CN205164998U - An automatically controlled water installation and gondola water faucet of switching - Google Patents

Abstract

The utility model discloses an automatically controlled water installation and gondola water faucet of switching, an automatically controlled water installation that switches includes pressure valve subassembly and electric control assembly, the pressure valve subassembly is including fixed unit, baffle mechanism and two at least loose axles, electric control assembly includes motor, control circuit board and triggers the board, motor and fixed unit relatively fixed to connection control circuit board, trigger board and the synchronous rotation relation of the pivot component of motor, trigger the board through this and rotate each loose axle motion of drive. The gondola water faucet include the gondola water faucet body with an automatically controlled water installation that switches, gondola water faucet body have two at least water functions, and an automatically controlled water installation that switches is installed in the gondola water faucet body, realize out the switching of water function through this automatically controlled water installation control gondola water faucet body that switches. The utility model discloses a break -make in each water route of pressure valve component control, the cost is lower, occupation space is less, only need very light power just steerable, and the location scope of function is great, adopt the motor cooperation to trigger the board and control, power saving, control convenience.

Description

A kind of automatically controlled switching water discharging device and gondola water faucet

Technical field

The utility model relates to a kind of switching water discharging mechanism, particularly relates to a kind of automatically controlled switching water discharging device and gondola water faucet.

Background technology

At present, the switching of the effluent functions of gondola water faucet realizes mainly with the mode of frame for movement greatly, but for complete upgrading that is intelligent, digital product, the mode of operation of employing frame for movement can not meet demand instantly already.For this reason, some gondola water faucets adopting automatically controlled mode practical function and switch in succession are there is on the market, and mainly contain following two kinds of automatically controlled modes at present: one, adopt magnetic valve whether to control each function water outlet, two, adopt driven by motor water diversion disk to rotate whether realize water outlet.Require that each effluent functions passage needs use magnetic valve for the first automatically controlled mode, cost is higher, and usage space is larger; The automatically controlled mode of the second is then required that the driving torque of motor is comparatively large, needs the motor mating large function to drive, and require that location very precisely just can reach the effect of each function water outlet.

Utility model content

The utility model provides a kind of automatically controlled switching water discharging device and gondola water faucet, which overcomes the weak point existing for two kinds of automatically controlled modes described in background technology.

The utility model solves the technical scheme that its technical problem adopts: a kind of automatically controlled switching water discharging device, comprises pressure valve assembly and electrically-controlled component;

Pressure valve assembly comprises fixed cell, spacer mechanism and at least two movable axis, and fixed cell is provided with intake antrum and at least two delivery ports; Spacer mechanism is arranged in fixed cell, and be provided with at least two pressure releasing passages, and this spacer mechanism and fixed cell form at least two independently attaching cavities, sealing gasket is respectively arranged with in each attaching cavity, the distortion of described sealing gasket is controlled, by the break-make between the corresponding delivery port of sealing gasket Deformation control and intake antrum by controlling pressure releasing passages pass blocking; Each movable axis seals respectively and is plugged in fixed cell, by the corresponding pressure releasing passages pass blocking of the surge motion control of movable axis; Each movable axis respectively and between spacer mechanism to being provided with the first elastic component, each sealing gasket respectively and between spacer mechanism to being provided with the second elastic component;

Electrically-controlled component comprises motor, control circuit board and trigger board, and motor is relative with fixed cell fixing, and connection control circuit board; The rotating shaft of trigger board and motor forms synchronous axial system relation, is rotated drive the motion of each movable axis by this trigger board.

Further, also comprise hydroelectric generation assembly, this hydroelectric generation assembly comprises body and is installed on the generator of this body, and body is provided with water inlet and delivery port, and the delivery port of body is communicated with the intake antrum of described fixed cell.

Further, described electrically-controlled component also comprises at least two group light sensation assembly and light barriers, described control circuit board comprises first circuit board and second circuit board, each group of light sensation assembly comprises optical transmitting set and optical receiver respectively, optical transmitting set is installed on first circuit board, and optical receiver is installed on second circuit board, and first circuit board and second circuit board are oppositely arranged, and optical transmitting set and optical receiver are corresponding one by one, second circuit board connects described motor; The rotating shaft of motor is through first circuit board, second circuit board, the rotating shaft of light barrier and motor forms synchronous axial system relation, and between first circuit board and second circuit board, this light barrier is provided with loophole, make wherein one group of light sensation assembly form transmitting and receiving relation by this loophole, control motor stalling to make second circuit board.

