CN206603625U - A kind of soy bean milk making machine - Google Patents

Abstract

The utility model is related to kitchen small household appliances, particularly a kind of soy bean milk making machine, including head and cup, and the head is placed on cup, and water level tag line is provided with the cup sidewalls, it is characterised in that：The junction sealing of the head and cup coordinates, positioned at the top of water level tag line, the anti-overflow chamber of bottom end opening is provided with the head, the cup is connected with anti-overflow chamber by bottom end opening, slurries in cup enter anti-overflow intracavitary by bottom end opening, and the total capacity of the cup is V1, and the internal volume of the anti-overflow chamber is V3, wherein, 1/8≤V3/V1≤1/2.After adopting the above technical scheme, compared to prior art, the space availability ratio in soybean milk grinder body of the present utility model is higher, and the cup of Large Copacity, which no longer occurs, can only make less amount of bean milk beverage.Meanwhile, soy bean milk making machine can realize lightening and miniaturization, also, head cleaning is more convenient, overall more attractive.

Description

A kind of soy bean milk making machine

Technical field

The utility model is related to kitchen small household appliances, particularly a kind of soy bean milk making machine.

Background technology

Main flow soybean milk maker structure is mainly made up of cup, head in the market, and head is buckled on cup.Set in head Motor is equipped with, the shaft of motor stretches out lower cover end face and stretched into water, and motor shaft ends are provided with crushing knife tool.Due to soya bean certainly The characteristic of body, soy bean milk making machine can produce substantial amounts of foam in infusion soya-bean milk, in order to avoid foam overflow, and existing soy bean milk making machine is general It is that larger anti-overflow space is reserved in the top of slurrying amount tag line in cup, and this causes cup using the larger cup of volumetric ratio Internal dischargeable capacity is smaller, and the utilization rate in space is relatively low, the volume of existing cup body of soymilkgrinder and maximum slurrying amount（Beans can be made The maximum capacity of slurry）Ratio generally all in 2.5-3, i.e., the soy bean milk making machine that existing conventional maximum slurrying amount is 1200ml-1500ml, The volume of its cup is generally all in 3000ml-3500ml.Nonetheless, in addition it is also necessary to which anti-overflow electricity is set on the head of soy bean milk making machine Pole, when slurry foam touches anti-flow electrode, stops heating, it is to avoid slurry foam spilling in time.

Cup is in the case of same cross-sectional area, its bigger depth of volume（Highly）It is bigger, the cup of existing soy bean milk making machine Depth is all in the even deeper depth of 200mm, and half of arm is almost goed deep into cup when cleaning and carried out clearly by user Wash, be inconvenient, while be difficult to observe the cleaning performance in cup when cup too deep cleaning, so when cleaning every time, all Clean, stop observation repeatedly, Consumer's Experience sense is very bad.

In addition, when the depth of cup is deeper, required rapidoprint increase, weight increase, and processing technology is more, multiple It is miscellaneous, meanwhile, difficulty of processing coefficient also increases, and percent defective is higher.In summary, when cup body of soymilkgrinder depth is deeper, it will Cause the cup high expensive of soy bean milk making machine.Existing cup body of soymilkgrinder is generally by the way of multi-drawing shaping, and cup When depth is bigger, it is necessary to drawing numbers it is also more, drawing numbers inevitably results in yield rates reduction.Therefore, beans are reduced Pulp grinder cup depth（Highly）, the reduction of material cost and process costs to cup body of soymilkgrinder can all have very big benefit.

Because the depth of existing cup body of soymilkgrinder is larger, handpiece of soybean milk machine is in order to coordinate cup and avoid head from being placed on When being worked on cup, the center of gravity of soy bean milk making machine complete machine is higher, and the Die Design of traditional soybean milk machine is all long, and mounting position of motor From handle farther out, two problems are equally existed：First, because head is longer, the cleaning area of head is larger, increases clear The difficulty washed；Second, from handle farther out, the arm of force is longer for motor, and the bigger strength of user's needs is held handle and cleaned, wrist Stress is larger, and long period of operation can cause user's wrist, arm ache.Especially for older old man user, head is again long Weight causes no small puzzlement to them really again.

In a word, existing soy bean milk making machine never has very good solution when solving the problems, such as soya-bean milk infusion on foam overflow, It is existing using increase cup volume settling mode, with people it is lightening to soy bean milk making machine, miniaturization demand generate it is larger Contradiction, and existing soy bean milk making machine has been increasingly difficult to meet the demand of people.

Utility model content

It is never very good on foam overflow when solving the problems, such as soya-bean milk infusion that the utility model is directed to existing soy bean milk making machine Solution, it is existing using increase cup volume settling mode, with people it is lightening to soy bean milk making machine, miniaturization demand produce The problem of larger contradiction.Based on this, the utility model provides a kind of soy bean milk making machine to solve the above problems.

In order to achieve the above object, the utility model is adopted the following technical scheme that：A kind of soy bean milk making machine, including head and cup Body, the head is placed on cup, and water level tag line is provided with the cup sidewalls, it is characterised in that：The head with The junction sealing of cup coordinates, and positioned at the top of water level tag line, the anti-overflow chamber of bottom end opening, institute are provided with the head State cup to connect by bottom end opening with anti-overflow chamber, the slurries in cup enter anti-overflow intracavitary by bottom end opening, the cup Total capacity is V1, and the internal volume of the anti-overflow chamber is V3, wherein, 1/8≤V3/V1≤1/2.

Further, the total capacity V1 of the cup is 400mL ~ 3000mL.

Further, the vertical height of the water level mark anti-overflow bottom of chamber end opening of line-spacing is H1, wherein, 10mm≤H1≤ 60mm。

Further, the anti-overflow chamber in handpiece structure is run through up and down, and the anti-overflow chamber has top end opening, and top is opened Provided with the cover plate for covering top end opening at mouthful, the cover plate is provided with the air-vent with atmosphere.

Further, the air-vent is multiple, and the gross area of multiple air-vents is S1, and the area of the top end opening is S, wherein, S1/S is at least above 1/10.

Further, the cover plate is articulated with head, and cover plate can rotate along hinged place.

Further, positioned at the lower section of air-vent, it is provided with and is communicated with head outside atmosphere on the side wall of the anti-overflow chamber Steam channel.

Further, the side wall of the anti-overflow chamber is made up of metal material, and the side wall to anti-overflow chamber is provided with the head The heater heated.

Further, the heater is the motor being installed in head, and the shell of motor conducts heat to anti-overflow chamber Side wall.

Further, the inner wall surface of the anti-overflow chamber is coated with non-sticking lining；

Or, anti-overflow chamber is stated in the side setting positioned at head center；

Or, the anti-overflow chamber is arranged in a ring around head center；

Or, the side wall opposed vertical planar tilt of the anti-overflow chamber is set；

Or, the bottom end opening of the anti-overflow chamber is not less than plane where cup rim of a cup；

Or, the top of outside, the anti-overflow chamber of the head is provided with the extended cavity connected with the anti-overflow chamber；

Or, the head has the face of holding of taking taken and be held in cup cup edge, and the bottom end opening of the anti-overflow chamber, which is located at, to be taken Hold face institute in the plane.

