CN215806489U - Mechanical and inductive double-control faucet - Google Patents

Abstract

The utility model discloses a mechanical and inductive double-control faucet, which comprises a faucet shell, an inductive mechanism, a control valve, a key switching rotary temperature regulating valve core and two water channels, wherein the inductive mechanism is arranged on the faucet shell; the key switching rotary temperature regulating valve core is arranged in the faucet shell and is provided with a key and a rotating sleeve which are positioned at the top of the faucet shell and are respectively used for controlling switching and temperature regulation; the faucet shell is provided with a water outlet channel, the key switching rotary temperature regulating valve core is provided with a cold and hot water inlet and two water outlets, the two water outlets are respectively communicated with two water channels, one water channel is directly communicated with the water outlet channel, the other water channel is communicated with the water outlet channel through a control valve, and the sensing mechanism is connected with the control valve. It has the following advantages: the temperature in machinery, response two-way water route is adjusted the sharing case and is realized, can go out water through mechanical control outlet passage, and accessible induction control outlet passage goes out water again, convenient operation, and the function is diversified, simple structure, compactness.

Description

Mechanical and inductive double-control faucet

Technical Field

The utility model relates to a faucet, in particular to a mechanical and inductive double-control faucet.

Background

The existing mechanical and inductive double-control tap, such as CN101408254A, is suitable for manufacturing washbasin tap, kitchen tap, sink tap and shower tap, two independent control systems of manual control and infrared induction automatic control are respectively arranged in the tap main body, and the tap is composed of a handle, a ceramic valve core of the manual control system, a function switcher, a check valve, a solenoid valve assembly, an infrared induction automatic controller and an induction system temperature regulating valve which are connected with a plug-in type circuit and a pipeline, a ceramic valve core of the manual control system is arranged in an inner cavity at the upper part of the main body, the upper end of a square eccentric valve rod in the ceramic valve core is connected with the handle, a cold water inlet hole at the lower end of the ceramic valve core, a hot water inlet hole and a water outlet hole, a positioning claw is in plane sealing butt joint with a cold water inlet pipe of the manual system through a valve core gland and a middle interlayer of the main body, the hot water inlet pipe and the water outlet channel are communicated, and the water handle is lifted to rotate or pressed down to complete the manual functions of water supply, water stop and temperature regulation of the independent manual system. The infrared induction automatic controller is arranged in the inner wall of the lower part of the main body, which is the same with the water outlet pipe, when a user extends into the induction range or leaves the induction range, the controller sends an instruction signal to the electromagnetic valve assembly through the plug-in circuit and the external pipeline respectively, and executes the orders of power-on, power-off, water supply and water stop to complete the water supply and water stop automatic control functions of the independent induction system. The existing mechanical and inductive double-control faucet has a complex structure and large occupied space.

SUMMERY OF THE UTILITY MODEL

The utility model provides a mechanical and induction double-control faucet, which overcomes the defects of the mechanical and induction double-control faucet in the background art.

The technical scheme adopted by the utility model for solving the technical problem is as follows: a mechanical and induction double-control faucet comprises a faucet shell, an induction mechanism, a control valve, a key switching rotary temperature regulating valve core and two water channels; the key switching rotary temperature regulating valve core is arranged in the tap shell and is provided with a key and a rotating sleeve which are positioned on the tap shell and are respectively used for controlling switching and temperature regulation; the faucet shell is provided with a water outlet channel, the key switching rotary temperature regulating valve core is provided with a cold and hot water inlet and two water outlets, the two water outlets are respectively communicated with two water channels, one water channel is directly communicated with the water outlet channel, the other water channel is communicated with the water outlet channel through a control valve, and the sensing mechanism is connected with the control valve.

In one embodiment: the key switching rotary temperature regulating valve core and the control valve are both arranged in the faucet shell and are arranged up and down.

