CN112078956A - Intelligent liquid discharging device - Google Patents

Abstract

The invention relates to the field of liquid conveying, and provides an intelligent liquid outlet device for solving the problem of low utilization rate of an internal space of an electric liquid bottle. The invention provides an intelligent liquid outlet device, which comprises: the base extends into the liquid bottle, a cavity is arranged in the base and is used for accommodating one or more of a pump, a motor and a power supply, and the motor or/and the power supply are/is connected with the control assembly; the cover body is used for connecting a liquid bottle, the distance from the joint of the cover body and the liquid bottle to the top surface of the cover body is less than the distance from the bottom surface of the base to the top surface of the cover body, and a liquid outlet is formed in the cover body; the cover body is connected with the base. The space utilization efficiency of the interior of the electric liquid bottle is improved, the risk that liquid in the liquid bottle enters the base is reduced, the design concept is extremely simple, and the electric liquid bottle has high use value and market value.

Description

Intelligent liquid discharging device

Technical Field

The invention relates to the field of liquid conveying, in particular to an intelligent liquid outlet device.

Background

Liquid delivery, particularly for liquids such as water, beverages, soaps, condiments, edible oils, etc., placed in liquid bottles, it is common in the art to provide the liquid bottles with a push pump or to pour them directly.

Taking the delivery of soap solution as an example; the soap solution comprises liquid with cleaning function or makeup function such as hand sanitizer, laundry detergent, shower gel, shampoo, toner, astringent and the like. The soap dispenser includes a container for storing soap, and generally includes a pump for discharging soap, for example, a manual push pump, an electric diaphragm pump, a peristaltic pump, or the like.

For example, CN205359329U discloses an electric induction foam soap dispenser, which comprises a housing, an upper bracket, a circuit board, an electric foam dispenser, an inner container and a base. The circuit board adopted by the invention is provided with a microprocessor, an infrared sensor, an indicator light and a button, the electric foam maker is provided with a foam pump, a speed reducer and a motor, the speed reducer is provided with a lifting fork, and the base is provided with a battery bin; when the hand sanitizer is applied, the hand sanitizer is injected into the inner container, and the battery is placed in the battery bin; when the hand sanitizer dispenser works, a button is pressed for a long time, the hand sanitizer dispenser is electrified for standby, the indicator lamp flashes intermittently, the hand stretches to the lower part of the foam outlet, the infrared sensor feeds back a sensing signal to the microprocessor, and the microprocessor controls the motor and the speed reducer to drive the lifting fork to drive the piston rod of the foaming pump to move up and down to pump the hand sanitizer. According to the technical scheme disclosed by the invention, the liquid outlet assemblies such as the pump and the like are relatively independent from the inner container, the pump is connected with the inner container through the pipeline, and the liquid in the inner container cannot influence the normal work of other devices such as an external pump, a motor, a processor and the like. However, the volume of the inner container is small, more than 70% of the volume of the whole soap dispenser is occupied by components such as a pump and a motor, the space layout of the components is not compact, the space utilization rate is low, and further the electric soap dispenser is greatly different from the shape of the soap dispenser adopting a pressing pump.

CN304273857S discloses a hand sanitizer bottle, which can be seen that most of the soap dispensers using a pressing pump are liquid bottles, and can store a large amount of soap. The electric soap dispenser can also adopt a larger liquid bottle, but the appearance is difficult to be greatly different from that of a common liquid soap bottle, for example, CN106073591A discloses an induction automatic soap dispenser, the appearance is a regular hexahedron, the volume is larger, although more soap can be stored, the utilization rate of the space is not high.

Disclosure of Invention

The invention solves the technical problem of low utilization rate of the internal space of an electric liquid bottle and provides an intelligent liquid outlet device.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

intelligence goes out liquid device includes:

the base extends into the liquid bottle, a cavity is arranged in the base and is used for accommodating one or more of a pump, a motor and a power supply, and the motor or/and the power supply are/is connected with the control assembly;

the cover body is used for connecting a liquid bottle, the distance from the joint of the cover body and the liquid bottle to the top surface of the cover body is less than the distance from the bottom surface of the base to the top surface of the cover body, and a liquid outlet is formed in the cover body;

the cover body is connected with the base.