After adopting the above technical scheme, soy bean milk making machine of the present utility model utilizes little Rong by setting anti-overflow chamber on head Long-pending space hold, can obtain bigger anti-overflow space（Anti-overflow height）, in the case where cup height is constant, soy bean milk making machine exists During infusion soya-bean milk, the foam of generation is more difficult to be overflowed, also, by rationally setting the bottom end opening size of anti-overflow chamber and anti-overflow The vertical height of chamber, soy bean milk making machine of the present utility model can even remove anti-flow electrode, and then the cleaning difficulty of reduction soy bean milk making machine, The aesthetic property of handpiece of soybean milk machine is also lifted simultaneously.

Meanwhile, the foam that existing soy bean milk making machine is produced in infusion soya-bean milk presents the state that rising foam goes out, and is mainly reflected in cup The foam of body inner wall edge rises upwards along wall of cup, and the foam in cup central area can't fill up whole cup center The space in region, the foam for being rendered as wall of cup edge is higher, and the foam in the space of cup central area is relatively low.Because working as When constantly being heated to slurries infusion, the foam in cup central area is rendered as overlaying state in layer, although single Foam is lighter, and after the countless foam of multilayer is cumulative, the foam of lower floor is by the more foamy gravity squeezing action meeting in upper strata Constantly be extruded brokenly bubble, upper foam does not have after the strength of lower floor's foam supports, can cause the foam of cup central area without The space of the full whole cup central area of method filling, at the same time, because foam has adhesion, continuous infusion heating slurries When, foam is covered on wall of cup, and can't have the squeezing action of gravity to the foam of lower floor, and which forms along wall of cup The foam of rising is higher, and the relatively low phenomenon of the foam height in the space of cup central area.The phenomenon causes existing Conventional soy bean milk making machine, must be requested that cup height（Depth）Larger, it is reliable anti-overflow to solve to realize larger anti-overflow height The problem of, and in fact, most anti-overflow spaces of cup central area are in waste state, this is also existing soy bean milk making machine The not high main cause of cup capacity utilization.And the junction sealing of head of the present utility model and cup coordinates, and in machine Anti-overflow chamber is provided with head, the anti-overflow height above cup and anti-overflow space is accordingly increased, that is, works as cup height（Depth）Drop During the reduction of the low anti-overflow height caused in cup, the height of anti-overflow chamber that can be in head and the space of anti-overflow intracavitary are carried out Compensation, therefore, compared to existing conventional cup body of soymilkgrinder, cup height of the present utility model（Depth）Can greatly it subtract Small, the utilization rate in the whole cup space above cup water level tag line is higher, and the cup of Large Copacity no longer occurs and can only make Make less amount of bean milk beverage.

Also, soy bean milk making machine of the present utility model is during infusion, anon-normal is to the foam that is produced in cup below anti-overflow chamber Before the space of anti-overflow intracavitary is entered, foam can first on be rushed to the bottom of head, head bottom can be first extruded foam Brokenly bubble, foam is reduced under the squeezing action of head bottom while be manoeuvred into anti-overflow intracavitary, forms first time Physical impact defoaming process, meanwhile, after extruding of the air by mutual foam in foam, gas is in compressive state, works as bubble When foam reaches the bottom end opening of anti-overflow chamber, because bottom end opening is the sole inlet that connects anti-overflow cavity space, and entrance is narrow and small, Foam can be presented a kind of state of accelerated motion by bottom end opening and enter anti-overflow intracavitary, because the air in foam is in compression State, when foam enters anti-overflow intracavitary, broad space can cause the air of compressive state to expand, so that foam Generation is quick-fried strong, so as to form secondary material brokenly bubble process, final most foam is wholly absent in anti-overflow intracavitary.

The ratio of the maximum slurrying amount of the utility model cup body of soymilkgrinder and the total capacity of cup, comes compared to prior art Say and want greatly many, the utilization rate in cup space is greatly improved, either the simple operation of user, or production Cost, the efficiency of manufacture are all significantly improved.Based on cup height（Depth）Reduction, with the utility model cup coordinate machine The total height of head can also do the reduction adjustment of adaptability, and especially head stretches into the height of glass internal body portion（Depth）, such head The comfort level and convenience lifted can also be greatly improved, also, the center of gravity of head also can further on the lower, pulping process In, more difficult phenomenon of tumbling.Add in addition, soy bean milk making machine of the present utility model can also take leave of the high cup of existing soy bean milk making machine The single moulding of lid formula head, based on the setting of the anti-overflow chamber of head, head moulding and head and cup height dimension scale Become more diversity, also enrich the selection of consumer.

In addition, the utility model is closed by reasonably designing the internal volume V3 and cup total capacity V1 of anti-overflow chamber ratio System, it is ensured that anti-overflow chamber had both had the function of anti-overflow froth breaking, and head overall appearance can be realized again, is not in space waste Problem.

Brief description of the drawings

The utility model is described in further detail below in conjunction with the accompanying drawings：

Fig. 1 is the structural representation of the utility model embodiment one；

Fig. 2 is Fig. 1 axonometric drawing；

Fig. 3 is the structural representation of the utility model embodiment two；

Fig. 4 is the enlarged diagram at A in Fig. 3；

Fig. 5 is the structural representation of the utility model embodiment three；

Fig. 6 is the structural representation of the utility model example IV；

Fig. 7 is the structural representation of the utility model embodiment five；

Fig. 8 is the enlarged diagram at B in Fig. 7；

Fig. 9 is the enlarged diagram at C in Fig. 7；

Figure 10 is second of mounting structure schematic diagram of sealing ring and head；

Figure 11 is the third mounting structure schematic diagram of sealing ring and head；

Figure 12 is a kind of structural representation of sealing ring；

Figure 13 is the structural representation of the utility model embodiment six；

Figure 14 is the structural representation of the utility model embodiment seven；

Figure 15 is the structural representation of the utility model embodiment eight；

Figure 16 is the structural representation of the utility model embodiment nine；

Figure 17 is the upward view of head in Figure 16；

Figure 18 is the structural representation of the utility model embodiment ten；

Figure 19 is the enlarged diagram at D in Figure 18.

Embodiment

Embodiment one：

As shown in Figure 1 and Figure 2, it is the structural representation of the first embodiment of the utility model.A kind of soy bean milk making machine, including machine First 1 and cup 2, the head is placed on cup, is provided with water level tag line 20 on the cup sidewalls, the head 1 with The junction sealing of cup 2 coordinates, positioned at the top of water level tag line 20, and the anti-of bottom end opening 101 is provided with the head 1 Overflow chamber 10, and the cup 2 is connected with anti-overflow chamber 10 by bottom end opening 101, and the slurries in cup enter anti-by bottom end opening 101 Overflow in chamber 10.

In the present embodiment, the head 1, which has to take to be held in cup cup edge, takes the face of holding 11, and the bottom of the anti-overflow chamber is opened Mouth 101, which is located at, takes the institute of the face of holding 11 in the plane.The face of holding 11 of taking has the work for stopping, extruding froth breaking to the foam in cup With.

The soy bean milk making machine of the present embodiment on head by setting anti-overflow chamber, using the space hold of small volume, can obtain Bigger anti-overflow space（Anti-overflow height）, in the case where cup height is constant, soy bean milk making machine is in infusion soya-bean milk, the foam of generation It is more difficult to overflow, also, by rationally setting the bottom end opening size of anti-overflow chamber and the vertical height of anti-overflow chamber, the present embodiment Soy bean milk making machine even can remove anti-flow electrode, and then the cleaning difficulty of soy bean milk making machine is reduced, while also lifting handpiece of soybean milk machine Aesthetic property.