In one embodiment: the key switching rotary temperature regulating valve core comprises a shell fixedly arranged in a faucet shell, a fixed piece, a movable piece, a rotary seat component and a water distribution disc, wherein the fixed piece, the movable piece, the rotary seat component and the water distribution disc are fixedly arranged in the shell; the water distribution disc can be rotatably arranged in the rotary seat component, a water mixing cavity is formed between the water distribution disc and the movable piece, and the button is in transmission connection with the water distribution disc to drive the water distribution disc to rotate so as to realize switching connection of two water outlets to the water mixing cavity.

In one embodiment: the two water outlets are arranged on the shell at intervals up and down, the swivel base part is provided with two water dividing paths, and the water dividing disc is provided with water dividing holes; the inlet of the two divided waterways corresponds to the water diversion hole so as to realize the switching and aligning of the inlet of the two divided waterways through the rotation of the water diversion disc, and the outlets of the two divided waterways are arranged at intervals up and down and are respectively and constantly communicated with the two water outlets.

In one embodiment: the key switching rotary temperature regulating valve core also comprises an automatic ball pen mechanism; the rotating seat component comprises a rotating seat and a connecting sleeve, the rotating seat, the connecting sleeve and the moving plate are sequentially and synchronously connected together in a rotating mode, the moving plate, the connecting sleeve and the water distribution disc are matched to form the water mixing cavity, and the rotating seat is provided with the water distribution channel; the swivel base is provided with a mounting hole which is arranged in a penetrating way from top to bottom, the automatic ball pen mechanism is matched with the mounting hole and is in transmission connection with the water diversion disc, and the key is in transmission connection with the automatic ball pen mechanism.

In one embodiment: the key switching rotary temperature regulating valve core comprises a shell fixedly arranged in a faucet shell, a rotating seat component which is rotatably arranged in the shell and is used for regulating temperature through rotation, an automatic ball pen mechanism and a water diversion disc which can be rotatably arranged in the rotating seat component; the key is in transmission connection with an automatic ball-point pen mechanism, the rotary seat component comprises a rotary seat, the rotary seat is provided with a mounting hole which is arranged in a penetrating way up and down, and the automatic ball-point pen mechanism is matched with the mounting hole and is in transmission connection with the water distribution disc so as to drive the water distribution disc to rotate; the swivel mount component is provided with two water dividing paths, and the water dividing disc is provided with water dividing holes; the inlets of the two branch waterways correspond to the water diversion holes so as to realize the switching of the inlets of the two branch waterways and the alignment of the water diversion holes through the rotation of the water diversion disc; the bottom of the water distribution disc is provided with a water mixing cavity.

In one embodiment: a pressure relief component is arranged at the mounting hole of the rotary seat, the pressure relief component is provided with a water passage, and a first port and a second port of the water passage are respectively communicated with the two water dividing paths; the automatic ball-point pen mechanism is provided with a pen core rod penetrating through a mounting hole, the water diversion disc is driven to rotate by a preset angle through upward and downward movement of the pen core rod to realize one-time switching, a sealing part is arranged on the pen core rod, the sealing part blocks communication between the first port and the second port when the pen core rod is located at an upper position, and the sealing part enables the first port and the second port to be communicated so as to balance water pressure between the two water diversion paths and the water mixing cavity through the water passing path when the pen core rod is located at a lower position.

In one embodiment: the swivel base is provided with a first water receiving channel and a second water receiving channel respectively, the first water receiving channel is communicated with the first port and a water dividing channel, and the second water receiving channel is communicated with the second port and the other water dividing channel; the pen core rod is provided with a large-diameter section and a small-diameter section, and the large-diameter section forms the sealing part; all establish the sealing washer of an adaptation major diameter section in this swivel mount and the pressure relief part, this second port is located between the sealing washer of two upper and lower interval arrangements, and the port that is located the perisporium of mounting hole of this second water receiving channel is located between two sealing washers, and the major diameter section cooperation two sealing washers of the refill pole that are located the upper position, the major diameter section cooperation lower sealing washer of the refill pole that is located the lower position, the minor diameter section cooperation upper sealing washer.