Further, described electrically-controlled component also comprises motor cabinet and motor cover, and motor cabinet is fixed in described fixed cell, and described motor, first circuit board and second circuit board are secured in motor cabinet respectively, motor cover lid is connected to motor cabinet, and described trigger board is positioned at outside motor cover.

Further, described trigger board is along the circumferential direction provided with the arc-shaped slot for making movable axis move towards the direction of trigger board or the arc cam for making movable axis move towards the direction away from trigger board towards the one side of described movable axis.

Further, described spacer mechanism comprises a dividing plate or at least two dividing plates, and dividing plate is extended with attaching axle towards sealing gasket, and described sealing gasket is set in outside this attaching axle, and each sealing gasket mineralization pressure chamber respectively and between dividing plate, described pressure releasing passages is the pressure release passage of pressure chamber; Described second elastic component is positioned at this pressure chamber.

Further, described sealing gasket is provided with the first water hole for being communicated with described pressure chamber and intake antrum, and described dividing plate is extended with the body of rod towards the direction of sealing gasket, and this body of rod inserts described first water hole, and has water space therebetween.

Further, described dividing plate is provided with the second water hole being communicated with described pressure chamber, and described pressure releasing passages is located at described attaching axle and is communicated with described delivery port, by the break-make between described movable axis motion control pressure releasing passages and the second water hole.

Further, described fixed cell comprises Inlet and outlet water valve seat, shunt valve seat and valve gap, Inlet and outlet water valve seat is provided with water inlet and described delivery port, shunt valve seat is provided with at least two points of water cavities, this shunt valve seat is secured to Inlet and outlet water valve seat, and forming the described intake antrum being communicated with water inlet therebetween, each point of water cavity is communicated with corresponding delivery port respectively; Described movable axis is secured to valve gap, this valve gap is relative with shunt valve seat fixing, described dividing plate is secured between valve gap and shunt valve seat, and the peripheral end of described sealing gasket to being located between dividing plate and shunt valve seat, and passes through the break-make between sealing gasket Deformation control intake antrum and corresponding point of water cavity.

A kind of gondola water faucet, comprise gondola water faucet body, it has at least two effluent functions, also comprises automatically controlled switching water discharging device mentioned above, this automatically controlled switching water discharging device is installed on gondola water faucet body, controls gondola water faucet body realize effluent functions switching by this automatically controlled switching water discharging device.

Compared to prior art, the utility model has following beneficial effect:

1, adopt described pressure valve assembly to control the break-make in each water route, not only cost lower, take up room less, and only need very light power just can control, and larger to the orientation range of function; Adopt lower powered motor to coordinate trigger board to control, not only power saving, control convenient, also meet instantly user to demand that is intelligent, digital product;

2, the utility model arranges hydroelectric generation assembly further for electrically-controlled component and powers, energy-conserving and environment-protective;

3, the light sensation assembly that described electrically-controlled component adopts optical transmitting set and optical receiver to form further coordinates light barrier to come practical function location, has accurate positioning, controls the features such as convenient.

Below in conjunction with drawings and Examples, the utility model is described in further detail; But the automatically controlled switching water discharging device of one of the present utility model and gondola water faucet are not limited to embodiment.

Accompanying drawing explanation

Fig. 1 is decomposing schematic representation of the present utility model;

Fig. 2 is partial exploded view one of the present utility model;

Fig. 3 is partial exploded view two of the present utility model;

Fig. 4 is D structure schematic diagram of the present utility model;

Fig. 5 is sectional view of the present utility model;

Generalized section when Fig. 6 is the utility model delivery port water outlet wherein;

The mated condition schematic diagram of trigger board and two movable axis when Fig. 7 is the utility model delivery port water outlet wherein;

The generalized section that Fig. 8 is the utility model when the two equal water outlets of delivery port;

The trigger board that Fig. 9 is the utility model when the two equal water outlets of delivery port and the mated condition schematic diagram of two movable axis;

Figure 10 is the generalized section of the utility model when another delivery port water outlet;

Figure 11 is the mated condition schematic diagram of the utility model trigger board and two movable axis when another delivery port water outlet;

Figure 12 is the decomposing schematic representation of gondola water faucet of the present utility model.

