CN211039792U - Water mixer with self-generating function - Google Patents

Abstract

The utility model discloses a muddy hydrophone with from power generation function, include: a mixing valve configured with a hot water inlet, a cold water inlet and a mixed water outlet; a hot water inlet pipe for introducing hot water and communicating with the hot water inlet; a cold water inlet pipe for introducing cold water and communicating with the cold water inlet; the water flow power generation assembly is connected with the mixed water outlet and is used for generating power by utilizing the water flow output by the mixed water outlet; and the electricity utilization assembly is electrically connected with the water flow power generation assembly and is used for utilizing the electric energy output by the water flow power generation assembly. Through increasing rivers electricity generation subassembly and power consumption subassembly, rivers electricity generation subassembly can utilize the rivers that mix the output of water valve to generate electricity to supply power for the power consumption subassembly, like this, on mixing the water ware alright dispose the power consumption subassembly of corresponding function as required, with the service function who mixes the water ware richly, improve the user experience nature that has the water mixing ware from power generation.

Description

Water mixer with self-generating function

Technical Field

The utility model belongs to the technical field of domestic appliance, especially, relate to a muddy hydrophone with from power generation function.

Background

At present, an electric water heater is a common household appliance in daily life, and the electric water heater is usually matched with a water mixer to be used in the actual use process, and the final outlet water temperature is adjusted through the water mixer. The water mixer in the prior art is independent of the installation of the electric water heater, the power supply line of the electric water heater cannot be used for supplying power in sequence, and correspondingly, related electric appliance parts cannot be configured on the water mixer, so that the water mixer is single in function, and the user experience is poor. How to design a can be from the muddy hydrophone in order to improve user experience nature the utility model discloses the technical problem that will solve.

SUMMERY OF THE UTILITY MODEL

The utility model provides a water mixer with from power generation function generates electricity with utilizing rivers through increasing rivers electricity generation subassembly to realize that the configuration is extra with the power consumption subassembly on water mixer in order to enrich its function, improve the user experience nature of water mixer with from power generation function.

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

a water mixer having a self-generating function, comprising:

a mixing valve configured with a hot water inlet, a cold water inlet and a mixed water outlet;

a hot water inlet pipe for introducing hot water and communicating with the hot water inlet;

a cold water inlet pipe for introducing cold water and communicating with the cold water inlet;

the water flow power generation assembly is connected with the mixed water outlet and is used for generating power by utilizing the water flow output by the mixed water outlet;

and the electricity utilization assembly is electrically connected with the water flow power generation assembly and is used for utilizing the electric energy output by the water flow power generation assembly.

Further, the water current power generation assembly comprises:

a generator electrically connected with the power consuming component;

the water wheel is used for driving the generator to generate power through the water flow output by the mixed water outlet.

Further, the method also comprises the following steps: the water flow pipe set is provided with a water mixing flow channel and a water outlet, one end part of the water mixing flow channel is communicated with the water outlet, and the other end part of the water mixing flow channel is communicated with the mixed water outlet; the water wheel is positioned between the mixed water flow channel and the mixed water outlet; the water mixing valve is arranged on the water flow pipe group.

Furthermore, a power generation water cavity is formed in the water flow pipe group, the power generation water cavity is connected between the mixed water flow channel and the mixed water outlet, the water wheel is located in the power generation water cavity, and a rotating shaft of the generator is inserted in the power generation water cavity in a sealing mode and is connected with the water wheel.

Further, the water flow tube set comprises:

the water mixing device comprises a first pipe body, a second pipe body and a water mixing pipe, wherein the first pipe body is internally provided with the water mixing flow passage;

the second pipe body is provided with the power generation water cavity;

the first pipe body is connected with the second pipe body, and the water mixing valve and the water flow power generation assembly are installed on the second pipe body.

Further, a hot water flow passage is formed in the first pipe body, a cold water flow passage is formed in the second pipe body, the hot water inlet pipe is communicated with the hot water inlet through the hot water flow passage, and the cold water inlet pipe is communicated with the cold water inlet through the cold water flow passage; the hot water inlet pipe is arranged on the first pipe body, and the cold water inlet pipe and the water mixing valve are arranged on the second pipe body.

