CN214020505U - Liquid outlet mechanism and water outlet device - Google Patents

Abstract

The utility model discloses a go out liquid mechanism and water installation. A liquid outlet mechanism comprises a plurality of liquid storage bottles, a mixing cavity, a movable disc and a driving mechanism, wherein the movable disc is movably connected between the plurality of liquid storage bottles and the mixing cavity, the driving mechanism is in transmission connection with the movable disc so as to drive the movable disc to move, the movable disc is switched to connect the bottle openings of the plurality of liquid storage bottles and the mixing cavity or is completely staggered, and liquid in the mixing cavity is stirred through the movement of the movable disc. It has the following advantages: the pump can realize the extraction of many bottles of stock solution bottles and the stirring of mixing liquid, and the size is small and exquisite, and part quantity cost reduces by a wide margin, and convenient operation is quick.

Description

Liquid outlet mechanism and water outlet device

Technical Field

The utility model relates to a go out liquid technical field, especially relate to a go out liquid mechanism and water installation.

Background

The traditional liquid outlet mechanism comprises a plurality of liquid storage bottles, a liquid outlet unit and a bowl, wherein each liquid storage bottle is provided with a bottle mouth, the bottle mouth of each liquid storage bottle is communicated with the bowl through a pipe fitting, a pump is arranged on each pipe fitting, and the liquid outlet amount of the bowl is conveyed to each liquid storage bottle through each pump. On one hand, each liquid storage bottle is provided with a pump, and a plurality of liquid storage bottles need a plurality of pumps and are matched with the pumps, so that the liquid storage bottle is large in size, and expensive in production cost and part cost; on the other hand, the various liquids sucked in the bowl need to be kneaded and mixed manually, which wastes time and labor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a go out liquid mechanism and water installation, it has overcome the not enough that goes out liquid mechanism existence among the background art.

The utility model provides one of the technical scheme who adopts of its technical problem is: a liquid discharge mechanism comprising:

a plurality of liquid storage bottles, each liquid storage bottle having a bottle mouth;

a mixing chamber;

the movable disc is movably connected between the multi-bottle liquid storage bottle and the mixing cavity, the driving mechanism is in transmission connection with the movable disc so as to drive the movable disc to move, the movable disc is movably switched to connect the bottle openings of the multi-bottle liquid storage bottle and the mixing cavity or is completely staggered, and liquid in the mixing cavity is movably stirred through the movable disc.

The mixing chamber is provided with a chamber opening, the movable disc seals the chamber opening and can rotate relative to the mixing chamber, the movable disc is provided with a liquid through hole, and the bottle openings of the multi-bottle liquid storage bottles are switched at least to be aligned with the liquid through hole or staggered completely through the rotation of the movable disc.

Ribs are convexly arranged on the inner end surface of the movable disc.

The mixing cavity is provided with a cavity wall and a cavity bottom, and ribs are convexly arranged on the cavity wall.

The driving mechanism comprises a motor and a transmission joint for driving the motor and the movable disc to rotate, wherein the motor drives the movable disc to rotate through the transmission joint.

The motor is a stepping motor, the mixing cavity is provided with a cavity wall and a cavity bottom, the stepping motor is positioned below the mixing cavity, the transmission joint can rotate to penetrate through the cavity bottom, and the transmission joint and the movable disc can be synchronously and rotatably connected together.

Further comprising: the body is provided with a plurality of through grooves, the plurality of liquid storage bottles are connected in the body, and bottle openings of the plurality of liquid storage bottles are correspondingly communicated with the plurality of through grooves; the liquid through hole of the movable disc is matched with the through groove to realize the switching, the movable disc and the transmission joint can slide along the rotation axis of the movable disc, a first elastic body is arranged between the transmission joint and the movable disc, and the movable disc is supported and attached to the bottom surface of the body in a sealing mode through the first elastic body.

Further comprising: and the control component comprises a controller, a Hall sensor and a magnet, the controller is electrically connected with the Hall sensor and the motor, the Hall sensor and the mixing cavity are relatively fixed, and the magnet and the movable disk are relatively fixed.

Further comprising: the body is equipped with a plurality of logical grooves and a plurality of top and supports the piece, establishes the check valve in this stock solution bottle bottleneck, and this many bottles of stock solution bottle dress connects this internal and bottleneck, a plurality of logical grooves and a plurality of top of many bottles of stock solution bottle and support the piece one-to-one cooperation, is in the stock solution bottle of dress: the propping piece props the check valve to open so as to connect the bottle mouth and the through groove.

