CN215721017U - Hydroelectric power generation's shower faucet - Google Patents

Abstract

The utility model provides a shower faucet with hydroelectric power generation, which comprises a faucet body, a cold-hot water mixing control valve, a hydroelectric power generation mechanism and an electronic functional part, wherein the faucet body is provided with a water inlet and a water outlet; the faucet body is provided with a power generation mechanism assembly chamber, a mixed water chamber and at least one water outlet; the hydraulic power generation mechanism is assembled in a power generation mechanism assembly cavity, and the cold and hot water mixing control valve is assembled in a mixed water cavity; the mixed water cavity is communicated with the water inlet end of the power generation mechanism assembly cavity through a mixed water flow passage, and the water outlet is communicated with the water outlet end of the power generation mechanism assembly cavity through a water outlet flow passage; the electronic function piece is fixedly arranged on the faucet body and electrically connected with the hydroelectric generation mechanism. The utility model has the advantages that: the shower faucet can automatically generate electricity through mixed water outlet, provides required electric energy for electronic functional parts, does not need additional power supply, is very convenient to use, and can achieve the purpose of energy conservation.

Description

Hydroelectric power generation's shower faucet

[ technical field ] A method for producing a semiconductor device

The utility model relates to the technical field of water faucets, in particular to a shower faucet with hydroelectric power generation.

[ background of the utility model ]

A shower faucet is a water discharge valve of a tap water pipe, and is a bathroom device which controls the flow of cold water and hot water by opening or closing a rotating device. As the quality of life of people is continuously improved, higher requirements are also put on shower faucets, and therefore, it is a trend to add electronic functional parts to the shower faucets, for example, a display control module is added to the shower faucets for displaying the temperature of mixed water. At present, shower faucets are powered by alternating current or direct current, dry batteries are frequently replaced or mains supply is connected for charging in the using process, the use is more convenient, and the purpose of energy conservation cannot be realized. In view of the above, the present inventors have made extensive studies on the above-mentioned drawbacks of the prior art, and have made this invention.

[ Utility model ] content

The utility model aims to solve the technical problem of providing a shower faucet with hydraulic power generation, which can automatically generate power by utilizing the kinetic energy of water flow without additional power supply, is convenient to use and achieves the aim of saving energy.

The utility model is realized by the following steps: a shower faucet with hydroelectric power generation comprises a faucet body, a cold and hot water mixing control valve, a hydroelectric power generation mechanism and an electronic functional part; the faucet body is provided with a power generation mechanism assembly chamber, a mixed water chamber and at least one water outlet; the hydraulic power generation mechanism is assembled in the power generation mechanism assembly cavity, and the cold and hot water mixing control valve is assembled in the mixed water cavity; the mixed water cavity is communicated with the water inlet end of the power generation mechanism assembly cavity through a mixed water flow channel, and the water outlet is communicated with the water outlet end of the power generation mechanism assembly cavity through a water outlet flow channel; the electronic functional part is fixedly arranged on the faucet body and is electrically connected with the hydroelectric generation mechanism.

Further, the hydroelectric power generation mechanism comprises a first shell, a second shell assembled in the first shell and a rotating shaft rotatably arranged in the second shell;

the rotating shaft is provided with a hidden end inserted into the second shell and an exposed end extending out of the second shell; a rotor movable chamber is formed in the second shell, a rotor is arranged on the rotating shaft corresponding to the rotor movable chamber, and a stator is arranged outside the second shell; an impeller is arranged at the exposed end of the rotating shaft, an enclosing cylinder which encloses the impeller inside is arranged at the end part of the first shell, and a first water through hole is formed in the wall of the enclosing cylinder; the tip of an enclosing barrel is provided with a tip socket piece, and a second water passing hole is formed in the tip socket piece.

Furthermore, a first collar mounting part is formed at one end of the rotor moving cavity of the second shell, and a second collar mounting part is formed at the other end of the rotor moving cavity; a third collar mounting part is formed on the end socket piece; a first ceramic lantern ring is arranged in the first lantern ring mounting part, a second ceramic lantern ring is arranged in the second lantern ring mounting part, and a third ceramic lantern ring is arranged in the third lantern ring mounting part; the rotating shaft sequentially penetrates through the first ceramic lantern ring, the second ceramic lantern ring and the third ceramic lantern ring.