Meanwhile, the foam that existing soy bean milk making machine is produced in infusion soya-bean milk presents the state that rising foam goes out, and is mainly reflected in cup The foam of body inner wall edge rises upwards along wall of cup, and the foam in cup central area can't fill up whole cup center The space in region, the foam for being rendered as wall of cup edge is higher, and the foam in the space of cup central area is relatively low.Because working as When constantly being heated to slurries infusion, the foam in cup central area is rendered as overlaying state in layer, although single Foam is lighter, and after the countless foam of multilayer is cumulative, the foam of lower floor is by the more foamy gravity squeezing action meeting in upper strata Constantly be extruded brokenly bubble, upper foam does not have after the strength of lower floor's foam supports, can cause the foam of cup central area without The space of the full whole cup central area of method filling, at the same time, because foam has adhesion, continuous infusion heating slurries When, foam is covered on wall of cup, and is acted on by power is covered, and upper foam can't have gravity to the foam of lower floor Squeezing action, which forms the foam risen along wall of cup is higher, and foam height in the space of cup central area compared with Low phenomenon.The phenomenon causes existing conventional soy bean milk making machine, must be requested that cup height（Depth）It is larger, it can realize larger Anti-overflow height to solve reliable anti-overflow the problem of, and in fact, most anti-overflow spaces of cup central area are in Waste state, this is also the not high main cause of existing cup body of soymilkgrinder capacity utilization.And head of the present utility model and cup The junction sealing of body coordinates, and is provided with anti-overflow chamber on head, accordingly increases anti-overflow height above cup and anti-overflow Space, that is, work as cup height（Depth）When reduction causes the reduction of anti-overflow height in cup, anti-overflow chamber that can be in head Height and the space of anti-overflow intracavitary compensate, therefore, compared to existing conventional cup body of soymilkgrinder, the cup of the present embodiment Highly（Depth）Can greatly it reduce, the utilization rate in the whole cup space above cup waterline is higher, no longer occurs The cup of Large Copacity can only make less amount of bean milk beverage.

Also, the soy bean milk making machine of the present embodiment is during infusion, anon-normal exists to the foam produced in cup below anti-overflow chamber Into before the space of anti-overflow intracavitary, foam can first on be rushed to the bottom of head, it is broken that head bottom can first carry out extruding to foam Bubble, foam is reduced under the squeezing action of head bottom while be manoeuvred into anti-overflow intracavitary, forms the thing of first time Reason extruding defoaming process, meanwhile, after extruding of the air by mutual foam in foam, gas is in compressive state, works as foam When reaching the bottom end opening of anti-overflow chamber, because bottom end opening is the sole inlet that connects anti-overflow cavity space, and entrance is narrow and small, bubble Foam can be presented a kind of state of accelerated motion by bottom end opening and enter anti-overflow intracavitary, because the air in foam is in compression shape State, when foam enters anti-overflow intracavitary, broad space can cause the air of compressive state to expand, so that foam is sent out Life is quick-fried strong, forms secondary material brokenly bubble process, and final most foam is wholly absent in anti-overflow intracavitary.

Based on this, the maximum slurrying amount V2 of the cup body of soymilkgrinder of the present embodiment mark and the total capacity V1 of cup ratio, Compared to greatly many are wanted for prior art, the utilization rate in cup space is greatly improved, either the behaviour of user Make convenience, or cost, the efficiency manufactured are obviously improved.Based on cup height（Depth）Reduction, with this reality The reduction adjustment of adaptability can also be done by applying a total height of head of cup cooperation, and especially head stretches into the height of glass internal body portion （Depth）, the comfort level and convenience that such head is lifted can also be greatly improved, also, the center of gravity of head also can be further On the lower, in pulping process, more difficult phenomenon of tumbling.In addition, the soy bean milk making machine of this implementation can also take leave of existing beans The high cup of pulp grinder is capped the single moulding of minor head, based on the setting of the anti-overflow chamber of head, head moulding and head and cup Height dimension ratio becomes more diversity, also enriches the selection of consumer.

The present inventor has found according to research, for the present embodiment, the total capacity of cup maximum slurrying amount V2 and cup V1 ratio requirement is between 0.5 ~ 0.9.Because under the structure of the present embodiment, if V2/V1 is less than 0.5, highest liquid level away from It is inevitable from the bottom end opening of anti-overflow chamber farther out, in heating process, because anti-overflow space is larger, foam has longer heat exchange Journey, foam can be radiated during rising, so as to cause, and foam does not increase anti-overflow intracavitary, if also, V2/V1 be less than 0.5, then the cup body structure of the present embodiment and cup of the prior art still can have cup space effective without too big difference The problem of utilization rate is relatively low.Meanwhile, under the structure of the present embodiment, if V2/V1 is more than 0.9, highest liquid level is apart from anti-overflow chamber Bottom end opening it is inevitable nearer, somewhat heated, foam will pour in anti-overflow intracavitary, easily cause spilling risk, compared to The previous case, when V2/V1 is more than 0.9, main reason is that the space above water level tag line is smaller, foam carries out heat exchange Process with radiating is too short, and foam does not carry out self-radiating and enters anti-overflow intracavitary, further, since water can be deposited in heating process The problem of volumetric expansion, if V2/V1 is more than 0.9 and during close to 1, the slurries of fluidized state easily fill up whole cup, due to The handpiece of soybean milk machine of the present embodiment coordinates with cup for sealing, after the completion of slurrying, is overflow if easily causing slurries when opening head Go out cup, not only easily scald consumer, also create the waste of drink and the pollution of environment.For the present embodiment, cup The internal diameter of body is preferably suitable with the cup internal diameter of soy bean milk making machine in the prior art.The total capacity V1 of cup be generally 400mL ~ 3000mL, in addition, the present embodiment V2/V1 ratio is preferably 0.6 ~ 0.8, such as：0.65、0.7、0.72、0.75、0.78、0.8 Deng.

Certainly, for the present embodiment, the internal volume V3 of anti-overflow chamber is also a material impact parameter.The present inventor's root Find according to the study, the internal volume V3 of anti-overflow chamber is associated with the total capacity V1 of cup there is also certain.Come for the present embodiment Say, it is desirable to 1/8≤V3/V1≤1/2.Because the effect of anti-overflow chamber is to accommodate more foams, allow foam in anti-overflow intracavitary Radiating brokenly bubble is carried out, to reach the purpose of froth breaking, so as to which cup height is reduced.The present inventor by study find, if When V3/V1 is less than 1/8, anti-overflow chamber will seem excessively narrow and small, it is impossible to the design requirement that anti-overflow chamber accommodates foam be met, so that foam Heat exchange and radiating brokenly bubble can not be carried out in anti-overflow intracavitary, also, when anti-overflow chamber and during ft connection, it is also possible to can cause into The foam entered to anti-overflow intracavitary overflows from anti-overflow intracavitary, there is the potential safety hazard for scalding consumer.In addition, anti-overflow chamber is nor more Big better, because the volume size of head is limited, head is bigger, not only causes head overweight, and not attractive in appearance enough, therefore, phase The volume size for the anti-overflow chamber that should be arranged in head is also limited.Meanwhile, the present inventor also found by research, if V3/ When V1 is more than 1/2, in order to set anti-overflow chamber on head, then head will seem excessively heavy, also, the present inventor passes through research It was found that, when setting anti-overflow chamber on head, anti-overflow chamber simultaneously need not be too big, and excessive anti-overflow chamber easily causes the waste in space. Especially when V3/V1 is more than 1/2, the foam in cup will not fill completely whole anti-overflow chamber, and this will also run counter to the present inventor and subtract The goal of the invention of small space waste.

