CN214766273U - Electric multifunctional shower head - Google Patents

Abstract

The application discloses an electric multifunctional shower head, which relates to the technical field of shower supplies and comprises a shower head body, wherein a containing cavity is arranged in the shower head body, the shower head body is provided with a water inlet end and a water outlet end, the water inlet end and the water outlet end are both communicated with the containing cavity, the shower head body is also provided with a liquid storage cavity, a separation part is arranged between the liquid storage cavity and the containing cavity, the separation part is provided with a liquid supplementing hole, and the liquid storage cavity is communicated with the containing cavity through the liquid supplementing hole; the gondola water faucet is equipped with crowded liquid spare, and the gondola water faucet body still is equipped with and is used for driving crowded liquid spare operation in order to squeeze into the driving motor who holds the intracavity with the intracavity liquid of stock solution along fluid infusion hole. Through setting up stock solution chamber, crowded liquid spare and driving motor, can press the milk or the skin lotion articles for use of stock solution intracavity and mix the aquatic, also can reduce the user and close the trouble of extruding the shower bath from the lotion bottle in addition behind the gondola water faucet for the bathing is more convenient.

Description

Electric multifunctional shower head

Technical Field

The application relates to the technical field of shower supplies, more specifically, it relates to an electronic multi-functional gondola water faucet.

Background

The sprinkler is also called a shower nozzle and is originally a device for watering flowers, potted plants and other plants. Later, people modified it into a shower, making it a common bathroom fixture.

When the shower head is used for showering, when the bath foam needs to be wiped on the body, the shower head needs to be closed after the body is wetted, and then the bath foam is manually squeezed out and is smeared on the body, which is troublesome.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that manual squeezing out bath foam leads to being more troublesome, the application provides an electronic multi-functional gondola water faucet.

The application provides a pair of electronic multi-functional gondola water faucet adopts following technical scheme:

the utility model provides an electronic multi-functional gondola water faucet, includes the gondola water faucet body, this internal chamber that holds that is equipped with of gondola water faucet, the gondola water faucet body is equipped with into water end and goes out the water end, the end of intaking with it all with go out the water end hold chamber intercommunication, its characterized in that: the shower head body is also provided with a liquid storage cavity, an isolation part is arranged between the liquid storage cavity and the accommodating cavity, the isolation part is provided with a liquid supplementing hole, and the liquid storage cavity is communicated with the accommodating cavity through the liquid supplementing hole; the gondola water faucet is equipped with crowded liquid spare, the gondola water faucet body still is equipped with and is used for driving crowded liquid spare operation in order to squeeze into liquid along fluid infusion hole in the stock solution intracavity the driving motor who holds the intracavity.

Through above-mentioned technical scheme, the stock solution chamber can supply additive storage that bathing such as milk or bath foam used, when adopting the gondola water faucet to shower, drives crowded liquid piece operation through driving motor and crowds into the milk or bath foam of stock solution intracavity to holding the intracavity, and milk or bath foam follow water and go out water end blowout, can reduce the user and close the gondola water faucet after in addition follow the bath foam trouble of extruding, make the bathing more convenient.

Optionally, the shower body is provided with a battery jar, the battery jar is used for supplying the battery installation, the battery is used for supplying power for driving motor.

Through above-mentioned technical scheme, install the battery through the battery jar and supply power for holistic use is more convenient.

Optionally, the storage battery includes a battery body and a contact end disposed on the battery body, a connection end is disposed in the battery slot, and the contact end is used for abutting against the connection end to supply power to the driving motor; and a water baffle is arranged at one end of the battery jar, which is close to the water outlet end, and the water baffle is positioned at the position, which is close to the notch of the battery jar, of the connecting end.

Through the technical scheme, the water baffle is used for shielding, so that the waterproof effect after the storage battery is installed is better.

Optionally, the inner wall of the battery jar is provided with a rubber ring sleeve, the connecting end is correspondingly sleeved with the rubber ring sleeve, when the connecting end is abutted against the contact end and powered on, the rubber ring sleeve is sleeved outside the connecting end and the contact end, one end of the rubber ring sleeve abuts against the battery body, and the other end of the rubber ring sleeve abuts against the inner wall of the battery jar.

Through above-mentioned technical scheme, further carry out the cladding to contact end and link through the rubber ring cover and completely cut off to further promote water-proof effects, make whole use more stable.

Optionally, the outer wall of the battery body comprises an insulating layer, the battery body is provided with a step surface, a sealing gasket is fixed on the step surface, and the sealing gasket is used for tightly abutting against the water baffle to enhance sealing.

Through above-mentioned technical scheme, further promote water-proof effects through insulating layer and sealed pad.

Optionally, an elastic pad is arranged on the inner wall of the battery jar, which is far away from the water baffle.