Furthermore, one end of the second shell is connected with the first shell through an extension column body, and a shaft hole for the rotating shaft to pass through is formed in the extension column body; the other end of the second shell is provided with a detachable plugging component; the first shell is arranged at one end corresponding to the detachable blocking part in an open mode;

the detachable blocking part comprises a blocking end plate for blocking the end part of the second shell and a pressing piece for pressing the blocking end plate from the outer side.

Furthermore, the electronic function part comprises a display control module and a temperature sensor; the display control module is assembled on the front surface of the faucet body and is positioned outside the open end of the first shell; the open end of the first housing is formed with a communication hole communicating with the inside of the surrounding tube, and the temperature sensor is fixed to the communication hole.

Furthermore, a limiting convex part and an external thread section are formed in the middle of the first shell, a sealing groove is formed between the limiting convex part and the external thread section, and a sealing ring is arranged in the sealing groove; the middle part of electricity generation mechanism assembly chamber is formed with spacing convex part cooperation realizes spacing undergauge portion, just the inner wall of undergauge portion be formed with the external screw thread section cooperation realizes the internal thread section of spiro union.

Furthermore, one end of the back surface of the faucet body is provided with a hot water inlet, and the other end of the back surface of the faucet body is provided with a cold water inlet; the hot water inlet is communicated with the mixed water chamber through a hot water flow passage, and the cold water inlet is communicated with the mixed water chamber through a cold water flow passage.

Further, the device also comprises a water outlet control valve; the faucet body is also provided with a water outlet control chamber, the water outlet control chamber is communicated with the water outlet flow channel, and the water outlet control valve is assembled in the water outlet control chamber.

Further, the water outlets comprise a first water outlet arranged at the top of the tap body, a second water outlet arranged at the bottom of the tap body, a third water outlet arranged at the bottom of the tap body and a fourth water outlet arranged at the front of the tap body; the first branch water outlet and the second branch water outlet are communicated with the water outlet flow channel; and the third water distribution port and the fourth water distribution port are communicated with the water outlet control chamber.

Furthermore, the mixed water chamber is arranged at one end of the faucet body close to the hot water inlet, the water outlet control chamber is arranged at one end of the faucet body close to the cold water inlet, and the power generation mechanism assembly chamber is arranged in the middle of the faucet body.

By adopting the technical scheme of the utility model, the utility model at least has the following beneficial effects:

1. the power generation mechanism assembly cavity is formed on the faucet body, the hydroelectric power generation mechanism is installed in the power generation mechanism assembly cavity, the mixed water cavity is communicated with the water inlet end of the power generation mechanism assembly cavity through the mixed water flow channel, and the water outlet end of the power generation mechanism assembly cavity is communicated with the water outlet end of the power generation mechanism assembly cavity through the water outlet flow channel, so that all mixed water to be output can firstly pass through the hydroelectric power generation mechanism in the power generation mechanism assembly cavity, the flowing kinetic energy of the mixed water can be utilized to drive the hydroelectric power generation mechanism to generate power, and the power supply requirement of the shower faucet is met; therefore, the shower faucet can automatically generate electricity through mixed water outlet, provide required electric energy for electronic functional parts, does not need additional power supply, is very convenient to use, and can achieve the purpose of energy conservation. Meanwhile, the electronic function piece is arranged on the shower faucet, so that better use experience can be brought to a user.

2. The first ceramic lantern ring and the second ceramic lantern ring are arranged on the second shell, the third ceramic lantern ring is arranged on the first shell, and the rotating shaft sequentially penetrates through the first ceramic lantern ring, the second ceramic lantern ring and the third ceramic lantern ring, so that the rotating shaft cannot be in direct contact with the second shell and the first shell, and the service life of the whole hydroelectric generation mechanism can be prolonged as the abrasion resistance of the ceramic lantern rings is good, and the first ceramic lantern ring, the second ceramic lantern ring and the third ceramic lantern ring are not easy to abrade or damage in the rotating process of the rotating shaft; meanwhile, even if the first ceramic lantern ring, the second ceramic lantern ring or the third ceramic lantern ring is damaged, the replacement is also very convenient.