Detailed description of the invention

Embodiment, refers to shown in Fig. 1-Fig. 5, and the automatically controlled switching water discharging device of one of the present utility model, comprise pressure valve assembly 2, electrically-controlled component 1 and hydroelectric generation assembly 3, three is fixed together.

Pressure valve assembly 2 comprises fixed cell, spacer mechanism and two movable axis 24, fixed cell is provided with intake antrum 212c and two delivery port 212a, 212b, spacer mechanism is arranged in fixed cell, and be provided with two pressure releasing passages 271, and this spacer mechanism and fixed cell form two independently attaching cavities, this two attaching cavity and two delivery port 212a, 212b is corresponding one by one, and be respectively arranged with sealing gasket 29 in each attaching cavity, sealing pad 29 is flexible glue material, control described sealing gasket 29 by control pressure releasing passages 271 pass blocking to move, by sealing gasket 29 motion control delivery port 212a, break-make between 212b and intake antrum 212c, each movable axis 24 seals respectively and is plugged in fixed cell, by the surge motion control of movable axis 24 corresponding pressure releasing passages 271 pass blocking, each movable axis 24 respectively and between spacer mechanism to being provided with the first elastic component 25, each sealing gasket 29 respectively and between spacer mechanism to being provided with the second elastic component 28,

Electrically-controlled component 1 comprises motor 12, control circuit board and trigger board 17, and motor 12 is specially reducing motor, and it is relative with fixed cell fixing, and connection control circuit board; Trigger board 17 forms synchronous axial system relation with the rotating shaft of motor 12, is rotated drive each movable axis 24 to move by this trigger board 17;

Hydroelectric generation assembly 3 comprises body and is installed on the generator 12 of this body, and body is provided with water inlet 31a and delivery port, and the delivery port of body is communicated with the intake antrum 212c of described fixed cell.Body specifically comprises the water inlet plate 31 being provided with water inlet 31a, the generator stand 32 being provided with delivery port and support lid 33, and water inlet plate 31, generator stand 32, support lid 33 three are fixed together, and generator 12 is secured in the cavity that three surrounds.

In the present embodiment, described electrically-controlled component 1 also comprises three groups of light sensation assemblies and light barrier 14, described control circuit board comprises first circuit board 13 and second circuit board 15, each group of light sensation assembly comprises optical transmitting set 131 and optical receiver 151 respectively, optical transmitting set 131 is installed on first circuit board 13, optical receiver 151 is installed on second circuit board 15, first circuit board 13 and second circuit board 15 are oppositely arranged, and optical transmitting set 131 is corresponding one by one with optical receiver 151, second circuit board 15 connects described motor 12; The rotating shaft of motor 12 is through first circuit board 13, second circuit board 15, light barrier 14 forms synchronous axial system relation with the rotating shaft of motor 12, and between first circuit board 13 and second circuit board 15, this light barrier 14 is provided with a loophole 141, make wherein one group of light sensation assembly form transmitting and receiving relation by this loophole 141, control motor 12 stall to make second circuit board 15.

In the present embodiment, described electrically-controlled component 1 also comprises motor cabinet 11 and motor cover 16, motor cabinet 11 is fixed in described fixed cell, described motor 12, first circuit board 13 and second circuit board 15 are secured in motor cabinet 11 respectively, motor cover 16 lid is connected to motor cabinet 11, and described trigger board 17 is positioned at outside motor cover 16.Specifically, the middle part of described trigger board 17 extends an axle sleeve 171 towards the direction of motor 12, and this axle sleeve 171 through motor cover 16, and fixes with the rotating shaft of motor 12 and connects together.

In the present embodiment, described trigger board 17 is along the circumferential direction provided with the arc-shaped slot 17a for making movable axis 24 move towards the direction of trigger board 17 towards the one side of described movable axis 24, the length of this arc-shaped slot 17a is greater than the half of its place circumference circle, and the two ends of this arc-shaped slot 17a are chamfered transition with the end face of trigger board 17 respectively, utilize the motion of this inclined-plane to movable axis 24 to lead, also make the motion of movable axis 24 more smooth and easy.