Through the technical scheme, the elastic pad is abutted to the storage battery, so that the storage battery is more flexible and convenient to mount and dismount.

Optionally, a first diversion channel and a second diversion channel are further arranged in the accommodating cavity, and when water enters from the water inlet end, the water needs to pass through the first diversion channel or the second diversion channel and then is discharged from the water outlet end;

a trigger switch is arranged in the first diversion channel and used for controlling the on-off of the driving motor, and when liquid entering from the water inlet end passes through the first diversion channel, the trigger switch controls the driving motor to operate;

the state that the end of intaking switches on with water conservancy diversion way one is the A state, the end of intaking with the state that water conservancy diversion way two switched on is the B state, the gondola water faucet body still is equipped with the regulating part, the regulating part is used for controlling the switching of A state and B state.

Through above-mentioned technical scheme, through the switching of regulating part control on-state, through rivers through opening trigger switch, realize the start-up and close of control driving motor, reduced the circumstances that leads to the liquid waste in the stock solution intracavity under the circumstances of cutting off the water for holistic use is more convenient.

Optionally, the trigger switch is a pressure switch, a one-way conduction structure is arranged at one end of the diversion channel, which is located at the trigger switch and is far away from the water inlet end, and the one-way conduction structure enables the first diversion channel to be in one-way conduction from the water inlet end to the water outlet end.

Through the technical scheme, the pressure formed by spraying the liquid after flowing through the flow guide channel is used for triggering the pressure switch, so that the whole triggering is more convenient.

Optionally, the fluid infusion hole is provided with a first one-way conduction piece, the first one-way conduction piece enables the fluid infusion hole to be in one-way conduction from the fluid storage cavity to the containing cavity, the fluid storage cavity is communicated with an air inlet, the air inlet is used for being communicated to the outside, the air inlet is provided with a second one-way conduction piece, and the second one-way conduction piece enables the air inlet to be in one-way conduction from the outside to the fluid storage cavity.

Through above-mentioned technical scheme, the direction switches on one and can reduce the water that holds the intracavity and enter into the stock solution intracavity and dilute additives such as milk or shower bath, and one-way switch on two makes the external world can in time compensate atmospheric pressure, reduces the stock solution intracavity and takes place the negative pressure and lead to liquid can not crowd the condition that holds the chamber, sets up one-way switch on one and one-way switch on two for holistic use is more convenient.

In summary, the present application includes at least one of the following beneficial technical effects:

by arranging the liquid storage cavity, the liquid squeezing piece and the driving motor, milk and skin moistening products can be added into the liquid storage cavity for mixed bathing, so that the purpose of nourishing skin is achieved, the trouble that a user squeezes bath foam out of a bath foam bottle after closing the shower head is reduced, and the bathing is more convenient;

the waterproof plate and the rubber lantern ring are arranged, so that the waterproof effect of the storage battery is better, and the integral use is more stable;

through setting up water conservancy diversion way one, water conservancy diversion way two, regulating part and touch switch, reduced the extravagant condition of liquid that leads to in the stock solution intracavity under the circumstances of cutting off the water for holistic use is more convenient.

Drawings

FIG. 1 is an overall sectional view schematically showing embodiment 1;

FIG. 2 is an exploded view of example 1;

FIG. 3 is an enlarged view of portion A of FIG. 1;

FIG. 4 is a schematic structural view of a secondary battery according to embodiment 1;

FIG. 5 is a schematic partial sectional view of embodiment 1;

FIG. 6 is a schematic view of the structure of the auxiliary mixing member of embodiment 1;

FIG. 7 is a schematic sectional view showing the structure of a liquid-squeezing member according to embodiment 2;

FIG. 8 is a schematic sectional view showing the structure of a liquid-squeezing member according to embodiment 3;

FIG. 9 is a schematic sectional view showing the structure of a liquid-squeezing member according to embodiment 4;

FIG. 10 is a schematic sectional view showing the structure of a liquid-squeezing member according to embodiment 5;

fig. 11 is a partially exploded view of the structure of the liquid-squeezing member in example 6.

