CN204682390U - Negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine - Google Patents

Abstract

The utility model belongs to food processing equipment field, be specifically related to a kind of negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine, comprise body, pulp tap is provided with outside body, it is characterized in that in body, being provided with ripe stock tank, negative pressure material loading filter residue slagging device and defibrination mashing off mechanism, described ripe stock tank and negative pressure material loading filter residue slagging device are positioned at body internal upper part, and ripe stock tank is connected with extra-organismal pulp tap, and defibrination mashing off mechanism is positioned at the below of negative pressure material loading filter residue slagging device.The utility model have rational in infrastructure, working stability is reliable, easy to use, automaticity is high, cost is low, energy-conservation, save artificial advantage.

Description

Negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine

Technical field

The utility model belongs to food processing equipment field, is specifically related to a kind of negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine.

Background technology

Soya-bean milk has high nutritive value, is a kind of ideal healthy food.Along with the demand of people to soya-bean milk is increasing, soy bean milk making machine is arisen at the historic moment, current soy bean milk making machine can be divided into household soy milk machine and commercial soymilk grinder by purposes, its location of current commercial soymilk grinder is production equipment, design coarse, volume is large, energy consumption is high, use is inconvenient, if provide the commercial soymilk grinder that a kind of automaticity is high, positive effect will be produced to the popularization of commercial soymilk grinder, provide convenient for people enjoy fresh existing mill soya-bean milk at any time.

Utility model content

There is the defect that volume is large, energy consumption is high, take artificial, use inconvenience in the commercial soymilk grinder that the purpose of this utility model is to solve prior art, a kind of negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine is provided, it can complete material loading, defibrination, mashing off, filter residue function automatically, and volume is little, energy consumption is low, it is artificial, easy to use not account for.

The utility model is achieved by the following technical solution:

I.e. a kind of negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine, comprise body, pulp tap is provided with outside body, it is characterized in that in body, being provided with ripe stock tank, negative pressure material loading filter residue slagging device and defibrination mashing off mechanism, described ripe stock tank and negative pressure material loading filter residue slagging device are positioned at body internal upper part, ripe stock tank is connected with extra-organismal pulp tap, and defibrination mashing off mechanism is positioned at the below of negative pressure material loading filter residue slagging device.

Body of the present utility model is made up of stainless steel frame and shell, and internal container and pipeline adopt food-grade stainless steel and silica gel material, safety and sanitation.

Preferably but be not limited to be vertical long type, ripe stock tank (also having deslagging storehouse, cast hopper) is positioned at body upper to body of the present utility model, can upwards take out, convenient cleaning, and ripe stock tank relies on the self gravitation outflow of soya-bean milk, saves cost, easy to use.

Negative pressure material loading filter residue slagging device of the present utility model comprises bean dregs filter basket, upper cover slagging channel, deslagging storehouse, cast hopper and vavuum pump, bean dregs filter basket is arranged on the upper end of ripe stock tank, filter screen is equipped with bottom bean dregs filter basket, the upper cover hollow design of body, its front end is provided with air inlet, air inlet reversal valve is provided with in air inlet, upper cover inner hollow space is upper cover slagging channel, upper cover diapire above bean dregs filter basket is provided with slagging channel slag inlet, the inner side of ripe stock tank is provided with cast hopper and deslagging storehouse successively, upper cover place above deslagging storehouse is provided with slagging channel slag notch, the side of described cast hopper is provided with charging aperture, the air inlet of vavuum pump is connected with cast hopper by vacuum line, sidewall between ripe stock tank and cast hopper is provided with ripe stock tank spout hole, ripe stock tank spout hole is positioned at the below of bean dregs filter basket, sidewall between deslagging storehouse and cast hopper is provided with deslagging storehouse through hole, cast hopper inside is provided with full beans vacuum reversal valve.

Full beans vacuum reversal valve of the present utility model, its function is that the vacuum that will realize between cast hopper and ripe stock tank, deslagging storehouse switches, namely under the effect of full beans vacuum reversal valve, the vacuum that vavuum pump produces, cast hopper can be realized to communicate with ripe stock tank or cast hopper communicates with deslagging storehouse, under the prerequisite realizing this function, the vacuum reversal valve of prior art can be suitable for.

As a preferred version of the present utility model: described full beans vacuum reversal valve comprises left plate, base plate and right plate, left plate and right plate are provided with symmetrical vertical chute, the two side of cast hopper is respectively equipped with the vertical slide rail mated with vertical chute, the top of left plate is provided with left plate through hole, the bottom of right plate is provided with right plate through hole, when full beans vacuum reversal valve is in low level, left plate through hole communicates with ripe stock tank through hole, deslagging storehouse through hole is closed by right plate, when full beans vacuum reversal valve is in a high position, ripe stock tank through hole is closed by left plate, right plate through hole communicates with deslagging storehouse through hole.

