CN209943644U - Constant-temperature water-saving water outlet device - Google Patents

Abstract

The utility model discloses a constant temperature water conservation goes out hydrophone belongs to the bathroom field, the delivery port of hot water inlet group and the delivery port of cold water inlet group are linked together with the water inlet of hot and cold water flow mixing cavity respectively, the delivery port of hot and cold water flow mixing cavity is linked together with the water inlet of play water group, the valve end setting of hot water solenoid valve is in hot-water line, hot water flow inductor sets up on the hot-water line of the delivery port that is close to hot water solenoid valve, hot water solenoid valve's delivery port is linked together through the water inlet of hot-water line with hot and cold water flow mixing cavity, regulation and control panel group respectively with hot water solenoid valve, the hot water flow inductor, cold water inlet group and play. The utility model discloses a constant temperature water conservation goes out hydrophone adopts regulation and control panel group respectively with the hot water group of intaking and the cold water mode of group looks adaptation of intaking, monitors and adjusts the flow size of cold and hot end of intaking, guarantees that the inflow flow in cold and hot end is invariable, makes the constant temperature and the water conservation effect of going out the hydrophone better.

Description

Constant-temperature water-saving water outlet device

Technical Field

The utility model relates to a bathroom field especially relates to a constant temperature water conservation goes out hydrophone.

Background

The sanitary articles and equipment generally refer to articles or equipment for daily sanitary activities such as defecation, bathing, washing and the like of residents. In a plurality of bathroom accessories, the water outlet device is used for outputting water flow and is matched with bathroom products such as a water heater, a wash basin, a bathtub and a water outlet faucet to form bathroom equipment with complete functions. Therefore, the reasonability of the structural design of the water outlet device can have important influence on the bathroom experience of users.

The intelligent constant-temperature water outlet device mainly comprises a conventional digital constant-temperature water outlet device and a water inlet flow detection device, and comprises hot water inlet flow and cold water inlet flow detection, wherein the intelligent constant-temperature water outlet device can solve the problem of slow temperature response when a constant temperature control method by measuring water inlet and outlet temperatures is adopted, the flow response is 1-2 orders of magnitude higher than the temperature response, the measurement speed is high, and the intelligent constant-temperature water outlet device can accurately control the water outlet temperature by combining temperature measurement, so that the popularization of the intelligent constant-temperature water outlet device is facilitated. However, although the intelligent constant-temperature water outlet device can detect the flow of cold and hot water, the flow of the cold and hot water inlet ends is not adjusted by analyzing the flow information, the constant flow of the cold and hot water inlet ends cannot be ensured, and the constant-temperature and water-saving effects are poor.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problem that a constant temperature water conservation goes out hydrophone is proposed, adopt regulation and control panel group respectively with hot water intake group and cold water intake the mode of group looks adaptation, the flow size of cold and hot end of intaking is monitored and adjusted, guarantee that the inflow flow in cold and hot end is invariable, make the constant temperature and the water conservation effect of going out hydrophone better.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a pair of constant temperature water conservation goes out hydrophone, including hot water inlet group, cold water inlet group, hot and cold water flow mixing chamber and play water group, the delivery port of hot water inlet group and the delivery port of cold water inlet group are linked together with the water inlet of hot and cold water flow mixing chamber respectively, the delivery port of hot and cold water flow mixing chamber is linked together with the water inlet of play water group, hot water inlet group includes hot-water line, hot-water solenoid valve and hot water flow inductor, the valve end setting of hot-water solenoid valve is in hot-water line, hot water flow inductor sets up on the hot-water line of the delivery port that is close to hot-water solenoid valve, the delivery port of hot-water solenoid valve is linked together through the water inlet of hot-water line and cold water flow mixing chamber, constant temperature water conservation goes out hydrophone still including regulation and control panel group, the, And the signal end of the cold water inlet group and the signal end of the water outlet group carry out signal transmission.

