intended to identify key or critical features of the embodiments of the present invention, nor are they intended to limit the scope of the invention. Other features of the present invention will be readily apparent from the following specification.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a wireless water pump control system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of another wireless water pump control system according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of another wireless water pump control system according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of another wireless water pump control system according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of another wireless water pump control system according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of another wireless water pump control system according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of another wireless water pump control system according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a water consuming apparatus according to an embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or otherwise described herein. Moreover, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The embodiment of the utility model provides a wireless water pump control system. Fig. 1 is a schematic structural diagram of a wireless water pump control system according to an embodiment of the present invention. As shown in fig. 1, the wireless water pump control system includes: the water pump control module 10 and the base control module 20 are arranged separately; the pump control module 10 is disposed in the body of the water consuming device, and the base control module 20 is disposed in the base of the water consuming device.

The water pump control module 10 is provided with a communication and power supply module 11, a first control module 12 and a first functional module 13, wherein the communication and power supply module 11 is electrically connected with the first control module 12, and the first functional module 13 is electrically connected with the first control module 12.

The base control module 20 is provided with a communication transmission module 21 and a second control module 22, and the communication transmission module 21 is electrically connected with the second control module 22.

The communication and power supply module 11 includes a first communication coil 111, the communication transmission module 21 includes a second communication coil 211, and the first communication coil 111 and the second communication coil 211 are induced so as to electrically connect the water pump control module 10 and the base control module 20.

Specifically, the wireless water pump control system includes two separate parts, namely a water pump control module 10 and a base control module 20. The water pump control module 10 is electrically connected with the base control module 20, so that the wireless water pump arranged in the water using device and the base of the water using device realize wireless data transmission.

In the operation process of the water using device, the first functional module 13 arranged at the end of the wireless water pump can monitor the operation state of the water using device, and the first control module 12 in the water pump control module 10 is used for acquiring the state parameters of the water using device generated by the first functional module 13. Illustratively, the state parameter of the water using device may include a water level parameter of the water using device, a temperature parameter inside the water using device, or a water quality parameter inside the water using device, etc. The first control module 12 transmits the acquired status parameter data information to the communication and power supply module 11, and the communication and power supply module 11 can transmit the data information to the base control module 20.

After receiving the state parameter data information sent by the communication and power supply module 11, the communication transmission module 21 in the base control module 20 transmits the data information to the second control module 22. The base control module 20 can be in communication connection with the cloud device, so that the cloud device can acquire data information of the state parameters of the water utilization device through the second control module 22, issue a control command to the second control module 22, and transmit the control command to the first control module 12 in the water pump control module 10 through the second control module 22, so as to control the running state of the water utilization device, and realize wireless transmission of the data information between the wireless water pump and the cloud device.

The communication and power supply module 11 is provided with a first communication coil 111, and the communication transmission module 21 is provided with a second communication coil 211. The setting position of the first communication coil 111 in the wireless water pump is opposite to the setting position of the second communication coil 211 in the base, based on the electromagnetic induction principle, the water pump control module 10 in the wireless water pump is electrically connected with the base control module 20 in the base, and the first communication coil 111 and the second communication coil 211 can realize wireless transmission of energy and data information.

The technical scheme of this embodiment sets up water pump control module 10 in the main part of water installation, sets up base control module 20 in the base of water installation, and water pump control module 10 and base control module 20 set up separately promptly. The communication and power supply module 11 included in the water pump control module 10 is provided with a first communication coil 111, and the communication transmission module 21 included in the base control module 20 is provided with a second communication coil 211. The first communication coil 111 and the second communication coil 211 realize the electric connection and data transmission between the water pump control module 10 and the base control module 20 based on the electromagnetic induction principle, so that the wireless transmission of data is realized by using the wireless water pump in the water device main body and the water device base.