Certainly, for the utility model, the anti-overflow height of the water level tag line to anti-overflow chamber tip edge is Ha, And it is required that 40mm≤Ha≤130mm, because, if Ha is less than the space above 40mm, water level tag line and the sky of anti-overflow chamber Between it is inevitable smaller, reduce after cup height, the anti-overflow chamber volume formed on head can not accommodate the foam of slurries formation completely, this Sample will result in the phenomenon that slurries can overflow from anti-overflow intracavitary.At the same time, if Ha is more than 130mm, although can ensure anti-overflow Chamber has enough space foams, but simultaneously, is converted, be formed at anti-overflow on head by the handpiece size of prior art Cavity space is also enough to make head seem excessively heavy, too fat to move, also, during more than the scope, anti-overflow chamber also can Existential Space waste The problem of, because the foam in cup will not fill up the space of whole anti-overflow intracavitary substantially.Therefore, come for the utility model Say, typically require Ha=60mm ~ 100mm, wherein preferably 75mm.It should be noted that for the present embodiment, water level stake Know line to start to calculate for the upper end-face edge of water level tag line to the anti-overflow height on anti-overflow chamber top, if water level tag line has a plurality of water During bit line, start to calculate with the upper end-face edge of maximum water level.If also, anti-overflow chamber top it is curved when, with arc minimum point Vertical distance to waterline is calculated.

Also, for the present embodiment, the bottom end opening of the anti-overflow chamber on head can be both stretched into cup, can also Positioned at the top of rim of a cup.The present inventor has found that water level identifies the vertical height of the bottom end opening of the anti-overflow chamber of linear distance according to research H1 also has certain requirement.H1=10mm ~ 60mm is required in the present embodiment, it is identical with previous reasons, if water level mark linear distance is prevented The bottom end opening of excessive chamber is nearer, i.e., when less than 10mm, the space in cup above water level tag line is limited, and foam does not have enough Heat exchange and radiating enter anti-overflow intracavitary, easily cause spilling risk, if special bottom end opening is when extending into cup, Bottom end opening is relatively low, when foam did not had bottom end opening, and the foam on the outside of bottom end opening will be unable to enter back into anti-overflow intracavitary, this When, anti-overflow chamber will not have the purpose in anti-overflow space, is also easy to cause head excessive by force with slurrying intraventricular pressure that cup is surrounded, leads Head is caused to be not easy to remove from cup, or head causes phenomenon of whitewashing when removing, and easily scalds consumer.If in addition, H1 is big In 60, water level identifies the distant of the anti-overflow bottom of chamber end opening of linear distance, in heating process, because anti-overflow space is larger, foam With longer heat exchanging process, foam can be radiated during rising, so as to cause, and foam does not increase anti-overflow chamber Interior, so, anti-overflow chamber does not have the purpose in anti-overflow space yet.For the present embodiment, H1 is preferably 20mm ~ 40mm.

Based on this, if the timings of Ha mono-, H1 and anti-overflow chamber height Hb（Ha-H1）, actually exist certain association Relation.The present inventor is had found by studying, if H1 is smaller, and the height Hb needs of anti-overflow chamber are larger, to ensure anti-overflow height Ha is enough anti-overflow, is not in spilling risk, but now, Hb can not be excessive, because to easily cause very much head greatly too fat to move by Hb, Outward appearance is not attractive in appearance enough, and Hb is generally less than 120mm and is advisable.Meanwhile, if H1 is larger, the height Hb of corresponding anti-overflow chamber can be appropriate Reduce, because H1 can accordingly supplement a part of anti-overflow height of anti-overflow chamber, certainly, and the height Hb of anti-overflow chamber can not be too small, The too small slurries that easily cause are because thermal inertia is acted on and is overflowed from anti-overflow intracavitary, and Hb is typically at least above 30mm.Therefore, for this reality Apply for example, typically require 30mm≤Hb≤120mm.

In addition, for the present embodiment, the total depth of cup inner chamber is shallow for existing cup body of soymilkgrinder, Meanwhile, anti-overflow chamber is provided with head, and the height Hb of anti-overflow chamber is generally 30mm ~ 120mm, relative to the soya-bean milk of prior art Will thickness for machine head（Head thickness is thickness of the cup edge top head upper cover edge to head top surface, not comprising head The height of upper setting handle）.Therefore, for the present embodiment, the thickness of head（Equivalent to the height Hb of anti-overflow chamber）With cup The height of body（Equivalent to the depth H c of cup inner chamber）The ratio between, for prior art, it is desirable to be 1/5 ~ 1/2.If Hb/Hc More than 1/2, then the height of handpiece of soybean milk machine and cup, which there will be, is discord, and overall soy bean milk making machine aesthetic feeling is poor.Equally, if Hb/Hc During less than 1/5, then the thickness of head is much smaller relative to cup thickness, now, under corresponding cup capacity, anti-on head Chamber height of overflowing and space possibly can not meet the froth breaking of foam and the anti-overflow effect of soy bean milk making machine, have in the presence of the risk overflowed.

It should be noted that slurry foam, foam, gas of the slurries described in the present embodiment comprising slurry liquid and slurry surface Bubble etc..As shown in Fig. 2 being that anti-overflow chamber in Fig. 1 axonometric drawing, the present embodiment is connected with the outside atmosphere of head 1, it is in run through machine First 1 structure, and be integrally formed with head 1.The anti-overflow top of chamber has to be provided with top end opening 102, the top end opening 102 The cover plate 103 of top end opening 102 is covered, the cover plate 103 is to be gone back in movable structure, and the cover plate 103 with respect to head 1 Provided with the air-vent 104 with atmosphere, in addition, the cover plate 103 is articulated with head by hinge 105, and cover plate 103 can Rotate, lift for convenience under cover plate 103, this structure, the top of cover plate 103 may be provided for carrying about 105 along hinge Play the pulling part 1039 of cover plate 103.

Air-vent described in the present embodiment is multiple, and the gross area of multiple air-vents is S1, the area of the top end opening For S, wherein, S1/S requirements are at least above 1/10.Because into anti-overflow intracavitary foam due to gas expansion can occur it is quick-fried strong, and If the gross area of air-vent is too small, especially when S1/S is less than 1/10, quick-fried strong foam gas will be unable to timely to discharge anti- Overflow outside chamber, so that the pressure of anti-overflow intracavitary will be caused to increase, being directed at the foam below anti-overflow chamber can not be further continued for entering Anti-overflow intracavitary.In addition, the gross area of air-vent is too small, will also extraneous air and the contact surface of foam progress heat exchange be reduced Product, so as to easily occur overflowing risk.