The utility model discloses preferred technical scheme lies in, hot water flow inductor includes hot water hall sensor, hot water magnet rotor set and hot water conservancy diversion body, hot water hall sensor inlays to be established on hot water pipeline, and hot water hall sensor's signal induction end and hot water magnet rotor set looks adaptation, hot water magnet rotor set sets up in the hot water conservancy diversion body, and the pivot end and the hot water conservancy diversion body rotatable coupling of hot water magnet rotor set, the hot water conservancy diversion body is fixed in hot water pipeline's inner chamber, the signal end of regulation and control panel group carries out signal transmission with hot water hall sensor's signal end.

The utility model discloses preferred technical scheme lies in, hot water magnet rotor group includes hot water magnetism rotor and hot water pivot, the one end of hot water pivot and a terminal surface rotatable coupling of hot water baffle, and the center that hot water magnetism rotor was passed to the other end of hot water pivot and another terminal surface rotatable coupling of hot water baffle.

The utility model discloses preferred technical scheme lies in, cold water is intake and is organized including cold water pipeline, cold water solenoid valve and cold water flow inductor, and the valve end setting of cold water solenoid valve is in cold water pipeline, and cold water flow inductor sets up on the cold water pipeline of the delivery port that is close to cold water solenoid valve, and cold water solenoid valve's delivery port is linked together through the water inlet of cold water pipeline with cold water flow mixing chamber, and the signal end of regulation and control panel group carries out signal transmission with cold water solenoid valve's signal end and cold water flow inductor's signal end respectively.

The utility model discloses preferred technical scheme lies in, cold water flow sensor includes cold water hall sensor, cold water magnet rotor set and cold water conservancy diversion body, cold water hall sensor inlays to be established on the cold water pipeline, and cold water hall sensor's signal induction end and cold water magnet rotor set looks adaptation, cold water magnet rotor set sets up in the cold water conservancy diversion body, and the pivot end and the cold water conservancy diversion body rotatable coupling of cold water magnet rotor set, the cold water conservancy diversion body is fixed in the inner chamber of cold water pipeline, the signal terminal of regulation and control panel group carries out signal transmission with cold water hall sensor's signal terminal.

The utility model discloses preferred technical scheme lies in, cold water magnet rotor set includes cold water magnetic rotor and cold water pivot, the one end of cold water pivot and a terminal surface rotatable coupling of cold water baffle, and the other end of cold water pivot passes cold water magnetic rotor's center and another terminal surface rotatable coupling of cold water baffle.

The utility model discloses preferred technical scheme lies in, goes out the water group and includes outlet conduit and temperature-sensing ware, and the temperature-sensing end setting of temperature-sensing ware is in outlet conduit, and the signal end of temperature-sensing ware and the signal end of regulation and control panel group carry out signal transmission, and the delivery port of the mixed cavity of cold and hot water stream is linked together with outlet conduit's water inlet.

The utility model discloses preferably technical scheme lies in, regulation and control panel group includes the touch-control display screen, printed circuit board, ware and MCU module are received to the signal, the touch-control display screen, ware and MCU module are received to the signal are fixed respectively on printed circuit board, and the touch-control display screen, ware and MCU module are received to the signal respectively with printed circuit board electric connection, the printed circuit of touch-control display screen end through printed circuit board and the signal end electric connection of MCU module, the signal end of MCU module receive the ware through the signal respectively with the signal end of hot water solenoid valve, the signal end of hot water flow inductor, the signal end of cold water inlet group and the signal end of play water group carry out signal transmission.

The utility model has the advantages that:

the utility model provides a constant temperature water conservation goes out hydrophone, including hot water inlet group, cold water inlet group, hot and cold rivers mixing chamber and play water group, the delivery port of hot water inlet group and the delivery port of cold water inlet group are linked together with the water inlet of hot and cold rivers mixing chamber respectively, the delivery port of cold and hot rivers mixing chamber is linked together with the water inlet of play water group, hot water inlet group includes hot-water line, hot-water solenoid valve and hot water flow inductor, hot-water solenoid valve's valve end sets up in hot-water line, hot water flow inductor sets up on the hot-water line that is close to hot-water solenoid valve's delivery port, hot-water solenoid valve's delivery port is linked together through hot-water line and the water inlet of cold and hot rivers mixing chamber, constant temperature water conservation goes out hydrophone still includes regulation and control panel group, the signal end, And the signal end of the cold water inlet group and the signal end of the water outlet group carry out signal transmission. The control panel group controls the opening angle of the automatic regulating valve of the hot water inlet group or the cold water inlet group by comparing the real-time hot water or cold water flow value with the set hot water or cold water flow value, so as to achieve the effects of stable flow and constant water temperature. On the premise of not influencing the user experience, the flow set value of the hot water or the cold water is reduced, and the purpose of saving water can be achieved. Through the process, the constant-temperature water-saving water outlet device can monitor and adjust the flow of the cold and hot water inlet ends, so that the water inlet flow of the cold and hot ends is constant, and the constant temperature and water-saving effects of the water outlet device are better.

