CN105523302A - Powder distributing assembly, powder preparation device and powder preparation system - Google Patents

Abstract

The invention discloses a powder distributing assembly, a powder preparation device and a powder preparation system. The powder distributing assembly comprises a barrel, a powder feeding rotor and a powder scraping stator, wherein the barrel is used for containing powder and provided with a powder outlet penetrating through the bottom of the barrel; the powder feeding rotor can rotate on the inner bottom surface of the barrel and is provided with a powder distributing opening penetrating through the thickness of the powder feeding rotor; the powder scraping stator is fixed in the barrel, is attached to the upper portion of the powder feeding rotor and shields the powder outlet of the barrel; the powder scraping stator is provided with a first powder breaking protrusion extending out downwards. When the powder feeding rotor rotates on the inner bottom surface of the barrel, the powder distributing opening and the powder outlet can be overlapped, and the first powder breaking protrusion moves into the powder distributing opening in the rotation direction. The powder preparation device comprises the powder distributing assembly. The powder preparation system comprises the powder preparation device. By means of the powder distributing assembly, the powder preparation device and powder preparation system, the technical problems that the amount of manually prepared powder can not be accurately controlled, and prepared liquid does not meet the preparation proportion in the prior art are solved.

Description

Powder dispense assembly, powder infusing device and powder reconstitute system

Technical field

What the present invention relates to powder reconstitutes field, and particularly relate to a kind of powder dispense assembly, powder infusing device and powder reconstitute system.

Background technology

In daily life, the situation needing to reconstitute powder often can be run into, as the formula milk of baby, soybean milk powder, coffee etc.For reconstituting of the formula milk of baby, the reconstituting of present milk powder substantially manually reconstitutes mode and carries out.Manually reconstitute and be difficult to accurately control milk powder amount and the water yield, milk powder amount is many or I haven't seen you for ages causes baby's indigestion or subalimentation.In addition, be contained in the milk powder of milk pot or milk flour bag, the extraction of milk powder is inconvenient and easily pollute milk powder.Further, the shake feeding bottle in manually reconstituting can cause producing a large amount of bubble in milk, the discomfort after causing baby clothes to be used.

Summary of the invention

The invention provides a kind of powder dispense assembly, powder infusing device and powder reconstitute system, and solving the amount manually reconstituting powder in prior art cannot accurately control, and the liquid reconstituted does not meet the technical matters of the ratio of reconstituting.

The invention discloses following technical scheme:

A kind of powder dispense assembly, comprising:

For holding the charging basket of powder, there is the meal outlet run through bottom it;

The powder feeding rotor that can rotate at the inner bottom surface of charging basket, have run through its thickness join powder mouth;

Be fixed on and scrape powder-based stator in charging basket, it to be fitted in above powder feeding rotor and to shelter from the meal outlet of charging basket; Scrape powder-based stator and there is the first broken powder projection of stretching out downwards;

Powder feeding rotor is when the inner bottom surface of charging basket rotates, and joining powder mouth and meal outlet can overlapping and the first broken powder projection draw into joining powder mouth with hand of rotation.

Preferably, the first broken powder projection is arranged on the first side near scraping powder-based stator, wherein, first side of scraping powder-based stator be powder feeding rotor when the inner bottom surface of charging basket rotates, meet the side to powder feeding rotor.

Preferably, first side of scraping powder-based stator has the scraper plate be upturned.

Preferably, the upper surface of powder feeding rotor is provided with the groove that can hold the first broken powder projection;

Powder feeding rotor is when the inner bottom surface of charging basket rotates, and the first broken powder projection can be positioned at groove and slide along groove.

Preferably, powder feeding rotor covers the inner bottom surface of charging basket.

Preferably, the powder mouth of joining of powder feeding rotor multiplely identical joins powder mouth, and multiple powder mouth of joining evenly arranges and eachly joins the S. A. of powder mouth away from powder feeding rotor centered by the S. A. of powder feeding rotor.

Preferably, joining outside powder mouth of powder feeding rotor is shielding part;

When joining powder mouth and meal outlet staggers, shielding part covers in meal outlet.

Preferably, also comprise stirring rotator, it comprises brokenly powder arm, and broken powder arm has the first broken powder rib raised up along its bearing of trend; Stirring rotator can rotate and be fitted in charging basket to be scraped above powder-based stator;

When stirring rotator rotates, broken powder arm can be passed through the cross-sectional plane that charging basket parallels with its inner bottom surface.

Preferably, broken powder arm has the second broken powder projection of stretching out downwards.

Preferably, stirring rotator also comprises the arc being connected to brokenly powder arm end and breaks vermicelli, and arc breaks vermicelli and has the second broken powder rib raised up along its bearing of trend.

Preferably, broken powder arm is multiple and radial is evenly arranged centered by the S. A. of stirring rotator.

Preferably, broken powder arm with the S. A. of stirring rotator for starting point linearly or curve extend.

Preferably, each broken powder arm has along its bearing of trend and runs through the leakage powder mouth of its thickness.

The present invention also provides following technical scheme:

A kind of powder infusing device, comprises above-mentioned arbitrary powder dispense assembly.

Preferably, also comprise powder and reconstitute assembly, it comprises:

Reconstitute funnel, its top and bottom are funnel inlet and hopper outlet respectively, reconstitute funnel also comprise be arranged on its sidewall water can be injected the water inlet reconstituted in funnel;

The filler cap at funnel inlet place can be covered, there is powdering inlet;

Filler cap covers when funnel inlet place, and powdering inlet staggers in the projection of hopper outlet place plane and hopper outlet;

The meal outlet of charging basket is connected with the powdering inlet reconstituting assembly.

Preferably, reconstitute the rake that funnel comprises cup-shaped portion and is attached thereto, funnel inlet is on the top of cup-shaped portion, and hopper outlet is in the bottom of rake, and the line of centers of funnel inlet and the line of centers of hopper outlet stagger;

Filler cap covers when funnel inlet place, and powdering inlet is greater than to the distance of the line of centers of hopper outlet the distance that it arrives funnel inlet line of centers.