3. The detachable plugging component is arranged on the second shell, so that the detachable plugging component can be detached during specific use, and the installation of each component in the second shell is facilitated; the detachable plugging component is also convenient to mount, so that the sealing effect is realized. Open the setting with the one end of first casing simultaneously, both made things convenient for install first casing in the inside of first casing, also be convenient for the electric connection between hydroelectric generation mechanism and the electronic function piece.

4. The shower faucet is provided with a first branch water outlet, a second branch water outlet, a third branch water outlet and a fourth branch water outlet which are matched, so that the use requirement of water outlet can be better met, and for example, the shower faucet can be connected with various components such as a top shower, a shower head and the like; meanwhile, the third water distribution port and the fourth water distribution port can control independent water outlet through the water outlet control valve, and the water distribution system is more flexible and convenient to use.

[ description of the drawings ]

The utility model will be further described with reference to the following examples with reference to the accompanying drawings.

FIG. 1 is a schematic front view of a hydro-electric shower faucet of the present invention;

FIG. 2 is a schematic view of the back of a hydro-electric shower faucet of the present invention;

FIG. 3 is a front view of the faucet body of the present invention;

FIG. 4 is a rear view of the faucet body of the present invention;

FIG. 5 is a cross-sectional view of the faucet body of the present invention;

FIG. 6 is a schematic view of a hydroelectric power generating mechanism according to the present invention;

FIG. 7 is a second schematic structural view of the hydroelectric power generating mechanism of the present invention;

FIG. 8 is a schematic illustration of a hydro-power generation mechanism of the present invention with the first housing and end sockets removed;

FIG. 9 is a cross-sectional view of the hydro-power generation mechanism of the present invention;

FIG. 10 is a schematic view of the structure of the first housing in the present invention;

FIG. 11 is a schematic view of the structure of a second housing according to the present invention;

FIG. 12 is a schematic view of the construction of the compression member of the present invention;

figure 13 is a schematic view of the construction of the end socket of the present invention.

Description of reference numerals:

1-a faucet body, 11-a power generation mechanism assembly chamber, 111-a reducing part, 112-an internal thread section, 12-a mixed water chamber, 13-a mixed water channel, 14-a water outlet channel, 15-a hot water inlet, 16-a cold water inlet, 17-a hot water channel, 18-a cold water channel and 19-a water outlet control chamber;

2-cold and hot water mixing control valve;

3-a hydroelectric generation mechanism, 31-a first shell, 311-a surrounding cylinder, 3111-a first water passing hole, 312-a column installation part, 313-a communication hole, 314-a limiting convex part, 315-an external thread section, 316-a sealing groove, 317-a sealing ring, 32-a second shell, 321-a rotor movable chamber, 322-a first collar installation part, 323-a second collar installation part, 324-an extending column, 3241-a shaft hole, 325-a detachable plugging part, 325a plugging end plate, 325 b-a pressing part, 3251-a pin, 3252-a pressing plate, 3253-a reinforcing part, 3254-a reinforcing strip, 326-a pin insertion hole, 327-a fixing strip, 33-a rotating shaft, 331-a hidden end, 332-an exposed end and 34-an impeller, 35-end socket joint piece, 351-second water through hole and 352-third socket ring installation part;

4-electronic function part, 41-display control module, 42-temperature sensor;

51-a first ceramic collar, 52-a second ceramic collar, 53-a third ceramic collar;

6-water outlet control valve;

71-a first water dividing outlet, 72-a second water dividing outlet, 73-a third water dividing outlet and 74-a fourth water dividing outlet.

[ detailed description ] embodiments

For a better understanding of the technical aspects of the present invention, reference will now be made in detail to the embodiments of the present invention, which are illustrated in the accompanying drawings.

Referring to fig. 1 to 13, a shower faucet with hydroelectric power generation of the present invention includes a faucet body 1, a cold and hot water mixing control valve 2, a hydroelectric power generation mechanism 3 and an electronic function component 4; the faucet body 1 is provided with a power generation mechanism assembly chamber 11, a mixed water chamber 12 and at least one water outlet; the hydroelectric generating mechanism 3 is assembled in the generating mechanism assembling chamber 11, and the cold and hot water mixing control valve 2 is assembled in the mixed water chamber 12; the mixed water chamber 12 is communicated with the water inlet end of the power generation mechanism assembly chamber 11 through a mixed water flow passage 13, so that the mixed water in the mixed water chamber 12 is conveyed to the power generation mechanism assembly chamber 11; the water outlet is communicated with the water outlet end of the power generation mechanism assembly chamber 11 through a water outlet flow passage 14, so that mixed water in the power generation mechanism assembly chamber 11 is conveyed to the water outlet; the electronic functional part 4 is fixedly arranged on the faucet body 1, and the electronic functional part 4 is electrically connected with the hydroelectric generation mechanism 3.

