CN204091731U - Fully-automatic intelligent soy bean milk making machine - Google Patents

Abstract

The utility model relates to a kind of fully-automatic intelligent soy bean milk making machine, described fully-automatic intelligent soy bean milk making machine also comprises automatic feeder, this automatic feeder comprises pipeline and aspiration pump, this pipeline one end is communicated with storing assembly, the other end is communicated with aspiration pump, this pipeline offers the first charging aperture, this lid offers the second charging aperture, first charging aperture is corresponding with the second charging aperture to be communicated with, aspiration pump work makes material in storing assembly through pipeline successively from the first charging aperture, second charging aperture falls in grinder, gas flow in described pipeline is 1 to 50 milliliters/second, the diameter of described pipeline is 10 to 50 millimeters, so, aspiration pump starts bleeds, the material that the gas of flowing carries in storing assembly falls into grinder through pipeline from the first charging aperture and the second charging aperture, utilize aspiration pump suction of bleeding can realize charging in trend grinder smoothly, decrease the manual operation of user, and in the problem realizing not easily occurring in automatic feed process getting stuck.

Description

Fully-automatic intelligent soy bean milk making machine

Technical field

The utility model relates to a kind of soy bean milk making machine, particularly relates to a kind of fully-automatic intelligent soy bean milk making machine.

Background technology

Along with improving constantly of people's living standard, kitchen small household appliances are just towards future development that is miniaturized and automation, and so, the soy bean milk making machine possessing automatic blanking function is arisen at the historic moment.

The existing soy bean milk making machine with automatic blanking function, normally by controlling the opening and closing of the blanking plate of storage bin, utilizes the Action of Gravity Field of material self to realize automatic blanking.But utilize the Action of Gravity Field of material self to realize automatic blanking and easily get stuck, namely material blocks the feed opening of storage bin, cannot realize smooth blanking; In addition, there is specific requirement the position of mode to storage bin utilizing the Action of Gravity Field of material self to realize blanking, and storage bin must be positioned at the top of crushing chamber, therefore also makes complete machine layout be restricted.

Utility model content

In view of this, be necessary to provide a kind of blanking fully-automatic intelligent soy bean milk making machine thoroughly.

The utility model is achieved through the following technical solutions:

A kind of fully-automatic intelligent soy bean milk making machine, comprise support, pulping component, storing assembly, control unit, this pulping component, storing assembly and control unit are separately positioned on support, this pulping component comprises motor, crushing knife tool and grinder, this motor is electrically connected with control unit, this driven by motor crushing knife tool rotates, this grinder comprises the band cylinder body of opening and the lid of closing openings, this crushing knife tool is positioned at cylinder body, it is characterized in that: described fully-automatic intelligent soy bean milk making machine also comprises automatic feeder, this automatic feeder comprises pipeline and aspiration pump, this pipeline one end is communicated with storing assembly, the other end is communicated with aspiration pump, this pipeline offers the first charging aperture, this lid offers the second charging aperture, first charging aperture is corresponding with the second charging aperture to be communicated with, aspiration pump work makes material in storing assembly through pipeline successively from the first charging aperture, second charging aperture falls in grinder.

Described pipeline is provided with backgauge portion at the first charging aperture place, and this backgauge portion is arranged on the side of the contiguous aspiration pump of described first charging aperture.

Described pipeline comprise feed pipe, pump-line and wherein two ends connect the three-port structure of feed pipe and pump-line, this feed pipe other end is communicated with storing assembly, this pump-line other end is communicated with aspiration pump, and one end in addition of this three-port structure is the first charging aperture.

Described lid is removably mounted on support, described lid is provided with the first feed pipe, first pump-line, feed pipe connector, pump-line connector, described support is provided with the second feed pipe and the second pump-line, first feed pipe wherein one end is wherein connected one end with the second feed pipe by feed pipe connector, first pump-line wherein one end is wherein communicated with one end with the second pump-line by pump-line connector, the first feed pipe other end is connected by three-port structure with the first pump-line other end, the second feed pipe other end and storing assembly are in succession, the second pump-line other end is connected with aspiration pump.