A part or all of the base is extended into the liquid bottle, so that the space is fully saved, the joint of the base and the cover body is leaned against, the liquid in the liquid bottle is not easy to enter the base, and the stable operation of a pump, a motor or a battery is fully protected; the structure of lid and base more is close to the structure of the traditional liquid bottle that adopts the pressing pump, and the base is equivalent to and stretches into the liquid suction pipe in the bottle with thick drawing empty in the pressing pump for hold the necessary device of automatic play liquid, the lid cross section diameter of ordinary liquid bottle just is greater than the diameter of liquid suction pipe originally, the design make full use of the remaining cross-sectional area of lid of base, does not have the volume that increases the liquid bottle almost, and then the appearance of going out the liquid device also does not produce great change.

The space utilization efficiency of the interior of the electric liquid bottle is improved, the risk that liquid in the liquid bottle enters the base is reduced, the design concept is extremely simple, and the electric liquid bottle has high use value and market value.

Preferably, the base is provided with a liquid inlet.

Preferably, the top of the base is provided with a liquid inlet, and the liquid inlet is connected with a liquid inlet pipe. The base is easier to take place siphon phenomenon after soaking liquid, especially among the current electronic soap lye ware, liquid inlet sets up in the bottom usually, and liquid takes place siphon phenomenon in getting into the pump when the pump is not opened easily like this, damages the pump body very easily, sets up liquid inlet at the top of base, is close to the junction of base with this lid, can effectually alleviate the siphon problem.

Preferably, the cavity is used for accommodating a pump, a motor and a power supply. Important power utilization components are arranged in the cavity of the base, so that the space can be further saved.

Preferably, the pump is located the upper portion in the base, motor and power setting are in the pump below, the inlet and the liquid outlet of pump all are located the top of pump, the inlet of pump communicates with liquid inlet, the liquid outlet of pump with liquid outlet connects. If the pump is located at the bottom of the cavity in the base, after the pump is switched from starting to being static, the siphonage phenomenon is necessarily more serious, and the siphonage phenomenon can be further relieved by optimizing the position of the pump.

Preferably, the control assembly comprises:

a detector disposed on the cover;

and the controller is respectively connected with the detector, the motor and the power supply. The control component is used for controlling the opening and closing of the pump so as to control automatic liquid discharging.

Preferably, the controller includes:

a first controller connected to the detector;

the second controller is connected with the motor;

the power supply is connected with the first controller or/and the second controller, and the first controller is connected with the second controller. The first controller controls the operation of the detector, converts the photoelectric signal acquired by the detector into an electric signal, and the second controller receives the signal transmitted by the first controller and controls the operation of the motor.

Preferably, an accommodating cavity is arranged inside the cover body, and the first controller is arranged in the accommodating cavity; the second controller is arranged in the cavity of the base, and the accommodating cavity is communicated with the cavity. The first controller and the second controller are dispersed into the two cavities, so that the space occupied by the controllers in one cavity can be reduced, the space is more compact, the utilization rate of the space is improved, and the possibility of adjusting the shape of the soap dispenser to be a traditional liquid bottle is provided.

Preferably, the pump is a foam pump.

Preferably, a charging part is arranged on the cover body; the charging part is electrically connected with the controller; the charging part is provided with a dust cover.

Preferably, the cover comprises:

the dough cover is provided with a liquid outlet;

the face cover seat is connected with the face cover, the cover body is connected with the face cover seat, a liquid outlet channel is arranged in the face cover seat, and the liquid outlet channel is connected with the liquid outlet through a pipeline;

the connecting cover is connected with the base and is used for connecting a liquid bottle. The face cover and the face cover seat can enable the appearance of the liquid outlet device to be more similar to that of a traditional liquid bottle, and meanwhile, a cavity is formed between the face cover and the face cover seat and can be used for liquid outlet or liquid outlet control.

The cavity that forms before face lid and the face lid seat is the holding chamber, can hold first controller for the space is compacter, improves the utilization ratio in space, makes the appearance of this application more like traditional soap lye bottle.