Optionally, fig. 2 is a schematic structural diagram of another wireless water pump control system provided in the embodiment of the present invention. On the basis of the above embodiment, as shown in fig. 2, the communication and power supply module 11 includes: a first signal modulation module 112 and a first signal demodulation module 113.

A first end of the first signal modulation module 112 and a first end of the first signal demodulation module 113 are both electrically connected to the first communication coil 111, and a second end of the first signal modulation module 112 and a second end of the first signal demodulation module 113 are both electrically connected to the first control module 12; the first control module 12 is used for collecting and transmitting state parameters of the water consuming device, or receiving control instructions.

Specifically, the first signal modulation module 112 and the first signal demodulation module 113 are electrically connected to the first communication coil 111 through the radio frequency transceiving driving circuit. In addition, the first signal modulation module 112 and the first signal demodulation module 113 are both electrically connected to the first control module 12, the first signal modulation module 112 is configured to perform modulation processing on the state parameter signal of the water using device read by the first control module 12, and the first signal demodulation module 113 is configured to perform demodulation processing on the signal transmitted to the first communication coil 111 by the base control module 20, and send the signal to the first control module 12. Illustratively, the first signal modulation module 112 and the first signal demodulation module 113 may be implemented in the form of a circuit or a chip, which is not limited herein. After the first control module 12 acquires and generates the data information of the water consumption device state parameters acquired and generated by the first function module 13, the data information is sent to the first signal modulation module 112, and the data signal is modulated. The first signal modulation module 112 transmits the modulation signal to the first communication coil 111, and the first communication coil 111 and the second communication coil 211 transmit the modulation signal to the second communication coil 211 through electromagnetic induction, so that data transmission between the water pump control module 10 and the base control module 20 is realized.

Optionally, fig. 3 is a schematic structural diagram of another wireless water pump control system provided in the embodiment of the present invention. On the basis of the above embodiment, as shown in fig. 3, the communication and power supply module 11 further includes: a power conversion module 114.

The power conversion module 114 is electrically connected to the first communication coil 111, and the power conversion module 114 is configured to convert the received power and supply power to the water consuming device.

Specifically, the first communication coil 111 retains the basic function of wireless transmission of energy in addition to the function of wireless transmission of data. The communication and power supply module 11 is provided with an electric energy conversion module 114, and the electric energy conversion module 114 can process and convert electric energy. The base of the water-using device is connected to an external power source, and the power supplied by the external power source can be transmitted to the second communication coil 211 in the base control module 20. Based on the electromagnetic induction principle, after the first communication coil 111 receives the electric energy transmitted by the second communication coil 211 in the base control module 20, the electric energy is transmitted to the electric energy conversion module 114 and converted, so that the electric energy meeting the requirement of the wireless water pump is obtained. The electric energy conversion module 114 transmits the converted electric energy to the wireless water pump, so that the wireless water pump and other components in the water consumption device can normally operate, and wireless transmission of the electric energy is realized.

The main body side of the water using device is provided with a plurality of functional devices, so that a plurality of functions can be realized, and different parameters of the water using device can be monitored. The following embodiments will explain some of the functional devices therein.

Optionally, fig. 4 is a schematic structural diagram of another wireless water pump control system provided in the embodiment of the present invention. On the basis of the above embodiment, as shown in fig. 4, the first functional module 13 includes: a water pump motor 131 and a water level sensor 132.

The water pump motor 131 and the water level sensor 132 are electrically connected to the first control module 12, and the first control module 12 is further configured to acquire and output state parameters acquired by the water level sensor 132, control the operation state of the water pump motor 131 according to the received control instruction, and calibrate the water level.

