CN111887723B - Instant heating type intelligence milk adjusting device and powder box subassembly thereof - Google Patents

Abstract

The invention belongs to the technical field of household appliances, and discloses an instant heating type intelligent milk mixing device which comprises a shell, a mixer and a water tank, wherein the mixer and the water tank are detachably arranged in the shell; the shell is also internally provided with a controller and a water pump communicated with the water tank; two powder box components are arranged in the shell; and a driving component for driving the powder box component to rotate is installed below the powder box component. The powder discharging of different powder box assemblies is switched through the driving motor, and the powder discharging assembly discharges powder, so that different requirements of different individuals in the same family are met; the driving motor also controls the fan to rotate, and an air curtain can be generated at the corresponding powder outlet while powder is discharged, so that powder is prevented from flying and the powder outlet is prevented from caking.

Description

Instant heating type intelligence milk adjusting device and powder box subassembly thereof

Technical Field

The invention belongs to the technical field of household appliances, and particularly relates to an instant heating type intelligent milk mixing device.

Background

At present, the milk brewing machine with the function of automatically brewing milk powder is not lacked in the market, great convenience is provided for feeding infants at night, parents can obtain more sleeping time, and therefore the milk brewing machine is popular with the parents.

Chinese patent No. CN204336673U discloses an automatic milk machine, which has a moisture-proof agent storage structure in the machine body, and the moisture-proof agent storage structure is communicated with a milk powder storage area, so as to keep the milk powder in the milk powder storage area dry. However, when the milk powder is discharged from the milk powder storage area and mixed with water, the water vapor in the water escapes upwards, and the milk powder can remain at the milk powder outlet, so that the remaining milk powder can be agglomerated by the escaping water vapor, and the blockage of the milk powder outlet and the breeding of bacteria are caused.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects in the prior art, the instant heating type intelligent milk mixing device is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: an instant heating type intelligent milk adjusting device comprises a shell, a mixer and a water tank, wherein the mixer and the water tank are detachably mounted in the shell; the shell is also internally provided with a controller and a water pump communicated with the water tank; two powder box components are arranged in the shell; a driving assembly for driving the powder box assembly to rotate is arranged below the powder box assembly; the two powder box components are switched and discharged by the driving component;

a powder box containing groove for installing the powder box component is formed at the upper end of the shell; a driving component mounting cavity for mounting the driving component is formed at the lower end of the powder box containing groove;

the compact assembly comprises a compact; a powder outlet which is convex downwards is formed at the lower end of the powder box towards the front part of the shell; the mixer is arranged below the powder outlet;

the mixer comprises two mixing bins and a connecting bottom plate fixedly connected with the two mixing bins; the mixing bin is positioned below the powder outlets of the two powder boxes, so that the powder outlets correspond to the eccentric positions of the mixing bin; the upper part of the mixing bin is cylindrical, the lower part of the mixing bin is conical, and the lower end of the mixing bin is open;

the lower part of each mixing bin is fixedly connected with a heat exchanger; the heat exchanger comprises heat exchange bins which are respectively sleeved on the outer sides of the lower parts of the mixing bins; a hollow connecting bridge is fixedly connected between the two mixing bins; the connecting bridge is positioned at the lower ends of the two heat exchange bins; a heat exchange cavity is formed between the heat exchange bin and the outer wall of the mixing bin;

one end of the water outlet of the water pump is respectively connected with a heater and a cold water outlet pipe through a three-way connector; cold water connecting pipes are respectively formed at the rear sides of the upper parts of the two heat exchange bins; the other end of the cold water outlet pipe is communicated with one cold water connecting pipe; the other cold water connecting pipe is connected with a cold water return pipe; the tail end of the cold water return pipe is communicated with the water tank;

an eccentrically arranged water inlet pipe is formed at the rear side of the upper part of the mixing bin; the water outlet of the heater is respectively connected with a water spraying pipe communicated with the two water inlet pipes through a tee joint; the two water spray pipes and the cold water outlet pipe are respectively provided with an electromagnetic valve; a temperature sensor is arranged in the heater;

a ponding discharge port for discharging water is formed in the middle of the lower end of the connecting bridge; the accumulated water discharge port is detachably and hermetically connected with a sealing plug;

the upper end of the mixing bin can be detachably provided with a baffle cover; a funnel-shaped powder inlet is formed at the upper end of the blocking cover corresponding to the powder outlet of the powder box; a guide plate for guiding water flow is formed in the baffle cover corresponding to the water inlet pipe;

the water pump, the electromagnetic valves and the temperature sensor are electrically connected with the controller.