Compared with the prior art, the invention has the beneficial effects that: the space utilization efficiency of the interior of the electric liquid bottle is improved, the risk that liquid in the liquid bottle enters the base is reduced, the design concept is extremely simple, and the electric liquid bottle has high use value and market value.

The liquid outlet device can be more like a traditional soap bottle.

Drawings

Fig. 1 is a schematic diagram of an intelligent liquid outlet device.

Fig. 2 is a front view of the intelligent liquid outlet device.

Fig. 3 is a sectional view of section a-a of fig. 2.

FIG. 4 is a top view of the intelligent liquid outlet device

Fig. 5 is a sectional view of section B-B of fig. 4.

Fig. 6 is a bottom view of the intelligent liquid outlet device.

Fig. 7 is a schematic diagram of a valve seat of the intelligent liquid outlet device.

FIG. 8 is an assembly diagram of the same liquid bottle of the intelligent liquid outlet device

Fig. 9 is a schematic diagram of another embodiment of the intelligent liquid outlet device.

Fig. 10 is a top view of fig. 9.

Fig. 11 is a cross-sectional view of section C-C of fig. 10.

Detailed Description

The following examples are further illustrative of the present invention and are not intended to be limiting thereof.

Intelligent liquid outlet device, in some embodiments of the present application, comprises:

the base 10, the said base 10 stretches into the liquid bottle, there is a cavity 109 in the said base 10, the said cavity 109 is used for holding one or several kinds of pump 102, electrical machinery 103, power 101, the said electrical machinery 103 or/and said power 101 is connected with control assembly;

the cover body 20, the cover body 20 is used for connecting a liquid bottle 40, the distance from the joint of the cover body 20 and the liquid bottle 40 to the top surface of the cover body 20 is less than the distance from the bottom surface of the base 10 to the top surface of the cover body 20, and the cover body 20 is provided with a liquid outlet 204;

the cover 20 is connected to the base 10.

Further, in some embodiments of the present application, as shown in fig. 9 to 11, the base 10 extends into the liquid bottle 40, a cavity 109 is disposed in the base 10, the cavity 109 is used for accommodating a portion of the pump 102, the motor 103 and the power source 101, the motor 103 or/and the power source 101 is connected to the control component, another portion of the pump 102 is located in a cavity formed by the cover 20 and the base 10, it should be understood that the base of the present application may only accommodate one of the motor, the pump and the battery, and the rest of the base is located in a gap formed by the cover 20 and the base, or is external.

Further, in some embodiments of the present application, as shown in fig. 3, the base 10 extends into the liquid bottle 40, a cavity 109 is disposed in the base 10, the cavity 109 is used for accommodating the pump 102, the motor 103, and the power source 101, and the motor 103 or/and the power source 101 are connected to the control component.

Further, in some embodiments of the present application, the cover 20 is connected to the base 10 by one or more of, but not limited to, a threaded connection, a snap connection, or a magnetic connection.

Further, in some embodiments of the present application, the cover 20 is connected to the base 10 by a second screw 10211.

Further, in some embodiments of the present application, a sealing gasket 110 is disposed at the connection position of the cover 20 and the base 10.

A part or all of the base is extended into the liquid bottle, so that the space is fully saved, the joint of the base and the cover body is leaned against, the liquid in the liquid bottle is not easy to enter the base, and the stable operation of a pump, a motor or a battery is fully protected; the structure of lid and base more is close to the structure of traditional soap lye bottle, and the base is equivalent to and stretches into the liquid suction pipe in the bottle in the ordinary soap lye bottle and adds thick hollowing for hold the automatic necessary device that goes out the liquid, the lid cross section diameter of ordinary soap lye bottle is originally just greater than the diameter of liquid suction pipe, the design make full use of the remaining cross-sectional area of lid of base, does not have the volume that increases the liquid bottle hardly, and then the appearance of going out the liquid device also does not produce great change.

The space utilization efficiency in the interior of the electric soap liquid bottle is improved, the risk that liquid in the liquid bottle enters the base is reduced, the design concept is extremely simple, and the electric soap liquid bottle has high use value and market value.