Preferably, water inlet to be arranged in cup-shaped portion and water inlet is greater than its distance to funnel inlet line of centers to the distance of the line of centers of hopper outlet.

Preferably, filler cap covers when funnel inlet place, and powdering inlet and water inlet stagger in the projection of hopper outlet place plane.

Preferably, filler cap covers when funnel inlet place, and the maximum angle that powdering inlet and water inlet are formed at each point of the projection of funnel inlet place plane and the line of centres of funnel inlet is less than or equal to 90 degree.

Preferably, powder reconstitutes assembly and is also included in the powder ingress pipe that stretches out at powdering inlet place and the opening of powder ingress pipe increases to powdering inlet place gradually from powder ingress pipe open end.

Preferably, also control unit is comprised;

Control unit is used for the amount reconstituting required powder according to the ratio that reconstitutes of specific powder and water and this, the amount of the actual powder delivery of control powder dispense assembly and enter the amount of the actual water inlet reconstituting assembly;

Control unit also starts powder delivery for controlling powder dispense assembly after the predetermined interval that powder reconstitutes after assembly starts to intake, and the rotating speed controlling powder feeding rotor make powder dispense assembly terminate powder delivery after stop water inlet.

Preferably, control unit reconstitutes the amount of required powder according to the ratio that reconstitutes of specific powder and water and this, and the measurer body controlling to enter the actual water inlet reconstituting assembly comprises the steps:

Control unit reconstitutes the amount of required powder according to the ratio that reconstitutes of specific powder and water and this, calculates in theory that this reconstitutes the amount of required water;

When the amount of reality water inlet reaches that this reconstitutes the amount of required water in theory, control unit controls to stop to reconstituting assembly water inlet.

Preferably, control unit reconstitutes the amount of required powder according to this, and the measurer body controlling the actual powder delivery of powder dispense assembly comprises the steps:

Control unit reconstitutes the amount of required powder and each amount of joining the powder that powder mouth can fall according to this, calculates this and reconstitutes and requiredly in theory join powder number of times; Wherein, joining powder number of times is join powder mouth and the overlapping number of times of meal outlet;

When actual join powder number of times reach this reconstitute in theory required join powder number of times time, control unit controls powder dispense assembly and stops powder delivery.

Preferably, water inlet is stopped specifically comprising the steps: after control unit makes powder dispense assembly terminate powder delivery for the rotating speed controlling powder feeding rotor

Also for basis, this reconstitutes the amount of required water and default water velocity to control unit in theory, and in the theory of computation, this reconstitutes required flooding time;

Also for according to this reconstitutes required flooding time in theory, start to intake and predetermined interval between powder delivery and terminate powder delivery and desirable interval between intaking, in the theory of computation, this reconstitutes the powder delivery time;

Control unit, also for reconstituting the in theory required quantity of joining powder mouth of joining powder number of times and powder feeding rotor according to this, calculates in theory that this reconstitutes the number of turns that powder feeding rotor needs to rotate;

Control unit also for according in theory this reconstitute powder feeding rotor need rotate the number of turns and this reconstitutes the powder delivery time in theory, in the theory of computation, this reconstitutes the rotating speed of powder feeding rotor;

Control powder feeding rotor to rotate with this rotating speed.

Preferably, control unit is also for controlling position when powder feeding rotor stops operating, and when powder feeding rotor is stopped operating, the shielding part of powder feeding rotor covers meal outlet.

The present invention also provides following technical scheme:

A kind of powder reconstitutes system, comprising:

Above-mentioned arbitrary powder infusing device;

Input module, the amount for the powder ratio that reconstitutes of specific powder and water and needs reconstituted inputs.

The present invention also provides following technical scheme:

A kind of powder reconstitutes system, comprising:

Above-mentioned arbitrary powder infusing device;

First data bank, reconstitutes ratio for storage powder and water;

Mobile terminal, reconstitutes ratio for what obtain the powder of the various powders in this data bank and water with the first database communication; Also for obtain the actual powder that will reconstitute identification label and according to identification label obtain actual to reconstitute powder powder and water reconstitute ratio; Also for inputting the actual amount reconstituting required powder;

Powder infusing device also comprises communication module, for communication of mobile terminal, the actual powder of powder and the ratio that reconstitutes of water and the actual amount reconstituting required powder of will reconstituting is transferred to control unit.

Preferably, mobile terminal obtains the identification label of the actual powder that will reconstitute by the bar code scanning the external packing of the actual powder that will reconstitute.

Preferably, described control unit also reconstitutes information for recording at every turn, and wherein, the information of reconstituting includes but not limited to reconstitute the time, reconstitutes the amount of powder, the identification label of powder; Described communication module is also for will reconstitute information transmission to described mobile terminal at every turn; Described mobile terminal is also for will reconstitute information transmission to the first data bank at every turn.

The present invention also provides following technical scheme:

A kind of powder reconstitutes system, comprising:

First data bank, reconstitutes ratio for storage powder and water;

Above-mentioned arbitrary powder infusing device, powder infusing device also comprises:

Acquisition module, for obtaining the identification label of the actual powder that will reconstitute;

Communication module, for obtaining the powder of the various powders in this data bank and reconstituting ratio and transferring to control unit of water with the first database communication;

Input module, for inputting the amount needing the powder reconstituted;

Control unit also for obtain according to identification label actual to reconstitute powder powder and water reconstitute ratio.

Preferably, acquisition module obtains the identification label of the actual powder that will reconstitute by the bar code scanning the external packing of the actual powder that will reconstitute.

Powder dispense assembly of the present invention, powder infusing device and powder reconstitute system.Join powder mouth and the meal outlet of powder dispense assembly of the present invention can overlapping and the first broken powder projection be drawn into joining powder mouth with hand of rotation, make the amount of joining powder mouth and the overlapping powder that once can fall of meal outlet be fixing; Powder infusing device filler cap of the present invention covers when funnel inlet place, the meal outlet of charging basket is connected with powdering inlet, powder in charging basket can enter through meal outlet and powdering inlet and reconstitute funnel, and powdering inlet staggers in the projection of hopper outlet place plane and hopper outlet, entering from powdering inlet the powder reconstituting funnel like this can not directly spill from hopper outlet; Water can enter through water inlet and reconstitute funnel, such powder and water all reconstituting in funnel, for reconstituting of powder has prepared pacing factor.Powder of the present invention reconstitutes system, and what can reconstitute out the ratio that reconstitutes of specific powder and water easily reconstitutes liquid.