The air inlet place of upper cover front end of the present utility model need install Air Filter additional.

Cast hopper of the present utility model is preferably funnel-form, and its underpart dog-house is just positioned at the top of defibrination mashing off mechanism, when material beans fall, just can enter in defibrination mashing off mechanism.

Bean dregs filter basket of the present utility model is grid type mechanism, lays filter screen, be convenient for changing bottom it.

Ripe stock tank spout hole of the present utility model has two effects, and one is the effect playing overflow, when soya-bean milk ripe in ripe stock tank is too much, can overflow in cast hopper, is fallen into the defibrination mashing off mechanism of below by cast hopper, prevents outflow; Two is play the guiding role to vacuum, when ripe stock tank spout hole communicates with cast hopper, when deslagging storehouse through hole does not communicate with cast hopper, utilize negative pressure can charging, filter residue; Ripe stock tank spout hole does not communicate with cast hopper, when deslagging storehouse through hole communicates with cast hopper, utilizes negative pressure to carry out deslagging.

The three way type air inlet reversal valve that air inlet reversal valve of the present utility model can adopt prior art known, air inlet can communicate with the upper cover slagging channel above bean dregs filter basket, the ripe stock tank below bean dregs filter basket respectively.

As a preferred version of the present utility model: the top of deslagging storehouse through hole is provided with downward-sloping slag trap, the dog-house place, bottom of cast hopper is provided with the check valve that feeds intake, the bottom slag discharge place in deslagging storehouse is provided with deslagging check valve, and charging aperture place is provided with feed check valve.

The unidirectional material valve that the check valve that feeds intake of the present utility model, deslagging check valve, feed check valve all can adopt prior art known, the effect of slag trap is when preventing deslagging, and bean dregs are drawn onto in cast hopper by deslagging storehouse through hole.

As a preferred version of the present utility model: air inlet reversal valve comprises silica gel flap, upper valve plate and lower valve plate, lower valve plate is provided with and the lower valve opening communicated below bean dregs filter basket, upper valve plate is inclined at upper cover inside, upper valve plate is provided with the upper valve opening communicated with upper cover slagging channel, the end of silica gel flap is hinged between valve plate and lower valve plate, when silica gel flap is fitted in lower valve plate, close lower valve opening, air inlet is communicated with upper cover slagging channel by upper valve opening, when silica gel flap is fitted in valve plate, close upper valve opening, air inlet is communicated with the ripe stock tank below bean dregs filter basket by lower valve opening.

As such scheme, air inlet reversal valve is without the need to realizing commutation by actuating unit, utilize the effect of the full beans vacuum reversal valve of negative pressure material loading filter residue slagging device inside, under the effect of leeway, can realize the action up or down of silica gel flap, air inlet can communicate with the upper cover slagging channel above bean dregs filter basket, the ripe stock tank below bean dregs filter basket respectively.

Material beans of the present utility model can be stored in (refrigerator, refrigerator-freezer etc.) in low temp freezing appts, are connected with cast hopper by feed pipe, and the material beans resting period is long.

When first time charging, cast hopper is hole capital after selling all securities, under gravity, full beans vacuum reversal valve is in low level, now left plate through hole communicates with ripe stock tank spout hole, deslagging storehouse through hole is closed by right plate, vavuum pump starts, at cast hopper, ripe stock tank, negative pressure is formed in bean dregs filter basket, feed intake closed check valve, material beans pass through feed pipe, feed check valve enters cast hopper, after the material beans in cast hopper are bought securities with all one's capital, close vavuum pump, negative pressure disappears, close the valve on feed pipe, feed intake one-way valve opens, material beans fall under gravity in the defibrination mashing off mechanism of below and carry out defibrination, mashing off.

The defibrination soya-bean milk cooking device that defibrination mashing off mechanism of the present utility model can adopt prior art known, after defibrination, mashing off, ripe slurry is sent in bean dregs filter basket by ripe slurry feed pipe, after entering ripe stock tank again after filter screen filter residue, now can remain the filter residue being rich in soya-bean milk in bean dregs filter basket.

When needs carry out charging next time, under gravity, full beans vacuum reversal valve is in low level, now left plate through hole communicates with ripe stock tank spout hole, deslagging storehouse through hole is closed by right plate, the check valve that feeds intake is in closed condition, vacuum pneumatic is from below filter screen, leeway causes air inlet reversal valve to be in air inlet and upper cover slagging channel communicating state, under the effect of negative pressure, air-flow enters above the filter screen of bean dregs filter basket from air inlet, ripe stock tank is entered again by filter screen, cast hopper is entered again by ripe stock tank spout hole, taken away by vavuum pump by vacuum line again, in above process, material beans in refrigerator pass through feed pipe, feed check valve is inhaled into cast hopper, meanwhile, soya-bean milk residual in filter residue also can be drawn onto in the ripe stock tank of below, namely while charging, filter residue is filtered dry.