In some embodiments of the present application, the top of the base 10 is provided with a liquid inlet 106, the liquid inlet 106 is connected to a liquid inlet pipe 108, and the liquid inlet pipe 108 is used for connecting to the liquid in the liquid bottle 40.

The base is easier to take place siphon phenomenon after soaking liquid, especially among the current electronic soap lye ware, liquid inlet sets up in the bottom usually, and liquid takes place siphon phenomenon in getting into the pump when the pump is not opened easily like this, damages the pump body very easily, sets up liquid inlet at the top of base, is close to the junction of base with this lid, can effectually alleviate the siphon problem.

In some embodiments of the present application, the cavity 109 is configured to house the pump 102, the motor 103, and the power source 101.

In some embodiments of the present application, the pump 102 is located at an upper portion of the base 10, the motor 103 and the power source 101 are disposed below the pump 102, the liquid inlet and the liquid outlet 105 of the pump 102 are located at a top portion of the pump 102, the liquid inlet of the pump 102 is connected to the liquid inlet 106, and the liquid outlet 105 of the pump 10 is connected to the liquid outlet 204.

Further, the inlet of the pump 102 is a liquid inlet 106.

Further, in some embodiments of the present application, the pump 102 includes a pump base 1021 and a pump cover 1022, the pump base 1021 and the pump cover 1022 are coupled, and the pump base 1021 is coupled to the motor 103. The liquid outlet 105 and the liquid inlet 106 of the pump 102 are disposed on or near a pump cover on top of the pump 102.

Important power utilization components are arranged in the cavity of the base, so that the space can be further saved. If the pump is located at the bottom of the cavity in the base, after the pump is switched from starting to being static, the siphonage phenomenon is necessarily more serious, and the siphonage phenomenon can be further relieved by optimizing the position of the pump.

In some embodiments of the present application, the control assembly comprises:

a detector 303, the detector 303 being provided on the lid body 20;

and the controller is respectively connected with the detector 303, the motor 103 and the power supply 101.

Further, the detector 303 includes: infrared ray induction lamp 3031, lamp shade 3032, perspective mirror 3033; the infrared induction lamp 3031 is arranged above the perspective mirror, the perspective mirror 3033 is arranged above the lampshade, the perspective mirror 3033 is arranged on the cover body, the infrared induction lamp 3031 can detect signals through the lampshade 3032 and the perspective mirror 3033, the infrared induction lamp 3031 is electrically connected with the controller, when the infrared induction lamp 3031 induces the skin of a user, a feedback signal is transmitted to the controller, and the controller drives the controllable motor 103 to work after receiving the signal.

Further, in some embodiments of the present application, the controller comprises:

a first controller 301, wherein the first controller 301 is connected with the detector 303;

a second controller 302, wherein the second controller 302 is connected with the motor 103;

the power source 101 is connected to the first 301 or/and the second controller 302, and the first controller 301 is connected to the second controller 302.

The control component is used for controlling the opening and closing of the pump so as to control automatic liquid discharging. The first controller controls the operation of the detector, converts the photoelectric signal acquired by the detector into an electric signal, and the second controller receives the signal transmitted by the first controller and controls the operation of the motor.

Further, in some embodiments of the present application, the cover 20 is provided with an accommodating cavity 209 inside, and the first controller 301 is disposed in the accommodating cavity 209; the second controller 302 is disposed in the cavity 109 of the base 10, and the accommodating cavity 209 is communicated with the cavity 109. The first controller 301 is connected to the second controller through a wire, which is not shown in the figure.

The first controller and the second controller are dispersed into the two cavities, so that the space occupied by the controllers in one cavity can be reduced, the space is more compact, the utilization rate of the space is improved, and the possibility of adjusting the shape of the soap dispenser to be a traditional liquid bottle is provided.

In some embodiments of the present application, the pump 102 is a vacuum pump.

In some embodiments of the present application, the pump 102 is a foam pump.

Further, in some embodiments of the present application, the foam pump is a diaphragm pump or a peristaltic pump, or other pump that can generate foam.