As a preferable scheme: the driving assembly comprises a driving motor; a second connecting disc and a first connecting disc are fixedly mounted on the output shaft of the driving motor along the vertical direction respectively; elastic pawls or ratchets are respectively arranged on the first connecting disc and the second connecting disc; the direction of the pawl or ratchet on the first connecting disc is opposite to that of the pawl or ratchet on the second connecting disc; the output shaft of the driving motor is also coaxially provided with a driving gear and a cylindrical cam; the driving gear is positioned above the cylindrical cam; a first inner ratchet wheel in transmission connection with a pawl or a ratchet on the first connecting disc is formed on the cylindrical cam corresponding to the first connecting disc; the driving gear corresponds to a second inner ratchet wheel in transmission connection with a pawl or a ratchet on the second connecting disc;

a powder box positioning block for filling the space between the two powder boxes is arranged between the two powder boxes in the powder box containing groove; an annular clamping ring is formed at the upper end of the driving gear; the lower end of the powder box positioning block is fixedly connected with a buckle which is used for being clamped in the clamping ring corresponding to the clamping ring;

the cylindrical cam is sleeved with a transposition plate; a guide groove with two closed ends is formed on the periphery of the cylindrical cam; the guide slot has an upper limit position and a lower limit position; the inner side of the transposition disc facing towards is fixedly connected with a guide post which is connected in the guide groove in a sliding manner; a plurality of positioning holes are formed in the periphery of the transposition plate; a positioning column is fixedly connected to the inner bottom surface of the driving component mounting cavity corresponding to the positioning hole;

a positioning boss is fixedly connected to the centers of the lower parts of the two powder boxes in the driving component mounting cavity; the upper end of the positioning boss is rotatably connected with a driven gear; the driven gear and the driving gear are positioned on the same horizontal plane; two fixed gears are fixedly connected to the upper end of the transposition plate at one end of each of the two driven gears respectively; the two fixed gears are positioned on different horizontal planes; when the transposition plate moves up and down to the limit position, one fixed gear is meshed with the driving gear and the driven gear positioned on the same side; when the transposition plate moves to the other limit position, the other fixed gear is meshed with the driving gear and the other driven gear simultaneously;

the driving motor is electrically connected with the controller.

As a preferable scheme: the lower part of the powder box containing groove is formed with an installation bottom plate for positioning the installation depth of the powder box component;

a rear mounting cavity positioned below the driving assembly mounting cavity is formed at the rear end of the shell; an output shaft of the driving motor penetrates through a partition plate formed between the driving assembly mounting cavity and the rear mounting cavity;

the upper part of the rear mounting cavity is fixedly connected with a transverse clapboard which separates the rear mounting cavity from top to bottom; a motor mounting part for mounting the driving motor is formed on the diaphragm plate; the rear mounting cavity is positioned at the upper part of the diaphragm plate to form a ventilation cavity; the lower end of the driven gear is fixedly connected with a fan; the fan is a cross-flow fan; a through hole penetrating to the ventilation cavity is formed in the bottom of the driving component mounting cavity and is positioned below the fan;

a mixer installation cavity for installing the mixer is formed at the front end of the upper part of the shell below the powder box containing groove; a flow guide cavity is formed downwards on the mounting bottom plate corresponding to the powder outlet; the powder outlet is inserted in the flow guide cavity; a gap is formed between the side wall of the flow guide cavity and the side wall of the powder outlet;

and a communicating hole communicated with the flow guide cavity is formed in the side wall of the driving motor mounting cavity corresponding to the flow guide cavity.

As a preferable scheme: the gap between the side wall of the flow guide cavity and the side wall of the powder outlet is 0.5-2 mm.

As a preferable scheme: a water receiving cavity is formed in the shell below the mixer installation cavity; the mixer is positioned between the two mixing bins, and a water condensation plate is vertically formed on the mixer; a plurality of bulges are uniformly distributed on the water condensation plate; a front baffle plate which is vertically arranged is formed at one end of the mixer far away from the water inlet pipe; a water collecting pipe is formed at the lower end of the water condensing plate; a water collecting opening is formed in the upper end face of the water collecting pipe, which is positioned on the connecting bottom plate;

a drainage channel is vertically formed on the shell corresponding to the water collecting pipe; a water collecting connecting port is formed on the drainage channel corresponding to the water collecting pipe;

a hollow placing disc is detachably mounted at the lower part of the water receiving cavity; a water receiving groove communicated with the inner cavity of the placing plate is formed in the placing plate towards the drainage channel; and a drainage outlet for accommodating the water receiving tank is formed at the lower end of the drainage channel.

As a preferable scheme: the water tank is arranged at the rear part of the rear mounting cavity; the water tank is provided with a fixed clapboard which is vertically arranged and fixedly connected between the controllers; the fixed clapboard is also provided with an inserting pipe used for communicating the water inlet end of the water pump with the water tank; the upper end of the fixed clapboard extends to the lower end of the transverse clapboard; a lifting plate is formed at the upper end of the water tank corresponding to the ventilation cavity; a lifting opening is formed in the middle of the lifting plate;

the bottom of the rear mounting cavity is provided with a rotating electrode for supplying power to the water tank; a liquid level sensor and a temperature sensor are also arranged in the water tank;

the liquid level sensor and the temperature sensor are electrically connected with the controller. .

As a preferable scheme: the ventilation cavity is internally detachably and slidably connected with a filter plate.

Compared with the prior art, the invention has the beneficial effects that: before use, the mixer and the placing disc are installed, and corresponding milk powder or other brewed powder is added into the powder box; placing a feeding bottle or other container on the resting tray below the corresponding mixer outlet; the user adds warm water to the tank and connects to the housing.