For the present embodiment, the anti-overflow chamber is in the side setting positioned at head center, certainly, the anti-overflow chamber Can in a ring it be arranged around head center, also, anti-overflow chamber can be multiple be not limited to the present embodiment one.Because, The foam risen along wall of cup is high with respect to the foam height of cup central area, and therefore, the foam risen along wall of cup will be prior to cup The foam of body central area enters anti-overflow chamber, and the foam of cup central area is relatively more, and the bubble of cup central area Foam needs to climb to anti-overflow intracavitary along the outer wall of head, constantly can be broken during climbing by the extruding of head outer wall Bubble, anti-overflow chamber is in the anti-overflow effect of froth breaking that this set structure of head is more beneficial for foam.

Also, in the present embodiment, the madial wall of anti-overflow chamber is in vertical state.Certainly, the madial wall of anti-overflow chamber can also phase Perpendicular is obliquely installed.If opposed vertical plane tilts down setting, foam when rising positioned at anti-overflow intracavitary, due to Anti-overflow chamber inner sidewall is tilted, and the space of anti-overflow intracavitary is gradually reduced, can have mutual squeezing action between foam, deposit from bottom to top In the possibility of continuous froth breaking.Equally, if the madial wall opposed vertical plane of anti-overflow chamber is inclined upwardly during setting, the sky of anti-overflow intracavitary Between gradually increase from bottom to top, also, anti-overflow chamber is connected with outside atmosphere, after the increase of space, the effect enhancing of foam radiating, when Foam to the cold after, continuous brokenly bubble also occurs in foam.Therefore, for the present embodiment, if the madial wall of anti-overflow chamber is inclined State, the anti-overflow effect of froth breaking can be more preferable.

For the present embodiment, the bottom end opening of anti-overflow chamber is preferably not below plane where cup rim of a cup, to prevent bubble Foam did not had bottom end opening, and occurred the phenomenon that can not uncap when causing to uncap, or, the foam outside bottom end opening cannot be introduced into anti- Excessive intracavitary.

It should be noted that the selection of the conversion and parameter for the present embodiment said structure is readily applicable to this practicality New other embodiments.

Embodiment two：

As shown in Figure 3, Figure 4, it is the structural representation of second of embodiment of the utility model.The present embodiment and embodiment one Difference is：Cover plate in the present embodiment is that its bottom has with the overflow preventing lid 1030 that slurries are carried out with anti-overflow froth breaking To the poly- liquid portion of the anti-overflow internal projection of chamber 10, wherein, the poly- liquid portion is from the edge of overflow preventing lid 1030 to the center of overflow preventing lid 1030 The gradual change projection 1031 of formation, also, the top end opening edge of anti-overflow chamber 10 is provided with the support level for supporting overflow preventing lid 1030 1021, the overflow preventing lid 1030, which is taken, to be held on support level 1021, in addition, being additionally provided with and machine on the side wall of anti-overflow chamber 10 The steam channel 106 that head outside atmosphere is communicated, the steam channel 106 can be used for evacuation some vapor and pass through steam channel 106 Discharge outside anti-overflow chamber, can so reduce the risk of user's scald.

Overflow preventing lid has the anti-overflow effect of froth breaking under this structure, and when foam rises to overflow preventing lid, overflow preventing lid can be right The foam of rising is stopped and extruded, and so as to which part foam is crushed, reaches effect of breaking bubble, meanwhile, overflow preventing lid due to With atmosphere, its upper surface is colder, can condense out when the thermal foam or vapours of anti-overflow intracavitary run into cold overflow preventing lid cold Solidifying water, and because water has stickiness, can cover on the bottom wall of overflow preventing lid.Under this structure, due to overflow preventing lid bottom also Conflux portion is provided with, the conflux portion has to gather together to form the globule by the condensed water of steam condensation, when the condensed water of aggregation When weight is more than its stickiness power, the globule will be dripped to anti-overflow intracavitary, form water droplet phenomenon, and water droplet under gravity will Accelerate to impact formation of foam, so as to reach the purpose for breaking up foam, realize the effect of froth breaking.It should be noted that conflux portion Structure essentially consist in form difference in height by the effect of liquid accumulation.Therefore, the structure in conflux portion is except disclosed in the present embodiment Gradual change is raised, can also also have other structures, such as can be the multiple salient points for being arranged at overflow preventing lid bottom.Certainly, it is anti-overflow When base portion is planar structure, impact foam can be also realized when producing water droplet, the purpose of froth breaking is reached, still, anti-overflow Base portion is more beneficial for the formation of water droplet when setting conflux portion.

Certainly, for the present embodiment, anti-flow electrode can also be set, further to lift soya-bean milk in anti-overflow cavity space The anti-spilled risk of machine.Also, anti-flow electrode can be even arranged in conflux portion, the flushing in favor of water droplet to anti-flow electrode, Prevent that anti-flow electrode from sticking together phenomenon.It should be noted that the conversion for the present embodiment said structure is readily applicable to Other embodiments of the present utility model.

Embodiment three：

As shown in figure 5, being the structural representation of the third embodiment of the utility model.The present embodiment is different from embodiment one Part is：In the present embodiment, the head include head body 12 and with the head body 12 be detachably connected it is anti-overflow Component 13, the anti-overflow chamber 10 is arranged on the anti-overflow component 13, also, positioned at anti-overflow component 13 top be additionally provided with Extended cavity 140 is formed with the extension 14 that the anti-overflow top end opening 102 of chamber 10 is connected, the extension 14 with anti-overflow chamber 10 to connect It is logical.

In the present embodiment, anti-overflow component and head body releasable connection with anti-overflow chamber can facilitate the clear of anti-overflow chamber Wash.Also, extended cavity is the supplement to anti-overflow chamber, can be prevented in pulping process, because anti-overflow chamber volume not enough causes to overflow The generation of phenomenon is starched, the potential safety hazard for scalding consumer greatly reduces.For the present embodiment, extended cavity and anti-overflow chamber Both it can dismantle, can also be integrally formed.Also, extended cavity can also as soy bean milk making machine reservation function storage cavity.

It should be noted that for the present embodiment, the anti-overflow chamber is being formed in anti-overflow component.Certainly, Anti-overflow chamber can also be surrounded and be formed by the outer wall of anti-overflow component and the outer wall of head body.For the change of the present embodiment said structure Change and be readily applicable to other embodiments of the present utility model.

Example IV：

As shown in fig. 6, being the structural representation of the 4th kind of embodiment of the utility model.The present embodiment is different from embodiment one Part is：In the present embodiment, the anti-overflow chamber side wall 107 is made up of metal material, is provided with the head to anti-overflow chamber The heater that side wall 107 is heated, the heater is the motor 3 being installed in head, and the shell of motor is close to anti- Overflow on the outside of side wall 107 of chamber, after motor 3 runs at high speed generation heat, gold can be conducted heat to by the shell of motor The anti-overflow chamber side wall 107 of category.Meanwhile, it is also wrapped on non-sticking lining 108 positioned at the inside sidewalls of anti-overflow chamber.

In the present embodiment, motor conducts heat as heater to the side wall of anti-overflow chamber so that the temperature of anti-overflow intracavitary Rise, after foam enters anti-overflow intracavitary and the indirectly heat by motor, the gas in foam can be expanded, so as to go out The phenomenon of existing lather collapse, realizes the anti-overflow effect of the good froth breaking of anti-overflow chamber.Also, do not glued in the inside sidewalls cladding of anti-overflow chamber Coating is more beneficial for the cleaning of anti-overflow chamber, can make it that the anti-overflow chamber in smaller space will not remaining residue.Certainly, for this implementation For example, heater can also be that can produce the electric elements of heat with low power heating tube or others.