Still further, in some embodiments of the present application, the foam pump is a diaphragm pump.

Further, in some embodiments of the present application, the foam pump includes a pump base 1021, a pump cover 1022, a valve seat 1023, a cup 10212, a cup base 1024, a pintle 1026, a swing frame 10213, and an eccentric 1027, the pump cover 1022 is connected to the valve seat 1023, the pump cover 1022 is located on top of the pump 102, and the liquid outlet 105 and the liquid inlet 106 of the pump 102 are disposed on the pump cover 1022 or the valve seat 1023 on top of the pump 102.

The disk seat 1023 with the leather cup seat 1024 is connected, the leather cup seat 1024 with the pump mount 1021 is connected, be provided with a plurality of leather cups 10212 on the leather cup seat 1024, leather cup 10212 bottom with swing rack 10213 connects, eccentric wheel 1027 is connected with the pivot of motor 103, eccentric wheel 1027 with swing rack 10213 connects, be equipped with round pin 1026 on the eccentric wheel 1027, the effect of transmission power is mainly played as the five metals on the eccentric wheel 1027 to round pin 1026, and when motor 103 rotated, eccentric wheel 1027 rotated and can drive swing rack 10213 and swing. The eccentric 1027, the swing frame 10213, and the pintle 1026 are disposed within the pump mount 1021.

Further, in some embodiments of the present application, an air inlet hole 210 is disposed on the cover, and the air inlet hole 210 is in communication with the pump 102.

Further, in some embodiments of the present application, the valve seat 1023 is divided into a plurality of non-interfering areas, each area being correspondingly provided with a cup 10212, at least one cup 10212 being used for pumping fluid, and at least one cup 10212 being used for pumping gas.

Further, in some embodiments of the present application, the valve seat 1023 is divided into a plurality of non-interfering areas, including at least one liquid inlet area, at least one gas inlet area, and at least one gas-liquid mixing area, which is in communication with the liquid outlet 105 of the pump 102.

Further, in some embodiments of the present application, the valve seat 1023 is divided into 3 non-interfering areas, including 1 inlet area 10231, 1 inlet area 10232, and 1 gas-liquid mixing area 10233, and the gas-liquid mixing area 10233 is communicated with the liquid outlet 105 of the pump 102. The liquid guiding port 10234 is arranged in the liquid inlet area 10231, at least two gas guiding ports 10235 are arranged in the gas inlet area 10232, two gas outlet holes 10236 and 1 liquid outlet hole 10237 are arranged in the gas-liquid mixing area 10233, and liquid and gas sucked by the pump 102 flow out of the liquid outlet 105 after being mixed in the gas-liquid mixing area 10233.

Further, in some embodiments of the present application, the liquid inlet area 10231 is provided with a one-way valve mounting hole 10238, the air inlet area 10232 is provided with 2 one-way valve mounting holes 10238, the liquid inlet 10234 is disposed adjacent to the one-way valve mounting hole 10238 of the liquid inlet area 10231, the air inlet 10235 is disposed adjacent to the one-way valve mounting hole 10238 of the air inlet area 10232, the one-way valve mounting hole 10238 is connected with a one-way valve 1029, the one-way valve 1029 is an umbrella-shaped one-way valve, the one-way valve 1029 covers the liquid inlet 10234, and the other one-way valve 1029 covers the air inlet 10235; a gas-liquid mixing one-way valve 10210 is arranged in the gas-liquid mixing area 10233, the gas-liquid mixing one-way valve 10210 covers the gas outlet 10236 and the liquid outlet 10237, but the gas-liquid mixing one-way valve 10210 does not completely cover the gas-liquid mixing area 10233.

It should be understood that the gas-liquid mixing check valve 10210 may not be provided.

