CN203468331U - Safe soybean milk machine - Google Patents

Abstract

Provided is a safe soybean milk machine. The machine comprises a motor, a cutter shaft, a smashing cutter and a smashing cavity. An air vent is arranged in the top of the smashing cavity; a shaft hole is arranged in the side wall of the smashing cavity; the cutter shaft is driven by the motor; the cuter shaft passes through the shaft hole and stretches into the smashing cavity; the smashing cutter is mounted on the cutter shaft and arranged in the smashing cavity; the smashing cavity is a revolving body; the smashing cutter and the air vent are respectively arranged on/in two sides of a central plane of the revolving body, wherein the central plane is parallel to a rotation plane of the smashing cutter; the motor drives the smashing cutter to rotate; and the flow direction of soybean milk liquid is opposite to that of the air vent. According to the utility model, a pressure-free and small space soybean milk making method is adopted, and risks in soybean milk making method under pressure are eliminated while overflow in a soybean milk making process is avoided.

Description

Safe soya-bean milk machine

Technical field

The utility model relates to a kind of food processing machinery, relates in particular to a kind of safe soya-bean milk machine.

Background technology

Before the applicant, applied for a kind of from boiling bean milk maker, from boiling bean milk maker, comprise support, control module, crushing knife tool, motor, pulverizing ager, preheating device, motor and pulverizing slaking are arranged on support, motor is connected with control module, crushing knife tool is positioned at pulverizes ager inside, and material and water mix and is ground into slurries by crushing knife tool in pulverizing ager.Described from boiling bean milk maker, by crushing knife tool, stir material and water pulverize slurrying in pulverizing ager in by soya-bean milk slaking, so comminuting matter and slaking material carry out simultaneously, saved the infusion time of slurries, further shortened mixing time, saved corresponding infusion structure, simplify the structure of soy bean milk making machine, saved cost.

The pulverizing ager on boiling bean milk maker before can produce certain pressure in pulping process, in order to reduce application risk, the applicant to before from boiling bean milk maker, study realization without pressure slurrying.

Utility model content

In view of this, be necessary to provide a kind of stress-free safe soya-bean milk machine.

The technical solution of the utility model is to achieve these goals:

A kind of safe soya-bean milk machine, comprise motor, cutter shaft, crushing knife tool, crushing chamber, crushing chamber top offers passage, and crushing chamber sidewall offers axis hole, and motor drives cutter shaft, cutter shaft stretches into crushing chamber inside through axis hole, crushing knife tool is arranged on cutter shaft and is positioned at crushing chamber inside, and crushing chamber is revolving body, and crushing knife tool and passage lay respectively at the both sides of the revolving body median plane parallel with the crushing knife tool surfaces of revolution, the rotation of driven by motor crushing knife tool, slurries flow direction deviates from passage.

Further, the distance between described crushing knife tool and revolving body median plane is a, 0≤a≤1/2R1, and R1 is the radius of gyration in cross section, cutter shaft place.

Further, the distance between described passage and revolving body median plane is b, 1/3R2≤b < R2, and R2 is the radius of gyration in cross section, passage place.

Further, the diameter of described passage is 3mm to 30mm.

Further, described passage and cutter shaft are over against setting.

Further, between described passage and cutter shaft, be provided with α≤45 °, α， drift angle, drift angle.

Further, described passage is provided with back-up ring around.

Further, described back-up ring stretches into crushing chamber inside, or described back-up ring exceeds crushing chamber top, or described back-up ring comprises back-up ring and lower back-up ring, and upper back-up ring exceeds crushing chamber top, and lower back-up ring stretches into crushing chamber inside.

Further, the height of described back-up ring is 2mm to 20mm.

The beneficial effect that the utility model brings is:

Described crushing chamber is revolving body, and crushing knife tool and passage lay respectively at the both sides of the revolving body median plane parallel with the crushing knife tool surfaces of revolution, the rotation of driven by motor crushing knife tool, and slurries flow direction deviates from passage.During slurrying, motor drives crushing knife tool rotation to make material and water deviate from passage to flow, material can be pulverized by crushing knife tool during by crushing knife tool, slurries are because the effect of crushing knife tool rotation is pushed to crushing chamber sidewall afterwards, and rise with sidewall, finally fall again and form circulation, crushing knife tool and passage are separately positioned on median plane both sides, guaranteed slurries circulation route long enough, prevent that slurries from not flowing out crushing chamber from passage when also falling, slurries flow direction deviates from passage, guarantee slurries circulation route be from passage away from a side, while preventing slurrying equally, not having slurries overflows from passage.