In one embodiment: the pressure relief part comprises a pressure relief cover fixedly arranged in the mounting hole, a water passing cover fixedly arranged in the pressure relief cover and protruding out of the pressure relief cover, and a sealing gland arranged in the mounting hole; the pressure relief cover is provided with a first shaft hole and the second port which is formed by concave arrangement of the bottom surface and communicated with the first shaft hole, the water passing cover is provided with a second shaft hole and the first port which is formed by concave arrangement of the top surface and communicated with the second shaft hole, the water passing channel comprises the first shaft hole and the second shaft hole which are communicated with each other, the upper sealing ring is positioned between the pressure relief cover and the water passing cover, and the sealing gland is arranged on the water passing cover in a sealing manner.

In one embodiment: the tap casing is internally and fixedly provided with a mounting seat, the shell is fixedly arranged in the mounting seat, the mounting seat is provided with a first through hole and a second through hole, a water passage comprises the first through hole, a water passage cavity communicated with the second through hole is formed between the shell and the mounting seat, the control valve is arranged below the mounting seat, and the other water passage comprises a gap between the second through hole, the water passage cavity and the mounting seat as well as the inner wall of the tap casing.

In one embodiment: the mounting seat is also provided with two third through holes which are respectively communicated with a cold and hot water inlet of the key switching rotary temperature regulating valve core.

In one embodiment: the automatic ball-point pen mechanism comprises a first elastic body, a second elastic body, a pen core rod penetrating through a mounting hole and a fourth ratchet seat fixedly arranged in a shell, a first ratchet seat and a second ratchet seat are respectively arranged above and below a water distribution disc, a third ratchet seat is arranged below a rotary seat, the first ratchet seat is matched with the third ratchet seat, the second ratchet seat is matched with the fourth ratchet seat, the first elastic body abuts against the water distribution disc and a moving plate to abut against the water distribution disc from bottom to top, and the second elastic body abuts against the pen core rod between a key and a pen core rod to abut against the pen core rod from top to bottom.

Compared with the background technology, the technical scheme has the following advantages:

the temperature in machinery, response two-way water route is adjusted the sharing case and is realized, can go out water through mechanical control outlet passage, and accessible induction control outlet passage goes out water again, convenient operation, and the function is diversified, simple structure, compactness.

Drawings

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

FIG. 1 is a schematic view of a faucet according to an embodiment.

FIG. 2 is a schematic view of the first water passage of the faucet according to the embodiment.

FIG. 3 is a schematic view of a second water path of the faucet according to an embodiment.

Fig. 4 is a schematic cross-sectional structure diagram of a faucet according to an embodiment.

FIG. 5 is a schematic perspective view of a valve cartridge according to one embodiment.

FIG. 6 is an exploded perspective view of a valve cartridge according to one embodiment.

Fig. 7 is a schematic cross-sectional view of a valve core at the first water outlet according to one embodiment.

Fig. 8 is a second cross-sectional view of the valve core at the first water outlet according to the first embodiment.

FIG. 9 is a schematic sectional view of a valve core at the second water outlet according to one embodiment.

Fig. 10 is a second cross-sectional view of the valve core at the second water outlet according to the first embodiment.

Fig. 11 is a schematic cross-sectional view illustrating a switching process of the valve element to the second water outlet according to the embodiment.

Fig. 12 is a schematic cross-sectional view illustrating a switching process of the valve element to the first water outlet according to an embodiment.

FIG. 13 is an exploded perspective view of a portion of the components of a valve cartridge according to one embodiment.

FIG. 14 is a schematic structural view of a second faucet according to an embodiment.