When the gas-liquid mixing check valve 10210 is closed, gas enters 2 cups 10212 from the gas inlet 210 of the cover body 20 through the gas introducing port 10235 of the valve seat 1023, and liquid enters another cup 10212 from the liquid inlet 106 through the liquid introducing port 10234 of the valve seat 1023; when the pendulum rack 10213 moves upwards, the cup 10212 changes from an open state to a compressed state, and under the compression action, the gas-liquid mixing one-way valve 10210 connected with the valve seat 1023 is opened, the one-way valve 1029 is closed, and gas and liquid enter the gas-liquid mixing area 10233 from the gas outlet 10236 and the liquid outlet 10237 of the valve seat 1023 and then enter the liquid outlet 204 from the liquid outlet 105.

In some embodiments of the present application, the cover 20 is provided with a charging portion 205; the charging part 205 is electrically connected with the controller; a dust cover 2051 is attached to the charging unit 205.

In some embodiments of the present application, a switch 206 is disposed on the cover 20, and the switch 206 is electrically connected to the control component.

Further, in some embodiments of the present application, a spring 207 is disposed below the switch 206, the switch 206 may be directly electrically connected to the control component, and the spring 207 only plays a role of resetting; the switch 206 may also be electrically connected to the control unit via a spring 207.

In some embodiments of the present application, the cover 20 includes:

the face cover 201, the face cover 201 is provided with a liquid outlet 204;

the face cover seat 202, the face cover seat 202 is connected with the face cover 201, the cover body 20 is connected with the face cover seat 202, a liquid outlet channel 2021 is arranged in the face cover seat 202, and the liquid outlet channel 2021 is connected with the liquid outlet 204 through a pipeline;

the connecting cover 203, the connecting cover 203 is connected with the base 10, and the connecting cover 203 is used for connecting the liquid bottle 40.

The face cover and the face cover seat can enable the appearance of the liquid outlet device to be more similar to that of a traditional liquid bottle, and meanwhile, a cavity is formed between the face cover and the face cover seat and can be used for liquid outlet or liquid outlet control.

Further, in some embodiments of the present application, a foaming device is disposed in the liquid outlet channel 2021.

More specifically, in one particular embodiment of the present application:

intelligence goes out liquid device includes:

the base 10 extends into the liquid bottle, a cavity 109 is arranged in the base 10, and the cavity 109 is used for accommodating the pump 102, the motor 103 and the power supply 101; the pump 102 is also located at the upper part in the base 10, the motor 103 and the power supply 101 are arranged below the pump 102, the liquid inlet and the liquid outlet 105 of the pump 102 are both located at the top of the pump 102, the liquid inlet of the pump 102 is the liquid inlet 106, and the liquid outlet 105 of the pump 10 is connected with the liquid outlet 204.

A control assembly, the control assembly comprising:

a detector 303, the detector 303 being disposed on the cover 20, the detector 303 including: infrared ray induction lamp 3031, lamp shade 3032, perspective mirror 3033; the infrared induction lamp 3031 is arranged above the perspective mirror, the perspective mirror 3033 is arranged above the lampshade, the perspective mirror 3033 is arranged on the cover body, the infrared induction lamp 3031 can detect signals through the lampshade 3032 and the perspective mirror 3033, and the infrared induction lamp 3031 is electrically connected with the first controller 301;

a controller, the controller comprising:

a first controller 301, wherein the first controller 301 is electrically connected with an infrared sensing lamp 3031 of the detector 303;

a second controller 302, wherein the second controller 302 is electrically connected with the motor 103;

the power source 101 is electrically connected to the first 301 and the second 302 controllers, and the first controller 301 is electrically connected to the second controller 302.

The cover body 20, the cover body 20 is used for connecting a liquid bottle 40, the distance from the joint of the cover body 20 and the liquid bottle 40 to the top surface of the cover body 20 is less than the distance from the bottom surface of the base 10 to the top surface of the cover body 20, and the cover body 20 is provided with a liquid outlet 204;

the cover 20 includes:

the face cover 201, the face cover 201 is provided with a liquid outlet 204;

the face cover seat 202, the face cover seat 202 is connected with the face cover 201, the cover body 20 is connected with the face cover seat 202, a liquid outlet channel 2021 is arranged in the face cover seat 202, and the liquid outlet channel 2021 is connected with the liquid outlet 204 through a pipeline;

the connecting cover 203, the connecting cover 203 is connected with the base 10, and the connecting cover 203 is used for connecting the liquid bottle 40;

an accommodating cavity 209 is formed in the cover body 20, and the first controller 301 is arranged in the accommodating cavity 209; the second controller 302 is disposed in the cavity 109 of the base 10, and the accommodating cavity 209 is communicated with the cavity 109.