It should be noted that being readily applicable to other implementations of the present utility model for the said structure of the present embodiment Example.

Embodiment five：

It is the structural representation of the 5th kind of embodiment of the utility model as shown in Fig. 7, Fig. 8, Fig. 9.A kind of soy bean milk making machine, bag Head 1 and cup 2 are included, the head 1 is placed on cup 2, water level tag line 20 is provided with the side wall of cup 2, it is described The junction of head 1 and cup 2 is provided with the sealing ring 4 of sealing rim of a cup, positioned at the top of water level tag line 20, the head 1 On be provided with the anti-overflow chamber 10 of bottom end opening 101, the cup 2 is connected with anti-overflow chamber 10 by bottom end opening 101, in cup 2 Slurries by bottom end opening 101 enter anti-overflow chamber 10 in, the sealing ring 4 have to the internal projection of cup 2 resistive portion 41, it is described Resistive portion 41 is around the inner surface setting of cup 2, and the resistive portion 41 is located at the lower section of bottom end opening 101, and higher than water level stake Know line 20.

In the present embodiment, the resistive portion 41 is close to the inner surface of cup 2 and extended downwardly, and is provided with the head 1 Lower coupler 6 is set on coupler 5, the cup 2, and the upper and lower coupler couples for vertical eye-splice, on upper coupler 5 In the slotting spring 61 of the lower coupler 6 of the insertion of contact pin 51.

For the present embodiment, sealing ring is an elastomeric element, the mating surface for sealing head and cup.It is same with this When, the resistive portion of oriented cup internal projection is set on sealing ring, when motor drives Disintegrating knife to do high speed rotary motion, slurries Disintegrating knife is followed to do centrifugal motion, and slurries rise upwards along cup inwall, and slurry surface forms similar trough curve, And resistive portion is arranged at the top of water level tag line, it can downwards rebound, change behind the lower surface of resistive portion when slurries are touched Slurries after the upward movement tendency of slurries, and bounce-back can spray in the presence of bounce and gravity to Disintegrating knife center Penetrate, so as to form turbulence effect, the collision probability of material and Disintegrating knife in slurries further increases.Also, due to choked flow The presence in portion, is also greatly reduced the path of slurry reflux, substantially reduces the material pulverized time, realizes soy bean milk making machine Quickly preparing cement paste.

At the same time, resistive portion is located at the lower section of bottom end opening, and when slurries are soaring along cup inwall, resistive portion can hinder Only slurries enter directly into anti-overflow intracavitary, to prevent the slurries risen upwards from entering after anti-overflow chamber, will be anti-in the effect of inertia force The foam for intracavitary of overflowing releases anti-overflow chamber, so as to form the phenomenon of spilling, there is potential safety hazard.Also, because resistive portion is to upward Soaring slurries stop, can also greatly reduce Disintegrating knife and the empty probability beaten occur.

For the present embodiment, the height that the resistive portion is goed deep into cup is H2, and during the coupling of upper and lower coupler, The coupler distance of the contact pin and slotting spring is H3, wherein, it is desirable to H2 ＞ H3.Because, when contact pin is separated with slotting spring, i.e., upper, Lower coupler power-off, if H2 is less than H3, occurs, head is separated with cup, but upper and lower coupler is still in "on" position, There is potential safety hazard.Therefore, in order to prevent consumer from lifting head suddenly in normal pulping process, and electric component does not break yet Electricity, causes security incident, for the present embodiment, and H2 must require to be more than H3.

In addition, in the present embodiment, the distance of lower surface to the water level tag line of the resistive portion is highly H4, foregoing to have chatted Stating resistive portion, there are stop slurries to rise and be oriented to the effect of backflow, if H4 is too small, and resistive portion stops that the effect of slurries will be inadequate Substantially, also, it is possible to be directed across resistive portion along the slurries that cup rises upwards and enters anti-overflow intracavitary.The present inventor according to Research finds that H4 at least requires to be more than 10mm, can ensure that resistive portion effectively stops that slurries are soaring upwards and are directly entered anti- Excessive intracavitary.

It should be noted that for the present embodiment, resistive portion is located at below the bottom end opening of anti-overflow chamber, but is not straight Connect and block bottom end opening, if resistive portion blocks bottom end opening completely, foam can be caused to cannot be introduced into anti-overflow intracavitary, run counter to this The original design original intention of inventor.For the present embodiment, sealing ring is silica gel part, can be noted by directly gluing or one The form of modeling is integrally formed with head.

Certainly, for sealing ring and the mounting structure of head, there can also be a variety of deformations.

Such as, as shown in Figure 10, the installation of extension in oriented cup is set on the head 1 positioned at the inner side of resistive portion 41 Portion 15, and the outside of installation portion 15 is provided with neck 151, the resistive portion 41 and is provided with the grab corresponding with neck 151 411, the sealing ring is installed on installation portion 15, and resistive portion 41 is fixedly clamped by the inwall of installation portion 15 and cup 2.Its In, the lower surface of resistive portion 41 is the cambered surface being recessed upwards, and the cambered surface is conducive to slurries being directed to the center of Disintegrating knife.

Also such as, as shown in figure 11, the sealing ring 4 includes skeleton fixture 42 and the silicon for wrapping up skeleton fixture 42 Glue part 43, in head 1, skeleton fixture 42 is fixedly connected by screw 7 through head 1 with head 1 so that sealing ring 4 is consolidated Due on head, wherein, resistive portion is formed after silica gel part wrapping frame fixture, and resistive portion is close to the inner surface of cup 2, To seal the mating surface of head and cup.

As shown in figure 12, be a kind of structure of sealing ring, have on the outside of the resistive portion of the sealing ring one or one or more Be close to the sealing ring muscle 44 of cup inner surface, also, be provided with the lower surface of resistive portion 41 one or one or more along cup The flow-disturbing rib 45 that internal surface is extended downwardly, and multiple flowing holes 450 are additionally provided with flow-disturbing rib 45.In the structure, Sealing ring muscle is used to strengthen the mating surface of sealing head and cup, and the effect of flow-disturbing rib has the effect of auxiliary flow-disturbing, class Like setting flow-interfering bar on cup, but the flow-disturbing rib is integrally formed with sealing ring, and sealing ring can be dismantled after slurrying is complete It is more convenient in cleaning, operation.Meanwhile, set flowing hole to reduce the impulsive force of flow-disturbing rib on flow-disturbing rib, because, Flow-disturbing rib is that silica gel material is made with sealing ring, and hardness is relatively weak, sets flowing hole to be conducive to drainage pressure, prevents from disturbing Flow rib and occur violent swing.Certainly, for this structure, flow-disturbing rib can also with the of a relatively high material of hardness with it is close Seal ring integrated injection molding.

It should be noted that the selection of the deformation and parameter for the present embodiment said structure is readily applicable to this practicality New other embodiments.