Further comprising: the connecting mechanism comprises a pump and a liquid outlet unit, and the mixing cavity and the liquid outlet unit are connected through the pump.

The connection mechanism further comprises an adapter, the adapter is arranged on at least one inlet and one outlet, the pump is connected with the adapter, the inlet is connected with the mixing cavity, and the outlet is connected with the liquid outlet unit.

This adapter is equipped with a plurality of imports, is equipped with a plurality of liquid outlets at the bottom of this hybrid chamber, and these a plurality of imports and a plurality of liquid outlet one-to-one just pass through the hose switch-on.

The liquid storage bottle comprises a bottle body and a bottle cap component, wherein the bottle mouth is arranged at the first end of the bottle body, the bottle cap component is fixedly arranged at the second port of the bottle body in a sealing mode, and the bottle cap component is provided with a one-way valve capable of one-way air inlet.

Further comprising: the body is provided with an installation cavity, the cover plate can be detachably and fixedly arranged at the cavity opening of the installation cavity, the multiple liquid storage bottles are placed in the installation cavity, and a second elastic body is arranged between the liquid storage bottles and the cavity bottom of the installation cavity.

The installation cavity of the body is connected with a pushing piece in a sliding mode, the second elastic body is arranged between the pushing piece and the body, and the pushing piece abuts against the liquid storage bottle.

This body internal stability sets up the compact heap, and this compact heap and stock solution bottle cooperation are in order to connect the stock solution bottle through the compact heap joint.

Further comprising: the body and the placing table are relatively fixed together; the body is provided with a mounting cavity, and the multiple liquid storage bottles are placed in the mounting cavity; a cavity is fixedly arranged on the placing table, and the mixing cavity is arranged in the cavity; the driving mechanism comprises a motor, the motor is connected with the movable disc through transmission to drive the movable disc to rotate, and the motor is fixedly arranged on the placing table.

Further comprising: and the control part comprises a controller and a key part, the driving mechanism comprises a motor, the motor is connected with the movable disk through transmission so as to drive the movable disk to rotate, and the controller is electrically connected with the motor and the key part.

The utility model provides a second of the technical scheme of its technical problem's adoption: the water outlet device is provided with a water outlet mechanism and the water outlet mechanism.

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

the pump can realize the extraction of many bottles of stock solution bottles and the stirring of mixing liquid, and the size is small and exquisite, and part quantity cost reduces by a wide margin, and convenient operation is quick.

The movable disc rotates to at least switch the bottle openings of the multi-bottle liquid storage bottles to be aligned with the liquid through holes or staggered completely, and the stirring is convenient and quick to switch and has good stirring effect.

The inner end surface of the movable disc is convexly provided with ribs, so that the stirring effect is good.

The connection mechanism comprises a pump, and the mixing cavity and the liquid outlet unit are connected through the pump so as to pump the liquid in the liquid storage bottle into the mixing cavity through the pump.

A plurality of imports and a plurality of liquid outlets one-to-one and through the hose switch-on, on the one hand, improve out liquid efficiency, on the other hand, spare part overall arrangement is limited for a short time, the overall arrangement of being convenient for.

Drawings

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Fig. 1 is a schematic structural diagram of a liquid outlet mechanism in the specific embodiment.

Fig. 2 is a perspective view of an embodiment removable disk.

Fig. 3 is a three-dimensional exploded view of a liquid outlet mechanism in an embodiment.

Fig. 4 is a partially cut-away schematic view of a liquid outlet mechanism in an embodiment.

Fig. 5 is a schematic cross-sectional view of a liquid outlet mechanism according to an embodiment.

FIG. 6 is a second cross-sectional view of a dispensing mechanism according to the second embodiment.

FIG. 7 is a partial schematic view of a cross section of a dispensing mechanism according to one embodiment, when switched off.

FIG. 8 is a second partial schematic view of a cross-section of a fluid dispensing mechanism of the second embodiment, with the mixing chamber dispensing the first fluid.

FIG. 9 is a third partial schematic view of a cross-section of a dispensing mechanism according to an embodiment, first fluid.

FIG. 10 is a fourth schematic view of a cross-section of a fluid dispensing mechanism according to an embodiment, followed by a second fluid dispensing.

Fig. 11 is a fifth partial schematic view of a cross section of a liquid outlet mechanism according to an embodiment, and a mixed liquid of a first liquid and a second liquid is discharged from a mixing chamber.