Accompanying drawing explanation

Fig. 1 is the partial schematic diagram of powder infusing device of the present invention;

Fig. 2 is the part sectional view of the infusing device of powder shown in Fig. 1;

Fig. 3 is the exploded drawings of the powder dispense assembly of the infusing device of powder shown in Fig. 1;

Fig. 4 is the schematic perspective view of the charging basket of the powder dispense assembly of the infusing device of powder shown in Fig. 3;

The schematic diagram of the parts in the charging basket that Fig. 5 is the powder dispense assembly of the infusing device of powder shown in Fig. 3;

Fig. 6 is the cutaway view of the powder dispense assembly of the infusing device of powder shown in Fig. 3;

Fig. 7 is the block diagram of the powder feeding rotor of the powder dispense assembly of the infusing device of powder shown in Fig. 3;

Fig. 8 is the another block diagram of the powder feeding rotor of the powder dispense assembly of the infusing device of powder shown in Fig. 7;

Fig. 9 is the block diagram scraping powder-based stator of the powder dispense assembly of the infusing device of powder shown in Fig. 3;

The another block diagram scraping powder-based stator of the powder dispense assembly that Figure 10 is the infusing device of powder shown in Fig. 9;

Figure 11 is the block diagram of an embodiment of the stirring rotator of the powder dispense assembly of the infusing device of powder shown in Fig. 1;

Figure 12 is the another block diagram of the stirring rotator of the powder dispense assembly of the infusing device of powder shown in Figure 11;

Figure 13 is the block diagram of an embodiment of the stirring rotator of the powder dispense assembly of the infusing device of powder shown in Fig. 1;

Figure 14 is the another block diagram of the stirring rotator of the powder dispense assembly of the infusing device of powder shown in Figure 13;

Figure 15 is the block diagram of an embodiment of the stirring rotator of the powder dispense assembly of the infusing device of powder shown in Fig. 1;

Figure 16 is the another block diagram of the stirring rotator of the powder dispense assembly of the infusing device of powder shown in Figure 15;

The powder that Figure 17 is the infusing device of powder shown in Figure 15 reconstitutes the partial exploded view of assembly;

The powder that Figure 18 is the infusing device of powder shown in Figure 17 reconstitutes the part sectional view of assembly;

The powder that Figure 19 is the infusing device of powder shown in Figure 17 reconstitutes the birds-eye view of assembly.

Reference numeral:

110 charging baskets, 111 meal outlets,

120 powder feeding rotors, 121 join powder mouth, 122 grooves, 123 shielding parts,

130 scrape powder-based stator, 131 first broken powder projections, 132 scraper plates,

140 stirring rotators, 141 broken powder arms, 142 arcs break vermicelli,

210 reconstitute funnel, 211 cup-shaped portion, 212 rakes,

220 filler caps, 230 powder ingress pipes, 240 water receivers, 241 coolants inlet pipe.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Embodiment one

Powder infusing device of the present invention, as depicted in figs. 1 and 2, comprise powder dispense assembly, powder reconstitutes assembly and control unit.

Following powder dispense assembly can be adopted in above-mentioned powder infusing device, as shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9 and Figure 10, comprise:

For holding the charging basket 110 of powder, there is the meal outlet 111 run through bottom it;

The powder feeding rotor 120 that can rotate at the inner bottom surface of charging basket, have run through its thickness join powder mouth 121;

Be fixed on and scrape powder-based stator 130 in charging basket, it to be fitted in above powder feeding rotor and to shelter from the powder delivery 111 of charging basket; Scrape powder-based stator and there is the first broken powder projection 131 of stretching out downwards;

Powder feeding rotor 120 is when the inner bottom surface of charging basket rotates, and joining powder mouth 121 and meal outlet 111 can overlapping and the first broken powder projection 131 draw into joining powder mouth 121 with hand of rotation.

When using above-mentioned powder dispense assembly, first add in charging basket by powder, powder is scraped because Action of Gravity Field can drop on powder-based stator and powder feeding rotor, and equally, that also can drop on powder feeding rotor joins in powder mouth; Be fixed in charging basket owing to scraping powder-based stator, being fitted in above powder feeding rotor and sheltering from the meal outlet of charging basket, powder can not fall from meal outlet;

Afterwards, powder feeding rotor rotates at the inner bottom surface of charging basket, scrape the side that powder-based stator meets to powder feeding rotor to strike off higher than the powder of joining powder mouth, join powder mouth along with rotation can and meal outlet overlapping, first broken powder projection also can draw powder into joining powder mouth with hand of rotation, and namely the first broken powder projection is drawn and scratched by the powder in it into joining powder mouth; Like this, the effect of scratching that the powder of joining powder mouth breaks powder projection due to Action of Gravity Field and first can fall from the meal outlet of charging basket completely.Even if in the situation that the powder of joining powder mouth has some to harden, the effect of scratching of the first broken powder projection also can ensure that the powder of joining powder mouth falls completely, thus ensure that an amount of joining powder mouth and the overlapping powder that once can fall of meal outlet is fixing.

It should be noted that, an amount of joining powder mouth and the overlapping powder that once can leak down of meal outlet determines the minimum precision (as being 1 gram or 2 grams or other amounts) of powder dispense assembly and powder infusing device dispense powders, and it is determined by the size and thickness of joining powder mouth.Therefore, according to the minimum precision of the powder infusing device of reality to dispense powders, size and the thickness of joining powder mouth can be determined.

As the preferred mode of one, as shown in Figure 9, the above-mentioned first broken powder projection 131 can be arranged on the first side near scraping powder-based stator, wherein, first side of scraping powder-based stator be powder feeding rotor when the inner bottom surface of charging basket rotates, meet the side to powder feeding rotor.