Embodiment six：

As shown in figure 13, it is the structural representation of the 6th kind of embodiment of the utility model.A kind of soy bean milk making machine, including head 1, Cup 2 and control unit 8, the head 1 are placed on cup 2, and water level tag line 20, institute are provided with the side wall of cup 2 The junction sealing for stating head 1 and cup 2 coordinates, and is provided with bottom positioned at the top of water level tag line 20, on the head 1 and opens The anti-overflow chamber 10 of mouth, the cup 2 is connected with anti-overflow chamber 10 by bottom end opening, and the slurries in cup 2 are entered by bottom end opening In anti-overflow chamber 10, the anti-overflow detection pole 9 that slurries are carried out with anti-overflow detection, the anti-overflow detection pole are provided with the anti-overflow chamber 10 9 electrically connect with control unit 8.

In the present embodiment, control unit is arranged inside head, and the interior of anti-overflow chamber is fixed in anti-overflow detection pole in inverted L-shaped On wall, and electrically connected with control unit.The structure that previous embodiment has described the anti-overflow chamber of the utility model has anti-overflow froth breaking Effect, still, so that the reliability and accurate controlling of the structure soy bean milk making machine are further lifted, based on this, just in above-mentioned implementation On the basis of example, anti-overflow detection pole is installed in anti-overflow intracavitary, the main function of anti-overflow detection pole is used to detect slurries signal, works as slurry When liquid touches the test side of anti-overflow detection pole, control unit control heater stop is added to the slurries in soy bean milk making machine Heat, during so as to be prevented effectively from slurries into anti-overflow intracavitary, because the effect of thermal inertia can be further from the top of anti-overflow chamber End opening overflows, the risk for causing consumer to scald.Therefore, in order to ensure with enough anti-overflow spaces, anti-overflow detection pole End（Test section）At least require to be more than 30mm apart from the height H5 of water level tag line.Because H5 is too small, corresponding anti-overflow space compared with Small, when heating slurries, slurries are raised rapidly, due to anti-overflow detection extremely electrical detecting element, with certain time delay, work as slurry When liquid touches the test side of anti-overflow detection pole, anti-overflow detection pole can not pull up a horse feedback signal to control unit control heating dress Stopping heating being put, therefore, slurries can spray from the top end opening of anti-overflow chamber in the presence of thermal inertia power, be formed and overflow splash Phenomenon.At the same time, H5 is too small, and the heat-dissipating space of corresponding foam is smaller, than the poised state for being relatively inaccessible to radiating froth breaking.It is based on This, the present inventor is had found by studying, and H5 preferably requires to be more than 30mm.For the present embodiment, H5 be preferably 40mm ~ 55mm.Meanwhile, the test side of anti-overflow detection pole is not less than 5mm apart from the inwall distance of anti-overflow chamber, to prevent in anti-overflow detection extremely Simultaneously there is adhesion phenomenon in hanging.

Certainly, for the present embodiment, the anti-overflow detection pole can also be hollow metal shell, and metal-back Encapsulation temperature element, and temperature element is electrically connected with control unit in vivo.So, anti-overflow detection pole is with the anti-overflow letter of detection Number while, can also have detection temperature signal function.

In addition, for the present embodiment, the side wall of the anti-overflow chamber can also be made up of metal material, and to anti-overflow chamber Inner wall surface carry out insulated non-stick coating part cladding, formed with insulated non-stick coating coat cladding area and insulation not The uncoated vacancy section of adhesive coating layer, is electrically connected vacancy section as anti-overflow detection pole, such vacancy section can also with control unit Detect spill over.Certainly, under this structure, vacancy section can be around anti-overflow cavity wall hollow out ring, or hollow out circle, Hollow out line etc..Also, when the side wall of the anti-overflow chamber of the present embodiment is made for metal material, it can also be installed to the gold in head The heater that the anti-overflow chamber side wall of category is heated, to realize that the foam to anti-overflow intracavitary heats brokenly bubble.

It should be noted that the control unit of the present embodiment is not limited to be installed in head, it can also be installed in cup, Also, the selection of the conversion and parameter for the present embodiment said structure is readily applicable to other implementations of the present utility model Example.

Embodiment seven：

As shown in figure 14, it is the structural representation of the 7th kind of embodiment of the utility model.The present embodiment and embodiment six are not It is with part：In the present embodiment, the head 1 include head top 1A and with the separable head bottoms of head top 1A The interface slot 16 electrically connected with control unit 8 is provided with 1B, the head bottom 1B, the anti-overflow detection pole is stretched including one end Enter the insertion section 92 that anti-flow electrode bar 91 and the other end in anti-overflow chamber 10 coordinate with the formation grafting of interface slot 16, the anti-overflow inspection Survey pole to be fixed on the 1B of head bottom by head top 1A, the anti-overflow detection pole can be dismantled from interface slot 16.

In the present embodiment, anti-overflow detection pole is electrically connected by interface slot with control unit, and anti-overflow detection pole and head are removable, The installation of anti-overflow detection pole is more convenient, the cleaning of anti-overflow chamber is also convenient for.For the present embodiment, head top is regarded as machine The cover body structure of head bottom.It should be noted that for the Structural Transformation of the present embodiment, being readily applicable to this practicality new The other embodiments of type.

Embodiment eight：

As shown in figure 15, it is the structural representation of the 8th kind of embodiment of the utility model.The present embodiment is different from implementing six Part is：In the present embodiment, the anti-overflow extremely multiple anti-overflow detection salient points 93 being fixed on the anti-overflow inwall of chamber 10 of detection, Also, the anti-overflow detection salient point 93 is from top to bottom arranged successively.Also, each it is anti-overflow detection salient point 93 with control unit 8 Electrical connection.

In the present embodiment, by setting multiple anti-overflow detection salient points to carry out Multiple detection, detection to anti-overflow signal Precision is sensitiveer, it can be ensured that soy bean milk making machine occurs without spillover.For the present embodiment, two neighboring anti-overflow detection is convex That puts is typically no less than 10mm away from H6 between the upper and lower, to realize that each anti-overflow detection salient point has the enough reaction time.Also, at this In embodiment, the anti-overflow detection salient point of lowest part is no less than 30mm apart from the height H7 of water level tag line, and its reason is with implementing Requirement for height in example six corresponding to H5 is identical, and here is omitted.It should be noted that why the present embodiment is by anti-overflow inspection Survey pole and be set as multiple anti-overflow detection salient points, be also the influence for reducing anti-overflow detection extremely to anti-overflow chamber, so that anti-overflow chamber is cleaned well.And And, it is readily applicable to other embodiments of the present utility model for the Structural Transformation of the present embodiment.

Embodiment nine：

It is the structural representation of the 9th kind of embodiment of the utility model as shown in Figure 16, Figure 17.A kind of soy bean milk making machine, including Head 1 and cup 2, the head 1 are placed on cup 2, and water level tag line 20, the machine are provided with the side wall of cup 2 First 1 coordinates with the sealing of the junction of cup 2, and positioned at the top of water level tag line 20, bottom end opening is provided with the head 1 101 anti-overflow chamber 10, the cup 2 is connected with anti-overflow chamber 10 by bottom end opening, and covering is provided with the bottom end opening 101 The charge plate 17 of bottom end opening, material is contained in the charge plate 17 into anti-overflow chamber 10 and charge plate 17 surrounds the feed bin to be formed Interior, the opposite ends opening 101 of charge plate 17 can be opened or closed.

In the present embodiment, after charge plate is opened, material is fallen into cup 2, after the slurries heating in cup, and cup Slurries in 2 can be entered in anti-overflow chamber 10 by bottom end opening 101.