Reference numerals: 1. a shower head body; 11. a base; 111. an upper base body; 112. a lower seat body; 113. a connecting seat; 12. a liquid storage seat; 121. a liquid filling port; 122. a sealing cover; 123. an air inlet; 124. a one-way conducting piece II; 2. an accommodating chamber; 3. a water inlet end; 4. a water outlet end; 5. a liquid storage cavity; 51. a first chamber; 52. a second chamber; 6. mounting grooves; 7. a mounting seat; 8. an interlayer; 9. a through hole; 10. an isolation section; 14. a fluid replenishing hole; 15. a one-way conduction piece I; 16. liquid squeezing pieces; 161. a wheel body; 162. a blade; 163. a rotating part; 164. a hinge portion; 1641. a partition plate; 165. a pump body; 1651. a pump chamber; 1652. an air inlet; 1653. an air outlet; 166. an impeller; 167. a rotating seat; 168. a propping block; 17. a drive motor; 18. a transmission member; 19. a first diversion channel; 20. a second diversion channel; 21. an adjustment member; 22. a flow guide hole; 23. a limiting part; 24. an auxiliary mixing member; 25. a mixing flow channel; 251. a horizontal channel; 252. a vertical channel; 26. a flow baffle plate; 27. a liquid inlet cavity; 28. a liquid outlet cavity; 29. a yielding cavity; 30. rotating the column; 31. an elastic tube; 32. a battery case; 33. a connecting end; 34. a water baffle; 35. a rubber ring sleeve; 36. an elastic pad; 37. a storage battery; 371. a battery body; 372. a contact end; 373. a step surface; 38. a gasket; 39. a trigger switch; 40. and a one-way conduction structure.

Detailed Description

The present application is described in further detail below with reference to figures 1-11.

The embodiment of the application discloses electronic multi-functional gondola water faucet.

Example 1:

an electric multifunctional shower head, referring to fig. 1 and 2, comprises a shower head body 1, wherein the shower head body 1 comprises a base 11 and a liquid storage seat 12, wherein the base 11 comprises an upper seat body 111, a lower seat body 112 and a connecting seat 113 connected between the upper seat body 111 and the lower seat body 112. The base 11 is provided with an accommodating cavity 2 therein, and the accommodating cavity 2 is formed by splicing an upper seat body 111, a lower seat body 112 and a connecting seat 113. The lower base body 112 is provided with a water inlet end 3, the water inlet end 3 is used for communicating with a water source, the upper base body 111 is further provided with a water outlet end 4, the water inlet end 3 and the water outlet end 4 are both communicated with the accommodating cavity 2, and water entering from the water inlet end 3 is sprayed out through the water outlet end 4 for spraying. During the actual use, in order to control the water yield sprayed by the shower head conveniently, the water outlet end 4 is also provided with an adjusting structure for adjusting the water yield, and the adjusting structure is the prior art and is not described herein any more.

The liquid storage seat 12 has a first cavity 51 therein, and a hole communicated with the first cavity 51 is opened at the lower end of the liquid storage seat 12. The upper end of the liquid storage seat 12 is provided with a liquid adding opening 121, the liquid adding opening 121 is communicated with the liquid storage cavity 5 for adding bath additives, and the bath additives can be bath foam, shampoo, milk and the like. The filling opening 121 is provided with a sealing cover 122, the sealing cover 122 is used for covering the filling opening 121 for sealing, and the sealing cover 122 can be a rubber plug or a plastic screw cap and is sealed by screwing. The air inlet 123 that communicates with first cavity 51 is still seted up to the upper end of stock solution seat 12, make first cavity 51 and external world switch on through air inlet 123, still be connected with one-way two 124 that switch on at air inlet 123, one-way two 124 that switch on can be the check valve, also can be the silicone tube, the silicone tube is located first cavity 51, the silicone tube is the tubulose with air inlet 123 intercommunication department, the opening of the one end that the air inlet 123 was kept away from to the silicone tube is a gap, when external world is not to first cavity 51 air admission, the one end inner wall that the air inlet 123 was kept away from to the silicone tube laminates each other and forms sealedly, make air inlet 123 follow external world to stock solution chamber 5 one-way switch on through one-way two 124 that switch on.

Referring to fig. 1 and 3, an installation groove 6 is formed in the upper base 111, the installation groove 6 is communicated with the accommodating cavity 2, the lower end of the liquid storage base 12 is inserted into the installation groove 6 to assemble the upper base 111 and the liquid storage base 12, and a hole at the lower end of the liquid storage base 12 faces the accommodating cavity 2. Gondola water faucet body 1 still includes mount pad 7, mount pad 7 is installed at last pedestal 111 and is located and holds the intracavity 2, the upper end of mount pad 7 is laminated in the lower extreme of stock solution seat 12, be equipped with second cavity 52 in the mount pad 7, second cavity 52 is located the below of first cavity 51, the interlayer 8 of first cavity 51 and second cavity 52 is separated in the outer wall that the mount pad 7 is close to stock solution seat 12 and the lower extreme outer wall formation of stock solution seat 12, a hole has also been seted up in the upper end of mount pad 7, the hole of the upper end of mount pad 7 aligns with the hole of stock solution seat 12 lower extreme and forms through-hole 9, make through-hole 9 communicate between first cavity 51 and the second cavity 52.