First broken powder projection of such setting is when scratching the powder of joining powder mouth, and powder has relatively many time to fall, and ensures that the powder of joining powder mouth falls completely, thus ensure that an amount of joining powder mouth and the overlapping powder that once can fall of meal outlet is fixing.When the first broken powder projection is arranged on the edge of first side of scraping powder-based stator or is arranged on the edge of the side relative with the first side, part may be had to drop in charging basket by its powder of joining powder mouth scratched, and not leak down from meal outlet; When the first broken powder projection is arranged on away from when scraping the first side of powder-based stator, the first broken powder projection is when scratching the powder of joining powder mouth, and the time that powder falls is relatively shorter, causes having part to drop in charging basket, and does not leak down from meal outlet.

Further, as shown in Figure 9 and Figure 10, above-mentioned first side of scraping powder-based stator can also have the scraper plate 132 be upturned.Powder feeding rotor is when the inner bottom surface of charging basket rotates, the effect that scraper plate has compacting to the powder of joining powder mouth through it and strikes off, like this, can prevent the powder of joining powder mouth from being that hollow is unreal and higher than the situation of joining powder mouth, ensure that the amount of the powder of joining powder mouth is fixing.

As the optional mode of one, as shown in Figure 7, powder feeding rotor relative with scraping powder-based stator one side be provided with the groove 122 that can hold the first broken powder projection, namely groove is arranged on the upper surface of powder feeding rotor;

Powder feeding rotor is when the inner bottom surface of charging basket rotates, and the first broken powder projection 131 can be positioned at groove 122 and slide along groove.

Like this, powder feeding rotor is when the inner bottom surface of charging basket rotates, and the first broken powder projection can be positioned at joins powder mouth and groove, achieves the first broken powder projection can draw into joining powder mouth by simple structure.It should be noted that, realizing the first broken powder projection by groove and the first mode of breaking powder protrusions match and can draw into joining powder mouth, only for casehistory, can also be other modes.

As the preferred mode of one, as shown in Figure 6, above-mentioned powder feeding rotor 120 covers the inner bottom surface of charging basket.Like this, powder can only be leaked down by the powder mouth of joining of powder feeding rotor, ensure that the accuracy of amount of the powder that to leak down from the meal outlet of charging basket; Avoid powder to enter after under powder feeding rotor from other positions, directly fall from the meal outlet of charging basket.

As the preferred mode of one, as shown in Figure 7 and Figure 8, the powder mouth 121 of joining of powder feeding rotor multiplely identical joins powder mouth.Like this, the efficiency of powder dispense assembly powder delivery can be improved.It should be noted that, the joining powder mouth and can select as required, as being four as shown in figure of powder feeding rotor.

As the preferred mode of one, as shown in Figure 7 and Figure 8, multiple powder mouth 121 of joining evenly arranges and eachly joins the S. A. of powder mouth away from powder feeding rotor centered by the S. A. of powder feeding rotor.Like this, away from the joining powder mouth and can reduce when powder feeding rotor rotates of S. A. of powder feeding rotor, be positioned at join powder mouth powder to the resistance of powder feeding rotor; The powder mouth of joining evenly arranged centered by the S. A. of powder feeding rotor makes when the rotation of powder feeding rotor, and multiple interval of joining the time of powder mouth powder delivery is identical, is convenient to the control to entering powder and reconstitute the current of assembly.

As the preferred mode of one, as shown in Figure 7 and Figure 8, joining outside powder mouth of powder feeding rotor is shielding part 123;

When joining powder mouth 121 and meal outlet 111 staggers, shielding part 123 covers in meal outlet 111.

Join powder mouth and meal outlet overlapping time, be that powder is from the time of joining powder mouth and meal outlet and falling; Join when powder mouth and meal outlet stagger be join powder mouth and meal outlet not overlapping time, like this, so long as not powder from the time of joining powder mouth and meal outlet and falling, shielding part all covers in meal outlet, such time comprises powder feeding rotor non rotating and joins powder mouth and meal outlet when staggering, and also comprises powder feeding rotor and rotates but join powder mouth and meal outlet when staggering.Like this, increase the time that shielding part covers in meal outlet to greatest extent, decrease the chance that extraneous air enters charging basket, moistureproof effect is served to powder.

Because the density of powder is lower, after powder feeding rotor rotates, powder may be erected causes powder feeding rotor to dally.In order to allow powder fall in real time, avoid powder feeding rotor to dally, above-mentioned powder dispense assembly can also comprise stirring rotator 140, as shown in Fig. 3, Fig. 5, Figure 11 to Figure 16, it comprises brokenly powder arm 141, and broken powder arm 141 has the first broken powder rib raised up along its bearing of trend; Stirring rotator 140 can rotate and be fitted in charging basket to be scraped above powder-based stator 130;

When stirring rotator rotates, broken powder arm 141 can be passed through the cross-sectional plane that charging basket parallels with its inner bottom surface.

Like this, be fitted in the stirring rotator scraped above powder-based stator when rotating in charging basket, the powder above stirring rotator can be carried out stirring by the raise up first broken powder rib makes it fall in real time; Meanwhile, break the cross-sectional plane that powder arm parallels with its inner bottom surface through charging basket when stirring rotator rotates, can ensure can be stirred at the powder of charging basket on its cross-sectional plane thus powder is fallen in real time.

Further, as shown in Figure 11 to Figure 16, broken powder arm 141 can also have the second broken powder projection of stretching out downwards.Powder below stirring rotator can be carried out stirring by the stretch out downwards second broken powder projection makes powder fall in real time.

Further, as shown in Figure 13 to Figure 16, stirring rotator also comprises the arc being connected to brokenly powder arm end and breaks vermicelli 142, and arc breaks vermicelli 142 and has the second broken powder rib raised up along its bearing of trend.Like this, the second broken powder rib can make it fall in real time by carrying out stirring above stirring rotator and along the powder of charging basket inwall;

Further, as shown in Figure 11 to Figure 16, broken powder arm 141 is multiple and radial is evenly arranged centered by the S. A. of stirring rotator 140.Like this, the milk powder in charging basket can be stirred and stirring efficiency is higher, what ensure each powder feeding rotor joins the accommodation powder that powder mouth can be even and quantitative.