Furthermore, a plurality of water outlet channels are also arranged in the first pipe body, a plurality of water outlets are also arranged on the first pipe body, and the water outlets are communicated with the corresponding water outlet channels;

the water mixer with the self-generating function further comprises:

the switching valve is arranged on the first pipe body and used for switching the water mixing flow channel to be communicated with one of the water outlet flow channels.

Further, a first mounting opening and a second mounting opening are formed in the first pipe body, the water mixing flow channel and the water outlet flow channel are respectively communicated with the first mounting opening, and the hot water flow channel is communicated with the second mounting opening; the switching valve is installed in the first installation port, and the hot water inlet pipe is installed in the second installation port.

Further, a third mounting port and a fourth mounting port are formed in the second pipe body, and the cold water flow channel is communicated with the third mounting port and the fourth mounting port respectively; the water mixing valve is installed in the third installation opening, and the cold water inlet pipe is installed in the fourth installation opening.

Furthermore, a first connecting port and a second connecting port are arranged on the first pipe body, the first connecting port is communicated with the hot water flow channel, and the second connecting port is communicated with the water mixing flow channel; a third connecting port and a fourth connecting port are arranged on the second pipe body, and the third connecting port and the fourth connecting port are respectively communicated with the third mounting port; the first connecting port is hermetically connected with the third connecting port, and the second connecting port is hermetically connected with the fourth connecting port.

Compared with the prior art, the utility model discloses an advantage is with positive effect: the utility model provides a water mixer with from power generation function, through increasing rivers electricity generation subassembly and power consumption subassembly, rivers electricity generation subassembly can utilize the rivers of mixing water valve output to generate electricity to supply power for the power consumption subassembly, like this, on mixing the water mixer alright with the power consumption subassembly of corresponding function of configuration as required, with the service function of richening water mixer, improve the user experience nature of the water mixer with from power generation function.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural diagram of an embodiment of a water mixer with a self-generating function according to the present invention;

fig. 2 is a sectional view of the water mixer having a self-generating function in fig. 1;

FIG. 3 is a schematic structural view of the first tube;

FIG. 4 is a second schematic structural view of the first tube;

FIG. 5 is a third schematic structural view of the first tube;

FIG. 6 is a sectional view taken along line A-A of FIG. 5;

FIG. 7 is a sectional view taken along line B-B of FIG. 5;

FIG. 8 is a schematic structural view of the second tube;

FIG. 9 is a second schematic structural view of the second tube;

fig. 10 is a schematic structural view of a mixing valve;

fig. 11 is a schematic structural view of the switching valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 11, the water mixer with a self-generating function of the present embodiment includes: a water mixing valve 1, a hot water inlet pipe 2 and a cold water inlet pipe 3. The mixing valve 1 is provided with a hot water inlet 11, a cold water inlet 12 and a mixed water outlet 13, the hot water inlet pipe 2 is used for being connected with a hot water port of a water heater to introduce hot water and convey the hot water to the hot water inlet 11, and the cold water inlet pipe 3 is used for introducing cold water and conveying the cold water to the cold water inlet 12. The concrete representation entity of the water mixing valve 1 may be a valve body with a water mixing function in the prior art, and is not limited or described herein.

In order to realize the use function of the self-generating water mixer, the water mixer with the self-generating function further comprises an electricity utilization assembly and a water flow power generation assembly 7, wherein the electricity utilization assembly is an electrical appliance part with a specific function, and the description is given by taking the electricity utilization assembly as a temperature display assembly 6 capable of detecting and displaying the water temperature as an example. The water flow power generation assembly 7 can generate power by using the water flow output from the mixed water outlet 13 of the water mixing valve 1, and the temperature display assembly 6 is supplied with power by the electric energy generated by the water flow power generation assembly 7. Wherein, water flow power generation component 7 includes: the generator 71 and the water wheel 72, wherein the generator 71 is electrically connected with the temperature display assembly 6; the water wheel 72 is used for driving the generator 71 to generate electricity by the rotation of the water flow output from the mixed water outlet 13. Specifically, the flowing water can drive the water wheel 72 to rotate, and the rotating water wheel 72 can drive the generator 71 to generate electricity, so as to meet the electricity consumption requirement of the temperature display assembly 6.