According to the utility model, the power generation mechanism assembly chamber 11 is formed on the faucet body 1, the hydroelectric power generation mechanism 3 is arranged in the power generation mechanism assembly chamber 11, the mixed water chamber 12 is communicated with the water inlet end of the power generation mechanism assembly chamber 11 through the mixed water flow channel 13, and the water outlet is communicated with the water outlet end of the power generation mechanism assembly chamber 11 through the water outlet flow channel 14, so that all mixed water to be output can firstly pass through the hydroelectric power generation mechanism 3 in the power generation mechanism assembly chamber 11, and the flowing kinetic energy of the mixed water can be utilized to drive the hydroelectric power generation mechanism 3 to generate power, thereby meeting the power supply requirement of the shower faucet; therefore, the shower faucet can automatically generate electricity through mixed water outlet, provide required electric energy for the electronic functional part 4, does not need additional power supply, is very convenient to use, and can achieve the purpose of energy conservation. Meanwhile, the electronic function piece 4 is arranged on the shower faucet, so that better use experience can be brought to a user.

Preferably, the hydroelectric power generating mechanism 3 comprises a first shell 31, a second shell 32 assembled in the first shell 31, and a rotating shaft 33 rotatably arranged in the second shell 32;

the rotating shaft 33 has a hidden end 331 inserted into the second housing 32 and an exposed end 332 extending out of the second housing 32; a rotor moving chamber 321 is formed in the second housing 32, a rotor (not shown) is provided on the rotating shaft 33 at a position corresponding to the rotor moving chamber 321, and a stator (not shown) is provided outside the second housing 32; an exposed end 332 of the rotating shaft 33 is provided with an impeller 34, an end of the first housing 31 is provided with a surrounding cylinder 311 for surrounding the impeller 34, and a first water through hole 3111 is formed on the wall of the surrounding cylinder 311; the end of the surrounding cylinder 311 is provided with an end socket 35, and a second water through hole 351 is formed on the end socket 35. When the water-cooling water mixing control valve works, mixed water flowing out of the mixed water chamber 12 flows to the water inlet end of the power generation mechanism assembly chamber 11 through the mixed water flow channel 13, and the water outlet of the mixed water chamber 12 is specifically controlled through the cold water and hot water mixing control valve 2; when the mixed water flows into the power generation mechanism assembly chamber 11, the mixed water can enter the surrounding cylinder 311 through the second water passing hole 351 and the first water passing hole 3111 positioned on one side of the water inlet end, because the mixed water flows, the flowing mixed water can drive the impeller 34 to rotate, the impeller 34 can drive the whole rotating shaft 33 to rotate, the rotating shaft 33 can drive the rotor to rotate when rotating, because the stator is fixed, the rotor can cut magnetic induction lines in the rotating process, so that the power generation function is realized; the mixed water entering the surrounding cylinder 311 can flow out through the first water through hole 3111 at one side of the water outlet end, and flow out from the water outlet end of the power generation mechanism assembling chamber 11 through the water outlet flow passage 14, so as to realize the water outlet function.