During the in-service use, first cavity 51 and second cavity 52 splice and form stock solution chamber 5, and stock solution chamber 5 mainly supplies the bathing additive to hold, and mount pad 7 forms the isolation portion 10 towards the lateral wall that holds chamber 2 and realizes stock solution chamber 5 and the isolation that holds chamber 2. Fluid infusion hole 14 has been seted up to isolation portion 10, makes second cavity 52 and hold the chamber 2 intercommunication through fluid infusion hole 14, and fluid infusion hole 14 still communicates one-way conduction piece 15, and one-way conduction piece 15 makes fluid infusion hole 14 from stock solution chamber 5 to holding chamber 2 one-way conduction. One-way conduction piece 15 can be the check valve, also can be the silicone tube, and the silicone tube is located and holds 2 intracavity, and the silicone tube is the tubulose with the 14 intercommunication departments in fluid infusion hole, and the opening that the one end of fluid infusion hole 14 was kept away from to the silicone tube is a gap, and when stock solution chamber 5 was not to holding 2 feed liquors in chamber, the one end inner wall that the fluid infusion hole 14 was kept away from to the silicone tube was laminated each other and was formed sealedly.

Referring to fig. 3 and 4, the liquid squeezing member 16 is disposed in the second chamber 52, the liquid squeezing member 16 is a liquid squeezing wheel, and the liquid squeezing wheel includes a wheel body 161 rotatably connected to the mounting seat 7 and a plurality of wheel blades 162 fixed on the circumferential outer wall of the wheel body 161, wherein the wheel blades 162 are disposed in an inclined manner and uniformly distributed along the wheel body 161 in the circumferential direction. The inclined arrangement of the vanes 162 effects that, when the wringer 16 rotates, the vanes 162 stir the liquid in the second chamber 52 to flow towards the liquid replenishing hole 14 when the vanes 162 rotate, thereby squeezing the liquid in the liquid storage chamber 5 into the accommodating chamber 2.

The shower body 1 is provided with a driving motor 17, and the driving motor 17 can be arranged in the accommodating cavity 2 and can also be arranged outside the accommodating cavity 2. A transmission part 18 is connected between the driving motor 17 and the liquid squeezing part 16, the transmission part 18 can be a transmission shaft, and the axis of the rotating shaft of the transmission shaft, the rotating axis of the driving wheel and the rotating axis of the liquid squeezing part 16 are all overlapped. Alternatively, the transmission member 18 may be a speed reducer, and rotation speed reduction may be achieved through the speed reducer, so that the operation of the liquid squeezing member 16 is more reasonable.

Referring to fig. 3 and 4, in order to facilitate the power supply of the driving motor 17, a battery tank 32 is opened on the outer wall of the shower head body 1, a battery 37 is installed in the battery tank 32, and the power supply of the driving motor 17 is realized by the battery 37. The inner wall of the battery jar 32 is provided with a connecting end 33, and the connecting end 33 is close to the inner wall of the water outlet end 4. The inner wall of the battery jar 32 near the water outlet end 4 is also fixed with a water baffle 34, and the water baffle 34 is positioned at the position of the connecting end 33 near the notch of the battery jar 32. The inner wall of the battery jar 32 is also fixed with a rubber ring sleeve 35, and the rubber ring sleeve 35 is correspondingly sleeved with the connecting end 33. An elastic pad 36 is fixed on the inner wall of the battery jar 32 away from the water baffle 34, and the elastic pad 36 is made of rubber.

The secondary battery 37 includes a battery body 371 and a contact terminal 372 fixed to the battery body 371, and the outer wall of the battery body 371 includes an insulating layer, which may be formed by coating a plastic film. The battery body 371 is provided with a step surface 373, the gasket 38 is fixed to the step surface 373, and the gasket 38 is made of rubber.

After the battery 37 is installed in the battery jar 32, the contact end 372 is in contact with the connection end 33 to realize electric communication, at the moment, the rubber ring sleeve 35 is sleeved outside the connection end 33 and the contact end 372, one end of the rubber ring sleeve 35 abuts against the battery body 371, the other end of the rubber ring sleeve abuts against the inner wall of the battery jar 32 to be isolated, and the sealing gasket 38 abuts against the end part of the water baffle 34 to strengthen sealing, so that the waterproofness of the battery 37 is improved.

Referring to fig. 1 and 5, a first flow guide channel 19 and a second flow guide channel 20 are further disposed in the accommodating cavity 2, and both the first flow guide channel 19 and the second flow guide channel 20 are disposed on the connecting base 113. After water enters from the water inlet end 3, the water can selectively pass through the first diversion channel 19 or the second diversion channel 20 and then is discharged from the water outlet end 4.