As the optional mode of one, as shown in Figure 11 to Figure 16, broken powder arm 141 with the S. A. of stirring rotator for starting point linearly or curve extend.Like this, the milk powder in charging basket can be stirred, what ensure each powder feeding rotor joins the accommodation powder that powder mouth can be even and quantitative.

Particularly, as is illustrated by figs. 11 and 12, each broken powder arm can also have along its bearing of trend and run through the leakage powder mouth of its thickness.Like this, leaking powder mouth can leak down powder, improves stirring efficiency.

As shown in Fig. 1, Fig. 2 and Fig. 3, the powder of above-mentioned powder infusing device reconstitutes assembly and following powder can be adopted to reconstitute assembly, as shown in Figure 17, Figure 18 and Figure 19, comprising:

Reconstitute funnel 210, its top and bottom are funnel inlet and hopper outlet respectively, reconstitute funnel also comprise be arranged on its sidewall water can be injected the water inlet reconstituted in funnel;

The filler cap 220 at funnel inlet place can be covered, there is powdering inlet;

Filler cap 220 covers when funnel inlet place, and powdering inlet staggers in the projection of hopper outlet place plane and hopper outlet;

The meal outlet 111 of charging basket is connected with the powdering inlet reconstituting assembly.

Filler cap covers when funnel inlet place, the meal outlet of charging basket is connected with powdering inlet, powder in charging basket can enter through meal outlet and powdering inlet and reconstitute funnel, and powdering inlet staggers in the projection of hopper outlet place plane and hopper outlet, namely powdering inlet and hopper outlet stagger, and entering from powdering inlet the powder reconstituting funnel like this can not directly spill from hopper outlet; Water can enter through water inlet and reconstitute funnel, such powder and water all reconstituting in funnel, for reconstituting of powder has prepared pacing factor.

In order to the meal outlet realizing charging basket is connected with the powdering inlet reconstituting assembly, as the preferred mode of one, as Fig. 1, Fig. 2, Fig. 3, shown in Figure 17 and Figure 18, powder reconstitutes assembly and is also included in the powder ingress pipe 230 that stretches out at powdering inlet place and the opening of powder ingress pipe increases to powdering inlet place gradually from powder ingress pipe open end.Like this, powder can be prevented to be bonded in powder ingress pipe.Implementation can be that the inwall of powder ingress pipe 230 and the angle of funnel inlet place plane are more than or equal to 60 degree and are less than or equal to 87 degree particularly.Further, powder ingress pipe has enough height.Like this, can prevent the steam of the water reconstituted in funnel from entering in charging basket.

Reconstitute funnel in by water inlet by water injection in order to realize water, as the preferred mode of one, as shown in Fig. 1, Fig. 2 and Fig. 3, powder reconstitutes assembly and also comprises:

The water receiver 240 be communicated with water inlet; Can be that water inlet is communicated with water receiver by coolant inlet pipe 241;

The pump be communicated with water inlet with water receiver 240, it pumps water and enters water inlet with the water velocity preset from water receiver; Wherein, the water velocity preset needs to form eddy current reconstituting in funnel, reconstitutes powder.

As the preferred mode of one, as shown in Figure 17 and Figure 18, reconstitute the rake 212 that funnel 210 comprises cup-shaped portion 211 and is attached thereto, funnel inlet is on the top of cup-shaped portion 211, hopper outlet is in the bottom of rake 212, and the line of centers of funnel inlet and the line of centers of hopper outlet stagger;

Filler cap 220 covers when funnel inlet place, and powdering inlet is greater than to the distance of the line of centers of hopper outlet the distance that it arrives funnel inlet line of centers.

Namely reconstituting funnel is eccentric funnel, and powdering inlet is positioned at distance eccentric funnel outlet side far away, like this, when the size of eccentric funnel is less, can realize powdering inlet and hopper outlet staggers.

Further, as shown in figure 18, water inlet to be arranged in cup-shaped portion 211 and water inlet is greater than its distance to funnel inlet line of centers to the distance of the line of centers of hopper outlet.Water inlet is positioned at distance eccentric funnel outlet side far away.Namely water inlet and powdering inlet are all positioned at distance eccentric funnel outlet side far away, both close together, and like this, the scouring force entering the rake of current immediately below powdering inlet reconstituting funnel through water inlet is larger; If have powder on the rake immediately below powdering inlet, then can be reconstituted fully by current.

Entering through water inlet at above-mentioned water reconstitutes in the process of funnel,

First, water injects with the speed preset the water inlet reconstituted in funnel, and the inwall relying on the penstock of water can against cup-shaped portion detours, and forms centnifugal force; If powder falls through powdering inlet at this moment, amount of powder is at least also had directly to be reconstituted by current;

Under gravity, rake can be entered after current and form eddy current, due to the close together between powdering inlet and water inlet, the pressure of the rake of current immediately below powdering inlet is larger, namely scouring force is larger, if have powder on the rake now immediately below powdering inlet, then can be reconstituted fully by current;

Afterwards, the liquid reconstituted flows along the inwall of rake under centnifugal force and Action of Gravity Field, until flow out through hopper outlet; The liquid reconstituted flows out in adherent mode, makes the liquid reconstituted not have bubble.

It should be noted that, the funnel that reconstitutes of above-mentioned bias is that one preferably reconstitutes funnel, and as the optional mode of one, reconstituting funnel can also be uninfluenced funnel.When reconstituting funnel and adopting uninfluenced funnel, when filler cap covers at funnel inlet place, the maximum angle that powdering inlet and water inlet are formed at each point of the projection of funnel inlet place plane and the line of centres of funnel inlet is less than or equal to 90 degree.Namely the close together between powdering inlet and water inlet.Like this, the scouring force entering the rake of current immediately below powdering inlet reconstituting funnel through water inlet is larger; If have powder on the rake immediately below powdering inlet, then can be reconstituted by current.