Drawings

Fig. 1 is a schematic structural view of a constant-temperature water-saving water outlet device without a control panel set according to an embodiment of the present invention;

FIG. 2 is an enlarged view of the structure of the constant-temperature water-saving water outlet device in the part A of FIG. 1;

FIG. 3 is an enlarged view of the structure of the constant-temperature water-saving water outlet device shown in the part B of FIG. 1;

fig. 4 is a schematic structural diagram of a control panel set according to an embodiment of the present invention.

In the figure:

1. a hot water inlet group; 11. a hot water pipe; 12. a hot water solenoid valve; 13. a hot water flow sensor; 131. A hot water Hall sensor; 132. a hot water magnet rotor set; 1321. a hot water magnetic rotor; 1322. a hot water rotating shaft; 133. a hot water flow conductor; 2. a cold water inlet group; 21. a cold water pipe; 22. a cold water solenoid valve; 23. A cold water flow sensor; 231. a cold water Hall sensor; 232. a cold water magnet rotor set; 2321. a cold water magnetic rotor; 2322. a cold water rotating shaft; 233. a cold water diversion body; 3. a cold and hot water flow mixing chamber; 4. a water outlet group; 41. a water outlet pipeline; 42. a temperature sensor; 5. regulating and controlling the panel group; 51. a touch display screen; 52. A printed circuit board; 53. a signal receiver; 54. and the MCU module.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 4, the constant temperature water-saving water outlet device provided in this embodiment includes a hot water inlet group 1, a cold water inlet group 2, a cold water-hot water mixing chamber 3, and a water outlet group 4, a water outlet of the hot water inlet group 1 and a water outlet of the cold water inlet group 2 are respectively communicated with a water inlet of the cold water-hot water mixing chamber 3, a water outlet of the cold water-hot water mixing chamber 3 is communicated with a water inlet of the water outlet group 4, the hot water inlet group 1 includes a hot water pipe 11, a hot water solenoid valve 12, and a hot water flow sensor 13, a valve end of the hot water solenoid valve 12 is disposed in the hot water pipe 11, the hot water flow sensor 13 is disposed on the hot water pipe 11 near the water outlet of the hot water solenoid valve 12, a water outlet of the hot water solenoid valve 12 is communicated with a water inlet of the cold water-hot, the signal end of the control panel group 5 is respectively in signal transmission with the signal end of the hot water electromagnetic valve 12, the signal end of the hot water flow sensor 13, the signal end of the cold water inlet group 2 and the signal end of the water outlet group 4. In order to enable the constant-temperature water-saving water outlet device to monitor and adjust the flow rate of hot water and keep the flow of the hot water constant, the constant water temperature and the water-saving effect are achieved. Furthermore, the control panel set 5 can be installed on a wall or a bathing device such as a water heater, a bathtub, etc., a user controls the hot water solenoid valve 12 to open the valve through the control panel set 5, at this time, hot water enters the hot water pipeline 11, the hot water flow sensor 13 can sense the hot water flow condition and transmit the hot water flow information to the control panel set 5, the control panel set 5 can control the hot water solenoid valve 12 to automatically adjust the opening angle of the valve after analyzing the hot water flow information, thereby maintaining the stability of the hot water flow, the stable hot water supply can make the water temperature constant, meanwhile, the user can know the hot water flow information and set the hot water flow value through the control panel set 5, the control panel set 5 controls the hot water solenoid valve 12 to automatically adjust the opening angle of the valve by comparing the real-time hot water flow value with the set hot water flow value, the effects of stable flow and constant water temperature are achieved. On the premise of not influencing the user experience, the set value of the hot water flow is reduced, and the purpose of saving water can be achieved. Meanwhile, after a user closes the valve end of the hot water electromagnetic valve 12 through the control panel set 5 and a certain time elapses, if the control panel set 5 shows that the current flow value is much greater than zero, it indicates that the valve end of the hot water electromagnetic valve 12 may not be closed, and a leakage risk exists, so that the user is reminded to timely overhaul the constant-temperature water-saving water outlet device, and the water using process of the user is more reliable and safer. Through the process, the constant-temperature water-saving water outlet device can monitor and adjust the flow of hot water, keep the flow of the hot water constant and further achieve the effects of constant water temperature and water saving.