Described storing assembly comprises storage bin, motor, blanking screw rod and transition feed bin, this storage bin comprises feed opening, this blanking screw rod to be fixedly mounted on below storage bin and to adjoin feed opening and arranges, this Transition Materials position in storehouse is below blanking screw rod, this motor is electrically connected with control unit, this driven by motor blanking screw rod rotarily drives material from storage bin blanking to transition feed bin, and this transition feed bin is provided with discharging opening, and this discharging opening is communicated with one end of pipeline.

Described transition feed bin is provided with the curing range curing material.

Described storage bin comprises the first storage bin and the second storage bin, this first storage bin comprises the first feed opening, this second storage bin comprises the second feed opening, this blanking screw rod adjoins the first feed opening and the second feed opening, this driven by motor blanking screw rod rotates forward and realizes the first storage bin blanking, and the reversion of this driven by motor blanking screw rod realizes the second storage bin blanking.

Described storing assembly and grinder are arranged side by side, and the described extreme higher position of storing assembly flushes setting with the extreme higher position of grinder.

Described fully-automatic intelligent soy bean milk making machine also comprises automatic feeding water assembly, this grinder offers water inlet, this automatic feeding water assembly comprises water inlet pipe and is arranged on the water valve on water inlet pipe, and this water inlet pipe one end is directly external on water tap, and the other end of this water inlet pipe is communicated with water inlet; Or this automatic feeding water assembly comprises water tank and water inlet pipe, this water inlet pipe one end is communicated with water tank, and the other end of this water inlet pipe is communicated with water inlet.

The diapire of described cylinder body offers the waste discharge mouth of a river and plasma discharge mouth, described fully-automatic intelligent soy bean milk making machine also comprises waste water box and connects slurry cup, and this waste water box is communicated with the waste discharge mouth of a river, and this connects slurry cup and is communicated with plasma discharge mouth.

The beneficial effect that the utility model brings is:

Described fully-automatic intelligent soy bean milk making machine also comprises automatic feeder, this automatic feeder comprises pipeline and aspiration pump, this pipeline one end is communicated with storing assembly, the other end is communicated with aspiration pump, this pipeline offers the first charging aperture, this lid offers the second charging aperture, the first charging aperture is corresponding with the second charging aperture to be communicated with, and aspiration pump work makes the material in storing assembly fall in grinder from the first charging aperture, the second charging aperture successively through pipeline.So, user only needs in storing assembly reinforced, aspiration pump starts bleeds, the material that the gas of flowing carries in storing assembly falls into grinder through pipeline from the first charging aperture and the second charging aperture, utilize aspiration pump suction of bleeding can realize charging in trend grinder smoothly, decrease the manual operation of user, and in the problem realizing not easily occurring in automatic feed process getting stuck, even if there is the situation of blocking, along with aspiration pump is constantly bled, material finally also can be drawn onto in grinder by the power increase of taking out material, thus it is more thorough to make to take out material, can not residual material in storing assembly, in addition, the rate of air sucked in required formed in the aspiration pump unit interval is definite value, and the energy so provided also is definite value, and when material abundance, the inventory of at every turn pumping is also just fixed, so can control inventory by controlling pumpdown time, in addition, storing assembly does not need to be arranged on to be pulverized above cavity, and storing assembly can optional position, therefore storing assembly will make material make moist by steam affects, make complete machine layout also more flexible in addition, can reduce complete machine height, structure is compacter.

Described pipeline is provided with backgauge portion at the first charging aperture place, and this backgauge portion is arranged on the side of the contiguous aspiration pump of described first charging aperture.Material can be made under the effect in backgauge portion successfully to fall in grinder from the first charging aperture to the second charging aperture further, also can stop that material enters the risk of aspiration pump,

Described backgauge portion is obliquely installed to the first charging aperture direction, and backgauge portion tilts to the first charging aperture direction thus material can not be piled up at place of backgauge portion, thus guarantees that material can fall in grinder completely.