Description of reference numerals:

the temperature control device comprises a faucet shell 1, an induction mechanism 2, a control valve 3, a key switching rotary temperature regulating valve core 4, a first water passage 51, a second water passage 52 and a pressure relief component 6;

the water outlet channel 11, the mounting seat 12, the first through hole 121, the water passing cavity 122 and the gap 123;

the automatic ball-point pen comprises a key 41, a rotating sleeve 42, a shell 43, a fixed sheet 44, a movable sheet 45, a rotating seat component 46, a water diversion disc 47, a water mixing cavity 48 and an automatic ball-point pen mechanism 49;

a rotary seat 461, a connecting sleeve 462, a water dividing channel 463, a mounting hole 464, a first water receiving channel 465, a second water receiving channel 466, a sealing ring 467, a gland 468 and a spline 469;

a base 431, a water diversion hole 471;

cold and hot water inlets 401, 402, a first water outlet 403 and a second water outlet 404;

the water passing channel 61, the second port 611, the first port 612, the pressure relief cover 62, the water passing cover 63, the sealing gland 64, the first shaft hole 621 and the second shaft hole 631;

the pen core rod 49, the large diameter section 4911, the small diameter section 4912, the first elastic body 492, the second elastic body 493, the fourth ratchet seat 494, the first ratchet seat 495, the second ratchet seat 496, and the third ratchet seat 497.

Detailed Description

Example one

Referring to fig. 1 to 13, a faucet with dual controls of mechanical and sensing includes a faucet housing 1, a sensing mechanism 2, a control valve 3, a key-switching rotary temperature-adjusting valve core 4, a first water passage 51 and a second water passage 52; the key switching rotary temperature regulating valve core 4 and the control valve 3 are both arranged in the tap shell 1 and are arranged up and down, and the key switching rotary temperature regulating valve core 4 is provided with a key 41 and a rotating sleeve 42 which are positioned at the top of the tap shell 1 and are respectively used for controlling switching and temperature regulation so as to facilitate the operation of a user; the faucet shell 1 is provided with a water outlet channel 11, the key switching rotary temperature regulating valve core 4 is provided with cold and hot water inlets 401 and 402, a first water outlet 403 and a second water outlet 404, the first water outlet 403 and the second water outlet 404 are respectively communicated with a first water passage 51 and a second water passage 52, the first water passage 51 is directly communicated with the water outlet channel 11, the second water passage 52 is communicated with the water outlet channel 11 through a control valve 3, and the sensing mechanism 2 is connected with the control valve 3. The temperature in machinery, response two-way water route is adjusted the sharing case and is realized, can go out water through mechanical control outlet passage, and accessible induction control outlet passage goes out water again, convenient operation, and the function is diversified, simple structure, compactness. According to the requirement, the key-press switching rotary temperature regulating valve core 4 is arranged in the faucet shell 1, the control valve 3 is positioned outside the faucet shell 1, and the second water passage 52 comprises a water pipe which passes through the water outlet passage.

The key-switching rotary temperature-regulating valve core 4 comprises a shell 43 fixedly arranged in the tap shell 1, a stator 44 fixedly arranged in the shell 43, a rotor 45, a rotary seat component 46 and a water diversion disc 47, wherein the rotor 45 and the rotary seat component 46 can be synchronously and rotatably connected together in the shell 43, the rotor 45 is matched with the stator 44, and the rotary sleeve 42 is in transmission connection with the rotary seat component 46 and drives the rotor 45 to rotate relative to the stator 44 so as to regulate the temperature and switch the water; the water diversion disc 47 can be rotatably arranged in the rotary seat component 46, a water mixing cavity 48 is formed between the water diversion disc 47 and the movable piece 45, and the button 41 is in transmission connection with the water diversion disc 47 to drive the water diversion disc 47 to rotate so as to realize switching connection of the two water outlets 403 and 404 with the water mixing cavity 48. The rotary seat component 46 comprises a rotary seat 461 and a connecting sleeve 462, the rotary seat 461, the connecting sleeve 462 and the movable piece 45 are sequentially and synchronously rotatably connected together, and the movable piece 45, the connecting sleeve 462 and the water diversion disc 47 are matched to form the water mixing cavity 48. In the concrete structure: the shell 43 is also internally provided with a base 431 which can be fixedly arranged in the shell through a buckle, the fixed sheet 44 is fixedly arranged on the base 431, the movable sheet 45 is attached to the fixed sheet 44, the cold and hot water inlets 401 and 402 are arranged on the base 431 and the fixed sheet 44, the movable sheet 45 is provided with a matching hole, and the cold and hot water inlet is controlled by rotating the intersection of the control matching hole and the cold and hot water inlets 401 and 402 so as to adjust the water temperature; the rotary sleeve 42 is screwed on the top end of the rotary seat 461, the connecting sleeve 462 and the moving plate 45 realize synchronous rotation through splicing and matching, and limit axial separation through the flange matching of the base and the shell; the two water outlets 403 and 404 are arranged on the housing 43 at intervals up and down, the swivel base 461 is provided with two water dividing paths 463, and the water dividing disc 47 is provided with water dividing holes 471; the inlet of the two water dividing paths 463 and the water dividing hole 471 are corresponding to each other so as to realize that the inlet of the two water dividing paths 463 is switched to align with the water dividing hole 471 by rotating the water dividing disc 47, the outlets of the two water dividing paths 463 are vertically arranged at intervals and are respectively and constantly communicated with the two water outlets 403 and 404, and further, an annular groove is concavely arranged on the outlet of the water dividing path 463, and the annular groove and the water outlets are corresponding to each other so as to enable the water outlets and the water dividing path outlets to be constantly communicated in the rotating process.