A trigger switch 39 is installed in the first diversion channel 19, the trigger switch 39 is a pressure switch or a water flow switch, and the trigger switch 39 is electrically connected with the driving motor 17 and used for controlling the on-off of the driving motor 17. The one-way conducting structure 40 is disposed on the end of the diversion channel one 19, which is located at the end of the trigger switch 39 away from the water inlet end 3, and the one-way conducting structure 40 may adopt any one of the embodiments of the one-way conducting element one 15 mentioned in embodiment 1. The one-way conduction structure 40 makes the first diversion channel 19 conduct from the water inlet end 3 to the water outlet end 4 in one way, and makes water flow through the one-way conduction structure 40 after passing through the position of the trigger switch 39.

When water input from the water inlet end 3 passes through the first diversion channel 19, the trigger switch 39 is turned on by water flow, and at the moment, the driving motor 17 operates to drive the liquid squeezing piece 16 to squeeze liquid in the liquid storage cavity 5 into the accommodating cavity 2. When the water input from the water inlet end 3 passes through the second diversion channel 20, the trigger switch 39 is not turned on in the process that the water flows through the second diversion channel 20 to the water outlet end 4, and the driving motor 17 does not work at the moment.

The state of the communication between the water inlet end 3 and the first diversion channel 19 is the state A, and the state of the communication between the water inlet end 3 and the second diversion channel 20 is the state B. An adjusting piece 21 is also arranged in the accommodating cavity 2, and the adjusting piece 21 is used for controlling the switching between the A state and the B state.

The adjusting member 21 may be a two-position three-way valve, and the switching between the a state and the B state is realized by adjusting the two-position three-way valve. In this embodiment, the adjusting member 21 is an adjusting seat, the adjusting seat is provided with a diversion hole 22, one end of the diversion hole 22 is always communicated with the water inlet end 3, and one end of the diversion hole 22, which is far away from the water inlet end 3, is selectively communicated with the first diversion channel 19 or the second diversion channel 20 according to the position adjustment of the adjusting seat. In this embodiment, the position adjustment of the adjusting seat is realized by sliding, the adjusting seat is connected to the connecting seat 113 in a sliding manner, and one end of the diversion hole 22, which is far away from the water inlet end 3, is switched between a state of being communicated with the first diversion channel 19 and a state of being communicated with the second diversion channel 20 by sliding of the adjusting seat. The adjusting seat and the connecting seat 113 have frictional resistance, that is, the communication state of the flow guide hole 22 of the adjusting seat is not changed when the adjusting seat is not pressed to move.

Referring to fig. 5, both ends of the adjusting seat along the sliding direction are fixed with a limiting portion 23, and the limiting portion 23 abuts against the connecting seat 113 to limit the sliding of the adjusting seat so that the diversion hole 22 is aligned with the first diversion channel 19 or the second diversion channel 20. When the adjusting seat slides to the position where the limiting part 23 at one end abuts against the connecting seat 113, the communication state is in one of the A state and the B state, and when the limiting part 23 at the other end abuts against the connecting seat 113, the communication state is in the other communication state.

In actual operation, the adjusting base can also be rotatably connected to the connecting base 113, and the end of the diversion hole 22 far from the water inlet end 3 is switched between the first diversion channel 19 and the second diversion channel 20 by rotation of the adjusting base.

Referring to fig. 1 and 6, an auxiliary mixing piece 24 is further disposed in the accommodating cavity 2, and the auxiliary mixing piece 24 is mounted in the upper seat body 111 and located at the position of the fluid replenishing hole 14 near the water outlet end 4. The auxiliary mixing member 24 forms a mixing flow passage 25 with the inner wall of the accommodating chamber 2, and the mixing flow passage 25 includes a plurality of vertical passages 252 and a plurality of horizontal passages 251. A plurality of horizontal passages 251 are distributed at intervals along the vertical direction, adjacent horizontal passages 251 are communicated through one vertical passage 252, and adjacent vertical passages 252 in the vertical direction are staggered in the horizontal direction.

The length of the flow channel can be increased by setting the mixing flow channel 25, when the bathing additive in the liquid storage cavity 5 is supplemented into the containing cavity 2 and water in the containing cavity 2 flows through the mixing flow channel 25, the mixed liquid impacts the inner wall of the mixing flow channel 25 under the inertia effect to form turbulent flow to enable the bathing additive and the water to be mixed more uniformly due to the fact that the direction of the mixed liquid is changed continuously when the mixed liquid flows through the mixing flow channel 25. The flow baffle 26 is fixed in the mixing flow channel 25, the flow baffle 26 locally narrows the mixing flow channel 25, the arrangement of the flow baffle increases the collision probability when the mixed liquid of the bath additive and the water flows through the mixing flow channel 25, and the flow velocity of the mixed liquid in the mixing flow channel 25 is more uneven, so that the mixed liquid is more evenly mixed.