Preferably, the second housing 32 is formed with a first collar mounting part 322 at one end of the rotor moving chamber 321, and a second collar mounting part 323 at the other end of the rotor moving chamber 321; a third collar mounting portion 352 is formed on the end socket 35; a first ceramic lantern ring 51 is installed in the first lantern ring installation part 322, a second ceramic lantern ring 52 is installed in the second lantern ring installation part 323, and a third ceramic lantern ring 53 is installed in the third lantern ring installation part 352; the rotating shaft 33 sequentially passes through the first ceramic lantern ring 51, the second ceramic lantern ring 52 and the third ceramic lantern ring 53. According to the utility model, the first ceramic lantern ring 51 and the second ceramic lantern ring 52 are arranged on the second shell 32, the third ceramic lantern ring 53 is arranged on the first shell 31, and the rotating shaft 33 sequentially penetrates through the first ceramic lantern ring 51, the second ceramic lantern ring 52 and the third ceramic lantern ring 53, so that the rotating shaft 33 cannot be in direct contact with the second shell 32 and the first shell 31, and the first ceramic lantern ring 51, the second ceramic lantern ring 52 and the third ceramic lantern ring 53 are not easy to wear or damage in the rotating process of the rotating shaft 33 due to the good wear resistance of the ceramic lantern rings, so that the service life of the whole hydroelectric generation mechanism 3 can be prolonged; meanwhile, even if the first ceramic collar 51, the second ceramic collar 52 or the third ceramic collar 53 is damaged, the replacement is very convenient.

Preferably, one end of the second housing 32 is connected to the first housing 31 through an extending cylinder 324, in an implementation, a cylinder mounting portion 312 is formed on the first housing 31, the extending cylinder 324 is mounted on the cylinder mounting portion 312, a shaft hole 3241 for passing the rotating shaft 33 is formed in the extending cylinder 324, and the rotating shaft 33 passes through the shaft hole 3241; the other end of the second shell 32 is provided with a detachable blocking part 325; the first housing 31 is openly provided at an end corresponding to the detachable blocking member 325; by arranging the detachable blocking part 325 on the second shell 32, the detachable blocking part 325 can be detached during specific use, so that the installation of various parts in the second shell 32 is convenient; it is also convenient to mount the removable blocking member 325 to achieve a sealing effect. The open end of the first housing 31 facilitates the installation of the first housing 31 inside the first housing 31 and the electrical connection between the hydraulic power generating mechanism 3 and the electronic function component 4.

The detachable closing member 325 includes a closing end plate 325a closing an end of the second housing 32, and a pressing member 325b pressing the closing end plate 325a from the outside.

Preferably, the pressing member 325b is provided with at least two pins 3251, and the second housing 32 is provided with pin insertion holes 326 which are matched with the pins 3251. In specific installation, the blocking end plate 325a is firstly blocked at the end of the second shell 32, then the pin 3251 on the pressing piece 325b is inserted into the pin insertion hole 326, and the blocking end plate 325a is pressed from the outer side to the inner side by the pressing piece 325 b.

Preferably, the pressing member 325b comprises a pressing plate 3252 attached to the outer surface of the blocking end plate 325a when pressed, and the first collar mounting portion 322 extends from the blocking end plate 325a to the pressing plate 3252 to ensure that there is enough space for mounting the first ceramic collar 51; a reinforcing part 3253 is arranged on the outer side of the pressing plate 3252 at a position corresponding to the first collar mounting part 322, so that the pressing plate 3252 is reinforced and the extension of the first collar mounting part 322 is facilitated; the pin 3251 is fixedly connected to the outer side of the pressing plate 3252 by a reinforcing bar 3254, and the reinforcing bar 3254 can fix the pin 3251 and reinforce the pressing plate 3252.

In specific implementation, in order to achieve a better compression effect, the compression piece 325b is symmetrically provided with two pins 3251, and an included angle between the two pins 3251 is 180 degrees; two fixing strips 327 are symmetrically arranged on the second shell 32, and the pin insertion holes 326 are formed in the fixing strips 327.

Preferably, the electronic function part 4 includes a display control module 41 and a temperature sensor 42, the temperature sensor 42 is electrically connected to the display control module 41 to transmit the detected temperature data to the display control module 41 for displaying, and in specific implementation, the display control module 41 includes a storage battery (not shown) to store the electric energy generated by the hydroelectric generation mechanism 3 through the storage battery; the display control module 41 is assembled on the front surface of the faucet body 1, so that a user can conveniently check the display control module 41 at any time, and the display control module 41 is positioned outside the open end of the first shell 31, so that the display control module 41 is electrically connected with the hydroelectric generation mechanism 3; a communication hole 313 communicated with the inside of the surrounding cylinder 311 is formed at the open end of the first shell 31, the temperature sensor 42 is fixed on the communication hole 313, the temperature sensor 42 seals the whole communication hole 313, and water can not flow into the open end of the first shell 31 through the communication hole 313; the communication hole 313 is provided for facilitating the installation and fixation of the temperature sensor 42 and the wiring.