The cover 20 is connected to the base 10 by a second screw 10211.

A sealing gasket 110 is disposed at the joint of the cover 20 and the base 10.

The liquid inlet 106 is connected with a liquid inlet pipe 108, the liquid inlet pipe 108 is connected with the liquid in the liquid bottle 40 through a hose 107, the liquid inlet 106 is arranged at the top of the base 10, and the liquid enters the liquid inlet pipe 108 through a port 104 of the hose.

The foam pump comprises a pump seat 1021, a pump cover 1022, a valve seat 1023, a cup 10212, a cup seat 1024, a pin 1026, a swing frame 10213 and an eccentric wheel 1027, wherein the pump cover 1022 is connected with the valve seat 1023, the pump cover 1022 is positioned at the top of the pump 102, a liquid outlet 105 of the pump 102 is arranged on the pump cover 1022 at the top of the pump 102, and a liquid inlet 106 is arranged on the valve seat 1023 at the top of the pump 102.

The disk seat 1023 with the leather cup seat 1024 is connected, the leather cup seat 1024 with the pump mount 1021 is connected, be provided with 3 leather cups 10212 on the leather cup seat 1024, leather cup 10212 bottom with swing rack 10213 connects, eccentric wheel 1027 is connected with the pivot of motor 103, eccentric wheel 1027 with swing rack 10213 connects, be equipped with round pin 1026 on the eccentric wheel 1027, the effect of transmission power is mainly played as the five metals on the eccentric wheel 1027 to round pin 1026, and when motor 103 rotated, eccentric wheel 1027 rotated and can drive swing rack 10213 swing. The eccentric 1027, the swing frame 10213, and the pintle 1026 are disposed within the pump mount 1021.

The valve seat 1023 is divided into 3 non-interference areas, including 1 liquid inlet area 10231, 1 gas inlet area 10232 and 1 gas-liquid mixing area 10233, and the gas-liquid mixing area 10233 is communicated with the liquid outlet 105 of the pump 102. The liquid guiding port 10234 is arranged in the liquid inlet area 10231, at least two gas guiding ports 10235 are arranged in the gas inlet area 10232, two gas outlet holes 10236 and 1 liquid outlet hole 10237 are arranged in the gas-liquid mixing area 10233, and liquid and gas sucked by the pump 102 flow out of the liquid outlet 105 after being mixed in the gas-liquid mixing area 10233.

The liquid inlet area 10231 is provided with a one-way valve mounting hole 10238, the air inlet area 10232 is provided with 2 one-way valve mounting holes 10238, the liquid guide port 10234 is arranged close to the one-way valve mounting hole 10238 positioned in the liquid inlet area 10231, the air guide port 10235 is arranged close to the one-way valve mounting hole 10238 positioned in the air inlet area 10232, the one-way valve mounting hole 10238 is connected with a one-way valve 1029, the one-way valve 1029 is an umbrella-shaped one-way valve, the one-way valve 1029 covers the liquid guide port 10234, and the other one-way valve 1029 covers the air guide port 10235; a gas-liquid mixing one-way valve 10210 is arranged in the gas-liquid mixing area 10233, the gas-liquid mixing one-way valve 10210 covers the gas outlet 10236 and the liquid outlet 10237, but the gas-liquid mixing one-way valve 10210 does not completely cover the gas-liquid mixing area 10233.

A charging unit 205 is provided on the lid body 20; the charging part 205 is electrically connected with the controller; a dust cover 2051 is attached to the charging unit 205.

The cover 20 is provided with a switch 206, and the switch 206 is electrically connected to the control component. A spring 207 is arranged below the switch 206, the switch 206 can be directly electrically connected with the control assembly, and the spring 207 only plays a role in resetting; the switch 206 may also be electrically connected to the control unit via a spring 207.