When cast hopper inside, material beans increase gradually, material beans can by full beans vacuum reversal valve jack-up, when full beans vacuum reversal valve is in a high position, ripe stock tank spout hole is closed by left plate, right plate through hole communicates with deslagging storehouse through hole, now cast hopper, deslagging storehouse, upper cover slagging channel, negative pressure is formed in bean dregs filter basket, air inlet reversal valve is in air inlet and the state communicated below bean dregs filter basket under the effect of leeway, under suction function, air-flow enters below bean dregs filter basket by air inlet, upper cover slagging channel is entered again by filter screen, enter deslagging storehouse again, enter again in cast hopper, taken away by vavuum pump by vacuum line again, in above process, bean dregs in bean dregs filter basket on filter screen are sucked in upper cover slagging channel, be drawn onto deslagging storehouse from upper cover slagging channel again, and be finally deposited in bottom deslagging storehouse, now close vavuum pump, negative pressure disappears, feed intake one-way valve opens, material beans fall under gravity in the electromagnetism mashing off grinding integrated device of below and carry out defibrination, mashing off, meanwhile, the deslagging one-way valve opens at the slag-drip opening place in deslagging storehouse, bean dregs are discharged under gravity.Namely charging, feed intake while carry out filter residue, deslagging operation.Repeat above-mentioned action, can work continuously.

As a preferred version of the present utility model: defibrination mashing off mechanism is electromagnetism mashing off grinding integrated device, it comprises size cooking pan, size cooking pan cover plate, soya-bean milk grinds, electric mill machine and electric T-shaped valve, described size cooking pan outside is wound around solenoid, size cooking pan cover plate is positioned at the upper end of size cooking pan, size cooking pan cover plate is provided with the cover plate charging aperture corresponding with dog-house bottom cast hopper, the bottom of size cooking pan cover plate is provided with the height to downward-extension, low liquid level sensor and temperature sensor, the side, middle part of size cooking pan is provided with size cooking pan inlet, inlet place is provided with electric T-shaped valve, size cooking pan inlet is connected with the first fluid branch road of electric T-shaped valve by size cooking pan feed tube, soya-bean milk mill is arranged on size cooking pan bottom end outlet place, the grout outlet of soya-bean milk mill is connected with the inlet of electric T-shaped valve by soya-bean milk mill grout outlet, second fluid branch road of electric T-shaped valve is connected with bean dregs filter basket by ripe slurry pipe, size cooking pan feed tube is also connected with water inlet pipe, water inlet pipe is provided with entering water electromagnetic valve, the below of described soya-bean milk mill is provided with electric mill machine.

Size cooking pan of the present utility model arranges electric T-shaped valve, before dosing, close the second fluid branch road, open entering water electromagnetic valve, water passes through water inlet pipe, size cooking pan feed tube to water filling in size cooking pan, after water level exceedes lowest water level, start solenoid and size cooking pan is heated, water is heated to design temperature.

Feed intake one-way valve opens, feed intake in size cooking pan, start soya-bean milk mill after feeding intake and carry out defibrination, the raw soya-bean milk that defibrination produces enters electric T-shaped valve by soya-bean milk mill grout outlet, then through the first fluid branch road, size cooking pan feed tube is got back in size cooking pan and is formed a circulation, in cyclic process, after boiling, raw soya-bean milk is boiled as ripe soya-bean milk through repeatedly vacation, now close the first fluid branch road, open the second fluid branch road, ripe soya-bean milk in size cooking pan enters electric T-shaped valve through soya-bean milk mill grout outlet, then through the second fluid branch road, bean dregs filter basket delivered to by ripe slurry pipe, ripe stock tank is flowed into after filter residue.

Soya-bean milk of the present utility model grinds the soya-bean milk mill that prior art can be used known.

Soya-bean milk of the present utility model grinds preferred colloid mill, and its refining effect is good; Produce centrifugal force during its work enough large, just soya-bean milk can be sent back to size cooking pan circulation without the need to adding armored pump again or deliver to bean dregs filter basket.

High and low liquid level sensor of the present utility model is prior art products, preferably adopts the level electrode that metal is bar-shaped.

Temperature sensor of the present utility model is prior art products, preferably adopts PT100 or NTC temperature sensor.

Solenoid of the present utility model is wrapped in below the middle part of size cooking pan outer wall.

Size cooking pan of the present utility model is when cooked beans is starched, under the centrifugal action of soya-bean milk mill, raw soya-bean milk can rotate in the latter half rolling of size cooking pan, therefore solenoid is without the need to being all wound around ladle body, save production cost, Electromagnetic Heating, compared with traditional resistance heating manner, heats rapidly, energy-conservation more than 30%, reduce production cost; Electromagnetic Heating heats rapidly, and raw soya-bean milk is heated evenly, the phenomenon that can not be burned.