In order to make the hot water flow sensor 13 sense the flow of hot water. Further, the hot water flow sensor 13 includes a hot water hall sensor 131, a hot water magnet rotor set 132 and a hot water flow guiding body 133, the hot water hall sensor 131 is embedded on the hot water pipeline 11, and a signal sensing end of the hot water hall sensor 131 is matched with the hot water magnet rotor set 132, the hot water magnet rotor set 132 is disposed in the hot water flow guiding body 133, and a rotating shaft end of the hot water magnet rotor set 132 is rotatably connected with the hot water flow guiding body 133, the hot water flow guiding body 133 is fixed in an inner cavity of the hot water pipeline 11, and a signal end of the control panel set 5 performs signal transmission with a signal end of the hot water hall sensor 131. After the valve end of the hot water solenoid valve 12 is opened, hot water enters the hot water pipeline 11, and passes through the hot water guide body 133, and then drives the hot water magnet rotor set 132 in the hot water guide body 133 to rotate, the rotating hot water magnet rotor set 132 is equivalent to a rotating magnetic field generating different magnetic poles, and at this time, the hot water hall sensor 131 cuts magnetic induction lines and generates high and low pulse levels. Because the frequency of the output pulse signal of the hot water hall sensor 131 is proportional to the rotating speed of the hot water magnet rotor set 132, and the rotating speed of the hot water magnet rotor set 132 is proportional to the water flow, the higher the water pressure is, the faster the water flow is, the faster the rotating speed of the hot water magnet rotor set 132 is, the higher the output pulse frequency is, and the regulation panel set 5 judges the flow rate of the hot water according to the pulse frequency. Through the above process, the hot water flow sensor 13 can sense the flow of hot water.

In order for the hot water magnet rotor set 132 to generate a rotating magnetic field. Further, the hot water magnet rotor set 132 includes a hot water magnet rotor 1321 and a hot water rotating shaft 1322, one end of the hot water rotating shaft 1322 is rotatably connected to one end surface of the hot water current guiding body 133, and the other end of the hot water rotating shaft 1322 passes through the center of the hot water magnet rotor 1321 and is rotatably connected to the other end surface of the hot water current guiding body 133. When water flows through the hot water flow guiding body 133, the hot water magnetic rotor 1321 is driven to rotate, and then a rotating magnetic field is generated, wherein the hot water rotating shaft 1322 is used for fixing and supporting the hot water magnetic rotor 1321 in a balanced manner. With the above configuration, the hot water magnet rotor set 132 can generate a rotating magnetic field.