In the present embodiment, described spacer mechanism comprises a dividing plate 27, and dividing plate 27 is extended with attaching axle towards each sealing gasket 29, and described sealing gasket 29 is sheathed on outside this attaching axle, and each sealing gasket 29 mineralization pressure chamber respectively and between dividing plate 27, described pressure releasing passages 271 is the pressure release passage of pressure chamber; Described second elastic component 28 is positioned at this pressure chamber.Described first elastic component 25 is preferably spring, and is set in described movable axis 24, and movable axis 24 sidewall is provided with the annular boss for fixing spring, and described second elastic component 28 is preferably spring, and is set in attaching axle.

In the present embodiment, described each sealing gasket 29 is respectively equipped with the first water hole 291 for being communicated with described pressure chamber and intake antrum, described dividing plate 27 is extended with the body of rod towards the direction of sealing gasket 29, and this body of rod inserts described first water hole 291, and has water space therebetween.

In the present embodiment, described dividing plate 27 is also provided with the second water hole 272 being communicated with described pressure chamber, described two pressure releasing passages 271 are located at two attaching axles respectively, and be communicated with described delivery port 212a, 212b respectively, by the break-make between each pressure releasing passages of described movable axis 24 motion control and the second corresponding water hole.

In the present embodiment, described fixed cell comprises Inlet and outlet water valve seat 212, shunt valve seat 211 and valve gap 23, Inlet and outlet water valve seat 212 is provided with water inlet and described delivery port 212a, 212b, shunt valve seat 211 is provided with two points of water cavities 211a, 211b, this shunt valve seat 211 is secured to Inlet and outlet water valve seat 212, and forming the described intake antrum 212c being communicated with water inlet therebetween, two points of water cavities 211a, 211b are communicated with delivery port 212a, 212b respectively; Described movable axis 24 is secured to valve gap 23, this valve gap 23 is relative with shunt valve seat 211 fixing, described dividing plate 27 is secured between valve gap 23 and shunt valve seat 211, the peripheral end of described sealing gasket 29 to being located between dividing plate 27 and shunt valve seat 211, and passes through the break-make of sealing gasket 29 motion control intake antrum 212c and two point between water cavity 211a, 211b.

In the present embodiment, in order to ensure sealing property, the seal 26 of adaptive pressure releasing passages 271 is preferably installed on each movable axis 24.Described valve gap 23 is respectively equipped with two attachment hole, and valve gap 23 is provided with annular attaching slot at the outside left of each attachment hole, is provided with V-type circle 22 in this attaching slot, and adopts minor flaps 21 pairs of attaching slots to seal, with positioning V-shaped circle 22.One end of movable axis 24 is stretched out by attachment hole, V-type circle 22 and minor flaps 21 successively, and forms the effect end coordinated with described trigger board 17, utilizes the gap between V-type circle 22 pairs of movable axis 24 and attachment hole to seal.Seal 26 on movable axis 24 is positioned at the inner side of attachment hole.

The utility model has following three kinds of duties, for convenience of explanation, two movable axis 24 are defined as movable axis 24a and movable axis 24b, two pressure releasing passages 271 are defined as pressure releasing passages 271a and pressure releasing passages 271b, two sealing gaskets 9 are defined as sealing gasket 29a and sealing gasket 29b.

First duty is as Fig. 6, shown in Fig. 7: movable axis 24a falls in the arc-shaped slot 17a of trigger board 17, movable axis 24a to act on and away from pressure releasing passages 271a by the first elastic component 25, pressure releasing passages 271a is opened, be positioned at the pressure of the pressure chamber on the left of sealing gasket 29a successively by corresponding second water hole of dividing plate 27, pressure releasing passages 271a discharges, the pressure of the pressure chamber be positioned on the left of sealing gasket 29a is made to be less than pressure into chamber 212c, the water quick washing sealing gasket 29a of intake antrum 212c, sealing gasket 29a is made to overcome the Direction distortion of elastic force effect towards dividing plate 27 of the second elastic component 28, thus make delivery port 212a be communicated with intake antrum 212c and water outlet by point water cavity 211a of shunt valve seat.Movable axis 24b does not fall in the arc-shaped slot 17a of trigger board 17, this movable axis 24b is equivalent to by jack-up, and shutoff pressure releasing passages 271b, make the hydraulic pressure of the pressure chamber be positioned on the left of sealing gasket 29b equal with the hydraulic pressure of intake antrum 212c, because the compression area being positioned at the pressure chamber on the left of sealing gasket 29b is greater than the compression area of intake antrum 212c, thus the pressure be subject on the left of sealing gasket 29b is greater than the pressure be subject on the right side of it, make sealing gasket 29b towards the Direction distortion of point water cavity 211b, sealing gasket 29b is subject to the elastic force effect of the second elastic component 28 simultaneously, thus the entrance of point water cavity 211b of shutoff shunt valve seat, namely, a point water cavity 211b is not communicated with intake antrum 212c, thus, delivery port 212b not water outlet.Now, the utility model is in and singly goes out water state.