Distance between described crushing knife tool and revolving body median plane is a, 0≤a≤1/2R1, and R1 is the radius of gyration in cross section, cutter shaft place.If a > is 1/2R1, can make the distance at crushing knife tool and crushing chamber sidewall two ends have big difference, cause a part of slurries cannot enter circulation, or, the number of times that enters circulation is relatively less, and this can produce certain influence to crushing effect, thereby affects final soya-bean milk mouthfeel.

Distance between described passage and revolving body median plane is b, 1/3R2≤b < R2, and R2 is the radius of gyration in cross section, passage place.If b < is 1/3R2, can make the distance between passage and crushing knife tool too small, can cause first crushing knife tool directly slurries to be played out, second can shorten circulating path and cause slurries to overflow, the situation that may cause slurries to overflow.

The diameter of described passage is 3mm to 30mm.The diameter of passage is less than 3mm, may cause the soya-bean milk mouthfeel inequality of producing by residual fraction pressure, and the diameter of passage is greater than 30mm, and the easy splash of inner slurries goes out passage.

Described passage and motor shaft are over against setting.Passage and motor shaft are the longest over against the circulating path that slurries are everywhere set, and the effect of relatively anti-spilled passage is best.

Between described passage and cutter shaft, be provided with α≤45 °, α， drift angle, drift angle.Between passage and motor shaft, be provided with drift angle α, as long as drift angle is maintained within a certain range, processing is comparatively simple relatively, when 45 ° of α >, the slurries circulating path of drift angle direction can be shortened, and may cause like this situation that slurries overflow to occur.

Described passage is provided with back-up ring.Passage adds back-up ring can strengthen anti-overflow effect, and the slurries that flow to passage place can be blocked by back-up ring.

Described back-up ring stretches into crushing chamber inside, or described back-up ring exceeds crushing chamber top, or described back-up ring comprises back-up ring and lower back-up ring, and upper back-up ring exceeds crushing chamber top, and lower back-up ring stretches into crushing chamber inside.Three kinds of designs all can reach anti-overflow effect, stretch into crushing chamber inner with to exceed crushing chamber top effect basic identical, upper and lower back-up ring effect is set best, but processing cost promote.

The height of described back-up ring is 2mm to 20mm.Back-up ring height is too short, and block pulp weak effect does not have actual anti-overflow effect, and back-up ring excessive height is wasted material and may have influence on the slurrying in crushing chamber.

Accompanying drawing explanation

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

Fig. 1 is the complete machine structure schematic diagram of safe soya-bean milk machine embodiment one described in the utility model;

Fig. 2 is the cutter structure schematic diagram of safe soya-bean milk machine embodiment one described in the utility model;

Fig. 3 is that the crushing knife tool of safe soya-bean milk machine embodiment one described in the utility model turns to schematic diagram;

Fig. 4 is the schematic top plan view of safe soya-bean milk machine embodiment one described in the utility model;

Fig. 5 is the complete machine structure schematic diagram of safe soya-bean milk machine embodiment two described in the utility model;

Fig. 6 is the cutter structure schematic diagram of safe soya-bean milk machine embodiment two described in the utility model;

11, motor; 12, crushing chamber; 121, electric machine support; 122, axis hole; 13, cutter shaft; 14, crushing knife tool; 15, heating tube; 16, water level of temperature monitor; 161, sensor installation seat; 17, top cover; 171, passage; 172, back-up ring; 18, draining valve; 21, blade; 22, the knife back; 51, motor; 52, crushing chamber; 53, cutter shaft; 54, crushing knife; 55, top cover; 551, passage; 552, back-up ring; 61, blade; 62, the knife back.

The specific embodiment

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

Embodiment one:

The first embodiment of the utility model safe soya-bean milk machine as shown in Figures 1 to 4, described safe soya-bean milk machine comprises support (not shown), motor 11, crushing chamber 12, cutter shaft 13, crushing knife tool 14, crushing chamber 12 is arranged on support.