As the preferred mode of one, as shown in Figure 18 and Figure 19, filler cap covers when funnel inlet place, and powdering inlet and water inlet stagger in the projection of hopper outlet place plane.Namely powdering inlet and water inlet stagger, and the steam that can reduce the hot water that water inlet enters like this enters charging basket through powdering inlet and powder ingress pipe.

As the preferred mode of one, as shown in figure 18, the angle of the rake part be connected with the first side of cup-shaped portion and the place plane of hopper outlet is more than or equal to 35 degree and is less than or equal to 45 degree.

The control unit of above-mentioned powder infusing device can adopt following control unit:

Control unit is used for the amount reconstituting required powder according to the ratio that reconstitutes of specific powder and water and this, the amount of the actual powder delivery of control powder dispense assembly and enter the amount of the actual water inlet reconstituting assembly;

Control unit also starts powder delivery for controlling powder dispense assembly after the predetermined interval that powder reconstitutes after assembly starts to intake, and powder dispense assembly terminates to stop water inlet after powder delivery.

Like this, control unit reconstitutes the amount of required powder according to the ratio that reconstitutes of specific powder and water and this, control the amount of the actual powder delivery of powder dispense assembly and enter the amount of the actual water inlet reconstituting assembly, for the powder and water that reconstitute liquid meet specific ratio and required amount, provide precondition; First to intake the mode of powder delivery again, powder can be made just to be reconstituted before dropping on the inwall reconstituting funnel and decrease the amount of the powder dropping on the inwall reconstituting funnel, reconstituting more even, the powder and the water that make to reconstitute liquid meet specific ratio; Powder dispense assembly terminates to stop water inlet after powder delivery, and the powder that powder dispense assembly is fallen can be reconstituted, and the powder and the water that make to reconstitute liquid meet specific ratio.

Particularly, started the time of intaking by sensor sensing, control unit starts water outlet after controlling the predetermined interval after starting to intake.

Above-mentioned control unit reconstitutes the amount of required powder according to the ratio that reconstitutes of specific powder and water and this, and the measurer body controlling to enter the actual water inlet reconstituting assembly comprises the steps:

Control unit reconstitutes the amount of required powder according to the ratio that reconstitutes of specific powder and water and this, calculates in theory that this reconstitutes the amount of required water;

When the amount of reality water inlet reaches that this reconstitutes the amount of required water in theory, control unit controls to stop to reconstituting assembly water inlet.

Particularly, the amount of actual water inlet can be measured by flow sensor.

Above-mentioned control unit reconstitutes the amount of required powder according to this, and the measurer body controlling the actual powder delivery of powder dispense assembly comprises the steps:

Control unit reconstitutes the amount of required powder and each amount of joining the powder that powder mouth can fall according to this, calculates this and reconstitutes and requiredly in theory join powder number of times; Wherein, joining powder number of times is join powder mouth and the overlapping number of times of meal outlet;

When actual join powder number of times reach this reconstitute in theory required join powder number of times time, control unit controls powder dispense assembly and stops powder delivery.

Particularly, join powder number of times and can pass through sensor measurement.

Water inlet is stopped specifically comprising the steps: after above-mentioned control unit makes powder dispense assembly terminate powder delivery for the rotating speed controlling powder feeding rotor

Also for basis, this reconstitutes the amount of required water and default water velocity to control unit in theory, and in the theory of computation, this reconstitutes required flooding time;

Also for according to this reconstitutes required flooding time in theory, start to intake and predetermined interval between powder delivery and terminate powder delivery and desirable interval between intaking, in the theory of computation, this reconstitutes the powder delivery time; Intake as started and start powder delivery in latter 0.5 second, terminate powder delivery and terminate water inlet afterwards in 2 seconds; Start to intake and predetermined interval between powder delivery and terminate powder delivery and desirable interval between intaking can consider setting according to multiple parameter of the powder infusing device of reality and actual tests result, make all powder fallen from powder dispense assembly fully to be reconstituted as good;

Control unit, also for reconstituting the in theory required quantity of joining powder mouth of joining powder number of times and powder feeding rotor according to this, calculates in theory that this reconstitutes the number of turns that powder feeding rotor needs to rotate;

Control unit also for according in theory this reconstitute powder feeding rotor need rotate the number of turns and this reconstitutes the powder delivery time in theory, in the theory of computation, this reconstitutes the rotating speed of powder feeding rotor;

Control powder feeding rotor to rotate with this rotating speed.

Like this, start powder delivery after the certain hour after can making to start to intake, the certain hour terminated after powder delivery stops water inlet, and all powder fallen from powder dispense assembly can fully be reconstituted.

Further, control unit is also for controlling position when powder feeding rotor stops operating, and when powder feeding rotor is stopped operating, the shielding part of powder feeding rotor covers meal outlet.Like this, when powder feeding rotor stops operating, the shielding part of powder feeding rotor covers meal outlet, serves moistureproof effect.

Embodiment two

A kind of powder of the present invention reconstitutes system, comprising:

Above-mentioned arbitrary powder infusing device;

Input module, the amount for the powder ratio that reconstitutes of specific powder and water and needs reconstituted inputs.

Embodiment three

Powder of the present invention reconstitutes system, comprising:

Above-mentioned arbitrary powder infusing device;

First data bank, reconstitutes ratio for storage powder and water;

Mobile terminal, reconstitutes ratio for what obtain the powder of the various powders in this data bank and water with the first database communication; Also for obtain the actual powder that will reconstitute identification label and according to identification label obtain actual to reconstitute powder powder and water reconstitute ratio; Also for inputting the actual amount reconstituting required powder;

Powder infusing device also comprises communication module, for communication of mobile terminal, the actual powder of powder and the ratio that reconstitutes of water and the actual amount reconstituting required powder of will reconstituting is transferred to control unit.

Further, described control unit also reconstitutes information for recording at every turn, and wherein, the information of reconstituting includes but not limited to reconstitute the time, reconstitutes the amount of powder, the identification label of powder; Described communication module is also for will reconstitute information transmission to described mobile terminal at every turn; Described mobile terminal is also for will reconstitute information transmission to the first data bank at every turn.