Second duty is as Fig. 8, shown in Fig. 9: movable axis 24a falls in the arc-shaped slot 17a of trigger board 17, movable axis 24a to act on and away from pressure releasing passages 271a by the first elastic component 25, pressure releasing passages 271a is opened, be positioned at the pressure of the pressure chamber on the left of sealing gasket 29a successively by the second water hole 272 of dividing plate 27, pressure releasing passages 271a discharges, the pressure of the pressure chamber be positioned on the left of sealing gasket 29a is made to be less than the pressure of intake antrum 212c, the water quick washing sealing gasket 29a of intake antrum 212c, sealing gasket 29a is made to overcome the Direction distortion of elastic force effect towards dividing plate 27 of the second elastic component 28, thus make delivery port 212a be communicated with intake antrum 212c and water outlet by point water cavity 211a of shunt valve seat.Movable axis 24b also falls in the arc-shaped slot 17a of trigger board 17, movable axis 24b to act on and away from pressure releasing passages 271b by the first elastic component 25, pressure releasing passages 271b is opened, be positioned at the pressure of the pressure chamber on the left of sealing gasket 29b successively by the second water hole 272 of dividing plate 27, pressure releasing passages 271b discharges, the pressure of the pressure chamber be positioned on the left of sealing gasket 29b is made to be less than the pressure of intake antrum 212c, the water quick washing sealing gasket 29b of intake antrum 212c, sealing gasket 29b is made to overcome the Direction distortion of elastic force effect towards dividing plate 27 of the second elastic component 28, thus make delivery port 212b be communicated with intake antrum 212c and water outlet by point water cavity 211b of shunt valve seat.Now, the utility model is in and blends water state.

3rd duty is as Figure 10, shown in 11: movable axis 24a does not fall in the arc-shaped slot 17a of trigger board 17, this movable axis 24a is equivalent to by jack-up, and shutoff pressure releasing passages 271a, make the hydraulic pressure of the pressure chamber be positioned on the left of sealing gasket 29a equal with the hydraulic pressure of intake antrum 212c, because the compression area being positioned at the pressure chamber on the left of sealing gasket 29a is greater than the compression area of intake antrum 212c, thus the pressure be subject on the left of sealing gasket 29a is greater than the pressure be subject on the right side of it, make sealing gasket 29a towards the Direction distortion of point water cavity 211a, sealing gasket 29a is subject to the elastic force effect of the second elastic component 28 simultaneously, thus the entrance of point water cavity 211a of effect shutoff shunt valve seat, namely, a point water cavity 211a is not communicated with intake antrum 212c, thus, delivery port 212a not water outlet.Movable axis 24b falls in the arc-shaped slot 17a of trigger board 17, movable axis 24b to act on and away from pressure releasing passages 271b by the first elastic component 25, pressure releasing passages 271b is opened, be positioned at the pressure of the pressure chamber on the left of sealing gasket 29b successively by the second water hole 272 of dividing plate 27, pressure releasing passages 271b discharges, the pressure of the pressure chamber be positioned on the left of sealing gasket 29b is made to be less than the pressure of intake antrum 212c, the water quick washing sealing gasket 29b of intake antrum 212c, sealing gasket 29b is made to overcome the Direction distortion of elastic force effect towards dividing plate 27 of the second elastic component 28, thus make delivery port 212b be communicated with intake antrum 212c and water outlet by point water cavity 211b of shunt valve seat.Now, the utility model is in and singly goes out water state.

Operation principle of the present utility model is as follows: water is entered by the water inlet 31a of plate of intaking, the aquaporin of crossing arranged by generator stand 32 inside enters generator 34, and the impeller high-speed rotation of surge generator 34 generates electricity, the electric energy that generating produces powers (electric energy that this generator 34 produces first can be stored in electric capacity or battery supplying power for outside again) to described control circuit board and motor 12; Enter from the water inlet of Inlet and outlet water valve seat 212 again from hydroelectric generation assembly 3 water out, and realize water outlet by the wherein one of above-mentioned three kinds of duties.