The water mixer further comprises a water flow pipe group 4, the water flow pipe group 4 is provided with a water mixing flow channel 403 and a water outlet 405, one end of the water mixing flow channel 405 is communicated with the water outlet 405, and the other end of the water mixing flow channel 403 is communicated with the mixed water outlet 13; the temperature display assembly 6 includes a temperature sensor 61 and a display 62, the temperature sensor 61 is used for detecting the temperature of the water in the mixed water flow passage 403, and the display 62 is used for displaying the temperature of the water detected by the temperature sensor 61. The water output from the mixed water outlet 13 of the mixing valve 1 flows through the mixing flow channel 403 and is output from the water outlet 405, while the temperature of the water flowing through the mixing flow channel 403 can be detected by the temperature sensor 61, and the temperature value detected by the temperature sensor 61 is displayed by the display 62. And the water wheel 72 is positioned between the mixed water flow channel 403 and the mixed water outlet 13, and the water output from the mixed water outlet 13 directly drives the water wheel 72 to rotate, so as to improve the power generation efficiency. Preferably, in order to facilitate installation of the water current power generation assembly 7, the power generation water chamber 40 is formed in the water current pipe group 4, the power generation water chamber 40 is connected between the mixed water flow channel 403 and the mixed water outlet 13, the water wheel 72 is located in the power generation water chamber 40, and the rotating shaft of the generator 71 is hermetically inserted into the power generation water chamber 40 and connected with the water wheel 72. Specifically, the power generation water cavity 40 is formed in the water flow pipe group 4, so that the installation requirement of the water wheel 72 can be met, and the water flow output by the mixed water outlet 13 enters the power generation water cavity 40 to drive the water wheel 72 to rotate and then flows into the mixed water flow channel 403. The rotating shaft sealing mode of the generator 71 can adopt a dynamic sealing connection mode to realize sealing insertion into the power generation water cavity 40, which is not limited and described herein.

And through configuration temperature display module 6, the user can be directly perceived through display 62 in the in-process of adjusting the temperature through muddy water valve 1 and look over the size of leaving water temperature. Therefore, the water temperature can be adjusted without body feeling, and the water temperature can be accurately adjusted, so that the user experience is improved. Meanwhile, the temperature of the outlet water can meet the temperature value required by a user, the phenomenon that the user is scalded due to overhigh temperature of the outlet water is avoided, and the use safety and reliability are effectively improved.

Preferably, the water flow pipe group 4 is provided with a mounting hole 415 communicating with the mixing flow passage 403, and the temperature sensor 61 is sealingly mounted in the mounting hole 415. Specifically, the temperature sensor 61 may be sealed in the mounting hole 415 by a sealing ring or the like, and the probe of the temperature sensor 61 may directly contact the water flowing in the mixed water flow passage 403, so that the temperature sensor 61 can accurately detect the temperature of the water.

In order to meet the requirement of enriching the water outlet mode on the premise of having the function of the electricity-proof wall, correspondingly, the water mixer with the self-generating function of the embodiment further comprises a switching valve 5, wherein a hot water flow channel 401, a cold water flow channel 402, a water mixing flow channel 403 and a plurality of water outlet flow channels 404 are configured in the water flow pipe group 4, the water flow pipe group 4 is further provided with a plurality of water outlets 405, and the water outlets 405 are communicated with the corresponding water outlet flow channels 404; a switching valve 5 is installed on the water flow pipe set 4 for switching the communication between the mixing flow passage 403 and one of the outlet flow passages 404. Wherein, the hot water inlet pipe 2 is communicated with the hot water inlet 11 through a hot water flow passage 401, the cold water inlet pipe 3 is communicated with the cold water inlet 12 through a cold water flow passage 402, and the mixed water flow passage 403 is communicated with the mixed water outlet 13; furthermore, a first current-proof flow path is formed among the hot water inlet pipe 2, the hot water flow passage 401, the mixed water flow passage 403, and any one of the water outlet flow passages 404.

Specifically, water output from the mixed water outlet 13 of the mixing valve 1 flows into the switching valve 5 through the mixed water flow passage 403, and the switching valve 5 delivers the water to a certain outlet flow passage 404 and outputs the water through an outlet 405 communicating with the outlet flow passage 404. In the actual use process, a user selects a specific water outlet flow channel 404 to discharge water by operating the switching valve 5 so as to meet different water outlet requirements of the user, and the water outlet function is rich so as to improve the user experience. For example: the water flow pipe set 4 has three water outlet channels 404, the upper part of the water flow pipe set 4 is provided with one water outlet 405, and the lower part of the water flow pipe set 4 is provided with two water outlets 405. The three water outlets 405 can meet the requirements of upper water outlet and lower water outlet so as to effectively meet the use requirements of users.