When the powder discharging device is used, the driving motor is controlled to rotate reversely, the transposition plate moves up and down, the driving gear is in transmission connection with the driven gear below the corresponding powder box through the fixed gear, and the rotating position of the driving motor is determined through the rotating angle, so that the powder box to be discharged is determined and fed back to a user through the operation panel; then the controller controls the driving motor to rotate forward to discharge powder from the powder box; controlling the water pump to work, controlling the heater to work, opening the electromagnetic valve at the corresponding spray pipe, and controlling the power of the heater through the feedback of the temperature sensor to ensure that the temperature of the hot water is constant in the temperature range set by a user; at the moment, the powder outlet box and the water spray pipe uniformly discharge powder and water, so that the milk powder and the water are fully mixed in the mixer; meanwhile, an electromagnetic valve at the cold water outlet pipe is opened, so that the cold water in the water tank flows and passes through the heat exchange cavity, and the milk in the mixer is cooled in time; simultaneously along with driving motor corotation, under the effect of the fan that corresponds the powder box below, external air current gets into the water conservancy diversion chamber from the ventilation chamber and goes out the clearance department between the powder mouth, forms the air curtain, and guide milk powder gets into the blender from advancing powder mouth department, prevents that milk powder from wafting, prevents simultaneously that the vapor that rises from condensing in the blender from going out powder mouth department, causes out powder mouth department caking to block up.

When needing to switch to another powder box, control the reversal of driving motor and switch can.

After use, each detachable component can be removed and cleaned.

Different powders or particles such as infant milk powder, old people milk powder, solid beverage and the like can be filled in the two different powder boxes, so that the requirements of different members are met.

According to the invention, the powder discharging of different powder box assemblies is switched through the driving motor, and the powder discharging assembly discharges powder, so that different requirements of different individuals in the same family are met; the driving motor also controls the fan to rotate, and an air curtain can be generated at the corresponding powder outlet while powder is discharged, so that powder is prevented from floating and the powder outlet is prevented from caking; the cold water which is not used in the water tank exchanges heat and cools the milk or the brewed beverage in the mixer.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic cross-sectional structure of the present invention.

Fig. 3 is a schematic exploded view of the present invention.

Fig. 4 and 5 are schematic sectional structural views of the housing.

Fig. 6 is an exploded view of the drive assembly.

Fig. 7 is a schematic structural view of the cylindrical cam.

Fig. 8 is a schematic diagram of the structure of the index plate.

Fig. 9 is a schematic view of the structure of the mixer.

Fig. 10 is a schematic view of the structure of the shield cover.

FIG. 11 is a block diagram of the plumbing connections of the present invention.

Fig. 12 is an exploded view of the compact assembly of embodiment 2.

Fig. 13 is a schematic structural view of the turntable in embodiment 2.

FIG. 14 is a schematic structural view of a powder-blocking plate in example 2.

A1, shell; a11, a powder box containing groove; a111, mounting a bottom plate; a1111, a flow guide cavity; a1112, a communication hole; a112, a driving component mounting cavity; a1121, positioning column; a113, a through hole; a114, positioning a boss; a115, positioning grooves; a12, a rear mounting cavity; a121, rotating the electrode; a13, diaphragm plate; a131, a motor mounting part; a141, a water spray pipe; a142, a cold water outlet pipe; a143, a cold water return pipe; a15, a ventilation cavity; a16, a controller; a17, a mixer mounting cavity; a18, a water receiving cavity; a19, a drainage channel; a191, a water collecting connector; a192, a drainage outlet; a2, an upper cover body; a3, operation panel; a4, placing a disc; a41, a water receiving tank; a5, a powder box positioning block; a51, buckle;

1. a drive assembly; 11. a drive motor; 12. a transposition plate; 121. a fixed gear; 122. a guide post; 123. positioning holes; 13. a cylindrical cam; 131. a first inner ratchet; 132. a guide groove; 14. a driving gear; 141. a second inner ratchet wheel; 142. a collar; 15. a first splice tray; 16. a second connecting disc; 18. a driven gear; 181. inserting the column; 182. a fan;

2. a compact assembly; 21. powder box; 211. a powder outlet; 212. a handle; 22. a turntable; 221. a web; 2211. a wedge block; 222. sleeving the column; 23. a powder sweeping disc; 24. a powder blocking plate; 241. a guide strip; 242. a stopper; 25. a box cover; 251. a rubber ring; 252. a thimble;

3. a mixer; 31. a mixing bin; 32. connecting the bottom plate; 33. a water inlet pipe; 34. a water condensation plate; 341. a protrusion; 35. a front baffle; 36. a water collection pipe; 361. a water collection port; 37. a heat exchanger; 371. a heat exchange bin; 3711. a cold water connecting pipe; 3712. a heat exchange cavity; 372. a connecting bridge; 3721. a ponding discharge port; 373. a sealing plug;

4. a blocking cover; 41. a powder inlet; 42. a baffle;

5. a water tank; 51. lifting the plate; 511. lifting the opening;

6. a filter plate;

7. a water pump;

8. fixing the partition board; 81. inserting a pipe;

9. a heater.

Detailed Description

Example 1

As shown in fig. 1 to 11, the instant heating type intelligent milk mixer of the present embodiment includes a casing a1, a mixer 3 and a water tank 5 detachably installed in the casing; a controller A16 and a water pump 7 communicated with the water tank are also arranged in the shell; two powder box assemblies 2 are arranged in the shell; a driving assembly 1 for driving the powder box assembly to rotate is arranged below the powder box assembly; and the two powder box components are switched and discharged by the driving component.