Description of reference numerals: the device comprises a body component 1, a liquid storage bottle 2, a mixing cavity 3, a movable disc 4, a driving mechanism 5, a control component 6, a connecting mechanism 7 and a power supply component 8;

the device comprises a body 11, a cover plate 12, a placing table 13, a cavity 131, an installation cavity 14, a pressing block 15, a pushing piece 16, a second elastic body 17, a through groove 18 and a pushing piece 19;

a bottle body 21, a bottle cap part 22, a bottle opening 23, a check valve 24, a fixed joint 221, a bottle cap 222 and a check valve 223;

a liquid through hole 41, ribs 42, a first elastic body 43, and a gasket 44;

a stepping motor 51, a transmission joint 52;

a controller 61, a magnet 62, and a key member 63;

a pump 71, a joint 72, a liquid outlet unit 73 and a hose 74;

a water outlet mechanism 1001 and a lower shell 1002.

Detailed Description

Referring to fig. 1 to 11, a liquid outlet mechanism includes a main body member 1, a multi-bottle liquid storage bottle 2, a mixing chamber 3, a movable plate 4, a driving mechanism 5, a control member 6, a connection mechanism 7 and a power supply member 8.

The liquid storage bottle 2 comprises a bottle body 21 and a bottle cap component 22, wherein a bottle opening 23 is formed in the first end of the bottle body 21, and a check valve 24 is arranged in the bottle opening 23; the bottle cap member 22 is fixedly arranged at the second port of the bottle body 21 in a sealing manner, the bottle cap member 22 comprises a fixed connecting head 221 fixedly arranged in the second port of the bottle body 21 and a bottle cap 222 fixedly covering the second port of the bottle body 21, the fixed connecting head 221 is provided with a one-way valve 223 capable of one-way air inlet, the bottle cap 222 is provided with an air inlet communicated with the one-way valve 223, and the one-way valve 223 is a duckbill valve. The liquid stored in the liquid storage bottle 2 cannot leak to the outside under the action of the check valve 24 and the pressure nozzle valve.

The body part 1 comprises a body 11, a cover plate 12 and a placing table 13. The body 11 is provided with an installation cavity 14 with an upward opening, the cover plate 12 can be detachably and fixedly arranged at the cavity opening of the installation cavity 14, and the multi-bottle liquid storage bottles 2 can be placed in the installation cavity 14; a pressing block 15 is fixedly arranged in the body 11, and the pressing block 15 is matched with the bottle body 21 of the liquid storage bottle 2 so as to clamp the bottle body 21 through the pressing block 15 and keep the liquid storage bottle in a mounting and connecting state; the bottom of the installation cavity 14 of the body 11 is provided with an ejector 16 capable of sliding up and down and a second elastic body 17 arranged between the ejector 16 and the cavity bottom, the ejector 16 is pressed against the bottle body 21, the second elastic body 17 is a compression spring, and the clamping can keep the second elastic body in an energy storage state. The liquid storage bottle 2 can be pushed out through the second elastic body 17 after the clamping is opened, and the liquid storage bottle is convenient to take. Should place platform 13 and body 11 relatively fixed, and should place platform 13 and be located body 11 down, should place and set firmly cavity 131 on the platform 13, should be equipped with above-mentioned hybrid chamber 3 under this cavity 131.

The bottom of the cavity of the body 11 is provided with a plurality of through grooves 18 and a plurality of abutting pieces 19, the bottle mouth 23 of the multi-bottle liquid storage bottle 2, the plurality of through grooves 18 and the plurality of abutting pieces 19 are matched in a one-to-one correspondence manner, and the abutting pieces 19 are like ribs formed at the bottom of the cavity, and the ribs can extend into the bottle mouth and are matched with a check valve 24 to be positioned in the attached liquid storage bottle 2: the abutment 19 abuts against the non-return valve 24 to open it to access the mouth 23 and the through slot 18.