Size cooking pan of the present utility model is variable-diameter structure, is taper or wedged bottom bottom it.Taper or the wedged bottom structure of reducing will be set to bottom staving, and contribute to the rotary speed accelerating raw soya-bean milk, improve defibrination and mashing off efficiency.

Electric mill machine is fixed on motor fixed disk, the both sides, middle part of motor fixed disk by hinge on body, form a leverage, the end of size cooking pan cover plate both sides by hinge on body, form a leverage, by a rod hinge connection between size cooking pan cover plate and motor fixed disk, size cooking pan cover plate, connecting rod, motor fixed disk forms link gear, mashing off bung is parallel to be covered in size cooking pan upper end, motor fixed disk is in level, i.e. size cooking pan, soya-bean milk mill and electric mill machine are all in vertical duty, size cooking pan cover plate upwards starts, under the effect of connecting rod, motor fixed disk rotates forward, drive the size cooking pan be attached thereto, soya-bean milk mill and electric mill machine rotate all forward, rotation angle range is 0 °-120 °.(centered by bucket line, when 0 °, motor fixed disk is level, and size cooking pan is vertical state)

In link gear of the present utility model, in order to realize interlock, the upper end of connecting rod must be hinged on the inner side of the bearing pin of size cooking pan cover plate both-side ends, and its position can on size cooking pan cover plate, also can the below of size cooking pan cover plate or above; The lower end of connecting rod must be hinged on the rear side of both sides bearing pin in the middle part of motor fixed disk, and its position can on motor fixed disk, also can above or below motor fixed disk.

After electromagnetism mashing off grinding integrated device of the present utility model installs link gear additional, open size cooking pan cover plate and just can easily size cooking pan be put to level, convenient cleaning.Size cooking pan cover plate, at opening process, can not encounter high and low liquid level sensor and temperature sensor.

Also be provided with electric cabinet and wastewater trough in body, engine body exterior is provided with the contact panel be connected with electric cabinet, and described wastewater trough is arranged on the bottom of vavuum pump.

Wastewater trough of the present utility model for taking up vavuum pump, the waste water that produces when doing of soya-bean milk grinder, when shutting down manual cleaning robot, wastewater trough is also for waste water remaining in each container of splendid attire, pipeline.

Electric cabinet inside of the present utility model is provided with and performs plate, Electromagnetic Heating control panel, it is prior art mature technology, Electromagnetic Heating control panel is connected with solenoid, control solenoid heats, perform the input signal that plate receives contact panel, electric T-shaped valve, electric mill machine, vavuum pump, entering water electromagnetic valve, the work of Electromagnetic Heating control panel can be controlled.

Contact panel of the present utility model comprises display screen and single-chip microcomputer push button, display screen can show the information such as liquid level, temperature, time of ripe soya-bean milk in ripe stock tank, and push button can operate charging, feeds intake, grind mashing off, reservation startup, automatic flow control etc.

Wastewater trough of the present utility model can adopt drawer type wastewater trough, easy to use.

The utility model have rational in infrastructure, working stability is reliable, easy to use, automaticity is high, cost is low, energy-conservation, save artificial advantage.The utility model is not only applicable to cook soya-bean milk, is also applicable to cook the food such as rice paste.The utility model due to raw material can long-time storage and unmanned, therefore can accomplish automatically to preengage the functions such as startup, automaticity is high.

Accompanying drawing explanation

Fig. 1 is Facad structure schematic diagram of the present utility model;

Fig. 2 is axle side, the back side of the present utility model perspective view;

Fig. 3 is the structural representation after the utility model removes side panel;

Fig. 4 is the perspective view of the utility model negative pressure material loading filter residue slagging device charging filter residue state;

Fig. 5 is the perspective view of the utility model negative pressure material loading filter residue slagging device deslagging state;

Fig. 6 is the stereo decomposing status architecture schematic diagram of the utility model cast hopper;

Fig. 7 is the cross-sectional view of the utility model upper cover;

Fig. 8 is the perspective view after the utility model upper cover removes top board;

Fig. 9 is the structural representation in the utility model cast hopper and deslagging storehouse;

Figure 10 is the structural representation of the utility model electromagnetism mashing off grinding integrated device duty;

Figure 11 is the perspective view of the utility model electromagnetism mashing off grinding integrated device cleaning state;

Figure 12 is operation principle schematic diagram of the present utility model.