For the switching valve 5, the switching valve 5 is a valve body having an inlet 51 and a plurality of outlets 52, and the switching valve 5 can selectively switch the inlet 51 to communicate with different outlets 52 to achieve the function of switching the water path, and the switching valve 5 may adopt a valve body having a water path switching function in the conventional technology, and specific representation entities of the switching valve 5 are not limited and described herein. And because the hot water inlet pipe 2 is connected with the electric water heater, the electric water heater is easy to leak electricity and conduct electricity to a user side through the hot water inlet pipe 2. Correspondingly, the electricity-proof wall needs to be optimally designed for the flow path through which the water in the water inlet and heating pipe 2 flows. Therefore, the water output from the hot water inlet pipe 2 sequentially passes through the hot water flow channel 401, the mixed water flow channel 403 and the water outlet flow channel 404, and a first water leakage preventing flow path is formed among the hot water inlet pipe 2, the hot water flow channel 401, the mixed water flow channel 403 and any one of the water outlet flow channels 404, so that the resistance of the water flowing in the first water leakage preventing flow path can electrically insulate the flow path. Therefore, even if the electric water heater generates electric leakage, the danger of electric shock of a user can not occur.

In addition, the resistance value of the aqueous medium formed by the first water-proof flow path is large enough to meet the requirement of the water-proof wall, and the resistance of each section of the aqueous medium corresponding to the achieved resistance value of the aqueous medium of the first water-proof flow path can be obtained according to the length and the cross-sectional dimension of the hot water inlet pipe 2, the hot water flow path 401, the water mixing flow path 403 and the water outlet flow path 404. The lengths and sectional dimensions of the hot water inlet pipe 2, the hot water flow passage 401, the mixed water flow passage 403, and the water outlet flow passage 404 are not limited herein. Preferably, when other household electrical appliance components are electrically leaked and conducted through the cold water inlet pipe 3, a second current-preventing flow path is formed among the cold water inlet pipe 3, the hot water flow path 401, the mixed water flow path 403 and any one of the water outlet flow paths 404. Specifically, the resistance value of the aqueous medium formed by the second current-preventing circuit also meets the requirement of the current-preventing wall, and for the design of the second current-preventing circuit, reference is made to the description of the first current-preventing circuit, which is not limited or described herein. In addition, the materials forming the hot water inlet pipe 2, the cold water inlet pipe 3, the hot water flow passage 401, the mixed water flow passage 403 and the water outlet flow passage 404 are made of insulating materials, for example: an insulating material such as plastic, etc., without limitation. In addition, the valve core of the water mixing valve 1 is made of insulating materials so as to meet the requirements of electricity-proof walls.

Further, in order to reduce the processing difficulty of the water flow pipe group 4, the water flow pipe group 4 includes: a first tube 41 and a second tube 42. A hot water flow passage 401, a mixed water flow passage 403 and a water outlet flow passage 404 are formed in the first pipe body 41, and a cold water flow passage 402 is formed in the second pipe body 42; the first pipe body 41 is connected with the second pipe body 42, the hot water inlet pipe 2 and the switching valve 5 are installed on the first pipe body 41, and the cold water inlet pipe 3 and the water mixing valve 1 are installed on the second pipe body 42. Specifically, a hot water flow passage 401, a mixed water flow passage 403, and an outlet flow passage 404 are formed in the first pipe body 41, and a water outlet 405 is provided in the first pipe body 41, and the hot water pipe 2 and the switching valve 5 are installed through the first pipe body 411. In this way, the hot water flow passage 401, the mixed water flow passage 403 and the water outlet flow passage 404 arranged along the extending direction of the first pipe body 41 can be formed in the first pipe body 41, so as to facilitate the processing and manufacturing; meanwhile, the overall length of the first pipe 41 is long, which can satisfy the requirement of effectively increasing the resistance value of the aqueous medium through the hot water flow channel 401, the mixed water flow channel 403 and the water outlet flow channel 404. In addition, since the hot water inlet pipe 2 is likely to be charged, the hot water flow passage 401 is formed in the first pipe body 41, so that the resistance of the aqueous medium in the first electricity-preventing flow passage can be effectively increased to improve the electricity-preventing capability.