A powder box containing groove A11 for installing the powder box component is formed at the upper end of the shell; a mounting bottom plate A111 for positioning the mounting depth of the powder box assembly is formed at the lower part of the powder box containing groove; and a driving component mounting cavity A112 for mounting the driving component is formed at the lower end of the powder box containing groove.

The driving assembly comprises a driving motor 11; the driving motor is a servo motor or a stepping motor; a second connecting disc 16 and a first connecting disc 15 are respectively and fixedly arranged on the output shaft of the driving motor along the vertical direction; elastic pawls or ratchets are respectively arranged on the first connecting disc and the second connecting disc; the direction of the pawl or ratchet on the first connecting disc is opposite to that of the pawl or ratchet on the second connecting disc; the output shaft of the driving motor is also coaxially provided with a driving gear 14 and a cylindrical cam 13; the driving gear is positioned above the cylindrical cam; a first inner ratchet wheel 131 which is in transmission connection with a pawl or ratchet on the first connecting disc is formed on the cylindrical cam corresponding to the first connecting disc; the driving gear corresponds to a second inner ratchet wheel 141 which is in transmission connection with a pawl or ratchet on the second connecting disc. When the driving motor rotates forwards, the driving gear is driven to rotate through the first connecting disc; when the driving motor rotates reversely, the cylindrical cam is driven to rotate through the second connecting disc.

A powder box positioning block A5 for filling the space between the two powder boxes is arranged between the two powder boxes in the powder box containing groove; an annular retainer ring 142 is formed at the upper end of the driving gear; the lower end of the powder box positioning block corresponds to the clamping ring, and a buckle A51 used for being clamped in the clamping ring is fixedly connected to the position of the clamping ring. Namely, the driving gear is rotatably connected to the lower end of the powder box positioning block.

The cylindrical cam is also sleeved with a transposition plate 12; a guide groove 132 with two closed ends is formed on the periphery of the cylindrical cam; the guide slot has an upper limit position and a lower limit position; the inner side of the transposition plate facing towards is fixedly connected with a guide post 122 which is connected in the guide groove in a sliding manner; a plurality of positioning holes 123 are formed on the periphery of the transposition plate; and a positioning column A1121 is fixedly connected to the inner bottom surface of the driving assembly mounting cavity corresponding to the positioning hole. When the driving motor rotates reversely, the transposition disc moves in the up-and-down direction under the action of the guide groove and the guide column along with the rotation of the cylindrical cam.

A positioning boss A114 is fixedly connected to the centers of the lower parts of the two powder boxes in the driving component mounting cavity; the upper end of the positioning boss is rotatably connected with a driven gear 18; the driven gear and the driving gear are positioned on the same horizontal plane; two fixed gears 121 are fixedly connected to the upper ends of the transposition plates at one ends of the two driven gears respectively; the two fixed gears are positioned on different horizontal planes; when the transposition plate moves up and down to the limit position, one fixed gear is meshed with the driving gear and the driven gear positioned on the same side; when the transposition plate moves to the other limit position, the other fixed gear is meshed with the driving gear and the other driven gear simultaneously. And through the movement of the transposition plate, the meshing transmission of the driving gear between the two driven gears is switched through the fixed gear.

A rear mounting cavity A12 positioned below the driving component mounting cavity is formed at the rear end of the shell; an output shaft of the driving motor penetrates through a partition plate formed between the driving assembly mounting cavity and the rear mounting cavity; the controller and the water pump are installed in the rear installation cavity.

The upper part of the rear mounting cavity is fixedly connected with a transverse partition plate A13 which separates the rear mounting cavity from top to bottom; a motor mounting part A131 for mounting the driving motor is formed on the diaphragm plate; the rear mounting cavity is positioned at the upper part of the diaphragm plate to form a ventilation cavity A15; the lower end of the driven gear is fixedly connected with a fan 182; the fan is a cross-flow fan; and a through hole A113 penetrating to the ventilation cavity is formed at the bottom of the driving component mounting cavity and is positioned below the fan. When the driving motor rotates forwards, the driving gear drives the driven gear to rotate, so that the fan below the driven gear rotates, and air flow flows to the driving assembly installation cavity from the ventilation cavity.

The compact assembly comprises a compact 21; a powder outlet 211 which protrudes downwards is formed at the lower end of the powder box towards the front part of the shell; the mixer is arranged below the powder outlet; a mixer mounting cavity A17 for mounting the mixer is formed at the front end of the upper part of the shell below the powder box containing groove; a flow guide cavity A1111 is formed downwards on the mounting bottom plate corresponding to the powder outlet; the powder outlet is inserted in the flow guide cavity; the gap between the side wall of the flow guide cavity and the side wall of the powder outlet is 0.5-2 mm.

A communication hole A1112 communicated with the diversion cavity is formed in the side wall of the driving motor installation cavity corresponding to the diversion cavity. When the fan rotates to drive the airflow in the ventilation cavity to enter the driving component mounting cavity and then to be discharged from the flow guide cavity after passing through the communication hole.

The mixer comprises two mixing bins 31 and a connecting bottom plate 32 fixedly connected with the two mixing bins; the mixing bin is positioned below the powder outlets of the two powder boxes, so that the powder outlets correspond to the eccentric positions of the mixing bin; the upper part of the mixing bin is cylindrical, the lower part of the mixing bin is conical, and the lower end of the mixing bin is open.