In the present embodiment, slideway 18 and drive device 19 are provided with the head, the drive device 19 can drive Sheng Flitch is slided on slideway 18.Wherein, the slideway 18 is stretched out by the edge of bottom end opening 101, is formed and surrounded in head The ring-type of the heart, also, the drive device 19 includes the motor 192 that drive gear 191 and drive gear 191 are rotated, institute The engaging tooth 171 for being provided with and being meshed with drive gear 191 on charge plate 17 is stated, drive device 19 drives charge plate 17 in slideway Moved in the horizontal direction around head center on 18, to open or close bottom end opening 101.

For the present embodiment, when charge plate closes bottom end opening, and when containing material in feed bin, the soy bean milk making machine can To carry out reservation slurrying, after charge plate is opened, after material enters in cup, it can also be disappeared using the anti-overflow chamber after opening Anti-overflow, sufficiently effective utilization cup space is steeped, soy bean milk making machine inner space is reduced and wastes.

It should be noted that for the present embodiment, the slideway can also be extended from bottom end opening to head center Linear ramp, rather than around head center ring-type slideway structure.For the present embodiment, charge plate can be two Symmetrical charge plate splicing composition, two charge plates are separated in the middle of bottom end opening, to open bottom end opening, so can be with Greatly reduce the distance that single charge plate slides along slideway.Also, the conversion of the present embodiment said structure is readily applicable to Other embodiments of the present utility model.

Embodiment ten：

It is the structural representation of the tenth kind of embodiment of the utility model as shown in Figure 18, Figure 19.The present embodiment and embodiment Nine differences are：In the present embodiment, described one end of charge plate 17 is articulated with head, and the charge plate can be with respect to hinged place Rotate up and down, to open or close bottom end opening, also, the charge plate 17 one end relative with being hinged is inhaled with head for magnetic It is attached to connect, it is provided with described end of charge plate 17 on soft magnetic bodies 172, the head and is provided with ferromagnetic unit at opposite position 173, the soft magnetic bodies 172, which are adsorbed on ferromagnetic unit 173, realizes that containing pulpboard 17 closes bottom end opening.

When heating slurries, cup body temperature rises, because the magnetic of soft magnetic bodies is related to temperature, when soft magnetic bodies reach necessarily After temperature, magnetic is disappeared, and charge plate is opened, and material is fallen into cup.Slurries in cup can enter anti-by bottom end opening Excessive intracavitary, realizes that froth breaking is anti-overflow.At the same time, under the structure, charge plate is hung in cup by hinged place, when slurries are along cup When wall rises upwards, charge plate can also stop that slurries rise, and have flow-disturbing effect to slurries, further improve soy bean milk making machine Crush efficiency.

The present embodiment has the identical beneficial effect of embodiment nine, and here is omitted.It should be noted that for charge Plate is articulated with head, and the connection of the charge plate other end and head realizes that the structure for closing bottom end opening can also have other knots The deformation of structure, such as：Charge plate one end relative with being hinged is that magnetic absorption is connected with head, and electromagnetism is provided with head Iron, the charge plate is that with ferromagnetic metallic plate, and charge plate is adsorbed on head by electromagnet, can also realize charge Plate closes the purpose of bottom end opening.

In addition, the mounting structure of charge plate and head also also has other mounting structures, such as：The charge plate is to roll up The discrepancy port of spool, motor and steel disc is provided with bent steel disc, head, intraoral positioned at access port, the one of steel disc End is curled on spool, and motor driving spool rotation, to drive steel disc to crimp or stretch（The structure of similar steel tape）, So as to realize that steel disc is opened or closed to bottom end opening.Under such configuration, steel disc surface tilts middle concave in rear and front end Sunken curved structure, so both ensure that the intensity of steel disc, will not be because containing material and bending；Also, with discrepancy on head The relative side in port is additionally provided with the pluggable insertion section in steel disc free end, and such steel disc free end can be inserted into insertion section, For supporting steel disc, to prevent steel disc from containing after material, because stress is larger and occurs bending material leakage；In addition, steel disc and access port Mouth is is slidingly sealed cooperation, to prevent slurries or steam or screenings from entering by the port that comes in and goes out in head, head water inlet occurs, enters The phenomenon of slag.

It should be noted that the conversion of the present embodiment said structure is readily applicable to other implementations of the present utility model Example.

Those skilled in the art should be understood that the utility model includes but is not limited to accompanying drawing and is embodied above Content described in mode.Any modification without departing from function and structure principle of the present utility model is intended to be included in claim In the scope of book.

Claims (10)

1. a kind of soy bean milk making machine, including head and cup, the head are placed on cup, water level is provided with the cup sidewalls Tag line, it is characterised in that：The junction sealing of the head and cup coordinates, positioned at the top of water level tag line, the machine The anti-overflow chamber of bottom end opening is provided with head, the cup is connected with anti-overflow chamber by bottom end opening, and the slurries in cup are the bottom of by End opening enters anti-overflow intracavitary, and the total capacity of the cup is V1, and the internal volume of the anti-overflow chamber is V3, wherein, 1/8≤V3/ V1≤1/2。

2. soy bean milk making machine according to claim 1, it is characterised in that：The total capacity V1 of the cup is 400mL ~ 3000mL.

3. soy bean milk making machine according to claim 1, it is characterised in that：The water level identifies the vertical of the anti-overflow bottom of chamber end opening of line-spacing Highly it is H1, wherein, 10mm≤H1≤60mm.

4. according to any one of claims 1 to 3 soy bean milk making machine, it is characterised in that：The anti-overflow chamber is in up and down through head knot Structure, the anti-overflow chamber have at top end opening, and top end opening provided with cover top end opening cover plate, the cover plate be provided with The air-vent of atmosphere.

5. soy bean milk making machine according to claim 4, it is characterised in that：The air-vent is multiple, the gross area of multiple air-vents For S1, the area of the top end opening is S, wherein, S1/S is at least above 1/10.

6. soy bean milk making machine according to claim 4, it is characterised in that：The cover plate is articulated with head, and cover plate can be along being hinged Place's rotation.

7. soy bean milk making machine according to claim 4, it is characterised in that：Positioned at the lower section of air-vent, on the side wall of the anti-overflow chamber It is provided with the steam channel communicated with head outside atmosphere.

8. according to any one of claims 1 to 3 soy bean milk making machine, it is characterised in that：The side wall of the anti-overflow chamber is by metal material It is made, the heater heated to the side wall of anti-overflow chamber is provided with the head.

9. soy bean milk making machine according to claim 8, it is characterised in that：The heater is the motor being installed in head, electricity The shell of machine conducts heat to the side wall of anti-overflow chamber.

10. according to any one of claims 1 to 3 soy bean milk making machine, it is characterised in that：The inner wall surface of the anti-overflow chamber is coated with Non-sticking lining；

Or, anti-overflow chamber is stated in the side setting positioned at head center；

Or, the anti-overflow chamber is arranged in a ring around head center；

Or, the side wall opposed vertical planar tilt of the anti-overflow chamber is set；

Or, the bottom end opening of the anti-overflow chamber is not less than plane where cup rim of a cup；

Or, the top of outside, the anti-overflow chamber of the head is provided with the extended cavity connected with the anti-overflow chamber；

Or, the head has the face of holding of taking taken and be held in cup cup edge, and the bottom end opening of the anti-overflow chamber, which is located at, takes the face of holding Institute is in the plane.