Crushing chamber 12 is revolving body, the sidewall of crushing chamber 12 is provided with electric machine support 121, motor 11 is arranged on the sidewall of crushing chamber 12 by electric machine support 121, the sidewall of crushing chamber 12 also offers axis hole 122, cutter shaft 13 stretches into crushing chamber 12 inside through axis hole 122, the extended line of cutter shaft 13 is through center line A, crushing knife tool 14 is arranged on cutter shaft 13 and is positioned at crushing chamber 12 inside, crushing knife tool 14 is positioned at the right side of center line A, between crushing knife tool 14 and center line A, distance is a, the sidewall of crushing chamber 12 is also provided with heating tube 15, water level of temperature monitor 16 and sensor installation seat 161, heating tube 15 is connected with the sidewall of crushing chamber 12 by welding, guarantee the heat transfer efficiency of heating tube 15, 16 of water level of temperature monitors are arranged in sensor installation seat 161, the probe segment of water level of temperature monitor 16 stretches into slurry temperature and the water level that crushing chamber 12 is used for detecting crushing chamber 12 inside.Crushing chamber 12 tops are provided with top cover 17, on top cover 17, offer passage 171, passage 171 is positioned at the left side of center line A, between passage 171 and center line A, distance is b, the diameter of passage 171 is c, passage 171 is provided with back-up ring 172 around, and back-up ring 172 stretches into crushing chamber 12 inside, and the height of back-up ring 172 is d.Crushing chamber 12 bottoms are provided with draining valve 18, are used for discharging slurries.In this example, described a is 0≤a≤1/2R1, for example a=1/5R1, a=1/4R1, a=1/3R1, R1 is the radius of gyration in cross section, cutter shaft place, if a > is 1/2R1, can make the distance at crushing knife tool and crushing chamber sidewall two ends have big difference, cause a part of slurries cannot enter circulation, or the number of times that enters circulation is relatively less, this can produce certain influence to crushing effect.Described b is 1/3R2≤b < R2, for example b=1/2R2, b=2/3R2, b=3/4R2, b=6/7R2, b=9/10R2, R2 is the radius of gyration in cross section, passage place, if b < is 1/3R2, can make the distance between passage 171 and crushing knife tool 14 too small, can cause first crushing knife tool 14 directly slurries to be played out, second can shorten circulating path causes slurries to overflow, the situation that may cause slurries to overflow, because the radius of gyration is R2, so b is less than R2.Described c is 3mm≤c≤30mm, for example 5mm, 8mm, 10mm, 12mm, 15mm, 18mm, 20mm, 22mm, 25mm, 28mm, if c < is 3mm, may cause the soya-bean milk mouthfeel inequality of producing by residual fraction pressure, if c > is 30mm, the easy splash of inner slurries goes out passage.Described d is 2mm≤d≤20mm, for example 4mm, 5mm, 8mm, 10mm, 12mm, 15mm, 18mm, if d < is 2mm, the block pulp weak effect of back-up ring 172 does not have actual anti-overflow effect, if d > is 20mm, back-up ring 172 excessive height, waste material and may have influence on the effects on slurry making in crushing chamber.

With reference to Fig. 2, crushing knife tool 14 comprises blade 21 and the knife back 22, and the blade 21 of crushing knife tool 14 is towards the direction of cutter shaft 13, and the knife back 22 of crushing knife tool 14 is away from the direction of cutter shaft 13.

With reference to Fig. 3, the direction of rotation of crushing knife tool 14 is as shown by arrows in FIG. for being rotated counterclockwise.

By the direction of rotation effect of blade 21 directions and crushing knife tool 14, slurries are pumped to crushing knife tool 14 1 sides by passage 171 1 sides, one side guarantee that thus slurries can longer the circulating along path, prevents that slurries from overflowing passage 171.

With reference to Fig. 4, passage 171 is circular, passage 171 and cutter shaft 13 are over against setting, the extended line of cutter shaft 13 is through passage 171 centers of circle (as solid line in figure is drawn as shown in passage 171), or, between passage 171 and cutter shaft 13, be provided with drift angle α (as shown in passage 171 as drawn in dotted line in figure), α≤45 °.When 45 ° of α >, the slurries circulating path of drift angle direction can be shortened, and may cause like this situation that slurries overflow to occur, therefore set α≤45 °.

During slurrying, motor 11 drives crushing knife tool 14 rotations that material and water are pumped to crushing knife tool 14, material can be pulverized by crushing knife tool 14 during by crushing knife tool 14, the effect that slurries rotate due to crushing knife tool 14 is afterwards pushed to the sidewall of crushing chamber 12, and rise with sidewall, finally fall again and form circulation, owing to having adopted passage 171 and crushing knife tool 14 to be distributed in the arrangement of center line A both sides, and material and water are pumped to crushing knife tool 14 1 sides by passage 171 1 sides, guaranteed slurries circulation route long enough, and slurries circulation route be from passage 171 away from a side, prevent that slurries from also just flowing out from passage 171 in circulation route, in addition the slurries that fall can form again eddy current with the slurries that are extracted when converging also can prevent that slurries from flowing out from passage 171.

Understandable, described water level of temperature monitor can be also the temperature sensor arranging separately and the level sensor arranging separately.

Understandable, described motor can coaxially not arrange with cutter shaft yet, but transmission device is set, and transmission device is transferred to cutter shaft by the rotating speed of motor output and drives crushing knife tool to rotate.

Understandable, described top cover and crushing chamber are also an integral body, and top cover can not be dismantled, and the passage of offering on top cover is used as plup inlet simultaneously.