The motion state of described two movable axis 24 is realized controlling by rotating by trigger board 17, and trigger board 17 is driven by motor 12.When triggering second circuit board 15 and making motor 12 start, motor 12 drives trigger board 17 and light barrier 14 to rotate, when light barrier 14 turn to make that wherein one group of light sensation assembly forms light transmitting and light-receiving relation by the loophole 141 of light barrier time, second circuit board 15 controls motor 12 stall, now, trigger board 17 is positioned the wherein a kind of of above-mentioned three kinds of duties, makes two movable axis 24 control corresponding pressure releasing passages pass blocking respectively.Three operating positions of three groups of light sensation assemblies just corresponding trigger board 17, also i.e. corresponding above-mentioned three groups of duties.Therefore, by controlling motor 12 start and stop, i.e. changeable above-mentioned three kinds of water outlet forms.The triggering of described second circuit board 15 can adopt in the modes such as electronics touching, infrared induction, remote control any one or a few operate.

In other embodiments, the quantity of described sealing gasket, movable axis, the first elastic component, the second elastic component, light sensation assembly etc. is not limited to two, also can be three or more, thus enable the utility model realize the water exit mode of more than three kinds.

In other embodiments, by arranging two groups of light sensation assemblies, the utility model also can be made only to realize two kinds of water outlet forms: two kinds of single water outlet forms, or a kind of single water outlet form mix water outlet form with a kind of.

In other embodiments, described trigger board also along the circumferential direction can be provided with arc cam for making movable axis move towards the direction away from trigger board towards the one side of movable axis.

In other embodiments, described spacer mechanism also can comprise the dividing plate of the equal number with sealing gasket.

In other embodiments, described sealing gasket also can not arrange described first water hole, but makes to have between sealing gasket with described attaching axle and cross water space for what be communicated with described pressure chamber and intake antrum.

Shown in Figure 12, a kind of gondola water faucet of the present utility model, comprise gondola water faucet body and automatically controlled switching water discharging device mentioned above, the concrete three kinds of effluent functions of gondola water faucet body, this automatically controlled switching water discharging device is installed on gondola water faucet body, controls gondola water faucet body realize effluent functions switching by this automatically controlled switching water discharging device.

Specifically, described gondola water faucet is head gondola water faucet, its gondola water faucet body comprises the cover assembly 4 and upper casing 5 that form described three kinds of effluent functions, cover assembly 4 has two water inlet 4a, 4b, upper casing 5 has intake tunnel 5a, upper casing 5 and cover assembly about 4 Joint, described automatically controlled switching water discharging device is installed in the cavity that this cover assembly 4 and upper casing 5 surround, and two delivery port 212a, 212b of automatically controlled switching water discharging device connect two water inlet 4a, 4b of cover assembly respectively, the water inlet 31a of described water generating assembly connects the intake tunnel 5a of upper casing.

During work, adopt electronics touching or the mode such as infrared induction or remote control to trigger second circuit board 15, make it control motor 12 and work, three kinds of effluent functions that can be shower head switched.

In other embodiments, described gondola water faucet also can be Portable rose or kitchen shower head.

Above-described embodiment is only used for further illustrating the automatically controlled switching water discharging device of one of the present utility model and gondola water faucet; but the utility model is not limited to embodiment; every above embodiment is done according to technical spirit of the present utility model any simple modification, equivalent variations and modification, all fall in the protection domain of technical solutions of the utility model.

Claims (10)

1. an automatically controlled switching water discharging device, is characterized in that: comprise pressure valve assembly and electrically-controlled component;

Pressure valve assembly comprises fixed cell, spacer mechanism and at least two movable axis, and fixed cell is provided with intake antrum and at least two delivery ports; Spacer mechanism is arranged in fixed cell, and be provided with at least two pressure releasing passages, and this spacer mechanism and fixed cell form at least two independently attaching cavities, each attaching cavity is corresponding at least one delivery port respectively, sealing gasket is respectively arranged with in each attaching cavity, the distortion of described sealing gasket is controlled, by the break-make between the corresponding delivery port of sealing gasket Deformation control and intake antrum by controlling pressure releasing passages pass blocking; Each movable axis seals respectively and is plugged in fixed cell, by the corresponding pressure releasing passages pass blocking of the surge motion control of movable axis; Each movable axis respectively and between spacer mechanism to being provided with the first elastic component, each sealing gasket respectively and between spacer mechanism to being provided with the second elastic component;

Electrically-controlled component comprises motor, control circuit board and trigger board, and motor is relative with fixed cell fixing, and connection control circuit board; The rotating shaft of trigger board and motor forms synchronous axial system relation, is rotated drive the motion of each movable axis by this trigger board.