The mixing chamber 3 is provided with a chamber opening, the movable disc 4 is provided with a liquid through hole 41, the movable disc 4 seals the chamber opening and can rotate relative to the mixing chamber 3, the movable disc 4 is attached to the bottom surface of the body 11, and the plurality of through grooves 18 are switched to be aligned with the liquid through hole 41 or staggered completely through rotation of the movable disc 4. When the liquid through hole 41 of the movable disc 4 is aligned with a through groove, the liquid in the liquid storage bottle of the through groove flows into the mixing chamber 3 through the bottle opening, the through groove and the liquid through hole 41, so that the types of the liquid storage bottles 2 flowing into the mixing chamber 3 and the liquid amounts of the various types can be controlled by controlling the rotation angle of the movable disc 4. The inner end surface of the movable disk 4 is convexly provided with ribs 42, and the liquid in the mixing cavity 3 can be stirred by the ribs 42 through the rotation of the movable disk 4.

This actuating mechanism 5 transmission is connected activity dish 4 and is rotated in order to drive activity dish 4, in the concrete structure: the driving mechanism 5 comprises a stepping motor 51 and a transmission joint 52, the stepping motor 51 is fixedly arranged on the placing table 13, the transmission joint 52 penetrates through the cavity 131 and extends into the mixing chamber 3, a first end of the transmission joint 52 is connected with the stepping motor 51 in a transmission manner, if the first end is fixedly connected with an output shaft of the stepping motor 51, a second end of the transmission joint 52 can be connected with the movable disc 4 in a synchronous rotating manner, if a non-circular inserting structure is adopted for matching or a key inserting structure for realizing synchronous rotating connection, the movable disc 4 and the transmission joint 52 can slide along the rotating axis of the movable disc 4, a first elastic body 43 is arranged between the transmission joint 52 and the movable disc 4, and the movable disc 4 is tightly attached to the bottom surface of the body 11 through the top of the first elastic body 43. According to the requirement, the bottom surface of the body 11 is provided with a sealing gasket 44, the sealing gasket 44 is provided with a hole body corresponding to the through groove, and the movable disc is sealed and propped against the sealing gasket 44.

The control part 6 comprises a controller 61, a Hall sensor, a magnet 62 and a key part 63; the hall sensor is integrated in the controller 61 and constitutes a circuit board, the controller 61 is electrically connected with the hall sensor and the stepping motor 51, the circuit board is fixed on the placing table 13, and the magnet 62 is fixedly arranged on the transmission joint 52 so as to be fixed relative to the movable disc 4; the button member 63 is electrically connected to the controller 61 to give instructions to the controller to control the stepping motor 51. The magnet is induced by the Hall sensor to correct the program of the stepping motor, so that the stepping motor can accurately operate at a specified angle, and errors caused by the operation of the stepping motor are avoided. Such as model ST2102 manufactured by SDK corporation.

The connecting mechanism 7 comprises a pump 71, a joint 72 and a liquid outlet unit 73; this pump 71 and adapter 72 all set firmly placing platform 13, and this adapter 72 is equipped with a plurality of imports and an export, is equipped with a plurality of liquid outlets at the bottom of 3 chambeies of this mixing chamber, and these a plurality of imports and a plurality of liquid outlet one-to-one just put through hose 74, and adapter 72 is connected to this pump 71, and this export put through goes out liquid unit 73. When liquid in the stock solution bottle is drawed to this pump, the bottle internal gas pressure constantly reduces, and outside atmosphere passes through duckbill valve entering gas in order to balance the bottle state, avoids inside appearance vacuum form and unable extraction. This movable disc rotates under step motor drives to switch on the back with several stock solutions bottles, and the pump operation is extracted the certain time, takes out multiple liquid and mixes the intracavity, and the stirring of quick rotation is again made to the movable disc for the liquid intensive mixing in the mixing chamber, and the liquid that mixes in the final mixing chamber is exported through the pump and is gone out liquid unit 73.

The power supply section 8 electrically connects the pump 71, the stepping motor 41 and the controller 61 to supply power thereto.

The liquid outlet mechanism of the embodiment controls the operation of the stepping motor and the pump through instructions sent by the controller. The stepper motor drives the movable disc to rotate at a specified angle accurately, so that the mixing cavity, the movable disc and the liquid storage bottle are communicated. The pump is communicated with the mixing cavity through a hose, and liquid in the liquid storage bottle communicated through the movable disc is pumped into the mixing cavity when the pump runs. Repeating the above actions, and pumping the liquid in other liquid storage bottles into the mixing cavity. The pump pumps out the liquid in the cavity through a hose connected with the mixing cavity and extrudes the liquid to the liquid outlet unit 73. A plurality of raised ribs are arranged on the movable disc, and the movable disc can fully mix and stir the liquid in the mixing cavity when rotating.