The working principle of the embodiment is as follows:

when the shower head is used, the water inlet end 3 is communicated with a water source. When the shower is carried out, the water source is opened, the state A is adjusted through the adjusting piece 21, and then the milk, the bath foam and other skin moistening products in the liquid storage cavity 5 enter the accommodating cavity 2 to be mixed with the water in the accommodating cavity 2, so that the milk, the bath foam and other skin moistening products are contained in the spraying water of the water outlet end 4, and the skin moistening products are more convenient to smear during the shower. Then the state is adjusted to the state B through the adjusting piece 21, and the spraying water is clean water for further cleaning, so that the skin moistening products such as milk or bath foam can be cleaned conveniently.

Example 2:

an electric multifunctional shower head, see fig. 7, is different from the embodiment 1 in the structure of the liquid squeezing piece 16. The liquid squeezing piece 16 is a screw rod which is connected in the second chamber 52 in a rotating manner, and the liquid in the second chamber 52 is driven to move from one end of the through hole 9 to the direction of the liquid replenishing hole 14 through the rotation of the screw rod.

During the in-service use, the screw rod can set up one, and the outer lane of this screw rod and the inner wall laminating of second chamber 52 rotate through the drive wheel and drive the transmission shaft and rotate and make the screw rod rotate to in holding chamber 2 with the liquid of second chamber 52 follow second chamber 52 crowded income. Alternatively, a plurality of screws can be provided, one of the screws is connected with the transmission shaft, the other screws are all matched with the transmission shaft, the screws connected with the transmission shaft rotate to drive the other screws to rotate, and liquid in the second chamber 52 moves from one end of the through hole 9 to the direction of the liquid replenishing hole 14 by adopting the principle of a screw pump through liquid squeezing formed in the rotating matching process of the plurality of screws, so that the liquid is squeezed into the accommodating cavity 2.

Example 3:

an electric multifunctional shower head, see fig. 8, is different from the embodiment 1 in the structure of the liquid squeezing piece 16. The liquid squeezing piece 16 comprises two gears which are meshed with each other and divide the second chamber 52 into a liquid inlet cavity 27 and a liquid outlet cavity 28, the through hole 9 is communicated with the liquid inlet cavity 27, and the liquid supplementing hole 14 is communicated with the liquid outlet cavity 28. One of which is connected to a drive motor 17.

When the driving motor 17 rotates to drive the two gears to rotate, the mutual meshing positions of the two gears move towards the direction close to the liquid inlet cavity 27, when the two gears operate, liquid is extruded out along the liquid supplementing hole 14 at one side of the two gears close to the liquid outlet cavity 28 due to the fact that the two gears enter the meshing space to be reduced, and the tooth grooves of the gears can supplement the liquid from the liquid inlet cavity 27 to the liquid outlet cavity 28 through the fact that the tooth parts of the gears are abutted to the inner wall of the second cavity 52. And one side of the two gears close to the liquid inlet cavity 27 is enlarged due to the fact that the two gears are disengaged, liquid is sucked in along the through hole 9, and therefore the liquid in the liquid inlet cavity 27 is squeezed out of the liquid cavity 28 and enters the containing groove along the liquid replenishing hole 14.

Example 4:

an electric multifunctional shower head, see fig. 9, is different from the embodiment 1 in the structure of the liquid squeezing piece 16. The second chamber 52 is cylindrical, the liquid squeezing piece 16 divides the second chamber 52 into a liquid inlet chamber 27 and a liquid outlet chamber 28, the through hole 9 is communicated with the liquid inlet chamber 27, and the liquid supplementing hole 14 is communicated with the liquid outlet chamber 28.

The through hole 9 and the fluid infusion hole 14 are arranged in a collinear way and are close to the periphery of the second chamber 52. An abdicating cavity 29 is formed in the second cavity 52, the abdicating cavity 29 is positioned between the through hole 9 and the fluid supplementing hole 14, and the extending direction of the abdicating cavity 29 is along the radial direction of the second cavity 52 and is perpendicular to the distribution direction of the through hole 9 and the fluid supplementing hole 14. The avoiding cavity 29 is rotatably connected with the rotating column 30, and the rotating axis of the rotating column 30 is parallel to the axis line of the second cavity 52.

The wringing member 16 includes a rotating portion 163 rotatably connected within the second chamber 52 and a hinge portion 164 hinged to the rotating portion 163. The rotation axis of the rotation part 163 coincides with the axis of the second chamber 52, the rotation part 163 is connected to the driving motor 17, and the rotation part 163 rotates to drive the hinge part 164 to swing. The rotating portion 163 is cylindrical, the rotating axis of the rotating portion 163 is parallel to the axial line of the rotating portion and is staggered, the hinge portion 164 is sleeved outside the rotating portion 163, the hinge portion 164 further comprises a partition plate 1641 which is integrally fixed, the partition plate 1641 slides through the rotating column 30 and passes through the rotating axis of the rotating column 30, and the hinge portion 164 is used for dividing the second chamber 52 into the liquid inlet cavity 27 and the liquid outlet cavity 28. When the driving motor 17 rotates and does not rotate so that the hinge portion 164 swings, the partition plate 1641 rotates the rotation post 30 and can slide relative to the rotation post 30.