2. automatically controlled switching water discharging device according to claim 1, it is characterized in that: also comprise hydroelectric generation assembly, this hydroelectric generation assembly comprises body and is installed on the generator of this body, and body is provided with water inlet and delivery port, and the delivery port of body is communicated with the intake antrum of described fixed cell.

3. automatically controlled switching water discharging device according to claim 1, it is characterized in that: described electrically-controlled component also comprises at least two group light sensation assembly and light barriers, described control circuit board comprises first circuit board and second circuit board, each group of light sensation assembly comprises optical transmitting set and optical receiver respectively, optical transmitting set is installed on first circuit board, optical receiver is installed on second circuit board, first circuit board and second circuit board are oppositely arranged, and optical transmitting set and optical receiver are corresponding one by one, second circuit board connects described motor; The rotating shaft of motor is through first circuit board, second circuit board, the rotating shaft of light barrier and motor forms synchronous axial system relation, and between first circuit board and second circuit board, this light barrier is provided with loophole, make wherein one group of light sensation assembly form transmitting and receiving relation by this loophole, control motor stalling to make second circuit board.

4. automatically controlled switching water discharging device according to claim 3, it is characterized in that: described electrically-controlled component also comprises motor cabinet and motor cover, motor cabinet is fixed in described fixed cell, described motor, first circuit board and second circuit board are secured in motor cabinet respectively, motor cover lid is connected to motor cabinet, and described trigger board is positioned at outside motor cover.

5. automatically controlled switching water discharging device according to claim 1, is characterized in that: described trigger board is along the circumferential direction provided with the arc-shaped slot for making movable axis move towards the direction of trigger board or the arc cam for making movable axis move towards the direction away from trigger board towards the one side of described movable axis.

6. automatically controlled switching water discharging device according to claim 1, it is characterized in that: described spacer mechanism comprises a dividing plate or at least two dividing plates, dividing plate is extended with attaching axle towards sealing gasket, described sealing gasket is set in outside this attaching axle, and each sealing gasket mineralization pressure chamber respectively and between dividing plate, described pressure releasing passages is the pressure release passage of pressure chamber; Described second elastic component is positioned at this pressure chamber.

7. automatically controlled switching water discharging device according to claim 6, it is characterized in that: described sealing gasket is provided with the first water hole for being communicated with described pressure chamber and intake antrum, described dividing plate is extended with the body of rod towards the direction of sealing gasket, this body of rod inserts described first water hole, and has water space therebetween.

8. automatically controlled switching water discharging device according to claim 6, it is characterized in that: described dividing plate is provided with the second water hole being communicated with described pressure chamber, described pressure releasing passages is located at described attaching axle and is communicated with described delivery port, by the break-make between described movable axis motion control pressure releasing passages and the second water hole.

9. the automatically controlled switching water discharging device according to any one of claim 6-8, it is characterized in that: described fixed cell comprises Inlet and outlet water valve seat, shunt valve seat and valve gap, Inlet and outlet water valve seat is provided with water inlet and described delivery port, shunt valve seat is provided with at least two points of water cavities, this shunt valve seat is secured to Inlet and outlet water valve seat, and forming the described intake antrum being communicated with water inlet therebetween, each point of water cavity is communicated with corresponding delivery port respectively; Described movable axis is secured to valve gap, this valve gap is relative with shunt valve seat fixing, described dividing plate is secured between valve gap and shunt valve seat, and the peripheral end of described sealing gasket to being located between dividing plate and shunt valve seat, and passes through the break-make between sealing gasket Deformation control intake antrum and corresponding point of water cavity.

10. a gondola water faucet, comprise gondola water faucet body, it has at least two effluent functions, it is characterized in that: also comprise automatically controlled switching water discharging device as claimed in any one of claims 1-9 wherein, this automatically controlled switching water discharging device is installed on gondola water faucet body, controls gondola water faucet body realize effluent functions switching by this automatically controlled switching water discharging device.