The key switching rotary temperature regulating valve core 4 also comprises an automatic ball pen mechanism 49; the rotary seat 461 is provided with a mounting hole 464 which is arranged in a penetrating way up and down, and the automatic ball-point pen mechanism 49 is matched with the mounting hole 464 and is connected with the water diversion disc 47 in a driving way;

a pressure relief component 6 is arranged at the mounting hole 464 of the rotary seat 461, the pressure relief component 6 is provided with a water passage 61, the water passage 61 comprises a first port 612 and a second port 611, and the first port and the second port are respectively communicated with two water dividing paths 463; the automatic ball-point pen mechanism 49 has a refill rod 491 passing through the mounting hole 464, the refill rod 491 moves up and down to drive the water diversion disc 47 to rotate for a preset angle to realize one-time switching, and a sealing part is arranged on the refill rod 491 and can control the connection and disconnection between the first port 612 and the second port 611; the sealing portion blocks the communication between the first port 612 and the second port 611 when the cartridge lever 491 is at the upper position, and communicates the first port 612 and the second port 611 when the cartridge lever 491 is at the lower position, so as to balance the water pressure between the two branch water paths 463 and the water mixing chamber 48, respectively; the two water dividing paths 463 include an upper water dividing path 463 and a lower water dividing path 463; when the upper water dividing path 463 needs to be opened, the water pressure between the upper water dividing path 463 and the water mixing chamber 48 can be balanced through the sealing part; when it is necessary to open the lower water dividing path 463, the water pressure between the lower water dividing path 463 and the water mixing chamber 48 can be balanced by the sealing portion. The rotary seat 461 is provided with a first water receiving channel 465 and a second water receiving channel 466 respectively, the first water receiving channel 465 is communicated with the first port 612 and the upper water dividing path 463, the second water receiving channel 466 is communicated with the second port 611 and the other lower water dividing path 463; the pen core rod 491 is provided with a large diameter section 4911 and a small diameter section 4912; a first sealing ring 467 matched with a large-diameter section is arranged in the rotary seat 461 and the pressure relief component 6, and the large-diameter section 4911 and the first sealing ring 467 form the sealing part; a second sealing ring 468 and a third sealing ring 469 are respectively arranged on the upper and lower sides of the first sealing ring 467 at intervals, the second port 611 is positioned between the first sealing ring 467 and the third sealing ring 469 which are arranged at intervals up and down, and the first port 612 is positioned between the first sealing ring 467 and the second sealing ring 468 which are arranged at intervals up and down; the second water receiving channel 466 is located on the inner peripheral wall of the mounting hole 464, and when the plunger stem 491 is located at the upper position, the large diameter section 4911 thereof cooperates with the first sealing ring 467 to block the communication between the first port 612 and the second port 611 of the water passing channel 61; when the refill stem 491 is located at the lower position, the small diameter section 4912 of the refill stem cooperates with the first sealing ring 467, so that water flow can pass through the gap between the small diameter section 4912 and the first sealing ring 467, the first port 612 is communicated with the second port 611, and the two water paths 463 are communicated to realize the water pressure balance between the two water paths and the water mixing cavity 18. Through the structure, water pressure balance can be realized, so that the switching force is light, the switching convenience is improved, and the structure is compact.