Specifically, each functional device included in the first functional module 13 is electrically connected to the first control module 12 for data transmission. The water level sensor 132 may monitor a state of a water level inside the water using apparatus body, and monitor whether the water level is within a preset water level range. Wherein the preset water level may include a preset minimum water level and a preset maximum water level. The preset minimum water level is the minimum water level at which the water using device can normally and safely operate, and if the water using device is lower than the preset water level, water quantity supplementation needs to be carried out on the water using device. The preset maximum water level is the maximum water level at which the water using device is safely operated. The preset water level can be set according to the actual requirements of different water using devices, for example, the preset lowest water level of the water dispenser can be one third of the total capacity of the water dispenser, and the preset highest water level can be two thirds of the total capacity; the preset minimum water level of the small aquarium may be two thirds of the total capacity of the small aquarium and the preset maximum water level may be three quarters of the total capacity, which is not limited thereto.

Water level sensor 132 adopts a capacitive sensor, and when the water level change in the water consumption device causes the capacitance change of water level sensor 132, water level sensor 132 can monitor corresponding water level parameter data, and first control module 12 can acquire water level parameters in real time and transmit the water level parameters to the cloud device through base control module 20. When the first control module 12 acquires that the water level parameter is lower than the preset minimum water level, the first control module 12 controls the water pump motor 131 to start, so that the water pump runs, the water quantity is supplemented to the preset maximum water level in the water using device, the water level of the water using device is calibrated, and the safe running of the water using device is ensured.

On the basis that the wireless water pump in the water using device realizes wireless data transmission, the water using device is provided with a newly added function expanding device besides the basic function device. The following embodiments will be described by citing a part of the extended function device, but not limited to the extended function device.

Optionally, fig. 5 is a schematic structural diagram of another wireless water pump control system provided in the embodiment of the present invention. On the basis of the above embodiment, as shown in fig. 5, the water pump control module 10 further includes: temperature sensor 14, water quality sensor 15 and ultraviolet lamp 16.

The temperature sensor 14, the water quality sensor 15 and the ultraviolet lamp 16 are electrically connected with the first control module 12; the first control module 12 is used for reading state parameters acquired by the temperature sensor 14 and the water quality sensor 15; first control module 12 is also used to control operation of ultraviolet lamp 16.

Specifically, the water pump control module 10 is further provided with a temperature sensor 14, a water quality sensor 15 and an ultraviolet lamp 16, the temperature sensor 14 is used for monitoring the water temperature in the water using device, the water quality sensor 15 is used for monitoring the water quality of the water stored in the water using device, and the ultraviolet lamp 16 is used for sterilizing and disinfecting the water stored in the water using device.

The first control module 12 can obtain the status parameters of the temperature sensor 14 and the water quality sensor 15 in real time, wherein the status parameters may include the water temperature parameter and the water quality parameter in the water using device. The first control module 12 compares the acquired state parameters and determines whether the state parameters exceed a preset threshold. The preset threshold may include a preset water temperature threshold and a preset water quality threshold. For example, the preset water temperature threshold is the highest water temperature under the condition that the water using device is safely operated, and the preset water quality threshold is the lowest water quality standard for ensuring the safety of a user using the corresponding water using device. After the first control module 12 reads the state parameters of the water consuming device and performs judgment, the judgment result is transmitted to the second control module 22 through the first communication coil 111 and the second communication coil 211, the cloud device can read the judgment result in the second control module 22 in a wireless communication mode, a user can conveniently send a corresponding control instruction to the second control module 22 according to the judgment result, and the second control module 22 transmits the control instruction to the first control module 12 to adjust the state parameters of the water consuming device. Exemplarily, the cloud device can send a control instruction to the second control module 22 after reading that the water quality parameter is lower than the preset water quality threshold, and the second control module 22 transmits the control instruction to the first control module 12, so that the first control module 12 controls the ultraviolet lamp 16 to emit light according to a certain preset logic, so as to sterilize and disinfect the water stored in the water using device and improve the water quality. The preset logic may be normally bright for 15 minutes, or may also be bright once every half hour for 5 minutes, which is not limited herein.

Optionally, fig. 6 is a schematic structural diagram of another wireless water pump control system provided in the embodiment of the present invention. On the basis of the above embodiment, as shown in fig. 6, the communication transmission module 21 includes: a second signal modulation module 212 and a second signal demodulation module 213.