Further, described mobile terminal also reconstitutes record for what formed according to the information that reconstitutes, is formed further and reconstitutes curve report.When powder as reconstituted is milk powder, mobile terminal can form the report of Infants'feeding curve according to stage seclected time, user can contrast with the feeding standard curve of this stage baby according to the report of Infants'feeding curve, judge whether the nursing of baby departs from feeding standard curve, custom is fed the need of adjustment, wherein, feeding standard curve feeds in each stage the curve that the feeding standard that sums up formed according to a large amount of baby.

Particularly, mobile terminal obtains the identification label of the actual powder that will reconstitute by the bar code scanning the external packing of the actual powder that will reconstitute.

Embodiment four

Powder of the present invention reconstitutes system, comprising:

First data bank, reconstitutes ratio for storage powder and water;

Above-mentioned arbitrary powder infusing device, powder infusing device also comprises:

Acquisition module, for obtaining the identification label of the actual powder that will reconstitute;

Communication module, for obtaining the powder of the various powders in this data bank and reconstituting ratio and transferring to control unit of water with the first database communication;

Input module, for inputting the amount needing the powder reconstituted;

Control unit also for obtain according to identification label actual to reconstitute powder powder and water reconstitute ratio.

Particularly, acquisition module obtains the identification label of the actual powder that will reconstitute by the bar code scanning the external packing of the actual powder that will reconstitute.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (31)

1. a powder dispense assembly, is characterized in that, comprising:

For holding the charging basket of powder, there is the meal outlet run through bottom it;

The powder feeding rotor that can rotate at the inner bottom surface of described charging basket, have run through its thickness join powder mouth;

Be fixed on and scrape powder-based stator in described charging basket, it to be fitted in above described powder feeding rotor and to shelter from the meal outlet of described charging basket; Described powder-based stator of scraping has the first broken powder projection of stretching out downwards;

Described powder feeding rotor when the inner bottom surface of described charging basket rotates, described in join powder mouth and meal outlet can overlapping and the described first broken powder projection with hand of rotation draw into described in join powder mouth.

2. powder dispense assembly as claimed in claim 1, it is characterized in that, the described first broken powder projection is arranged on the first side near scraping powder-based stator, wherein, described first side of scraping powder-based stator is described powder feeding rotor when the inner bottom surface of described charging basket rotates, and meets the side to described powder feeding rotor.

3. powder dispense assembly as claimed in claim 2, is characterized in that, described in scrape powder-based stator the first side there is the scraper plate be upturned.

4. powder dispense assembly as claimed in claim 3, is characterized in that, the upper surface of described powder feeding rotor is provided with the groove that can hold the described first broken powder projection;

Described powder feeding rotor is when the inner bottom surface of described charging basket rotates, and the described first broken powder projection can be positioned at described groove and slide along described groove.

5. powder dispense assembly as claimed in claim 3, it is characterized in that, described powder feeding rotor covers the inner bottom surface of described charging basket.

6. powder dispense assembly as claimed in claim 5, it is characterized in that, the powder mouth of joining of described powder feeding rotor multiplely identical joins powder mouth, and described multiple powder mouth of joining evenly arranges and eachly joins the S. A. of powder mouth away from powder feeding rotor centered by the S. A. of described powder feeding rotor.

7. powder dispense assembly as claimed in claim 5, it is characterized in that, joining outside powder mouth of described powder feeding rotor is shielding part;

When joining powder mouth and meal outlet staggers, described shielding part covers in described meal outlet.

8. the powder dispense assembly as described in as arbitrary in claim 1-7, it is characterized in that, also comprise stirring rotator, it comprises brokenly powder arm, and described broken powder arm has the first broken powder rib raised up along its bearing of trend described; Described stirring rotator can rotate and scrape above powder-based stator described in being fitted in described charging basket;

When described stirring rotator rotates, described broken powder arm can be passed through the cross-sectional plane that charging basket parallels with its inner bottom surface.

9. powder dispense assembly as claimed in claim 8, is characterized in that, described broken powder arm has the second broken powder projection of stretching out downwards.

10. powder dispense assembly as claimed in claim 9, it is characterized in that, described stirring rotator also comprises the arc being connected to brokenly powder arm end and breaks vermicelli, and described arc breaks vermicelli and has the second broken powder rib raised up along its bearing of trend.

11. powder dispense assemblies as claimed in claim 10, is characterized in that, described broken powder arm is multiple and radial is evenly arranged centered by the S. A. of described stirring rotator.

12. powder dispense assemblies as claimed in claim 11, is characterized in that, described broken powder arm with the S. A. of described stirring rotator for starting point linearly or curve extend.

13. powder dispense assemblies as claimed in claim 12, is characterized in that, each described broken powder arm has along its bearing of trend and runs through the leakage powder mouth of its thickness.

14. 1 kinds of powder infusing devices, is characterized in that, comprise the arbitrary described powder dispense assembly of claim 1-13.

15. powder infusing devices as claimed in claim 14, it is characterized in that, also comprise powder and reconstitute assembly, it comprises:

Reconstitute funnel, its top and bottom are funnel inlet and hopper outlet respectively, described in reconstitute funnel also comprise be arranged on its sidewall water can be injected the water inlet reconstituted in funnel;

The filler cap at described funnel inlet place can be covered, there is powdering inlet;

Described filler cap covers when described funnel inlet place, and described powdering inlet staggers in the projection of described hopper outlet place plane and hopper outlet;

The meal outlet of described charging basket is connected with the described powdering inlet reconstituting assembly.

16. powder infusing devices as claimed in claim 15, it is characterized in that, the described rake reconstituting funnel and comprise cup-shaped portion and be attached thereto, described funnel inlet is on the top of cup-shaped portion, described hopper outlet is in the bottom of rake, and the line of centers of described funnel inlet and the line of centers of described hopper outlet stagger;

Described filler cap covers when described funnel inlet place, and described powdering inlet is greater than to the distance of the line of centers of hopper outlet the distance that it arrives funnel inlet line of centers.

17. powder infusing devices as claimed in claim 16, is characterized in that, described water inlet is arranged in described cup-shaped portion and water inlet is greater than its distance to funnel inlet line of centers to the distance of the line of centers of hopper outlet.