The operation mode of the liquid outlet mechanism of the specific embodiment is as follows: the controller receives an operation instruction sent by the key part, controls the stepping motor to drive the movable disc to rotate, and controls the pump to operate to pump the cleaning liquid. In this example, four liquid storage bottles are provided, which are named as a first liquid (bath foam 1), a second liquid (bath foam 2), a third liquid (bath foam 3), and a fourth liquid (bath foam 4), respectively, and the movable plate has 5 positions, namely, a closed state, an a state, a B state, a C state, and a D state. Wherein: and (3) closing state: the liquid through hole of the movable disc is not communicated with any bottle of the first liquid, the second liquid, the third liquid and the fourth liquid; state A: the movable disc liquid through hole is communicated with the first liquid; and B state: the movable disc liquid through hole is communicated with the second liquid; c state: the movable disc liquid through hole is communicated with the third liquid; d state: the movable plate liquid through hole communicates with the fourth liquid, and the first liquid and the mixed liquid (mixture of the first liquid and the second liquid) are discharged by a liquid discharging mechanism as an example.

Discharging a first liquid: the movable disc is rotated to connect the liquid through hole of the movable disc with the liquid storage bottle of the first liquid, and the flowing direction of the first liquid in the channel is shown in fig. 7.

Discharging a mixed solution: the movable disc is switched to a liquid through hole of the movable disc to be communicated with a liquid storage bottle opening of the first liquid, and a part of the first liquid is pumped to the mixing cavity by a pump; the movable disc is switched to a liquid through hole of the movable disc to be communicated with a liquid storage bottle opening of the second liquid, and part of the second liquid is pumped to the mixing cavity by a pump; the movable disc rapidly reciprocates for a certain angle to uniformly mix the first liquid and the second liquid in the mixing cavity; then pumping by a pump and extruding to a liquid outlet unit. The cosmetic liquids with different proportions are realized by mixing, such as the working mode of realizing the first liquid (5ml) and the second liquid (3ml) is as follows: 1. as shown in fig. 8, the movable disc is switched to the liquid through hole of the movable disc to communicate with the liquid storage bottle opening of the first liquid, and the pump operates for 5s (the operation time is calculated by the pumping force of the pump) to pump the first liquid into the mixing cavity; 2. as shown in fig. 9, the movable disc is switched to the liquid through hole of the movable disc to be communicated with the liquid storage bottle mouth of the second liquid, and the pump runs for 3s to pump the second liquid into the mixing cavity; 3. the movable disc rapidly rotates in a reciprocating manner for a certain angle to mix the two first liquids and the second liquid in the mixing cavity; 4. as shown in fig. 10, a pump pumps to extrude the mixed liquid in the mixing cavity to the liquid outlet unit.

The water outlet device is provided with a water outlet mechanism 1001, the water outlet mechanism and a lower shell 1002, and the lower shell 1002 and the body 11 are fixedly connected together.

The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited by this description, and all equivalent changes and modifications made within the scope and the specification of the present invention should be covered by the present invention.

Claims (19)

1. A liquid discharge mechanism comprising:

a plurality of liquid storage bottles, each liquid storage bottle having a bottle mouth;

the method is characterized in that: further comprising:

a mixing chamber;

the movable disc is movably connected between the multi-bottle liquid storage bottle and the mixing cavity, the driving mechanism is in transmission connection with the movable disc so as to drive the movable disc to move, the movable disc is movably switched to connect the bottle openings of the multi-bottle liquid storage bottle and the mixing cavity or is completely staggered, and liquid in the mixing cavity is movably stirred through the movable disc.

2. The liquid outlet mechanism of claim 1, wherein: the mixing chamber is provided with a chamber opening, the movable disc seals the chamber opening and can rotate relative to the mixing chamber, the movable disc is provided with a liquid through hole, and the bottle openings of the multi-bottle liquid storage bottles are switched at least to be aligned with the liquid through hole or staggered completely through the rotation of the movable disc.

3. The liquid outlet mechanism of claim 2, wherein: ribs are convexly arranged on the inner end surface of the movable disc.

4. The liquid outlet mechanism of claim 2, wherein: the mixing cavity is provided with a cavity wall and a cavity bottom, and ribs are convexly arranged on the cavity wall.

5. The liquid outlet mechanism of claim 2, wherein: the driving mechanism comprises a motor and a transmission joint for driving the motor and the movable disc to rotate, wherein the motor drives the movable disc to rotate through the transmission joint.