When the infrared induction lamp 3031 induces the skin of the user, a feedback signal is transmitted to the controller, and the controller drives the controllable motor 103 to work after receiving the signal; when the automatic air-suction valve works, the motor 103 drives the eccentric wheel 1027 to rotate, the eccentric wheel 1027 pushes the swing frame 10213 to reciprocate, when the swing frame 10213 moves downwards, the leather cup 10212 is changed from a compression state to an opening state, under the action of negative pressure, a one-way valve 1029 connected with the valve seat 1023 is opened, air enters 2 leather cups 10212 from the air inlet hole 210 of the cover body 20 through the air bleed port 10235 of the valve seat 1023, and liquid enters the other leather cup 10212 from the liquid inlet 106 through the liquid bleed port 10234 of the valve seat 1023; when the swing rack 10213 moves upwards, the cup 10212 changes from an open state to a compressed state, and under the action of compression, the gas-liquid mixing one-way valve 10210 connected with the valve seat 1023 is opened, gas and liquid simultaneously enter the gas-liquid mixing area 10233 from the gas outlet 10236 and the liquid outlet 10237 of the valve seat 1023, then enter the liquid outlet channel 2021 from the liquid outlet 105, are fully foamed, and then are discharged from the liquid outlet 204 through a pipeline, and after a certain amount of liquid is discharged, the motor is stopped to wait for the next feedback signal.

It will be appreciated that a controller having a timing or dosing function may perform the function of stopping the motor after a certain amount of liquid has been discharged. The corresponding circuit relationship is not described in detail.

The above detailed description is specific to possible embodiments of the present invention, and the above embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention should be included in the present claims.

Claims (10)

1. Intelligence goes out liquid device, its characterized in that includes:

the base extends into the liquid bottle, a cavity is arranged in the base and is used for accommodating one or more of a pump, a motor and a power supply, and the motor or/and the power supply are/is connected with the control assembly;

the cover body is used for connecting a liquid bottle, the distance from the joint of the cover body and the liquid bottle to the top surface of the cover body is less than the distance from the bottom surface of the base to the top surface of the cover body, and a liquid outlet is formed in the cover body;

the cover body is connected with the base.

2. The intelligent liquid outlet device according to claim 1, wherein a liquid inlet is arranged at the top of the base and connected with a liquid inlet pipe.

3. The intelligent liquid outlet device according to claim 1, wherein the cavity is used for accommodating a pump, a motor and a power supply.

4. The intelligent liquid outlet device according to claim 1, wherein the pump is located at the upper part in the base, the motor and the power supply are arranged below the pump, the liquid inlet and the liquid outlet of the pump are both located at the top of the pump, the liquid inlet of the pump is communicated with the liquid inlet, and the liquid outlet of the pump is connected with the liquid outlet.

5. The intelligent liquid outlet device according to claim 1, wherein the control assembly comprises:

a detector disposed on the cover;

and the controller is respectively connected with the detector, the motor and the power supply.

6. The intelligent liquid outlet device according to claim 1, wherein the controller comprises:

a first controller connected to the detector;

the second controller is connected with the motor;

the power supply is connected with the first controller or/and the second controller, and the first controller is connected with the second controller.

7. The intelligent liquid outlet device according to claim 6, wherein an accommodating cavity is arranged inside the cover body, and the first controller is arranged in the accommodating cavity; the second controller is arranged in the cavity of the base, and the accommodating cavity is communicated with the cavity.

8. The intelligent liquid outlet device according to claim 7, wherein the pump is a foam pump.

9. The intelligent liquid outlet device according to claim 6, wherein a charging part is arranged on the cover body; the charging part is electrically connected with the controller; the charging part is provided with a dust cover.

10. The intelligent liquid outlet device of claims 1-9, wherein the cover comprises:

the dough cover is provided with a liquid outlet;

the face cover seat is connected with the face cover, the cover body is connected with the face cover seat, a liquid outlet channel is arranged in the face cover seat, and the liquid outlet channel is connected with the liquid outlet through a pipeline;

the connecting cover is connected with the base and is used for connecting a liquid bottle.

Images