Preferably, a limiting protrusion 314 and an external thread section 315 are formed in the middle of the first housing 31, a sealing groove 316 is formed between the limiting protrusion 314 and the external thread section 315, and a sealing ring 317 is arranged in the sealing groove 316; a reducing part 111 which is matched with the limit convex part 314 to limit is formed in the middle of the power generation mechanism assembling chamber 11, and an internal thread section 112 which is matched with the external thread section 315 to realize screw connection is formed on the inner wall of the reducing part 111. During assembly, a sealing ring 317 is sleeved in the sealing groove 316 to play a sealing role by the sealing ring 317; then, the first housing 31 is screwed into the power generation mechanism mounting chamber 11 by the external thread section 315 and the internal thread section 112, and the limit protrusion 314 abuts against the end of the reduced diameter portion 111, so that water flow cannot enter the open end of the first housing 31.

Preferably, one end of the back surface of the faucet body 1 is provided with a hot water inlet 15, and the other end of the back surface of the faucet body 1 is provided with a cold water inlet 16; the hot water inlet 15 is communicated with the mixed water chamber 12 through a hot water flow passage 17, and the cold water inlet 16 is communicated with the mixed water chamber 12 through a cold water flow passage 18. In use, hot water enters through the hot water inlet 15 and flows to the mixed water chamber 12 via the hot water flow passage 17, cold water enters through the cold water inlet 16 and flows to the mixed water chamber 12 via the cold water flow passage 18, and the hot water and the cold water are mixed in the mixed water chamber 12, particularly controlled by the hot and cold water mixing control valve 2.

Preferably, the shower faucet further comprises a water outlet control valve 6; the faucet body 1 is further formed with a water outlet control chamber 19, the water outlet control chamber 19 is communicated with the water outlet flow channel 14, and the water outlet control valve 6 is assembled in the water outlet control chamber 19. When in use, the water outlet waterway can be controlled by the water outlet control valve 6 so as to better meet the actual use requirement.

Preferably, the water outlets include a first water outlet 71 arranged at the top of the faucet body 1, a second water outlet 72 arranged at the bottom of the faucet body 1, a third water outlet 73 arranged at the bottom of the faucet body 1, and a fourth water outlet 74 arranged at the front of the faucet body 1; the first branch water outlet 71 and the second branch water outlet 72 are both communicated with the water outlet flow channel 14; the third water distribution port 73 and the fourth water distribution port 74 are both communicated with the water outlet control chamber 19. The first water dividing outlet 71, the second water dividing outlet 72, the third water dividing outlet 73 and the fourth water dividing outlet 74 are matched, so that the use requirement of water outlet can be better met, and for example, various components such as top shower and shower head can be connected; meanwhile, the third water distribution port 73 and the fourth water distribution port 74 can control independent water discharge through the water discharge control valve 6, and the use is more flexible and convenient.

Preferably, the mixed water chamber 12 is arranged at one end of the faucet body 1 close to the hot water inlet 15, so that the hot water flow passage 17 can be very short, and an anti-scald effect can be achieved; the water outlet control chamber 19 is arranged at one end of the faucet body 1 close to the cold water inlet 16, and the power generation mechanism assembly chamber 11 is arranged in the middle of the faucet body 1, so that mixed water firstly passes through the hydroelectric power generation mechanism 3 to generate power and then is discharged.

Although specific embodiments of the utility model have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the utility model, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the utility model, which is to be limited only by the appended claims.

Claims (10)

1. A hydroelectric power generation shower faucet, comprising: comprises a tap body, a cold and hot water mixing control valve, a hydroelectric generation mechanism and an electronic functional part; the faucet body is provided with a power generation mechanism assembly chamber, a mixed water chamber and at least one water outlet; the hydraulic power generation mechanism is assembled in the power generation mechanism assembly cavity, and the cold and hot water mixing control valve is assembled in the mixed water cavity; the mixed water cavity is communicated with the water inlet end of the power generation mechanism assembly cavity through a mixed water flow channel, and the water outlet is communicated with the water outlet end of the power generation mechanism assembly cavity through a water outlet flow channel; the electronic functional part is fixedly arranged on the faucet body and is electrically connected with the hydroelectric generation mechanism.