Described pipeline comprise feed pipe, pump-line and wherein two ends connect the three-port structure of feed pipe and pump-line, this feed pipe other end is communicated with storing assembly, this pump-line other end is communicated with aspiration pump, and one end in addition of this three-port structure is the first charging aperture.So, installation manufactures more convenient, and three-port structure can be set to detachable pattern in addition, user carries out hand stock by the mouth after dismounting, increases diversity and the flexibility of slurrying, facilitates user to select voluntarily, reduce the folding to lid simultaneously, improve service life.

Described lid is removably mounted on support, described lid is provided with the first feed pipe, first pump-line, feed pipe connector, pump-line connector, described support is provided with the second feed pipe and the second pump-line, first feed pipe wherein one end is wherein connected one end with the second feed pipe by feed pipe connector, first pump-line wherein one end is wherein communicated with one end with the second pump-line by pump-line connector, the first feed pipe other end is connected by three-port structure with the first pump-line other end, the second feed pipe other end and storing assembly are in succession, the second pump-line other end is connected with aspiration pump.So, first feed pipe and the second feed pipe can split, first pump-line and the second pump-line can split, first feed pipe and the first pump-line can disassemble cleaning along with whole lid, convenient cleaning and maintenance, in addition, lid is charged device components and parts not, can immerse completely inside water and clean, convenient cleaning.

Described storing assembly comprises storage bin, motor, blanking screw rod and transition feed bin, this storage bin comprises feed opening, this blanking screw rod to be fixedly mounted on below storage bin and to adjoin feed opening and arranges, this Transition Materials position in storehouse is below blanking screw rod, this motor is electrically connected with control unit, this driven by motor blanking screw rod rotarily drives material from storage bin blanking to transition feed bin, and this transition feed bin is provided with discharging opening, this discharging opening and pipeline communication.So, by arranging transition feed bin, material being first delivered to transition feed bin, can realizing accurately controlling inventory, thus the mouthfeel of soya-bean milk is consistent.

Described storage bin comprises the first storage bin and the second storage bin, this first storage bin comprises the first feed opening, this second storage bin comprises the second feed opening, this blanking screw rod adjoins the first feed opening and the second feed opening, this driven by motor blanking screw rod rotates forward and realizes the first storage bin blanking, the reversion of this driven by motor blanking screw rod realizes the second storage bin blanking, user like this can according to the hobby unrestricted choice material of oneself, various materials can also mix at transition feed bin simultaneously, realizes the variation of soya-bean milk.

Described storing assembly and grinder are arranged side by side, and the described extreme higher position of storing assembly flushes setting with the extreme higher position of grinder.So, be conducive to the layout of complete machine, can reduce complete machine height, after decentralization, complete machine is not easily toppled over, and compact conformation.

Described fully-automatic intelligent soy bean milk making machine also comprises automatic feeding water assembly, this grinder offers water inlet, this automatic feeding water assembly comprises water inlet pipe and is arranged on the water valve on water inlet pipe, and this water inlet pipe one end is directly external on water tap, and the other end of this water inlet pipe is communicated with water inlet.So, can automatic feeding water being realized, without the need to artificial participation, in addition without the need to arranging water tank, reducing the cost of complete machine.

Described fully-automatic intelligent soy bean milk making machine also comprises automatic feeding water assembly, and this grinder offers water inlet, and this automatic feeding water assembly comprises water tank and water inlet pipe, and this water inlet pipe one end is communicated with water tank, and the other end of this water inlet pipe is communicated with water inlet.So, can automatic feeding water be realized, and soy bean milk making machine can be moved freely and unrestricted.