When the rotating part 163 drives the hinge 164 to swing, the hinge 164 first makes the outlet chamber 28 smaller to discharge the liquid from the outlet chamber 28 along the liquid replenishing hole 14, and simultaneously the inlet chamber 27 becomes larger to replenish the liquid from the through hole 9. When the liquid outlet cavity 28 is arranged to be minimum, the hinge part 164 swings to enable the liquid outlet cavity 28 to be communicated with the liquid inlet cavity 27, liquid in the liquid inlet cavity 27 is supplemented into the liquid outlet cavity 28, then the hinge part 164 divides the second cavity 52, at the moment, the liquid outlet cavity 28 is in the maximum state, liquid squeezing can be achieved through the swinging of the hinge part 164, and the reciprocating operation is carried out.

In practical use, other structures for realizing volume change through rotation input to realize liquid pumping can also be adopted.

Example 5:

an electric multifunctional shower head, see fig. 10, differs from embodiment 1 in that a mounting base 7 is not required, a liquid storage cavity 5 is also not divided into a first cavity 51 and a second cavity 52, the liquid storage cavity 5 is located in a liquid storage base 12, and a liquid supplementing hole 14 is used for communicating the liquid storage cavity 5 and a containing cavity 2.

Referring to fig. 11, the structure of the wringer 16 is also different. The liquid squeezing piece 16 comprises a pump body 165 and an impeller 166, the pump body 165 is installed on the shower head body 1, in the embodiment, the pump body 165 is located in the accommodating cavity 2, a pump cavity 1651 is arranged in the pump body 165, and the pump cavity 1651 is communicated with an air inlet hole 1652 and an air outlet hole 1653. The air outlet hole 1653 is communicated to the liquid storage cavity 5 through a conduit, and the air inlet hole 1652 is communicated to the outside of the shower head body 1 through a conduit. The drive motor 17 is connected to the impeller 166.

When the driving motor 17 drives the impeller 166 to rotate, the impeller 166 rotates to form pumping air, so that air in the pump chamber 1651 enters the liquid storage chamber 5 along the air outlet hole 1653, and outside air is timely supplemented into the pump chamber 1651 through the air inlet hole 1652. When air enters the pump chamber 1651, the pressure in the liquid storage chamber 5 of the pump chamber 1651 is increased, and therefore liquid in the liquid storage chamber 5 is squeezed into the accommodating chamber 2 along the liquid replenishing hole 14. In practical use, in order to reduce the liquid in the liquid storage chamber 5 from entering the pump body 165 through the air outlet hole 1653, a one-way conduction member is further connected to the air outlet hole 1653, and the one-way conduction member may adopt any one of the embodiments mentioned in embodiment 1 for the one-way conduction member 15, and the air outlet hole 1653 is made to conduct in one direction from the pump chamber 1651 to the liquid storage chamber 5 through the one-way conduction member.

Example 6:

the electric multifunctional shower head is different from the embodiment 5 in that the liquid supplementing hole 14 is connected with an elastic pipe 31, the elastic pipe 31 is a rubber pipe, and one end, far away from the liquid storage cavity 5, of the elastic pipe 31 is communicated to the accommodating cavity 2.

Further, referring to fig. 11, the structure of the squeeze member 16 is also different. The liquid squeezing piece 16 is positioned in the accommodating cavity 2, and the liquid squeezing piece 16 comprises a rotating seat 167 and a plurality of abutting blocks 168. The rotating seat 167 is rotatably connected in the shower head body 1, three abutting blocks 168 are uniformly distributed along the circumferential direction of the rotating axis of the rotating seat 167, the abutting blocks 168 are wheels rotatably connected to the rotating seat 167, the rotating axis of the abutting blocks 168 is parallel to the rotating axis of the rotating shaft, and the end face of the abutting blocks 168, which is far away from the rotating axis, is used for abutting against the elastic tube 31.