The lower part of each mixing bin is fixedly connected with a heat exchanger 37; the heat exchanger comprises heat exchange bins 371 which are respectively sleeved on the outer sides of the lower parts of the mixing bins; a hollow connecting bridge 372 is fixedly connected between the two mixing bins; the connecting bridge is positioned at the lower ends of the two heat exchange bins; a heat exchange cavity 373 is formed between the outer walls of the heat exchange bin and the mixing bin.

One end of the water outlet of the water pump is respectively connected with a heater 9 and a cold water outlet pipe A142 through a three-way connector; cold water connecting pipes 3711 are respectively formed at the rear sides of the upper parts of the two heat exchange bins; the other end of the cold water outlet pipe is communicated with one cold water connecting pipe; the other cold water connecting pipe is connected with a cold water return pipe A143; the tail end of the cold water return pipe is communicated with the water tank; the heater is an instant heater.

An eccentrically arranged water inlet pipe 33 is formed at the rear side of the upper part of the mixing bin; the water outlet of the heater is respectively connected with a water spraying pipe A141 communicated with the two water inlet pipes through a three-way connector; the two water spray pipes and the cold water outlet pipe are respectively provided with an electromagnetic valve; and a temperature sensor is arranged in the heater. The water pump makes the water in the water tank enter the mixing bin through the water spraying pipe and is brewed with the milk powder and the like in the powder box; when cold water flows through the heat exchange cavity, the heat of the milk or other brewed drinks brewed at the lower part in the mixing bin is absorbed, so that the temperature of the milk or other brewed drinks is reduced.

A water accumulation discharge port 3721 for discharging water is formed in the middle of the lower end of the connecting bridge; the accumulated water discharge port is detachably and hermetically connected with a sealing plug 373. After the heat exchange bin is used, the water in the heat exchange bin is drained by opening the sealing plug.

The upper end of the mixing bin can be also detachably provided with a baffle cover 4; a funnel-shaped powder inlet 41 is formed at the upper end of the blocking cover corresponding to the powder outlet of the powder box; a guide plate 42 for guiding water flow is formed inside the baffle cover corresponding to the water inlet pipe. Follow the spray pipe warp the water that the inlet tube spouts into in the mixing bin is owing the effect of guide plate is followed the inside wall in mixing bin flows to produce the vortex, make milk powder and water mix more fully.

A water receiving cavity A18 is formed below the mixer mounting cavity of the shell; a water condensation plate 34 is vertically formed between the two mixing bins of the mixer; a plurality of bulges 341 are uniformly distributed on the water condensation plate; condensing water vapor outside the mixing bin onto a water condensing plate; a front baffle 35 which is vertically arranged is formed at one end of the mixer far away from the water inlet pipe; preventing water vapor from escaping; a water collecting pipe 36 is formed at the lower end of the water condensing plate; the water collecting pipe is located on the upper end face of the connecting bottom plate, and a water collecting opening 361 is formed in the upward direction of the water collecting pipe. And the water condensed by the water condensation plate is discharged through the water collecting pipe.

A drainage channel A19 is vertically formed on the shell corresponding to the water collecting pipe; the drainage channel is formed from the bottom of the driving component mounting cavity to the lower part of the water receiving pipe in a downward mode, and an opening, located at the bottom of the driving component mounting cavity, of the drainage channel is closed; a water collecting connecting port A191 is formed on the drainage channel corresponding to the water collecting pipe; and the outlet of the water collecting pipe is inserted into the water collecting connecting port, so that the water in the water collecting pipe is discharged into the drainage channel through the water collecting connecting port.

A hollow placing disc A4 is detachably mounted at the lower part of the water receiving cavity; a water receiving groove A41 communicated with the inner cavity of the placing plate is formed on the placing plate towards the drainage channel; and a drainage outlet A192 for accommodating the water receiving groove is formed at the lower end of the drainage channel. After the placement tray is installed, the water receiving groove is inserted into the drainage outlet, water in the drainage channel enters the inner cavity of the placement tray through the water receiving groove, and accumulated water in the placement tray is not poured out without using.

The water tank is arranged at the rear part of the rear mounting cavity; the water tank is provided with a fixed clapboard 8 which is vertically arranged and fixedly connected between the controllers; the fixed clapboard is also provided with an inserting pipe 81 used for communicating the water inlet end of the water pump with the water tank; the water outlet of the water tank is communicated after the insertion pipe is communicated; namely, a one-way valve is arranged at the water outlet of the water tank, and after the water tank is arranged, a valve core of the one-way valve is pressed to conduct the one-way valve, such as an air tap of a tire; the upper end of the fixed clapboard extends to the lower end of the transverse clapboard; a lifting plate 51 is formed at the upper end of the water tank corresponding to the ventilation cavity; a lifting opening 511 is formed in the middle of the lifting plate. The lifting opening can be used as an air inlet of a ventilation cavity when a user installs and removes the water tank, so that the water tank can be extended to the lower end of the transverse partition plate, and the water storage capacity in the water tank is maximized.

The ventilation cavity is internally detachably and slidably connected with a filter plate 6. The filtering by the filter plate reduces the harmful substances in the air entering the mixer along with the air flow.