A first end of the second signal modulation module 212 and a first end of the second signal demodulation module 213 are both electrically connected to the second communication coil 211, and a second end of the second signal modulation module 212 and a second end of the second signal demodulation module 213 are both electrically connected to the second control module 22; the second control module 22 is used for transmitting control commands or receiving status parameters of the water consuming device.

Specifically, the second signal modulation module 212 and the second signal demodulation module 213 are electrically connected to the second communication coil 211 through the rf transceiving driving circuit. The second signal modulation module 212 is configured to modulate the control instruction signal sent by the cloud device, transmit the modulated signal to the second control module 22, and transmit the modulated signal to the first control module 12 through the second control module 22. The second signal demodulation module 213 is configured to demodulate the data signal received by the second control module 22, and transmit the data signal to the cloud device in a wireless communication manner. Through setting up first signal modulation module 112 and first signal demodulation module 113 in the pump control module 10 to and second signal modulation module 212 and second signal demodulation module 213 in base control module 20, based on the electromagnetic induction principle between first communication coil 111 and the second communication coil 211, realized wireless water pump and cloud end equipment's data wireless transmission.

Optionally, fig. 7 is a schematic structural diagram of another wireless water pump control system provided in the embodiment of the present invention. On the basis of the above embodiment, as shown in fig. 7, the base control module 20 further includes: and a communication module 23.

The communication module 23 is electrically connected to the second control module 22 through a communication interface, and the communication module 23 is configured to be in communication connection with the cloud device 30, and transmit a control instruction sent by the cloud device 30 to the first control module 12 through the second control module 22, so as to adjust a state parameter of the water consumption device.

Specifically, the communication module 23 may enable the external cloud device 30 to be in communication connection with the base control module 20 of the water consumption device in a wireless communication manner, for example, a wireless communication manner of wifi communication or Bluetooth Low Energy (BLE) communication may be adopted, which is not limited herein. The communication module 23 may be electrically connected to the second control module 22 through a communication Interface using a communication bus, and may use, for example and without limitation, a Universal Asynchronous Receiver/Transmitter (UART), a Serial Peripheral Interface (SPI), and/or an I2C (Inter-Integrated Circuit) bus. Through the communication module 23, the control instruction sent by the cloud device 30 can be transmitted to the second control module 22 in the base control module 20, and thus can be transmitted to the first control module 12 in the water pump control module 10, so that the first control module 12 can adjust the state parameter of the water using device according to the control instruction.

Optionally, on the basis of the above embodiment, the first control module 12 and the second control module 22 are both single-chip microcontrollers.

In particular, for small water-consuming devices, the requirements for logic operations and data processing are relatively low. Therefore, the first control module 12 and the second control module 22 adopt a single chip Microcontroller (MCU), which can reduce the manufacturing cost on the premise of meeting the data processing requirements of the water consumption device.

Optionally, on the basis of the above embodiment, the water pump control module 10 is disposed on the first control main board, and the base control module 20 is disposed on the second control main board.

Specifically, the water pump control module 10 and the base control module 20 are separately disposed, and the water pump control module 10 is disposed on a first control main board disposed in a main body of the water using device. The base control module 20 is disposed on a second control main board, and the second control main board is disposed inside a base of the water consuming device. The water pump control module 10 and the base control module 20 which are separately arranged realize wireless transmission of energy and data through the electromagnetic induction effect between the first communication coil 111 and the second communication coil 211.

The embodiment of the utility model provides a still provide a water consuming apparatus. Fig. 8 is a schematic structural diagram of a water consuming apparatus according to an embodiment of the present invention. In addition to the above-described embodiment, as shown in fig. 8, the water using apparatus 01 includes: the wireless water pump control system comprises a main body 02, a base 03 and the wireless water pump control system according to any embodiment. The base 03 is used for bearing the main body 02 of the water using device 01 and is electrically connected with the main body 02 of the water using device 01 through a communication coil; the wireless water pump control system is separately arranged in the main body 02 and the base 03 of the water consumption device 01 to control the running state of the water consumption device 01.