The diapire of described cylinder body offers the waste discharge mouth of a river and plasma discharge mouth, described fully-automatic intelligent soy bean milk making machine also comprises waste water box and connects slurry cup, and this waste water box is communicated with the waste discharge mouth of a river, and this connects slurry cup and is communicated with plasma discharge mouth.So, automatic cleaning can being realized, without the need to manually participating in cleaning, making user more convenient.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Fig. 1 is the schematic diagram of fully-automatic intelligent soy bean milk making machine first better embodiment described in the utility model;

Fig. 2 is fully-automatic intelligent soy bean milk making machine schematic internal view described in Fig. 1;

Fig. 3 is the schematic diagram of described pulping component;

Fig. 4 is the schematic diagram of described storing assembly;

Fig. 5 is the pipeline connection diagram of described automatic blanking device;

Fig. 6 is the schematic diagram of the another kind of structure that the pipeline of described automatic blanking device connects;

Fig. 7 is the schematic diagram of another structure that the pipeline of described automatic blanking device connects;

Fig. 8 is the schematic diagram of another angle of Fig. 7;

Fig. 9 is the schematic diagram of fully-automatic intelligent soy bean milk making machine second better embodiment described in the utility model.

The label that in figure, component names is corresponding is as follows:

10, fully-automatic intelligent soy bean milk making machine; 11, support; 12, pulping component; 121, motor; 122, crushing knife tool; 123, grinder; 1231, cylinder body; 1232, lid; 1233, the second charging aperture; 1234 feed pipe connectors; 1235, pump-line connector; 1236, the waste discharge mouth of a river; 1237, plasma discharge mouth; 1238, water inlet; 124, heater; 13, storing assembly; 131, storage bin; 1311, feed opening; 132, motor; 133, blanking screw rod; 134, transition feed bin; 1341, discharging opening; 14, automatic feeder; 141, pipeline; 1411, the first charging aperture; 1412, feed pipe; 1413, pump-line; 1414, three-port structure; 1415, backgauge portion; 1416, the first feed pipe; 1417, the second feed pipe; 1418, the first pump-line; 1419, the second pump-line; 142, aspiration pump; 16, slurry cup is connect; 17, automatic feeding water assembly; 171, water pipe; 172, water valve; 20, fully-automatic intelligent soy bean milk making machine; 21, automatic feeding water assembly; 211, water tank; 212, water inlet pipe; 22, grinder; 23, lid.

Detailed description of the invention

Below in conjunction with drawings and the embodiments, the utility model is described in further detail:

Embodiment one:

See also the fully-automatic intelligent soy bean milk making machine 10 described in Fig. 1 and Fig. 2, comprise support 11, pulping component 12, storing assembly 13, automatic feeder 14, connect slurry cup 16, automatic feeding water assembly 17 and control unit (not shown), this pulping component 12, storing assembly 13, automatic feeder 14, connect slurry cup 16, automatic feeding water assembly 17 and control unit be separately positioned on support 11.

See also Fig. 3, in present embodiment, described pulping component 12 comprises motor 121, crushing knife tool 122, grinder 123 and the heater 124 for heating grinder 123, this motor 121 and heater 124 are electrically connected with control unit, this motor 121 is positioned at below grinder 123, the motor shaft of this motor 121 stretches in grinder 123 from the bottom of grinder 123, this motor 121 drives crushing knife tool 122 to rotate, this grinder 123 comprises the band cylinder body 1231 of opening and the lid 1232 of closing openings, this crushing knife tool 122 is positioned at cylinder body 1231, this lid 1232 is fixedly mounted on support 11.

In the present embodiment, grinder 123 and described storing assembly 13 are arranged side by side, and the extreme higher position of described grinder 123 flushes setting with the extreme higher position of described storing assembly 13, so, can effectively reduce complete machine height, make complete machine structure more reliably compact, the center of gravity of complete machine reduces the risk that can reduce soy bean milk making machine and topple in addition.

In the present embodiment, the diapire of described cylinder body 1231 offers the waste discharge mouth of a river 1236 and plasma discharge mouth 1237, described fully-automatic intelligent soy bean milk making machine also comprises waste water box (not shown), this waste water box is communicated with the waste discharge mouth of a river 1236, this connects slurry cup 16 and is communicated with plasma discharge mouth 1237, and this connects slurry cup 16 and is positioned at below grinder 123, thus can realize automatic cleaning, without the need to manually participating in cleaning, make user more convenient.Certainly, also can save waste water box, directly by the discharge of wastewater of cleaning powder millstone in tank.