A rotating electrode A121 for supplying power to the water tank is mounted at the bottom of the rear mounting cavity; and a liquid level sensor is also arranged in the water tank. The rotating electrode is a rotating plug of the prior art, such as a rechargeable shaver. The water tank is connected to the shell through rotation after being connected with the rotating electrode, so that the lifting opening and the outlet located in the ventilation cavity are formed. The connection of the water tank to the housing is made in the same way as in the prior art in which the water tank or the part in which the water tank is placed is rotatably mounted in the housing.

A handle 212 for mounting and dismounting the powder box is formed on the upper part of the periphery of the powder box; a positioning groove A115 is formed in the powder box containing groove corresponding to the handle; the shell is positioned at the upper end of the powder box and is also provided with an upper cover A2.

The mixer is installed in the mixer installation cavity along the horizontal direction; the installation, clamping and connection of the mixer and the spray pipe are the prior art, and the connection mode of the water collecting pipe and the water collecting connecting port is the same as that of the spray pipe and the mixer; the front of the mixer is also mounted with an operation panel a3 electrically connected to the controller.

The water pump, the driving motor, the electromagnetic valve, the heater, the liquid level sensor and the temperature sensor are electrically connected with the controller.

Before use, the mixer and the placing disc are installed, and corresponding milk powder or other brewed powder is added into the powder box; placing a feeding bottle or other container on the resting tray below the corresponding mixer outlet; the user adds warm water to the tank and connects to the housing.

When the powder discharging device is used, the driving motor is controlled to rotate reversely, the transposition plate moves up and down, the driving gear is in transmission connection with the driven gear below the corresponding powder box through the fixed gear, and the rotating position of the driving motor is determined through the rotating angle, so that the powder box to be discharged is determined and fed back to a user through the operation panel; then the controller controls the driving motor to rotate forward to discharge powder from the powder box; controlling the water pump to work, controlling the heater to work, opening the electromagnetic valve at the corresponding spray pipe, and controlling the power of the heater through the feedback of the temperature sensor to ensure that the temperature of the hot water is constant in the temperature range set by a user; at the moment, the powder outlet box and the water spray pipe uniformly discharge powder and water, so that the milk powder and the water are fully mixed in the mixer; meanwhile, an electromagnetic valve at the cold water outlet pipe is opened, so that the cold water in the water tank flows and passes through the heat exchange cavity, and the milk in the mixer is cooled in time; simultaneously along with driving motor corotation, under the effect of the fan that corresponds the powder box below, external air current gets into the water conservancy diversion chamber from the ventilation chamber and goes out the clearance department between the powder mouth, forms the air curtain, and guide milk powder gets into the blender from advancing powder mouth department, prevents that milk powder from wafting, prevents simultaneously that the vapor that rises from condensing in the blender from going out powder mouth department, causes out powder mouth department caking to block up.

When needing to switch to another powder box, control the reversal of driving motor and switch can.

After use, each detachable component can be removed and cleaned.

Different powders or particles such as infant milk powder, old people milk powder, solid beverage and the like can be filled in the two different powder boxes, so that the requirements of different members are met.

According to the invention, the powder discharging of different powder box assemblies is switched through the driving motor, and the powder discharging assembly discharges powder, so that different requirements of different individuals in the same family are met; the driving motor also controls the fan to rotate, and an air curtain can be generated at the corresponding powder outlet while powder is discharged, so that powder is prevented from floating and the powder outlet is prevented from caking; the cold water which is not used in the water tank exchanges heat and cools the milk or the brewed beverage in the mixer.

Example 2

With reference to fig. 12 to 14, the present embodiment is modified from embodiment 1 as follows: the center of the inner bottom surface of the powder box is conical; the powder box assembly also comprises a rotary disc 22 which is rotatably arranged at the center of the inner bottom surface of the powder box; the powder box is positioned at the powder outlet and is fixedly connected with an elastic powder blocking plate 24; one end of the powder blocking plate is welded on the side wall of the powder box through ultrasonic waves; a stop block 242 with the same size as the powder outlet is formed at the lower end of the powder blocking plate corresponding to the powder outlet; the turntable comprises a plurality of radial plates 221 which are distributed at equal intervals along the axis; the radial plate is arranged along the inner bottom surface of the powder box and extends to a side wall close to the powder box, so that when the powder blocking plate is tilted upwards, the radial plate can completely cover the powder outlet after rotating; a guide strip 241 for tilting the powder blocking plate is formed at the lower end of the powder blocking plate far away from the fixed end; a wedge 2211 is formed at the upper end of the spoke plate corresponding to the guide strip; when the carousel rotates, through the voussoir with the effect messenger of guide strip hinders the powder board perk confession that makes progress the radials passes through to sweep into powder mouthful department with the powder in the powder box, work as the radials passes through behind the powder mouth, hinder the powder board and reply.

The upper end of the driven gear is fixedly connected with a polygonal inserting column 181; the turntable penetrates through the bottom plate of the powder box to form a sleeve connection column 222 matched with the insertion column; the driven gear drives the rotary disc to rotate, so that the powder in the powder box is discharged from the powder outlet.

A powder sweeping disc 23 which synchronously rotates with the rotary disc is inserted above the rotary disc; a box cover 25 is detachably arranged at the upper end of the powder box; a thimble 252 which is propped against the upper end of the powder sweeping disc is formed downwards at the lower end of the box cover; the side wall of the box cover is provided with a rubber ring 251 used for sealing the powder box.