In order to enable the constant-temperature water-saving water outlet device to monitor and adjust the flow rate of cold water. Further, the cold water inlet group 2 includes a cold water pipeline 21, a cold water solenoid valve 22 and a cold water flow sensor 23, a valve end of the cold water solenoid valve 22 is disposed in the cold water pipeline 21, the cold water flow sensor 23 is disposed on the cold water pipeline 21 close to a water outlet of the cold water solenoid valve 22, the water outlet of the cold water solenoid valve 22 is communicated with a water inlet of the cold water and hot water mixing chamber 3 through the cold water pipeline 21, and a signal end of the control panel group 5 performs signal transmission with a signal end of the cold water solenoid valve 22 and a signal end of the cold water flow sensor 23 respectively. The user controls the cold water electromagnetic valve 22 to open the valve through the control panel set 5, at this time, cold water enters the cold water pipeline 21, the cold water flow sensor 23 can sense the cold water flow condition and transmit cold water flow information to the control panel set 5, the control panel set 5 can control the cold water electromagnetic valve 22 to automatically adjust the opening angle of the valve after analyzing the cold water flow information, further, the stability of the cold water flow is maintained, the water temperature can be constant through stable cold water supply, meanwhile, the user can know the cold water flow information and set the cold water flow value through the control panel set 5, the control panel set 5 controls the opening angle of the cold water electromagnetic valve 22 to automatically adjust the valve by comparing the real-time cold water flow value with the set cold water flow value, and the effects of stable flow and constant water temperature are achieved. On the premise of not influencing the user experience, the set value of the flow of the cold water is reduced, and the purpose of saving water can be achieved. Meanwhile, after a user closes the valve end of the cold water electromagnetic valve 22 through the control panel group 5 and a certain time elapses, if the control panel group 5 shows that the current flow value is much larger than zero, it indicates that the valve end of the cold water electromagnetic valve 22 may not be closed, and a leakage risk exists, so that the user is reminded to timely overhaul the constant-temperature water-saving water outlet device, and the water using process of the user is more reliable and safer. Through the process, the constant-temperature water-saving water outlet device can monitor and adjust the water flow of cold water, keep the water flow of the cold water constant and further achieve the effects of constant water temperature and water saving.

In order to make the cold water flow sensor 23 sense the flow of cold water. Further, the cold water flow sensor 23 includes a cold water hall sensor 231, a cold water magnet rotor set 232, and a cold water current carrier 233, the cold water hall sensor 231 is embedded in the cold water pipe 21, a signal sensing end of the cold water hall sensor 231 is matched with the cold water magnet rotor set 232, the cold water magnet rotor set 232 is disposed in the cold water current carrier 233, a rotating shaft end of the cold water magnet rotor set 232 is rotatably connected with the cold water current carrier 233, the cold water current carrier 233 is fixed in an inner cavity of the cold water pipe 21, and a signal end of the control panel set 5 performs signal transmission with a signal end of the cold water hall sensor 231. After the valve end of the cold water electromagnetic valve 22 is opened, cold water enters the cold water pipeline 21 and passes through the cold water guide body 233, and then the cold water magnet rotor set 232 in the cold water guide body 233 is driven to rotate, the rotating cold water magnet rotor set 232 is equivalent to a rotating magnetic field generating different magnetic poles, and at the moment, the cold water hall sensor 231 cuts magnetic induction lines and generates high and low pulse levels. Because the output pulse signal frequency of the cold water hall sensor 231 is in direct proportion to the rotating speed of the cold water magnet rotor set 232, and the rotating speed of the cold water magnet rotor set 232 is in direct proportion to the water flow, the higher the water pressure is, the faster the water flow is, the faster the rotating speed of the cold water magnet rotor set 232 is, the higher the output pulse frequency is, and the regulation panel set 5 judges the flow condition of the cold water according to the pulse frequency. Through the above process, the cold water flow sensor 23 can sense the flow of cold water.

In order to allow the cold water magnet rotor set 232 to generate a rotating magnetic field. Further, the cold water magnet rotor set 232 includes a cold water magnet rotor 2321 and a cold water rotating shaft 2322, one end of the cold water rotating shaft 2322 is rotatably connected to one end surface of the cold water current carrier 233, and the other end of the cold water rotating shaft 2322 passes through the center of the cold water magnet rotor 2321 and is rotatably connected to the other end surface of the cold water current carrier 233. When the water flows through the cold water diversion body 233, the cold water magnetic rotor 2321 is driven to rotate, and a rotating magnetic field is generated, wherein the cold water rotating shaft 2322 is used for fixing and supporting the cold water magnetic rotor 2321 in a balanced manner. With the above structure, the cold water magnet rotor set 232 can generate a rotating magnetic field.