See also Fig. 4, in present embodiment, described storing assembly 13 comprises storage bin 131, motor 132, blanking screw rod 133 and transition feed bin 134, this storage bin 131 comprises feed opening 1311, this blanking screw rod 133 to be fixedly mounted on below storage bin 131 through support 135 and to adjoin feed opening 1311 and arranges, this transition feed bin 134 is positioned at below blanking screw rod 133, this motor 132 is electrically connected with control unit, this motor 132 drives blanking screw rod 133 to rotarily drive material from storage bin 131 blanking to transition feed bin 134, and this transition feed bin 134 is provided with discharging opening 1341.

In the present embodiment, described storage bin 131 and transition feed bin 134 interior bottom wall are conical structure, this feed opening 1311 is opened in the center of storage bin 131 diapire, this discharging opening 1341 is opened in the center of transition feed bin 134 diapire, so, while transition feed bin 134 possesses accurate control inventory, also there is the effect of poly-material, transition feed bin 134 can not amass material, and make to take out material more thorough, storage bin 131 also has the effect of poly-material and can not accumulate material.

See also Fig. 5, described automatic feeder 14 comprises pipeline 141 and aspiration pump 142, this pipeline 141 one end is communicated with the discharging opening 1341 of transition feed bin 134, the other end is communicated with aspiration pump 142, this pipeline 141 some to be arranged on lid 1232 and this section of tubing to offer the first charging aperture 1411, contiguous first charging aperture 1411 place of this pipeline 141 is provided with backgauge portion 1415, this backgauge portion 1415 is obliquely installed to the first charging aperture 1411 direction, and this backgauge portion 1415 is arranged on that one end being communicated with aspiration pump 142, this lid 1232 offers the second charging aperture 1233, first charging aperture 1411 is corresponding with the second charging aperture 1233 to be communicated with, so-called corresponding connection refers to the first charging aperture 1411 and the second charging aperture 1233 in the vertical direction just to setting, first charging aperture 1411 and the second charging aperture 1233 can be fit to arrange, certain first charging aperture 1411 and the second charging aperture 1233 also can have some gaps by the vertical direction, if the first charging aperture 1411 and the second charging aperture 1233 in the vertical direction just right, it is all the corresponding connected relation of the utility model indication.This aspiration pump 142 is electrically connected with control unit, aspiration pump 142 starts bleeds, the material that carries in storing assembly 13 of gas of flowing falls into grinder 123 through pipeline 141 from the first charging aperture 1411 and the second charging aperture 1233, utilizes aspiration pump 142 suction of bleeding can realize charging in trend grinder 123 smoothly.

In the present embodiment, described lid 1232 can be opened in side, opposite side is fixedly connected with support 11, the described U-shaped layout of that a part of 141 one-tenth, pipeline be arranged on lid 1232, that side that U-shaped opening direction is fixed towards lid 1232 with support 11, the remaining part extension of described pipeline 141 is fixed on support 11, and the pipeline 141 be arranged on lid 1232 is continuous print with the pipeline 141 be arranged on support 11, non-dismountable between described lid 1232 and support 11.

In the present embodiment, described backgauge portion 1415 is material retaining net, and described material retaining net slope angle is 5 to 90 degree preferably, optimum 60 to 85 degree, the mesh diameter of material retaining net preferably 0.1 to 10 millimeter, so can more effectively guarantee smooth blanking by optimum 0.5 to 1.5 millimeter.

In the present embodiment, this grinder also offers water inlet 1238, described automatic feeding water assembly 17 comprises water inlet pipe 171 and is arranged on the water valve 172 on water inlet pipe, this water inlet pipe 171 one end is directly external on water tap, the other end of this water inlet pipe 171 is communicated with water inlet 1238, in order to reduce hydraulic pressure, dropping equipment can also be set on water inlet pipe, thus the water yield in the unit interval can be controlled better.