The conical powder box bottom can be used up to the maximum extent under the condition that the powder in the powder box is insufficient; when powder in the powder box is discharged from the powder outlet every time, the powder blocking plate is reset after upwards tilting, and when the powder in the powder box is granular, the elastic force for resetting after tilting of the powder blocking plate can prevent the granules from blocking the powder blocking plate.

Claims (6)

1. An instant heating type intelligent milk adjusting device comprises a shell, a mixer and a water tank, wherein the mixer and the water tank are detachably mounted in the shell; the shell is also internally provided with a controller and a water pump communicated with the water tank; the method is characterized in that: two powder box components are arranged in the shell; a driving assembly for driving the powder box assembly to rotate is arranged below the powder box assembly; the two powder box components are switched and discharged by the driving component;

a powder box containing groove for installing the powder box component is formed at the upper end of the shell; a driving component mounting cavity for mounting the driving component is formed at the lower end of the powder box containing groove;

the compact assembly comprises a compact; a powder outlet which is convex downwards is formed at the lower end of the powder box towards the front part of the shell; the mixer is arranged below the powder outlet;

the mixer comprises two mixing bins and a connecting bottom plate fixedly connected with the two mixing bins; the mixing bin is positioned below the powder outlets of the two powder boxes, so that the powder outlets correspond to the eccentric positions of the mixing bin; the upper part of the mixing bin is cylindrical, the lower part of the mixing bin is conical, and the lower end of the mixing bin is open;

the lower part of each mixing bin is fixedly connected with a heat exchanger; the heat exchanger comprises heat exchange bins which are respectively sleeved on the outer sides of the lower parts of the mixing bins; a hollow connecting bridge is fixedly connected between the two heat exchange bins; the connecting bridge is positioned at the lower ends of the two heat exchange bins; a heat exchange cavity is formed between the heat exchange bin and the outer wall of the mixing bin;

one end of the water outlet of the water pump is respectively connected with a heater and a cold water outlet pipe through a three-way connector; cold water connecting pipes are respectively formed at the rear sides of the upper parts of the two heat exchange bins; the other end of the cold water outlet pipe is communicated with one cold water connecting pipe; the other cold water connecting pipe is connected with a cold water return pipe; the tail end of the cold water return pipe is communicated with the water tank;

an eccentrically arranged water inlet pipe is formed at the rear side of the upper part of the mixing bin; the water outlet of the heater is respectively connected with a water spraying pipe communicated with the two water inlet pipes through a tee joint; the two water spray pipes and the cold water outlet pipe are respectively provided with an electromagnetic valve; a temperature sensor is arranged in the heater;

a ponding discharge port for discharging water is formed in the middle of the lower end of the connecting bridge; the accumulated water discharge port is detachably and hermetically connected with a sealing plug;

the upper end of the mixing bin can be detachably provided with a baffle cover; a funnel-shaped powder inlet is formed at the upper end of the blocking cover corresponding to the powder outlet of the powder box; a guide plate for guiding water flow is formed in the baffle cover corresponding to the water inlet pipe;

the water pump, the heater, the electromagnetic valves and the temperature sensor are electrically connected with a controller;

the center of the inner bottom surface of the powder box is conical; the powder box component also comprises a rotary disc which is rotatably arranged at the center of the inner bottom surface of the powder box; the powder box is positioned at the powder outlet and is fixedly connected with an elastic powder blocking plate; one end of the powder blocking plate is welded on the side wall of the powder box through ultrasonic waves; a stop block with the same size as the powder outlet is formed at the lower end of the powder blocking plate corresponding to the powder outlet; the turntable comprises a plurality of radial plates which are distributed at equal intervals along the axis; the radial plate is arranged along the inner bottom surface of the powder box and extends to a side wall close to the powder box, so that when the powder blocking plate is tilted upwards, the radial plate can completely cover the powder outlet after rotating; a guide strip used for tilting the powder blocking plate is formed at the lower end of the powder blocking plate far away from the fixed end; a wedge block is formed at the upper end of the spoke plate corresponding to the guide strip; when the turntable rotates, the powder blocking plate is enabled to upwarp upwards under the action of the wedge block and the guide strip for the web plate to pass through, so that powder in the powder box is swept to the powder outlet, and after the web plate passes through the powder outlet, the powder blocking plate returns;

the driving assembly comprises a driving motor; a second connecting disc and a first connecting disc are fixedly mounted on the output shaft of the driving motor along the vertical direction respectively; elastic pawls or ratchets are respectively arranged on the first connecting disc and the second connecting disc; the direction of the pawl or ratchet on the first connecting disc is opposite to that of the pawl or ratchet on the second connecting disc; the output shaft of the driving motor is also coaxially provided with a driving gear and a cylindrical cam; the driving gear is positioned above the cylindrical cam; a first inner ratchet wheel in transmission connection with a pawl or a ratchet on the first connecting disc is formed on the cylindrical cam corresponding to the first connecting disc; the driving gear corresponds to a second inner ratchet wheel in transmission connection with a pawl or a ratchet on the second connecting disc;