In order to ensure that the outlet water temperature of the outlet water group 4 is constant. Further, the water outlet set 4 includes a water outlet pipe 41 and a temperature sensor 42, a temperature sensing end of the temperature sensor 42 is disposed in the water outlet pipe 41, a signal end of the temperature sensor 42 performs signal transmission with a signal end of the control panel set 5, and a water outlet of the cold and hot water mixing chamber 3 is communicated with a water inlet of the water outlet pipe 41. The temperature sensor 42 can sense the outlet water temperature of hot water and cold water mixed and discharged in the cold and hot water mixing chamber 3, and transmit the outlet water temperature information to the regulation panel group 5, the regulation panel group compares the real-time water temperature with the set temperature interval, finely adjusts the opening angle of the valve end of the hot water electromagnetic valve 12 and the cold water inlet group 2, and makes timely temperature calibration through the information feedback of the outlet water temperature, so that the outlet water temperature is maintained in the temperature set interval, and the outlet water temperature is more reliable and constant. Through the process, the outlet water temperature of the outlet water group 4 is ensured to be constant.

In order to enable the control panel group 5 to control cold and hot water inlet, constant-temperature water outlet and water saving effects are realized. Further, the control panel set 5 includes a touch display screen 51, a printed circuit board 52, a signal transceiver 53 and an MCU module 54, the touch display screen 51, the signal transceiver 53 and the MCU module 54 are respectively fixed on the printed circuit board 52, and the touch display screen 51, the signal transceiver 53 and the MCU module 54 are respectively electrically connected to the printed circuit board 52, a signal end of the touch display screen 51 is electrically connected to a signal end of the MCU module 54 through a printed circuit of the printed circuit board 52, and a signal end of the MCU module 54 is respectively in signal transmission with a signal end of the hot water solenoid valve 12, a signal end of the hot water flow sensor 13, a signal end of the cold water inlet set 2 and a signal end of the water outlet set 4 through the signal transceiver 53. After a user inputs a valve opening and closing instruction through the touch display screen 51, the valve opening and closing instruction information is transmitted to the MCU module 54, and the MCU module 54 sends information through the signal sending and receiving device 53 after analysis and processing, so that the hot water on-off of the hot water inlet group 1 and the cold water on-off of the cold water inlet group 2 can be controlled. The MCU module 54 can receive the hot water flow information of the hot water inlet group 1 and the cold water flow information of the cold water inlet group 2 through the signal transceiver 53, display the real-time flow information to the user through the touch display screen 51 after analysis, the user can input the set value of the hot water or cold water flow through the touch display screen 51, the MCU module 54 compares the set value of the hot water flow with the real-time flow value, and adjusts and controls the opening angle of the valve of the hot water inlet group 1 or the cold water inlet group 2, thereby achieving the effects of keeping the water temperature constant and saving water. Through the process, the cold and hot water inlet can be regulated and controlled by the regulation panel group 5, so that constant-temperature water outlet and water saving effects are realized.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (8)

1. The utility model provides a constant temperature water conservation goes out hydrophone, includes that hot water is intake group (1), cold water intake group (2), cold and hot water flow mixing chamber (3) and goes out water group (4), the delivery port of hot water intake group (1) and the delivery port of cold water intake group (2) respectively with the water inlet of cold and hot water flow mixing chamber (3) is linked together, the delivery port of cold and hot water flow mixing chamber (3) with the water inlet of going out water group (4) is linked together, its characterized in that:

the hot water inlet group (1) comprises a hot water pipeline (11), a hot water electromagnetic valve (12) and a hot water flow sensor (13);

the valve end of the hot water electromagnetic valve (12) is arranged in the hot water pipeline (11);

the hot water flow sensor (13) is arranged on the hot water pipeline (11) close to the water outlet of the hot water electromagnetic valve (12);

the water outlet of the hot water electromagnetic valve (12) is communicated with the water inlet of the cold and hot water flow mixing chamber (3) through the hot water pipeline (11);

the constant-temperature water-saving water outlet device also comprises a regulation panel group (5);

and the signal end of the regulation panel group (5) is in signal transmission with the signal end of the hot water electromagnetic valve (12), the signal end of the hot water flow sensor (13), the signal end of the cold water inlet group (2) and the signal end of the water outlet group (4) respectively.

2. The constant-temperature water-saving water outlet device according to claim 1, characterized in that:

the hot water flow sensor (13) comprises a hot water Hall sensor (131), a hot water magnet rotor set (132) and a hot water guide body (133);

the hot water Hall sensor (131) is embedded on the hot water pipeline (11), and the signal sensing end of the hot water Hall sensor (131) is matched with the hot water magnet rotor set (132);

the hot water magnet rotor set (132) is arranged in the hot water guide body (133), and the rotating shaft end of the hot water magnet rotor set (132) is rotatably connected with the hot water guide body (133);

the hot water flow guide body (133) is fixed in the inner cavity of the hot water pipeline (11);

and the signal end of the regulating panel group (5) is in signal transmission with the signal end of the hot water Hall sensor (131).