The pressure relief part 6 comprises a pressure relief cover 62 fixedly arranged in the mounting hole 464, a water passing cover 63 fixedly arranged in the pressure relief cover 62 and protruding out of the pressure relief cover, and a sealing gland 64 arranged in the mounting hole; the pressure relief cover 62 has a first shaft hole 621 and the second port 611 formed by the bottom surface being recessed and connected to the first shaft hole, the water passing cover 63 has a second shaft hole 631 and the first port 612 formed by the top surface being recessed and connected to the second shaft hole, the water passing channel includes the first shaft hole and the second shaft hole which are connected to each other, a first sealing ring 467 is located between the pressure relief cover 62 and the water passing cover 63, and the sealing cover is disposed on the water passing cover.

The automatic ball-point pen mechanism 49 includes a first elastic body 492, a second elastic body 493 and a fourth ratchet seat 494 fixed with respect to the connection sleeve, the water-dividing disc 47 is respectively provided with a first ratchet seat 495 and a second ratchet seat 496 at the upper and lower sides thereof, the rotation seat is provided with a third ratchet seat 497 at the lower side thereof, the first ratchet seat is matched with the third ratchet seat, the second ratchet seat is matched with the fourth ratchet seat, the first elastic body is abutted between the water-dividing disc and the movable plate to abut against the water-dividing disc from bottom to top, and the second elastic body is abutted between the key and the pen refill rod to abut against the pen refill rod from top to bottom. The key can be movably arranged in the rotating sleeve up and down and is in transmission connection with the pencil core rod. According to the requirement, the pen holder further comprises a gland 468 and a spline 469, wherein the gland 468 is fixedly arranged in the mounting hole of the rotary seat, and the spline penetrates through the gland in a matching manner and is connected with the key and the pen holder rod.

This leading casing 1 internal setting has mount pad 12, and this shell 43 sets firmly in mount pad 12, and this mount pad 12 is equipped with first through-hole 121 and second through-hole, and first logical water route includes this first through-hole, is formed with the logical water chamber 122 of switch-on second through-hole between this shell and mount pad, and this control valve 3 is located under the mount pad and another logical water route includes this second through-hole, this logical water chamber and this mount pad and leading shells inner wall's clearance 123. The mounting seat is also provided with two third through holes which are respectively communicated with a cold and hot water inlet of the key switching rotary temperature regulating valve core.

In this embodiment: cold water and hot water enter from the cold water and hot water inlet pipes, the temperature regulating valve core is switched and rotated by a key at first, the valve core can output two paths of water (corresponding to two water paths), one path is a mechanical water path (a first water path), and the other path is an induction water path (a second water path); when the valve core is positioned in the mechanical waterway, the mixed water directly flows out through the water outlet passage without passing through the control valve after being mixed by the valve core; when the valve core is switched to the induction water outlet path, the mixed water firstly passes through the control valve 3, the control valve can realize the water opening and closing function, and the mixed water flows out through the water outlet path after being opened; and mechanical water route and response water route are two independent water routes of not interfering, and the response is not gone out water in the mechanical water route when the response goes out water, and the response does not play the switching action when the mechanical water route goes out water to solve that the control valve is bad or the battery does not have the electricity, changeable mechanical water route goes out water. The second port of the water channel forms a control port for controlling the switch of the water channel, the sealing part is matched with the sealing ring to realize switch control, so that pressure relief can be realized by switching to any water path, the traditional pilot type pressure relief is realized by one pressure relief hole in one water path, two control ports are needed for realizing two-path switching, and the mechanism is very long and crowded in height.