Understandable, described revolving body can be by planar graphs such as rectangle, trapezoidal, semicircle, circular, oval, triangle, pentagon, hexagons, and revolution alone or in combination forms.

Understandable, described passage can be also other shapes as rectangle, pentagon, hexagon, fan-shaped etc.

Understandable, described back-up ring can be also to exceed crushing chamber top, or described back-up ring comprises back-up ring and lower back-up ring, and upper back-up ring exceeds crushing chamber top, and lower back-up ring stretches into crushing chamber inside.

Understandable, it can be also a plurality of that described passage can be 1, and in the situation of a plurality of passages, each passage needs to meet aforementioned condition, separate setting between each passage.

Embodiment two:

If Fig. 5 to Fig. 6 is the second embodiment of the utility model safe soya-bean milk machine, described safe soya-bean milk machine comprises support (not shown), motor 51, crushing chamber 52, cutter shaft 53, crushing knife tool 54, and crushing chamber 52 is arranged on support.

Remainder is identical with embodiment one, cutter shaft 53 is through center line B, crushing knife tool 54 is positioned at the left side of center line B, and between crushing knife tool 54 and center line B, distance is a, and crushing chamber 52 is provided with top cover 55, top cover offers passage 551, passage 551 is positioned at the right side of center line B, and between passage 551 and center line B, distance is b, and the diameter of passage 551 is c, passage 551 is also provided with back-up ring 552 around, and the height of back-up ring 552 is d.In this example, described a=10mm, a=1/4R1, R1 is the radius of gyration in cross section, cutter shaft place, R1=40mm.Described b=28mm, b=4/7R2, R2 is the radius of gyration in cross section, passage place, R2=49mm.Described c=11mm, d=8mm.

With reference to Fig. 6, crushing knife tool 54 comprises blade 61 and the knife back 62, and the knife back 62 of crushing knife tool 54 is towards the direction of cutter shaft 53, and the blade 61 of crushing knife tool 54 is away from the direction of cutter shaft 53.The direction of rotation of crushing knife tool 54 is still for being rotated counterclockwise.

During slurrying, by the direction of rotation effect of blade 61 directions and crushing knife tool 54, slurries are pumped to crushing knife tool 54 1 sides by passage 551 1 sides, one side guarantee that thus slurries can longer the circulating along path, prevents that slurries from overflowing passage 551.

More than enumerate and only expressed several embodiment of the present utility model, do not departing under the prerequisite of the utility model spirit, some improvement and the distortion according to the utility model scheme and technology, made, all should belong to protection domain of the present utility model.

Claims (9)

1. a safe soya-bean milk machine, comprise motor, cutter shaft, crushing knife tool, crushing chamber, crushing chamber top offers passage, crushing chamber sidewall offers axis hole, motor drives cutter shaft, cutter shaft stretches into crushing chamber inside through axis hole, crushing knife tool is arranged on cutter shaft and is positioned at crushing chamber inside, it is characterized in that: described crushing chamber is revolving body, crushing knife tool and passage lay respectively at the both sides of the revolving body median plane parallel with the crushing knife tool surfaces of revolution, the rotation of driven by motor crushing knife tool, slurries flow direction deviates from passage.

2. safe soya-bean milk machine as claimed in claim 1, is characterized in that: the distance between described crushing knife tool and revolving body median plane is a, 0≤a≤1/2R1, and R1 is the radius of gyration in cross section, cutter shaft place.

3. safe soya-bean milk machine as claimed in claim 1, is characterized in that: the distance between described passage and revolving body median plane is b, 1/3R2≤b < R2, and R2 is the radius of gyration in cross section, passage place.

4. safe soya-bean milk machine as claimed in claim 1, is characterized in that: the diameter of described passage is 3mm to 30mm.

5. safe soya-bean milk machine as claimed in claim 1, is characterized in that: described passage and cutter shaft are over against setting.

6. safe soya-bean milk machine as claimed in claim 5, is characterized in that: between described passage and cutter shaft, be provided with α≤45 °, α， drift angle, drift angle.

7. safe soya-bean milk machine as claimed in claim 1, is characterized in that: described passage is provided with back-up ring around.

8. safe soya-bean milk machine as claimed in claim 7, is characterized in that: described back-up ring stretches into crushing chamber inside, or, described back-up ring exceeds crushing chamber top, or described back-up ring comprises back-up ring and lower back-up ring, upper back-up ring exceeds crushing chamber top, and lower back-up ring stretches into crushing chamber inside.

9. safe soya-bean milk machine as claimed in claim 7, is characterized in that: the height of described back-up ring is 2mm to 20mm.

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