Described automatic feeder 14 comprises pipeline 141 and aspiration pump 142, this pipeline 141 one end is communicated with storing assembly 13, the other end is communicated with aspiration pump 142, this pipeline 142 offers the first charging aperture 1411, this lid 1232 offers the second charging aperture 1233, first charging aperture 1411 is corresponding with the second charging aperture 1233 to be communicated with, and aspiration pump 142 work makes the material in storing assembly 13 fall in grinder 123 from the first charging aperture 1411, second charging aperture 1233 successively through pipeline 141.So, user only needs in storing assembly 13 reinforced, aspiration pump 142 starts bleeds, the material that the gas of flowing carries in storing assembly 13 falls into grinder 123 through pipeline 141 from the first charging aperture 1411 and the second charging aperture 1233, utilize aspiration pump 142 suction of bleeding can realize charging in trend grinder 123 smoothly, decrease the manual operation of user, and in the problem realizing not easily occurring in automatic feed process getting stuck, even if there is the situation of blocking, along with aspiration pump 142 is constantly bled, the material be blocked in pipeline also can be drawn onto in grinder 123 by the power increase of bleeding, thus it is more thorough to make to take out material, can not residual material in storing assembly 13, in addition, the rate of air sucked in required formed in aspiration pump 142 unit interval is definite value, the energy so provided also is definite value, when material abundance, the inventory of at every turn pumping is also just fixed, so inventory can be controlled by controlling pumpdown time, in addition, storing assembly 13 does not need to be arranged on to be pulverized above cavity, and storing assembly 13 can optional position, therefore storing assembly 13 will make material make moist by steam affects, make complete machine layout also more flexible in addition, can reduce complete machine height, structure is compacter.

Be appreciated that, described storage bin comprises the first storage bin and the second storage bin, this first storage bin comprises the first feed opening, this second storage bin comprises the second feed opening, this blanking screw rod adjoins the first feed opening and the second feed opening, backgauge portion is provided with in the middle of this blanking screw rod, this blanking screw rod is divided into two parts by backgauge sheet, this two parts spiral is all coiling clockwise, it can certainly be all counterclockwise coiling, gap between the corresponding end coils of first feed opening and backgauge portion, gap between second feed opening another end coils corresponding and backgauge portion, this driven by motor blanking screw rod rotates forward and realizes the first storage bin blanking, the reversion of this driven by motor blanking screw rod realizes the second storage bin blanking, so, user can according to the hobby unrestricted choice material of oneself, various materials can also mix at transition feed bin simultaneously, realize the variation of soya-bean milk.

Be appreciated that described backgauge portion also can be column blend stop; Or described pipeline bending self forms backgauge portion.

Be appreciated that, described pipeline also can all be arranged on support, such as the structure of frame machine, and this support comprises top, a part for this pipeline is arranged on top, the lid correspondence of this grinder is arranged on the below at support top, thus makes that the first feed opening is corresponding with the second feed opening to be communicated with, and this top is fixed, this grinder detaches from the side of support, or this top can overturn, the lid of this grinder can be opened, and this grinder also can take out from support.

Be appreciated that described transition feed bin is provided with the curing range curing material.

Refer to the another kind of structural representation of the pipeline of automatic blanking device described in Fig. 6, described pipeline 141 comprises feed pipe 1412, pump-line 1413, and wherein two ends are communicated with the three-port structure 1414 of feed pipe 1412 and pump-line 1413, one end in addition of this three-port structure 1414 is the first charging aperture 1411, a part of install pipeline of this feed pipe 1412 and pump-line 1413 is on lid 1232, this three-port structure is arranged on lid 1232, this three-port structure 1414 can be set to detachable pattern, operating personnel carry out hand stock by the mouth after dismounting, increase diversity and the flexibility of slurrying, user is facilitated to select voluntarily, reduce the folding to lid 1232 simultaneously, improve service life, contiguous first charging aperture 1411 place of this three-port structure 1414 is provided with backgauge portion 1415, and this backgauge portion 1415 is obliquely installed to the first feed opening 1411 direction, so, material can realize smooth blanking under the effect in backgauge portion 1415, can not at backgauge portion 1415 place's stacking material.