a powder box positioning block for filling the space between the two powder boxes is arranged between the two powder boxes in the powder box containing groove; an annular clamping ring is formed at the upper end of the driving gear; the lower end of the powder box positioning block is fixedly connected with a buckle which is used for being clamped in the clamping ring corresponding to the clamping ring;

the cylindrical cam is sleeved with a transposition plate; a guide groove with two closed ends is formed on the periphery of the cylindrical cam; the guide slot has an upper limit position and a lower limit position; the inner side of the transposition disc facing towards is fixedly connected with a guide post which is connected in the guide groove in a sliding manner; a plurality of positioning holes are formed in the periphery of the transposition plate; a positioning column is fixedly connected to the inner bottom surface of the driving component mounting cavity corresponding to the positioning hole;

a positioning boss is fixedly connected to the centers of the lower parts of the two powder boxes in the driving component mounting cavity; the upper end of the positioning boss is rotatably connected with a driven gear; the driven gear and the driving gear are positioned on the same horizontal plane; two fixed gears are fixedly connected to the upper end of the transposition plate at one end of each of the two driven gears respectively; the two fixed gears are positioned on different horizontal planes; when the transposition plate moves up and down to the limit position, one fixed gear is meshed with the driving gear and the driven gear positioned on the same side; when the transposition plate moves to the other limit position, the other fixed gear is meshed with the driving gear and the other driven gear simultaneously;

the driving motor is electrically connected with the controller;

the upper end of the driven gear is fixedly connected with a polygonal inserting column; the rotary disc penetrates through the bottom plate of the powder box to form a sleeving column matched with the inserting column; the driven gear drives the rotary table to rotate, so that powder in the powder box is discharged from a powder outlet;

a powder sweeping disc which synchronously rotates with the rotary disc is inserted above the rotary disc; a box cover is detachably arranged at the upper end of the powder box; a thimble which is propped against the upper end of the powder sweeping plate is formed downwards at the lower end of the box cover; the lateral wall of lid is installed and is used for making the sealed rubber circle of powder box.

2. The instant heating type intelligent milk mixing device according to claim 1, wherein: the lower part of the powder box containing groove is formed with an installation bottom plate for positioning the installation depth of the powder box component;

a rear mounting cavity positioned below the driving assembly mounting cavity is formed at the rear end of the shell; an output shaft of the driving motor penetrates through a partition plate formed between the driving assembly mounting cavity and the rear mounting cavity;

the upper part of the rear mounting cavity is fixedly connected with a transverse clapboard which separates the rear mounting cavity from top to bottom; a motor mounting part for mounting the driving motor is formed on the diaphragm plate; the rear mounting cavity is positioned at the upper part of the diaphragm plate to form a ventilation cavity; the lower end of the driven gear is fixedly connected with a fan; the fan is a cross-flow fan; a through hole penetrating to the ventilation cavity is formed in the bottom of the driving component mounting cavity and is positioned below the fan;

a mixer installation cavity for installing the mixer is formed at the front end of the upper part of the shell below the powder box containing groove; a flow guide cavity is formed downwards on the mounting bottom plate corresponding to the powder outlet; the powder outlet is inserted in the flow guide cavity; a gap is formed between the side wall of the flow guide cavity and the side wall of the powder outlet;

and a communicating hole communicated with the flow guide cavity is formed in the side wall of the driving motor mounting cavity corresponding to the flow guide cavity.

3. The instant heating type intelligent milk mixing device according to claim 1, wherein: a water receiving cavity is formed in the shell below the mixer installation cavity; the mixer is positioned between the two mixing bins, and a water condensation plate is vertically formed on the mixer; a plurality of bulges are uniformly distributed on the water condensation plate; a front baffle plate which is vertically arranged is formed at one end of the mixer far away from the water inlet pipe; a water collecting pipe is formed at the lower end of the water condensing plate; a water collecting opening is formed in the upper end face of the water collecting pipe, which is positioned on the connecting bottom plate;

a drainage channel is vertically formed on the shell corresponding to the water collecting pipe; a water collecting connecting port is formed on the drainage channel corresponding to the water collecting pipe;

a hollow placing disc is detachably mounted at the lower part of the water receiving cavity; a water receiving groove communicated with the inner cavity of the placing plate is formed in the placing plate towards the drainage channel; and a drainage outlet for accommodating the water receiving tank is formed at the lower end of the drainage channel.

4. The instant heating type intelligent milk mixing device according to claim 2, wherein: the gap between the side wall of the flow guide cavity and the side wall of the powder outlet is 0.5-2 mm.

5. The instant heating type intelligent milk mixing device according to claim 2, wherein: the water tank is arranged at the rear part of the rear mounting cavity; the water tank is provided with a fixed clapboard which is vertically arranged and fixedly connected between the controllers; the fixed clapboard is also provided with an inserting pipe used for communicating the water inlet end of the water pump with the water tank; the upper end of the fixed clapboard extends to the lower end of the transverse clapboard; a lifting plate is formed at the upper end of the water tank corresponding to the ventilation cavity; a lifting opening is formed in the middle of the lifting plate;

the bottom of the rear mounting cavity is provided with a rotating electrode for supplying power to the water tank; a liquid level sensor is also arranged in the water tank;

the liquid level sensor is electrically connected with the controller.

6. The instant heating type intelligent milk mixing device according to claim 5, wherein: the ventilation cavity is internally detachably and slidably connected with a filter plate.

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