As shown in FIG.: 1. body; 2. wastewater trough; 3. pulp tap; 4. contact panel; 5. feed pipe; 6. upper cover; 7. air inlet; 8. ripe stock tank; 9. slag-drip opening; 10. water inlet; 11. charging apertures; 12. size cooking pan feed tubes; 13. electric T-shaped valves; 14. size cooking pans; 15. vavuum pumps; 16. vavuum pump covers; 17. electric mill machines; 18. electric cabinets; 19. vacuum tubes; 20. soya-bean milk mills; 21. soya-bean milk mill grout outlets; 22. ripe slurry pipes; 23. water inlet pipes; 24. entering water electromagnetic valves; 25. deslagging storehouses; 26. cast hoppers; 27. feed pipe bayonet sockets; 28. bean dregs filter baskets; 29. deslagging storehouse through holes; 30. slag traps; 31. right plate through holes; 32. right plates; 33. vertical chutes; 34. base plates; 35. left plate through holes; 36. left plates; 37. ripe stock tank spout holes; 38. upper cover slagging channels; Valve plate on 39.; 40. silica gel flaps; 41. lower valve plates; 42. times valve openings; Valve opening on 43.; 44. feed intake check valve; 45. deslagging check valves; 46. motor fixed disks; 47. solenoids; 48. size cooking pan cover plates; 49. cover plate charging apertures; 50. connecting rods; 51. pin shaft holes; 52. temperature sensors; 53. high liquid level sensors; 54. low liquid level sensors; 55. bearing pins; 56. filter screens; 57. full beans vacuum reversal valves; 58. feed check valves; 59. deslagging buckets; 60. material bean buckets; 61. vertical slide rails.

Detailed description of the invention

As shown in Figure 1 and Figure 2: body 1 of the present utility model is vertical long type, be made up of stainless steel frame and panel, body 1 top is provided with the upper cover 6 of hollow, upper cover 6 front end is provided with air inlet 7, body 1 forward upper is provided with ripe stock tank 8, is also provided with contact panel 4 and pulp tap 3 on front side of body 1, and body 1 bottom is provided with drawer type wastewater trough 2, the left and right sides of body 1 is respectively equipped with 1 charging aperture 11, and the rear side of body 1 is provided with slag-drip opening 9 and water inlet 10.

Body 1 inner upper is provided with negative pressure material loading filter residue slagging device, as Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, shown in Fig. 9: negative pressure material loading filter residue slagging device comprises bean dregs filter basket 28, upper cover slagging channel 38, deslagging storehouse 25, cast hopper 26 and vavuum pump 15, bean dregs filter basket 28 is arranged on the top of ripe stock tank 8, filter screen 56 (only drawing in fig. 12) is equipped with bottom it, upper cover 6 inner space is upper cover slagging channel 38, the upper cover bottom opening at bean dregs filter basket 28 place, for upper cover slagging channel charging aperture, the inner side of ripe stock tank 8 is provided with cast hopper 26 and deslagging storehouse 25 successively, upper cover gab above deslagging storehouse 25, for upper cover slagging channel discharging opening, the inwall of ripe stock tank 8 is provided with the ripe stock tank spout hole 37 be positioned at below bean dregs filter basket 28, ripe stock tank 8 is communicated with cast hopper 26 by ripe stock tank spout hole 37, deslagging storehouse 25 is provided with deslagging storehouse through hole 29, deslagging storehouse 25 is communicated with cast hopper 26 by deslagging storehouse through hole 29, the slag trap 30 be positioned at above deslagging storehouse through hole 29 is provided with in deslagging storehouse 25, cast hopper 26 inner upper end is provided with the full beans vacuum reversal valve 57 that can slide up and down, full beans vacuum reversal valve 57 comprises left plate 36, left plate through hole 35, right plate 32, right plate through hole 31 and base plate 34, left plate 36 and right plate 32 are respectively equipped with vertical chute 33, vertical slide rail 61 corresponding is with it provided with inside the two side of cast hopper 26, full beans vacuum reversal valve 57 can be slided up and down by vertical slide rail 61, vavuum pump 15 is arranged on body 1 inner bottom part, the side, top of cast hopper 26 is connected to by vacuum tube 19, the bottom of cast hopper 26 is provided with the check valve 44 that feeds intake, bottom slag discharge 9 place in deslagging storehouse 25 is provided with deslagging check valve 45, it is (not shown in FIG. that the charging aperture place of cast hopper 26 is provided with feed check valve, its structure and the check valve 44 that feeds intake, deslagging check valve 45 is identical, be a hinged valve board structure), air inlet reversal valve is provided with in the front end airflow mouth 7 of upper cover 6, air inlet reversal valve comprises silica gel flap 40, the upper valve plate 39 be obliquely installed is provided with above silica gel flap 40, upper valve plate 39 is provided with valve opening 43, the below of silica gel flap 40 is provided with lower valve plate 41 (lower valve plate is a part for upper cover diapire), lower valve plate 41 is provided with lower valve opening 42, lower valve opening 42 communicates with the ripe stock tank 8 below bean dregs filter basket 28.