6. The liquid outlet mechanism according to claim 5, wherein: the motor is a stepping motor, the mixing cavity is provided with a cavity wall and a cavity bottom, the stepping motor is positioned below the mixing cavity, the transmission joint can rotate to penetrate through the cavity bottom, and the transmission joint and the movable disc can be synchronously and rotatably connected together.

7. The liquid outlet mechanism according to claim 5, wherein: further comprising:

the body is provided with a plurality of through grooves, the plurality of liquid storage bottles are connected in the body, and bottle openings of the plurality of liquid storage bottles are correspondingly communicated with the plurality of through grooves; the liquid through hole of the movable disc is matched with the through groove to realize the switching, the movable disc and the transmission joint can slide along the rotation axis of the movable disc, a first elastic body is arranged between the transmission joint and the movable disc, and the movable disc is supported and attached to the bottom surface of the body in a sealing mode through the first elastic body.

8. The liquid outlet mechanism according to claim 5, wherein: further comprising:

and the control component comprises a controller, a Hall sensor and a magnet, the controller is electrically connected with the Hall sensor and the motor, the Hall sensor and the mixing cavity are relatively fixed, and the magnet and the movable disk are relatively fixed.

9. The liquid outlet mechanism of claim 1, wherein: further comprising:

the body is equipped with a plurality of logical grooves and a plurality of top and supports the piece, establishes the check valve in this stock solution bottle bottleneck, and this many bottles of stock solution bottle dress connects this internal and bottleneck, a plurality of logical grooves and a plurality of top of many bottles of stock solution bottle and support the piece one-to-one cooperation, is in the stock solution bottle of dress: the propping piece props the check valve to open so as to connect the bottle mouth and the through groove.

10. The liquid outlet mechanism of claim 1, wherein: further comprising:

the connection mechanism comprises a liquid outlet unit and a pump, and the mixing cavity and the liquid outlet unit are connected through the pump.

11. The liquid outlet mechanism of claim 10, wherein: the connection mechanism further comprises an adapter, the adapter is arranged on at least one inlet and one outlet, the pump is connected with the adapter, the inlet is connected with the mixing cavity, and the outlet is connected with the liquid outlet unit.

12. The liquid outlet mechanism of claim 11, wherein: this adapter is equipped with a plurality of imports, is equipped with a plurality of liquid outlets at the bottom of this hybrid chamber, and these a plurality of imports and a plurality of liquid outlet one-to-one just pass through the hose switch-on.

13. The liquid outlet mechanism of claim 1, wherein: the liquid storage bottle comprises a bottle body and a bottle cap component, wherein the bottle mouth is arranged at the first end of the bottle body, the bottle cap component is fixedly arranged at the second port of the bottle body in a sealing mode, and the bottle cap component is provided with a one-way valve capable of one-way air inlet.

14. The liquid outlet mechanism of claim 1, wherein: further comprising:

the body is provided with an installation cavity, the cover plate can be detachably and fixedly arranged at the cavity opening of the installation cavity, the multiple liquid storage bottles are placed in the installation cavity, and a second elastic body is arranged between the liquid storage bottles and the cavity bottom of the installation cavity.

15. A tapping mechanism according to claim 14, characterised in that: the installation cavity of the body is connected with a pushing piece in a sliding mode, the second elastic body is arranged between the pushing piece and the body, and the pushing piece abuts against the liquid storage bottle.

16. A tapping mechanism according to claim 14, characterised in that: this body internal stability sets up the compact heap, and this compact heap and stock solution bottle cooperation are in order to connect the stock solution bottle through the compact heap joint.

17. The liquid outlet mechanism of claim 1, wherein: further comprising:

the body and the placing table are relatively fixed together; the body is provided with a mounting cavity, and the multiple liquid storage bottles are placed in the mounting cavity; a cavity is fixedly arranged on the placing table, and the mixing cavity is arranged in the cavity; the driving mechanism comprises a motor, the motor is connected with the movable disc through transmission to drive the movable disc to rotate, and the motor is fixedly arranged on the placing table.

18. The liquid outlet mechanism of claim 1, wherein: further comprising:

and the control part comprises a controller and a key part, the driving mechanism comprises a motor, the motor is connected with the movable disk through transmission so as to drive the movable disk to rotate, and the controller is electrically connected with the motor and the key part.

19. The utility model provides a water outlet device, it is equipped with out water mechanism, its characterized in that: it is also provided with a tapping mechanism according to claim 1.

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