In actual use, the driving motor 17 rotates to drive the rotating base 167 to rotate, and the rotating base 167 rotates to drive the abutting block 168 to rotate. When the rotating seat 167 rotates, the abutting block 168 abuts against the elastic tube 31 to realize separation, and when the abutting block 168 rotates along with the rotating seat 167, the separation moves towards one end of the accommodating cavity 2, so that the liquid in the elastic tube 31 moves towards one end of the accommodating cavity 2 from one end of the liquid storage cavity 5.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an electronic multi-functional gondola water faucet, includes gondola water faucet body (1), be equipped with in gondola water faucet body (1) and hold chamber (2), gondola water faucet body (1) is equipped with into water end (3) and goes out water end (4), enter water end (3) with go out water end (4) all with hold chamber (2) intercommunication, its characterized in that: the shower head body (1) is further provided with a liquid storage cavity (5), a separation part (10) is arranged between the liquid storage cavity (5) and the accommodating cavity (2), the separation part (10) is provided with a liquid supplementing hole (14), and the liquid storage cavity (5) is communicated with the accommodating cavity (2) through the liquid supplementing hole (14); the gondola water faucet is equipped with crowded liquid spare (16), gondola water faucet body (1) still is equipped with and is used for driving crowded liquid spare (16) operation in order to squeeze liquid in stock solution chamber (5) along fluid infusion hole (14) driving motor (17) in holding chamber (2).

2. The electric multifunctional shower head as claimed in claim 1, wherein: gondola water faucet body (1) is equipped with battery jar (32), battery jar (32) are used for supplying battery (37) installation, battery (37) are used for supplying power for driving motor (17).

3. The electric multifunctional shower head as claimed in claim 2, wherein: the storage battery (37) comprises a battery body (371) and a contact end (372) arranged on the battery body (371), a connecting end (33) is arranged in the battery groove (32), and the contact end (372) is used for abutting against the connecting end (33) to supply power to the driving motor (17); one end of the battery jar (32) close to the water outlet end (4) is provided with a water baffle (34), and the water baffle (34) is positioned at the position of the connecting end (33) close to the notch of the battery jar (32).

4. The electric multifunctional shower head as claimed in claim 3, wherein: battery jar (32) inner wall is equipped with rubber ring cover (35), rubber ring cover (35) are corresponding to overlap and are established link (33), work as link (33) and contact jaw (372) conflict when the circular telegram, rubber ring cover (35) cover is located the outside of link (33) and contact jaw (372), just rubber ring cover (35) one end is supported tight battery body (371) and the other end is supported tight battery jar (32) inner wall.

5. The electric multifunctional shower head as claimed in claim 3, wherein: the battery body (371) outer wall includes the insulating layer, battery body (371) is equipped with step face (373), step face (373) are fixed with sealed the pad (38), sealed pad (38) are used for supporting tight breakwater (34) with the enhancement sealed.

6. The electric multifunctional shower head as claimed in claim 3, wherein: and an elastic cushion (36) is arranged on the inner wall of the battery jar (32) far away from the water baffle (34).

7. The electric multifunctional shower head as claimed in claim 1, wherein: the accommodating cavity (2) is also internally provided with a first diversion channel (19) and a second diversion channel (20), and when water enters from the water inlet end (3), the water needs to pass through the first diversion channel (19) or the second diversion channel (20) and then is discharged from the water outlet end (4);

a trigger switch (39) is arranged in the first diversion channel (19), the trigger switch (39) is used for controlling the opening and closing of the driving motor (17), and when liquid entering from the water inlet end (3) passes through the first diversion channel (19), the trigger switch (39) controls the driving motor (17) to operate;

the state that end (3) and water conservancy diversion way (19) of intaking switched on is the A state, intake end (3) with the state that water conservancy diversion way two (20) switched on is the B state, gondola water faucet body (1) still is equipped with regulating part (21), regulating part (21) are used for controlling the switching of A state and B state.

8. The electric multifunctional shower head as claimed in claim 7, wherein: the trigger switch (39) is a pressure switch, a one-way conduction structure (40) is arranged at one end, far away from the water inlet end (3), of the first flow guide channel (19) located at the trigger switch (39), and the one-way conduction structure (40) enables the first flow guide channel (19) to be in one-way conduction from the water inlet end (3) to the water outlet end (4).

9. The electric multifunctional shower head as claimed in claim 7, wherein: adjusting part (21) is for sliding connect in the regulation seat that holds in chamber (2), adjusts the seat and wears out gondola water faucet body (1), water conservancy diversion hole (22) have been seted up to the regulation seat, the one end inlet end (3) intercommunication of water conservancy diversion hole (22), the other end of water conservancy diversion hole (22) through adjust the seat slide with the state that a water conservancy diversion way (19) switched on and with the state that two (20) of water conservancy diversion way switched on switches.

10. The electric multifunctional shower head as claimed in claim 1, wherein: fluid infusion hole (14) are equipped with one-way conduction piece (15), one-way conduction piece (15) make fluid infusion hole (14) from stock solution chamber (5) to holding chamber (2) one-way conduction, stock solution chamber (5) intercommunication has air inlet (123), air inlet (123) are used for communicateing to the external world, air inlet (123) are equipped with one-way conduction piece two (124), one-way conduction piece two (124) make air inlet (123) from external world to stock solution chamber (5) one-way conduction.

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