As Figure 10, shown in Figure 11, in body 1, bottom is provided with electromagnetism mashing off grinding integrated device and link gear thereof, size cooking pan cover plate 48 is provided with the cover plate charging aperture 49 corresponding with dog-house position bottom cast hopper 26, the bottom surface of size cooking pan cover plate 48 is provided with the high liquid level sensor 54 extending to size cooking pan 14 inside, low liquid level sensor 53 and temperature sensor 52, the left and right sides, rear end of size cooking pan cover plate 48 is hinged on body 1 by bearing pin and pin shaft hole 51, form a leverage, the upper end of two connecting rods 50 (is positioned at the inner side of pin shaft hole 51) respectively by hinge below the left and right sides, rear end of size cooking pan cover plate 48, the both sides, middle part of motor fixed disk 46 by hinge on body 1, form a leverage, the lower end of two connecting rods 50 is hinged on the left and right sides, rear end (being positioned at the rear side of middle part bearing pin) of motor fixed disk 46 respectively by bearing pin 55, size cooking pan cover plate 48, connecting rod 50 and motor fixed disk 46 form link gear, it is taper bottom size cooking pan 14, ladle body the latter half outer felt is wound with solenoid 47, in the middle part of size cooking pan 14, side is provided with electric T-shaped valve 13, size cooking pan 14 bottom port place is provided with soya-bean milk mill 20 by quick coupling, soya-bean milk mill 20 adopts colloid mill, its input is connected with the electric mill machine 17 of below, size cooking pan 14 is provided with inlet, inlet is connected with the first fluid branch road of electric T-shaped valve 13 by size cooking pan feed tube 12, first fluid branch road of electric T-shaped valve 13 is also connected with the water inlet pipe 23 extending to body 1 outside, water inlet pipe 23 is provided with entering water electromagnetic valve 24, second fluid branch road of electric T-shaped valve 13 connects ripe slurry pipe 22, the upper end of ripe slurry pipe 22 is positioned at bean dregs filter basket 28, the feed liquor branch road of electric T-shaped valve 13 is connected with the grout outlet that soya-bean milk grinds 20 by soya-bean milk mill grout outlet 21.Electric mill machine 17 is arranged on motor fixed disk 46, and body 1 inner bottom part is also provided with electric cabinet 18, is provided with and performs plate and Electromagnetic Heating control panel in electric cabinet 18.

When the utility model uses, as shown in Fig. 1-Figure 12: material bean bucket 60 leaves in the low temp freezing appts such as refrigerator, refrigerator-freezer, by feed pipe 5 by feed pipe bayonet socket 27 (prior art products, its structure is identical with prior art vacuum cleaner hose bayonet arrangement) be connected on the charging aperture 11 of cast hopper 26 side, supply equipment connects water inlet 10.

When first time charging, cast hopper 26 is hole capital after selling all securities, under gravity, full beans vacuum reversal valve 57 is in low level, now left plate through hole 35 communicates with ripe stock tank spout hole 37, deslagging storehouse through hole 29 is closed by right plate 32, vavuum pump 15 starts, at cast hopper 26, ripe stock tank 8, negative pressure is formed in bean dregs filter basket 28, the silica gel flap 40 of air inlet reversal valve is under leeway effect, automatic attaching is on lower valve plate 41, close lower valve opening 42, air inlet 7 is communicated with upper cover slagging channel 38 by upper valve opening 43, material beans in material bean bucket 60 are by feed pipe 5, feed check valve 58 enters cast hopper 26, after the material beans in cast hopper 26 are bought securities with all one's capital, close vavuum pump 15, negative pressure disappears, the check valve 44 that feeds intake is opened, material beans fall under gravity, enter in size cooking pan 14 by cover plate charging aperture 49, before dosing, entering water electromagnetic valve 24 opened by electric cabinet 27, close the second fluid branch road of electric T-shaped valve 13, now water is by water inlet pipe 23, it is inner that size cooking pan feed tube 12 enters size cooking pan 14, after water level exceedes lowest water level, electric cabinet 27 starts solenoid 47 pairs of water heating, be heated design temperature.

After feeding intake, vavuum pump 15 closed by electric cabinet 27, close entering water electromagnetic valve 24, start electric mill machine 12, electric mill machine 12 drives soya-bean milk mill 20 to carry out defibrination, the grout outlet that the raw soya-bean milk ground grinds 20 by soya-bean milk under the influence of centrifugal force throws away, electric T-shaped valve 13 is entered by soya-bean milk mill grout outlet 21, then through the first fluid branch road, size cooking pan feed tube 12 is got back in size cooking pan 14, continue defibrination, form a circulation, in above-mentioned cyclic process, raw soya-bean milk in size cooking pan 14 to be fitted in ladle body bottom interior wall rotation of rolling at a high speed, while defibrination, electric cabinet 27 powers to solenoid 47 to heat size cooking pan 14, limit edging boils, after repeatedly vacation is boiled, raw soya-bean milk is boiled, under the effect of temperature sensor 52, solenoid 47 power-off given by electric cabinet 27, stop heating, now close the first fluid branch road of electric T-shaped valve 13, open the second fluid branch road, under the centrifugal action of soya-bean milk mill 20, ripe soya-bean milk enters electric T-shaped valve 13 by soya-bean milk mill grout outlet 21, then through the second fluid branch road, ripe slurry pipe 22 enters in bean dregs filter basket 28, soya-bean milk after filter screen 56 filter residue flows in ripe stock tank 8, now can remain the filter residue being rich in soya-bean milk in bean dregs filter basket 28.