In this embodiment, the sensing mechanism 2 is disposed on the straight section of the faucet housing.

Example two

Please refer to fig. 14, which is different from the first embodiment in that: the sensing mechanism 2 is arranged below the water outlet section of the tap shell.

The above description is only a preferred embodiment of the present invention, and therefore should not be taken as limiting the scope of the utility model, which is defined by the appended claims and their equivalents.

Claims (12)

1. A mechanical and inductive double-control faucet is characterized in that: comprises a tap shell, an induction mechanism, a control valve, a key switching rotary temperature regulating valve core and two water channels; the key switching rotary temperature regulating valve core is arranged in the tap shell and is provided with a key and a rotating sleeve which are positioned on the tap shell and are respectively used for controlling switching and temperature regulation; the faucet shell is provided with a water outlet channel, the key switching rotary temperature regulating valve core is provided with a cold and hot water inlet and two water outlets, the two water outlets are respectively communicated with two water channels, one water channel is directly communicated with the water outlet channel, the other water channel is communicated with the water outlet channel through a control valve, and the sensing mechanism is connected with the control valve.

2. The faucet of claim 1, wherein the faucet further comprises: the key switching rotary temperature regulating valve core and the control valve are both arranged in the faucet shell and are arranged up and down.

3. The faucet of claim 2, wherein the faucet further comprises: the key switching rotary temperature regulating valve core comprises a shell fixedly arranged in a faucet shell, a fixed piece, a movable piece, a rotary seat component and a water distribution disc, wherein the fixed piece, the movable piece, the rotary seat component and the water distribution disc are fixedly arranged in the shell; the water distribution disc can be rotatably arranged in the rotary seat component, a water mixing cavity is formed between the water distribution disc and the movable piece, and the button is in transmission connection with the water distribution disc to drive the water distribution disc to rotate so as to realize switching connection of two water outlets to the water mixing cavity.

4. A mechanically and inductively dual controlled faucet as claimed in claim 3, wherein: the two water outlets are arranged on the shell at intervals up and down, the swivel base part is provided with two water dividing paths, and the water dividing disc is provided with water dividing holes; the inlet of the two divided waterways corresponds to the water diversion hole so as to realize the switching and aligning of the inlet of the two divided waterways through the rotation of the water diversion disc, and the outlets of the two divided waterways are arranged at intervals up and down and are respectively and constantly communicated with the two water outlets.

5. The faucet of claim 4, wherein the faucet further comprises: the key switching rotary temperature regulating valve core also comprises an automatic ball pen mechanism; the rotating seat component comprises a rotating seat and a connecting sleeve, the rotating seat, the connecting sleeve and the moving plate are sequentially and synchronously connected together in a rotating mode, the moving plate, the connecting sleeve and the water distribution disc are matched to form the water mixing cavity, and the rotating seat is provided with the water distribution channel; the swivel base is provided with a mounting hole which is arranged in a penetrating way from top to bottom, the automatic ball pen mechanism is matched with the mounting hole and is in transmission connection with the water diversion disc, and the key is in transmission connection with the automatic ball pen mechanism.

6. The faucet of claim 2, wherein the faucet further comprises: the key switching rotary temperature regulating valve core comprises a shell fixedly arranged in a faucet shell, a rotating seat component which is rotatably arranged in the shell and is used for regulating temperature through rotation, an automatic ball pen mechanism and a water diversion disc which can be rotatably arranged in the rotating seat component; the key is in transmission connection with an automatic ball-point pen mechanism, the rotary seat component comprises a rotary seat, the rotary seat is provided with a mounting hole which is arranged in a penetrating way up and down, and the automatic ball-point pen mechanism is matched with the mounting hole and is in transmission connection with the water distribution disc so as to drive the water distribution disc to rotate; the swivel mount component is provided with two water dividing paths, and the water dividing disc is provided with water dividing holes; the inlets of the two branch waterways correspond to the water diversion holes so as to realize the switching of the inlets of the two branch waterways and the alignment of the water diversion holes through the rotation of the water diversion disc; the bottom of the water distribution disc is provided with a water mixing cavity.