2. A hydro-electric shower faucet as recited in claim 1, further comprising: the hydraulic power generation mechanism comprises a first shell, a second shell assembled in the first shell and a rotating shaft rotatably arranged in the second shell;

the rotating shaft is provided with a hidden end inserted into the second shell and an exposed end extending out of the second shell; a rotor movable chamber is formed in the second shell, a rotor is arranged on the rotating shaft corresponding to the rotor movable chamber, and a stator is arranged outside the second shell; an impeller is arranged at the exposed end of the rotating shaft, an enclosing cylinder which encloses the impeller inside is arranged at the end part of the first shell, and a first water through hole is formed in the wall of the enclosing cylinder; the tip of an enclosing barrel is provided with a tip socket piece, and a second water passing hole is formed in the tip socket piece.

3. A hydro-power generating shower faucet as recited in claim 2, further comprising: the second shell is provided with a first sleeve ring mounting part at one end of the rotor movable chamber, and a second sleeve ring mounting part at the other end of the rotor movable chamber; a third collar mounting part is formed on the end socket piece; a first ceramic lantern ring is arranged in the first lantern ring mounting part, a second ceramic lantern ring is arranged in the second lantern ring mounting part, and a third ceramic lantern ring is arranged in the third lantern ring mounting part; the rotating shaft sequentially penetrates through the first ceramic lantern ring, the second ceramic lantern ring and the third ceramic lantern ring.

4. A hydro-power generating shower faucet as recited in claim 2, further comprising: one end of the second shell is connected with the first shell through an extension column body, and a shaft hole for the rotating shaft to pass through is formed in the extension column body; the other end of the second shell is provided with a detachable plugging component; the first shell is arranged at one end corresponding to the detachable blocking part in an open mode;

the detachable blocking part comprises a blocking end plate for blocking the end part of the second shell and a pressing piece for pressing the blocking end plate from the outer side.

5. A hydro-power generating shower faucet as recited in claim 4, further comprising: the electronic functional part comprises a display control module and a temperature sensor; the display control module is assembled on the front surface of the faucet body and is positioned outside the open end of the first shell; the open end of the first housing is formed with a communication hole communicating with the inside of the surrounding tube, and the temperature sensor is fixed to the communication hole.

6. A hydro-power generating shower faucet as recited in claim 2, further comprising: a limiting convex part and an external thread section are formed in the middle of the first shell, a sealing groove is formed between the limiting convex part and the external thread section, and a sealing ring is arranged in the sealing groove; the middle part of electricity generation mechanism assembly chamber is formed with spacing convex part cooperation realizes spacing undergauge portion, just the inner wall of undergauge portion be formed with the external screw thread section cooperation realizes the internal thread section of spiro union.

7. A hydro-electric shower faucet as recited in claim 1, further comprising: one end of the back surface of the faucet body is provided with a hot water inlet, and the other end of the back surface of the faucet body is provided with a cold water inlet; the hot water inlet is communicated with the mixed water chamber through a hot water flow passage, and the cold water inlet is communicated with the mixed water chamber through a cold water flow passage.

8. A hydro-power generating shower faucet as recited in claim 7, further comprising: the device also comprises a water outlet control valve; the faucet body is also provided with a water outlet control chamber, the water outlet control chamber is communicated with the water outlet flow channel, and the water outlet control valve is assembled in the water outlet control chamber.

9. A hydro-power generating shower faucet as recited in claim 8, further comprising: the water outlets comprise a first branch water outlet arranged at the top of the tap body, a second branch water outlet arranged at the bottom of the tap body, a third branch water outlet arranged at the bottom of the tap body and a fourth branch water outlet arranged at the front of the tap body; the first branch water outlet and the second branch water outlet are communicated with the water outlet flow channel; and the third water distribution port and the fourth water distribution port are communicated with the water outlet control chamber.

10. A hydro-power generating shower faucet as recited in claim 8, further comprising: the mixed water chamber is arranged at one end of the faucet body close to the hot water inlet, the water outlet control chamber is arranged at one end of the faucet body close to the cold water inlet, and the power generation mechanism assembly chamber is arranged in the middle of the faucet body.

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