After the ripe soya-bean milk in ripe stock tank 8 is finished, when needing to carry out charging next time, under gravity, full beans vacuum reversal valve 57 is in low level, now left plate through hole 35 communicates with ripe stock tank spout hole 37, deslagging storehouse through hole 29 is closed by right plate 32, feed intake check valve 44, deslagging check valve 45 is in closed condition, vavuum pump 15 starts, at cast hopper 26, ripe stock tank 8, negative pressure is formed in bean dregs filter basket 28, the silica gel flap 40 of air inlet reversal valve is under leeway effect, automatic attaching is on lower valve plate 41, close lower valve opening 42, air inlet 7 is communicated with upper cover slagging channel 38 by upper valve opening 43, after air-flow enters upper cover slagging channel 38, ripe stock tank 8 is entered by bean dregs filter basket 28, enter in cast hopper 26 by ripe stock tank spout hole 37 again, taken away by vavuum pump 15 finally by vacuum tube 19, again in said flow motion process, material beans are by feed pipe 5, feed check valve 58 enters in cast hopper 26, meanwhile, soya-bean milk residual in filter residue on filter screen 56 also can be drawn onto in the ripe stock tank of below, namely while charging, filter residue is filtered dry.

When cast hopper 26 inside, material beans increase gradually, material beans can by full beans vacuum reversal valve 57 upwards jack-up, when full beans vacuum reversal valve 57 is in a high position, ripe stock tank spout hole 37 is closed by left plate 36, right plate through hole 31 communicates with deslagging storehouse through hole 29, now under suction function, silica gel flap 40 automatic attaching of air inlet reversal valve is on upper valve plate 39, close upper valve opening 43, air inlet 7 is communicated with bean dregs filter basket 28 by lower valve opening 42, under leeway effect, air-flow enters in the ripe stock tank 8 below bean dregs filter basket 28 by air inlet 7, enter bean dregs filter basket 28 from ripe stock tank 8 again, enter upper cover slagging channel 38 again, enter deslagging storehouse 25 again, enter in cast hopper 26 by deslagging storehouse through hole 29 again, taken away by vavuum pump 15 by vacuum tube 19 again, in said flow motion process, bean dregs in bean dregs filter basket 28 on filter screen 56 are sucked in upper cover slagging channel 38, be drawn onto deslagging storehouse 25 from upper cover slagging channel 38 again, and be finally deposited in bottom deslagging storehouse 25, now close vavuum pump 15, negative pressure disappears, feed intake check valve 44, deslagging check valve 45 is opened, material beans fall under gravity in the electromagnetism mashing off grinding integrated device of below and proceed defibrination, mashing off, bean dregs in deslagging storehouse 25 fall into deslagging bucket 59.Namely charging, feed intake while carry out filter residue, deslagging operation.Repeat above-mentioned action, can work continuously.

When the utility model needs to clean, shut down, pulled down by each pipeline and carry out manual cleaning, now, liquid remaining in parts, pipeline can be collected in wastewater trough 2.

When needs cleaning size cooking pan 14, upwards start size cooking pan cover plate 48, under connecting rod 50 acts on, motor fixed disk 46 can with the bearing pin of both sides, middle part for axle can rotate forward, the electric mill machine 17 that drive is attached thereto, soya-bean milk mill 20, size cooking pan 14 rotate forward together, continue upwards to start size cooking pan cover plate 48, until size cooking pan 14 is the level of state, can clean easily.

Claims (10)

1. a negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine, comprise body, pulp tap is provided with outside body, it is characterized in that in body, being provided with ripe stock tank, negative pressure material loading filter residue slagging device and defibrination mashing off mechanism, described ripe stock tank and negative pressure material loading filter residue slagging device are positioned at body internal upper part, ripe stock tank is connected with extra-organismal pulp tap, and defibrination mashing off mechanism is positioned at the below of negative pressure material loading filter residue slagging device.

2. negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine according to claim 1, it is characterized in that negative pressure material loading filter residue slagging device comprises bean dregs filter basket, upper cover slagging channel, deslagging storehouse, cast hopper and vavuum pump, bean dregs filter basket is arranged on the upper end of ripe stock tank, filter screen is equipped with bottom bean dregs filter basket, the upper cover hollow design of body, its front end is provided with air inlet, air inlet reversal valve is provided with in air inlet, upper cover inner hollow space is upper cover slagging channel, upper cover diapire above bean dregs filter basket is provided with slagging channel slag inlet, the inner side of ripe stock tank is provided with cast hopper and deslagging storehouse successively, upper cover place above deslagging storehouse is provided with slagging channel slag notch, the side of described cast hopper is provided with charging aperture, the air inlet of vavuum pump is connected with cast hopper by vacuum line, sidewall between ripe stock tank and cast hopper is provided with ripe stock tank spout hole, ripe stock tank spout hole is positioned at the below of bean dregs filter basket, sidewall between deslagging storehouse and cast hopper is provided with deslagging storehouse through hole, cast hopper inside is provided with full beans vacuum reversal valve.

3. negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine according to claim 1, it is characterized in that full beans vacuum reversal valve comprises left plate, base plate and right plate, left plate and right plate are provided with symmetrical vertical chute, the two side of cast hopper is provided with the vertical slide rail mated with vertical chute, the top of left plate is provided with left plate through hole, the bottom of right plate is provided with right plate through hole, when full beans vacuum reversal valve is in low level, left plate through hole communicates with ripe stock tank through hole, deslagging storehouse through hole is closed by right plate, when full beans vacuum reversal valve is in a high position, ripe stock tank through hole is closed by left plate, right plate through hole communicates with deslagging storehouse through hole.

4. negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine according to claim 2, it is characterized in that the top of deslagging storehouse through hole is provided with downward-sloping slag trap, the dog-house place, bottom of cast hopper is provided with the check valve that feeds intake, the bottom slag discharge place in deslagging storehouse is provided with deslagging check valve, and charging aperture place is provided with feed check valve.

5. negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine according to claim 2, it is characterized in that air inlet reversal valve comprises silica gel flap, upper valve plate and lower valve plate, lower valve plate is provided with and the lower valve opening communicated below bean dregs filter basket, upper valve plate is inclined at upper cover inside, upper valve plate is provided with the upper valve opening communicated with upper cover slagging channel, the end of silica gel flap is hinged between valve plate and lower valve plate, when silica gel flap is fitted in lower valve plate, close lower valve opening, air inlet is communicated with upper cover slagging channel by upper valve opening, when silica gel flap is fitted in valve plate, close upper valve opening, air inlet is communicated with the ripe stock tank below bean dregs filter basket by lower valve opening.

6. negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine according to claim 1, it is characterized in that defibrination mashing off mechanism is electromagnetism mashing off grinding integrated device, it comprises size cooking pan, size cooking pan cover plate, soya-bean milk grinds, electric mill machine and electric T-shaped valve, described size cooking pan outside is wound around solenoid, size cooking pan cover plate is positioned at the upper end of size cooking pan, size cooking pan cover plate is provided with the cover plate charging aperture corresponding with the bottom dog-house of cast hopper, the bottom of size cooking pan cover plate is provided with the height to downward-extension, low liquid level sensor and temperature sensor, the side, middle part of size cooking pan is provided with size cooking pan inlet, inlet place is provided with electric T-shaped valve, size cooking pan inlet is connected with the first fluid branch road of electric T-shaped valve by size cooking pan feed tube, soya-bean milk mill is arranged on size cooking pan bottom end outlet place, the grout outlet of soya-bean milk mill is connected with the inlet of electric T-shaped valve by soya-bean milk mill grout outlet, second fluid branch road of electric T-shaped valve is connected with bean dregs filter basket by ripe slurry pipe, size cooking pan feed tube is also connected with water inlet pipe, water inlet pipe is provided with entering water electromagnetic valve, the below of described soya-bean milk mill is provided with electric mill machine.

7. negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine according to claim 6, is characterized in that solenoid is wrapped in below the middle part of size cooking pan outer wall.

8. the negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine according to claim 6 or 7, is characterized in that size cooking pan is variable-diameter structure, is taper or wedged bottom bottom it.

9. negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine according to claim 6, it is characterized in that electric mill machine is fixed on motor fixed disk, the both sides, middle part of motor fixed disk by hinge on body, form a leverage, the end of size cooking pan cover plate both sides by hinge on body, form a leverage, by a rod hinge connection between size cooking pan cover plate and motor fixed disk, size cooking pan cover plate, connecting rod, motor fixed disk forms link gear, mashing off bung is parallel to be covered in size cooking pan upper end, motor fixed disk is in parastate, i.e. size cooking pan, soya-bean milk mill and electric mill machine are all in vertical duty, size cooking pan cover plate upwards starts, under the effect of connecting rod, motor fixed disk rotates forward, drive the size cooking pan be attached thereto, soya-bean milk mill and electric mill machine rotate all forward, rotation angle range is 0 °-120 °.

10. negative pressure material loading filter residue deslagging electromagnetic heating soybean milk making machine according to claim 1 and 2, it is characterized in that also being provided with electric cabinet and wastewater trough in body, engine body exterior is provided with the contact panel be connected with electric cabinet, and described wastewater trough is arranged on the bottom of vavuum pump.