18. powder infusing devices as claimed in claim 17, is characterized in that, described filler cap covers when described funnel inlet place, and described powdering inlet and water inlet stagger in the projection of described hopper outlet place plane.

19. powder infusing devices as claimed in claim 15, it is characterized in that, described filler cap covers when described funnel inlet place, and the maximum angle that described powdering inlet and water inlet are formed at each point of projection and the line of centres of funnel inlet of described funnel inlet place plane is less than or equal to 90 degree.

20. as the powder infusing device as described in arbitrary in claim 15-19, it is characterized in that, described powder reconstitutes assembly and is also included in the powder ingress pipe that stretches out at described powdering inlet place and the opening of described powder ingress pipe increases to described powdering inlet place gradually from described powder ingress pipe open end.

21. powder infusing devices as claimed in claim 20, is characterized in that, also comprise control unit;

Described control unit is used for the amount reconstituting required powder according to the ratio that reconstitutes of specific powder and water and this, the amount of the actual powder delivery of control powder dispense assembly and enter the amount of the actual water inlet reconstituting assembly;

Described control unit also starts powder delivery for controlling powder dispense assembly after the predetermined interval that powder reconstitutes after assembly starts to intake, and the rotating speed controlling powder feeding rotor make powder dispense assembly terminate powder delivery after stop water inlet.

22. powder infusing devices as claimed in claim 21, is characterized in that, described control unit reconstitutes the amount of required powder according to the ratio that reconstitutes of specific powder and water and this, and the measurer body controlling to enter the actual water inlet reconstituting assembly comprises the steps:

Described control unit reconstitutes the amount of required powder according to the ratio that reconstitutes of specific powder and water and this, calculates in theory that this reconstitutes the amount of required water;

When the amount of reality water inlet reaches that this reconstitutes the amount of required water in theory, described control unit controls to stop to reconstituting assembly water inlet.

23. powder infusing devices as claimed in claim 22, it is characterized in that, described control unit reconstitutes the amount of required powder according to this, and the measurer body controlling the actual powder delivery of powder dispense assembly comprises the steps:

Described control unit reconstitutes the amount of required powder and each amount of joining the powder that powder mouth can fall according to this, calculates this and reconstitutes and requiredly in theory join powder number of times; Wherein, joining powder number of times is join powder mouth and the overlapping number of times of meal outlet;

When actual join powder number of times reach this reconstitute in theory required join powder number of times time, described control unit controls powder dispense assembly and stops powder delivery.

24. powder infusing devices as claimed in claim 23, is characterized in that, stop water inlet specifically comprising the steps: after described control unit makes powder dispense assembly terminate powder delivery for the rotating speed controlling powder feeding rotor

Also for basis, this reconstitutes the amount of required water and default water velocity to described control unit in theory, and in the theory of computation, this reconstitutes required flooding time;

Also for according to this reconstitutes required flooding time in theory, start to intake and predetermined interval between powder delivery and terminate powder delivery and desirable interval between intaking, in the theory of computation, this reconstitutes the powder delivery time;

Described control unit, also for reconstituting the in theory required quantity of joining powder mouth of joining powder number of times and powder feeding rotor according to this, calculates in theory that this reconstitutes the number of turns that powder feeding rotor needs to rotate;

Described control unit also for according in theory this reconstitute powder feeding rotor need rotate the number of turns and this reconstitutes the powder delivery time in theory, in the theory of computation, this reconstitutes the rotating speed of powder feeding rotor;

Control powder feeding rotor to rotate with this rotating speed.

25. powder infusing devices as claimed in claim 24, is characterized in that, described control unit is also for controlling position when described powder feeding rotor stops operating, and when described powder feeding rotor is stopped operating, the shielding part of described powder feeding rotor covers described meal outlet.

26. 1 kinds of powder reconstitute system, it is characterized in that, comprising:

The arbitrary described powder infusing device of claim 21-25;

Input module, the amount for the powder ratio that reconstitutes of specific powder and water and needs reconstituted inputs.

27. 1 kinds of powder reconstitute system, it is characterized in that, comprising:

The arbitrary described powder infusing device of claim 21-25;

First data bank, reconstitutes ratio for storage powder and water;

Mobile terminal, reconstitutes ratio for what obtain the powder of the various powders in this data bank and water with the first database communication; Also for obtain the actual powder that will reconstitute identification label and according to identification label obtain actual to reconstitute powder powder and water reconstitute ratio; Also for inputting the actual amount reconstituting required powder;

Described powder infusing device also comprises communication module, for communication of mobile terminal, the actual powder of powder and the ratio that reconstitutes of water and the actual amount reconstituting required powder of will reconstituting is transferred to control unit.

28. powder as claimed in claim 27 reconstitute system, it is characterized in that, described mobile terminal obtains the identification label of the actual powder that will reconstitute by the bar code scanning the external packing of the actual powder that will reconstitute.

29. powder as described in claim 27 or 28 reconstitute system, and it is characterized in that, described control unit also reconstitutes information for recording at every turn, and wherein, the information of reconstituting includes but not limited to reconstitute the time, reconstitutes the amount of powder, the identification label of powder; Described communication module is also for will reconstitute information transmission to described mobile terminal at every turn; Described mobile terminal is also for will reconstitute information transmission to the first data bank at every turn.

30. 1 kinds of powder reconstitute system, it is characterized in that, comprising:

First data bank, reconstitutes ratio for storage powder and water;

The arbitrary described powder infusing device of claim 21-25, described powder infusing device also comprises:

Acquisition module, for obtaining the identification label of the actual powder that will reconstitute;

Communication module, for obtaining the powder of the various powders in this data bank and reconstituting ratio and transferring to control unit of water with the first database communication;

Input module, for inputting the amount needing the powder reconstituted;

Described control unit also for obtain according to identification label actual to reconstitute powder powder and water reconstitute ratio.

31. powder as claimed in claim 30 reconstitute system, it is characterized in that, acquisition module obtains the identification label of the actual powder that will reconstitute by the bar code scanning the external packing of the actual powder that will reconstitute.