3. The constant-temperature water-saving water outlet device according to claim 2, characterized in that:

the hot water magnet rotor set (132) comprises a hot water magnet rotor (1321) and a hot water rotating shaft (1322);

one end of the hot water rotating shaft (1322) is rotatably connected with one end surface of the hot water flow guiding body (133), and the other end of the hot water rotating shaft (1322) passes through the center of the hot water magnetic rotor (1321) and is rotatably connected with the other end surface of the hot water flow guiding body (133).

4. The constant-temperature water-saving water outlet device according to claim 1, characterized in that:

the cold water inlet group (2) comprises a cold water pipeline (21), a cold water electromagnetic valve (22) and a cold water flow inductor (23);

the valve end of the cold water electromagnetic valve (22) is arranged in the cold water pipeline (21);

the cold water flow sensor (23) is arranged on the cold water pipeline (21) close to the water outlet of the cold water electromagnetic valve (22);

the water outlet of the cold water electromagnetic valve (22) is communicated with the water inlet of the cold and hot water flow mixing chamber (3) through the cold water pipeline (21);

and the signal end of the regulating panel group (5) is in signal transmission with the signal end of the cold water electromagnetic valve (22) and the signal end of the cold water flow inductor (23) respectively.

5. The constant-temperature water-saving water outlet device according to claim 4, characterized in that:

the cold water flow sensor (23) comprises a cold water Hall sensor (231), a cold water magnet rotor set (232) and a cold water guide body (233);

the cold water Hall sensor (231) is embedded on the cold water pipeline (21), and the signal sensing end of the cold water Hall sensor (231) is matched with the cold water magnet rotor set (232);

the cold water magnet rotor set (232) is arranged in the cold water guide body (233), and the rotating shaft end of the cold water magnet rotor set (232) is rotatably connected with the cold water guide body (233);

the cold water flow guide body (233) is fixed in the inner cavity of the cold water pipeline (21);

and the signal end of the regulation panel group (5) and the signal end of the cold water Hall sensor (231) are in signal transmission.

6. The constant-temperature water-saving water outlet device according to claim 5, characterized in that:

the cold water magnet rotor set (232) comprises a cold water magnet rotor (2321) and a cold water rotating shaft (2322);

one end of the cold water rotating shaft (2322) is rotatably connected with one end face of the cold water flow guiding body (233), and the other end of the cold water rotating shaft (2322) penetrates through the center of the cold water magnetic rotor (2321) to be rotatably connected with the other end face of the cold water flow guiding body (233).

7. The constant-temperature water-saving water outlet device according to claim 1, characterized in that:

the water outlet group (4) comprises a water outlet pipeline (41) and a temperature sensor (42);

the temperature sensing end of the temperature sensor (42) is arranged in the water outlet pipeline (41), and the signal end of the temperature sensor (42) is in signal transmission with the signal end of the regulation panel group (5);

the water outlet of the cold and hot water flow mixing chamber (3) is communicated with the water inlet of the water outlet pipeline (41).

8. The constant-temperature water-saving water outlet device according to claim 1, characterized in that:

the control panel group (5) comprises a touch display screen (51), a printed circuit board (52), a signal receiver-transmitter (53) and an MCU module (54);

the touch display screen (51), the signal transceiver (53) and the MCU module (54) are respectively fixed on the printed circuit board (52), and the touch display screen (51), the signal transceiver (53) and the MCU module (54) are respectively electrically connected with the printed circuit board (52);

the signal end of the touch display screen (51) is electrically connected with the signal end of the MCU module (54) through the printed circuit of the printed circuit board (52);

and the signal end of the MCU module (54) is in signal transmission with the signal end of the hot water electromagnetic valve (12), the signal end of the hot water flow inductor (13), the signal end of the cold water inlet group (2) and the signal end of the water outlet group (4) through the signal transceiver (53).

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