Further, the mixing valve 1, the hot water inlet pipe 2, the cold water inlet pipe 3, and the switching valve 5 are assembled in the following configuration.

For the first pipe body 41, the hot water inlet pipe 2 and the switching valve 5 need to be installed thereon, a first installation opening 411 and a second installation opening 412 are arranged on the first pipe body 41, the mixed water flow passage 403 and the water outlet flow passage 404 are respectively communicated with the first installation opening 411, and the hot water flow passage 401 is communicated with the second installation opening 412; the switching valve 5 is installed in the first installation port 411, and the hot water inlet pipe 2 is installed in the second installation port 412. Specifically, the first mounting port 411 and the second mounting port 412 may be provided with threaded holes, respectively, so that the switching valve 5 is screwed into the first mounting port 411, and the hot water inlet pipe 2 and the second mounting port 412 are screwed into the second mounting port 412. The hot water output from the hot water inlet pipe 2 flows into the hot water flow passage 401 through the second mounting port 412, and the water in the mixed water flow passage 403 flows into the first mounting port 411 and enters the switching valve 5, and the water is selectively delivered to one of the water outlet flow passages 404 through the switching valve 5. After the switching valve 5 is installed in the first installation opening 411, the outlet of the switching valve 5 is connected to the corresponding outlet flow channel in a sealing manner, and the inlet of the switching valve 5 is connected to the mixed water flow channel 403 in a sealing manner.

For the second pipe 42, a third mounting port 421 and a fourth mounting port 422 are provided on the second pipe 42, and the cold water flow passage 402 is respectively communicated with the third mounting port 421 and the fourth mounting port 422; the mixing valve 1 is installed in the third installation port 421, and the cold water inlet pipe 3 is installed in the fourth installation port 422. Specifically, the second pipe 42 is used to mount the cold water inlet pipe 3 and the mixing valve 1, and is used to transfer the hot water supplied from the hot water flow passage 401 to the mixing valve 1 and to transfer the mixed water to the mixing flow passage 403. The second pipe 42 is a four-way pipe structure to meet the installation requirements of water flow connection and the water mixing valve 1 and the cold water inlet pipe 3.

As for the connection mode of the first tube 41 and the second tube 42, the following is specific: the first pipe body 41 is provided with a first connecting port 413 and a second connecting port 414, the first connecting port 413 is communicated with the hot water flow channel 401, and the second connecting port 414 is communicated with the mixed water flow channel 403; the second pipe body 42 is provided with a third connecting port 423 and a fourth connecting port 424, the third connecting port 423 is communicated with the third mounting port 421, and the fourth connecting port 424 is communicated with the third mounting port 421 through the power generation water cavity 40; the first connection port 413 and the third connection port 423 are hermetically connected by a gasket, and the second connection port 414 and the fourth connection port 424 are hermetically connected by a gasket. Specifically, after the first pipe 41 and the second pipe 42 are connected together, the first connection port 413 is connected to the third connection port 423 in a sealing manner, and the second connection port 414 is connected to the fourth connection port 424 in a sealing manner, so as to communicate the water paths in the first pipe 41 and the second pipe 42. In addition, the first connection port 413 and the second connection port 414 may be in the form of a concave port, while the third connection port 423 and the fourth connection port 424 are formed by a convex joint, and the third connection port 423 is correspondingly inserted into the first connection port 413, and the fourth connection port 424 is correspondingly inserted into the second connection port 414, so as to realize the fixed connection of the first pipe body 41 and the second pipe body 42. Here, the fixing connection manner of the first tube 41 and the second tube 42 is not limited.

In addition, in order to reasonably distribute the two valves and facilitate connection with an external water pipe, the first mounting port 411 is located at the outer end of the first pipe body 41, the third mounting port 421 is located at the outer end of the second pipe body 42, and the mixing valve 1 and the switching valve 5 are arranged in a back-to-back manner; meanwhile, the second mounting port 412 and the fourth mounting port 422 are located on the same side of the water flow tube group 4. Specifically, in the using process, a user can select a corresponding water outlet mode by adjusting the switching valve 5 on one side; and the water outlet temperature can be adjusted by adjusting the water mixing valve 1 on the other side, so that the water mixing valve is convenient for a user to use in actual operation. And, because advance hot water pipe 2 and advance cold water pipe 3 and lie in same one side, the pipe connection in more convenience of customers' family reduces the installation degree of difficulty.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or that equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention, which is claimed.