By arranging the wireless water pump control system in any embodiment of the water consumption device 01, the wireless transmission of data information between the water consumption device main body and the base is realized on the basis of realizing the wireless transmission of energy between the water consumption device main body and the base by processing transmitted signals.

The above detailed description does not limit the scope of the present invention. It should be understood by those skilled in the art that various modifications, combinations, sub-combinations and substitutions may be made, depending on design requirements and other factors. Any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A wireless water pump control system, comprising: the water pump control module and the base control module are arranged separately; the water pump control module is arranged in the main body of the water using device, and the base control module is arranged in a base of the water using device;

the water pump control module is provided with a communication and power supply module, a first control module and a first function module, the communication and power supply module is electrically connected with the first control module, and the first function module is electrically connected with the first control module;

the base control module is provided with a communication transmission module and a second control module, and the communication transmission module is electrically connected with the second control module;

the communication and power supply module comprises a first communication coil, the communication transmission module comprises a second communication coil, and the first communication coil and the second communication coil are induced so that the water pump control module is electrically connected with the base control module.

2. The wireless water pump control system of claim 1, wherein the communication and power module comprises: the device comprises a first signal modulation module and a first signal demodulation module;

the first end of the first signal modulation module and the first end of the first signal demodulation module are both electrically connected with the first communication coil, and the second end of the first signal modulation module and the second end of the first signal demodulation module are both electrically connected with the first control module; the first control module is used for collecting and transmitting the state parameters of the water using device or receiving a control instruction.

3. The wireless water pump control system of claim 2, wherein the communication and power module further comprises: an electric energy conversion module;

the electric energy conversion module is electrically connected with the first communication coil and used for converting received electric energy and supplying power to the water consumption device.

4. The wireless water pump control system of claim 1, wherein the first functional module comprises: a water pump motor and a water level sensor;

the water pump motor and the water level sensor are electrically connected with the first control module, the first control module is further used for acquiring and outputting the state parameters acquired by the water level sensor, and controlling the running state of the water pump motor according to the received control instruction to calibrate the water level.

5. The wireless water pump control system of claim 1, wherein the water pump control module further comprises: a temperature sensor, a water quality sensor and an ultraviolet lamp;

the temperature sensor, the water quality sensor and the ultraviolet lamp are all electrically connected with the first control module; the first control module is used for reading state parameters acquired by the temperature sensor and the water quality sensor; the first control module is also used for controlling the ultraviolet lamp to operate.

6. The wireless water pump control system of claim 1, wherein the communication transmission module comprises: the second signal modulation module and the second signal demodulation module;

the first end of the second signal modulation module and the first end of the second signal demodulation module are both electrically connected with the second communication coil, and the second end of the second signal modulation module and the second end of the second signal demodulation module are both electrically connected with the second control module; the second control module is used for transmitting a control instruction or receiving a state parameter of the water using device.

7. The wireless water pump control system of claim 6, wherein the base control module further comprises: a communication module;

the communication module is electrically connected with the second control module through a communication interface, and is used for being in communication connection with the cloud equipment, and transmitting a control command sent by the cloud equipment to the first control module through the second control module so as to adjust the state parameters of the water utilization device.

8. The wireless water pump control system of claim 1, wherein the first control module and the second control module are both single-chip microcontrollers.

9. The wireless water pump control system according to claim 1, wherein the water pump control module is disposed on a first control main board, and the base control module is disposed on a second control main board.

10. A water use device, comprising: a body, a base, and the wireless pump control system of any one of claims 1-9;

the base is used for bearing the main body of the water using device and is electrically connected with the main body of the water using device through a communication coil;

the wireless water pump control system is separately arranged in the main body and the base of the water using device so as to control the running state of the water using device.

Images