Be appreciated that the first charging aperture on three-port structure also can stretch into from the second charging aperture, we think that the first charging aperture and the second charging aperture are also that correspondence communicates, equally within protection domain of the present utility model in this case.

Refer to another structural representation of the pipeline described in Fig. 7 and Fig. 8, described lid 1232 is removably connected on support, described feed pipe 1412 comprises the first feed pipe 1416 and the second feed pipe 1417, described pump-line 1413 comprises the first pump-line 1418 and the second pump-line 1419, first feed pipe 1416 and the first pump-line 1418 are arranged on lid 1232, second feed pipe 1417 and the second pump-line 1419 are arranged on support, this lid 1232 is provided with feed pipe connector 1234 and pump-line connector 1235, first feed pipe 1416 wherein one end is wherein communicated with one end with the second feed pipe 1417 by feed pipe connector 1235, first pump-line 1418 wherein one end is wherein communicated with one end with the second pump-line 1419 by pump-line connector 1235, first feed pipe 1416 other end and first pump-line 1418 other end are communicated with three-port structure 1414, second feed pipe 1417 other end and storing assembly are in succession, second pump-line 1419 other end is connected with aspiration pump, feed pipe 1412 and pump-line 1413 is disconnected by feed pipe connector 1234 and pump-line connector 1235, first feed pipe 1416 and the first pump-line 1418 thoroughly can be separated with support along with lid 1232, lid 1232 can disassembly, cleaning completely, be user-friendly to.

Be appreciated that described three-port structure also can omit, the first feed pipe and the first pump-line are continuous print pipelines.

Embodiment two:

Refer to the second better embodiment of the fully-automatic intelligent of the utility model shown in Fig. 9 soy bean milk making machine, this fully-automatic intelligent soy bean milk making machine 20 is with the difference of fully-automatic intelligent soy bean milk making machine 10: described automatic feeding water assembly 21 comprises water tank 211 and water inlet pipe 212, this water inlet pipe 212 one end is communicated with water tank 211, and the other end of this water inlet pipe 212 is communicated with the water inlet 221 of grinder 22.

In the present embodiment, described water tank 211 is arranged around grinder 22, on the sidewall that the water inlet 221 of this grinder 22 can be arranged on grinder 22 and diapire, also for the opening of closed tank 211 while described lid 23 closes the opening of grinder.

So, can heat while heater 124 heats grinder 22 to the water in water tank 211, in water tank 211, the heat of water can be incubated grinder 22 again simultaneously simultaneously, thus realizes energy-conservation, improves efficiency.

Be appreciated that described water tank can be manually add water.Also directly can be connected with the tap of running water by water pipe and to realize automatic watering, this water pipe be provided with water valve, in order to reduce hydraulic pressure, also decompressor can be set on water pipe, thus effectively can control the water yield in the unit interval.

Be appreciated that and described water inlet pipe is also provided with water pump, the efficiency of water inlet can be promoted.

Claims (10)

1. a fully-automatic intelligent soy bean milk making machine, comprise support, pulping component, storing assembly, control unit, this pulping component, storing assembly and control unit are separately positioned on support, this pulping component comprises motor, crushing knife tool and grinder, this motor is electrically connected with control unit, this driven by motor crushing knife tool rotates, this grinder comprises the band cylinder body of opening and the lid of closing openings, this crushing knife tool is positioned at cylinder body, it is characterized in that: described fully-automatic intelligent soy bean milk making machine also comprises automatic feeder, this automatic feeder comprises pipeline and aspiration pump, this pipeline one end is communicated with storing assembly, the other end is communicated with aspiration pump, this pipeline offers the first charging aperture, this lid offers the second charging aperture, first charging aperture is corresponding with the second charging aperture to be communicated with, aspiration pump work makes material in storing assembly through pipeline successively from the first charging aperture, second charging aperture falls in grinder.