Claims (10)

1. A water mixer with self-generating function is characterized by comprising:

a mixing valve configured with a hot water inlet, a cold water inlet and a mixed water outlet;

a hot water inlet pipe for introducing hot water and communicating with the hot water inlet;

a cold water inlet pipe for introducing cold water and communicating with the cold water inlet;

the water flow power generation assembly is connected with the mixed water outlet and is used for generating power by utilizing the water flow output by the mixed water outlet;

and the electricity utilization assembly is electrically connected with the water flow power generation assembly and is used for utilizing the electric energy output by the water flow power generation assembly.

2. The water mixer with self-generating function according to claim 1, wherein the water flow power generation assembly comprises:

a generator electrically connected with the power consuming component;

the water wheel is used for driving the generator to generate power through the water flow output by the mixed water outlet.

3. The water mixer with the self-generating function according to claim 2, further comprising:

the water flow pipe set is provided with a water mixing flow channel and a water outlet, one end part of the water mixing flow channel is communicated with the water outlet, and the other end part of the water mixing flow channel is communicated with the mixed water outlet; the water wheel is positioned between the mixed water flow channel and the mixed water outlet; the water mixing valve is arranged on the water flow pipe group.

4. The water mixer with the self-generating function according to claim 3, wherein a generating water cavity is formed in the water flow pipe group, the generating water cavity is connected between the water mixing flow channel and the mixed water outlet, the water wheel is located in the generating water cavity, and a rotating shaft of the generator is hermetically inserted in the generating water cavity and connected with the water wheel.

5. The water mixer with self-generating function according to claim 4, wherein the water flow pipe group comprises:

the water mixing device comprises a first pipe body, a second pipe body and a water mixing pipe, wherein the first pipe body is internally provided with the water mixing flow passage;

the second pipe body is provided with the power generation water cavity;

the first pipe body is connected with the second pipe body, and the water mixing valve and the water flow power generation assembly are installed on the second pipe body.

6. The water mixer with the self-generating function according to claim 5, wherein the first pipe body has a hot water flow passage formed therein, the second pipe body has a cold water flow passage formed therein, the hot water inlet pipe communicates with the hot water inlet through the hot water flow passage, and the cold water inlet pipe communicates with the cold water inlet through the cold water flow passage; the hot water inlet pipe is arranged on the first pipe body, and the cold water inlet pipe and the water mixing valve are arranged on the second pipe body.

7. The water mixer with the self-generating function according to claim 6, wherein a plurality of water outlet flow channels are further configured in the first pipe body, and a plurality of water outlets are further arranged on the first pipe body and are communicated with the corresponding water outlet flow channels;

the water mixer with the self-generating function further comprises:

the switching valve is arranged on the first pipe body and used for switching the water mixing flow channel to be communicated with one of the water outlet flow channels.

8. The water mixer with the self-generating function according to claim 7, wherein the first pipe body is provided with a first mounting opening and a second mounting opening, the water mixing flow passage and the water outlet flow passage are respectively communicated with the first mounting opening, and the hot water flow passage is communicated with the second mounting opening; the switching valve is installed in the first installation port, and the hot water inlet pipe is installed in the second installation port.

9. The water mixer with the self-generating function according to claim 8, wherein a third mounting opening and a fourth mounting opening are formed in the second pipe body, and the cold water flow passage is respectively communicated with the third mounting opening and the fourth mounting opening; the water mixing valve is installed in the third installation opening, and the cold water inlet pipe is installed in the fourth installation opening.

10. The water mixer with the self-generating function according to claim 9, wherein the first pipe body is provided with a first connection port and a second connection port, the first connection port is communicated with the hot water flow passage, and the second connection port is communicated with the water mixing flow passage; a third connecting port and a fourth connecting port are arranged on the second pipe body, and the third connecting port and the fourth connecting port are respectively communicated with the third mounting port; the first connecting port is hermetically connected with the third connecting port, and the second connecting port is hermetically connected with the fourth connecting port.

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