7. A faucet of both mechanical and inductive control as claimed in claim 5 or 6, wherein: a pressure relief component is arranged at the mounting hole of the rotary seat, the pressure relief component is provided with a water passage, and a first port and a second port of the water passage are respectively communicated with the two water dividing paths; the automatic ball-point pen mechanism is provided with a pen core rod penetrating through a mounting hole, the water diversion disc is driven to rotate by a preset angle through upward and downward movement of the pen core rod to realize one-time switching, a sealing part is arranged on the pen core rod, the sealing part blocks communication between the first port and the second port when the pen core rod is located at an upper position, and the sealing part enables the first port and the second port to be communicated so as to balance water pressure between the two water diversion paths and the water mixing cavity through the water passing path when the pen core rod is located at a lower position.

8. The faucet of claim 7, wherein the faucet further comprises: the swivel base is provided with a first water receiving channel and a second water receiving channel respectively, the first water receiving channel is communicated with the first port and a water dividing channel, and the second water receiving channel is communicated with the second port and the other water dividing channel; the pen core rod is provided with a large-diameter section and a small-diameter section, and the large-diameter section forms the sealing part; all establish the sealing washer of an adaptation major diameter section in this swivel mount and the pressure relief part, this second port is located between the sealing washer of two upper and lower interval arrangements, and the port that is located the perisporium of mounting hole of this second water receiving channel is located between two sealing washers, and the major diameter section cooperation two sealing washers of the refill pole that are located the upper position, the major diameter section cooperation lower sealing washer of the refill pole that is located the lower position, the minor diameter section cooperation upper sealing washer.

9. The faucet of claim 8, wherein the faucet further comprises: the pressure relief part comprises a pressure relief cover fixedly arranged in the mounting hole, a water passing cover fixedly arranged in the pressure relief cover and protruding out of the pressure relief cover, and a sealing gland arranged in the mounting hole; the pressure relief cover is provided with a first shaft hole and the second port which is formed by concave arrangement of the bottom surface and communicated with the first shaft hole, the water passing cover is provided with a second shaft hole and the first port which is formed by concave arrangement of the top surface and communicated with the second shaft hole, the water passing channel comprises the first shaft hole and the second shaft hole which are communicated with each other, the upper sealing ring is positioned between the pressure relief cover and the water passing cover, and the sealing gland is arranged on the water passing cover in a sealing manner.

10. The faucet of claim 4, wherein the faucet further comprises: the tap casing is internally and fixedly provided with a mounting seat, the shell is fixedly arranged in the mounting seat, the mounting seat is provided with a first through hole and a second through hole, a water passage comprises the first through hole, a water passage cavity communicated with the second through hole is formed between the shell and the mounting seat, the control valve is arranged below the mounting seat, and the other water passage comprises a gap between the second through hole, the water passage cavity and the mounting seat as well as the inner wall of the tap casing.

11. The faucet of claim 10, wherein: the mounting seat is also provided with two third through holes which are respectively communicated with a cold and hot water inlet of the key switching rotary temperature regulating valve core.

12. The faucet of claim 5, wherein the faucet further comprises: the automatic ball-point pen mechanism comprises a first elastic body, a second elastic body, a pen core rod penetrating through a mounting hole and a fourth ratchet seat fixedly arranged in a shell, a first ratchet seat and a second ratchet seat are respectively arranged above and below a water distribution disc, a third ratchet seat is arranged below a rotary seat, the first ratchet seat is matched with the third ratchet seat, the second ratchet seat is matched with the fourth ratchet seat, the first elastic body abuts against the water distribution disc and a moving plate to abut against the water distribution disc from bottom to top, and the second elastic body abuts against the pen core rod between a key and a pen core rod to abut against the pen core rod from top to bottom.

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