2. fully-automatic intelligent soy bean milk making machine as claimed in claim 1, is characterized in that: described pipeline is provided with backgauge portion at the first charging aperture place, and this backgauge portion is arranged on the side of the contiguous aspiration pump of described first charging aperture.

3. fully-automatic intelligent soy bean milk making machine as claimed in claim 1 or 2, it is characterized in that: described pipeline comprise feed pipe, pump-line and wherein two ends connect the three-port structure of feed pipe and pump-line, this feed pipe other end is communicated with storing assembly, this pump-line other end is communicated with aspiration pump, and one end in addition of this three-port structure is the first charging aperture.

4. fully-automatic intelligent soy bean milk making machine as claimed in claim 3, it is characterized in that: described lid is removably mounted on support, described lid is provided with the first feed pipe, first pump-line, feed pipe connector, pump-line connector, described support is provided with the second feed pipe and the second pump-line, first feed pipe wherein one end is wherein connected one end with the second feed pipe by feed pipe connector, first pump-line wherein one end is wherein communicated with one end with the second pump-line by pump-line connector, the first feed pipe other end is connected by three-port structure with the first pump-line other end, the second feed pipe other end and storing assembly are in succession, the second pump-line other end is connected with aspiration pump.

5. fully-automatic intelligent soy bean milk making machine as claimed in claim 1, it is characterized in that: described storing assembly comprises storage bin, motor, blanking screw rod and transition feed bin, this storage bin comprises feed opening, this blanking screw rod to be fixedly mounted on below storage bin and to adjoin feed opening and arranges, this Transition Materials position in storehouse is below blanking screw rod, this motor is electrically connected with control unit, this driven by motor blanking screw rod rotarily drives material from storage bin blanking to transition feed bin, this transition feed bin is provided with discharging opening, and this discharging opening is communicated with one end of pipeline.

6. fully-automatic intelligent soy bean milk making machine as claimed in claim 5, is characterized in that: described transition feed bin is provided with the curing range curing material.

7. fully-automatic intelligent soy bean milk making machine as claimed in claim 5, it is characterized in that: described storage bin comprises the first storage bin and the second storage bin, this first storage bin comprises the first feed opening, this second storage bin comprises the second feed opening, this blanking screw rod adjoins the first feed opening and the second feed opening, this driven by motor blanking screw rod rotates forward and realizes the first storage bin blanking, and the reversion of this driven by motor blanking screw rod realizes the second storage bin blanking.

8. the fully-automatic intelligent soy bean milk making machine as described in claim 5 to 7 any one, is characterized in that: described storing assembly and grinder are arranged side by side, and the described extreme higher position of storing assembly flushes setting with the extreme higher position of grinder.

9. fully-automatic intelligent soy bean milk making machine as claimed in claim 1, is characterized in that: described fully-automatic intelligent soy bean milk making machine also comprises automatic feeding water assembly, and this grinder offers water inlet,

This automatic feeding water assembly comprises water inlet pipe and is arranged on the water valve on water inlet pipe, and this water inlet pipe one end is directly external on water tap, and the other end of this water inlet pipe is communicated with water inlet; Or this automatic feeding water assembly comprises water tank and water inlet pipe, this water inlet pipe one end is communicated with water tank, and the other end of this water inlet pipe is communicated with water inlet.

10. fully-automatic intelligent soy bean milk making machine as claimed in claim 1, it is characterized in that: the diapire of described cylinder body offers the waste discharge mouth of a river and plasma discharge mouth, described fully-automatic intelligent soy bean milk making machine also comprises waste water box and connects slurry cup, and this waste water box is communicated with the waste discharge mouth of a river, and this connects slurry cup and is communicated with plasma discharge mouth.