The content of the invention
For technical problem present in above-mentioned prior art, grinder is combined the invention provides one kind, it can be real
To the fineness requirement of the crushing of food in present pulping process, and ensure to crush the uniformity of slurrying, and the pulper time is short,
Energy consumption is small.
The technical scheme is that:One kind combination grinder, including quiet bistrique and rotary bistrique;
The quiet bistrique includes being provided with the outer quiet grinding ring of multiple first cutting gaps and provided with multiple second cutting gaps
Interior quiet grinding ring, first cutting gap be less than second cutting gap;
The rotary bistrique include outer dynamic grinding ring provided with multiple grinding knifes and for just crushing in move grinding ring, it is described outer
Dynamic grinding ring is stretched between the outer quiet grinding ring and interior quiet grinding ring, and the interior dynamic grinding ring is stretched into the interior quiet grinding ring, the dynamic mill
Head is made to form three layers of milling gap from the inside to the outside, three between the quiet bistrique and the rotary bistrique by power set driving rotation
Interior milling gap, middle milling gap and outer grinding gap that layer milling gap is respectively arranged in order from the inside to the outside.
The combination grinder of the present invention is rotated by rotary bistrique, makes to form relative rotation between rotary bistrique and quiet bistrique, right
Food carries out crushing grinding slurrying, and rotary bistrique and quiet bistrique use mutually nested structure, in relative with quiet bistrique turn of rotary bistrique
In dynamic process, the structure of similar labyrinth sealing is formd, the stream of food in rotary bistrique and quiet grinding head shaft upwards can be slowed down
Dynamic speed, makes food to be more evenly distributed in the axial direction in three layers of milling gap, adds so as to be advantageously implemented grinding
The uniformity of work.Food sequentially passes through three layers of milling gap after the first crushing by interior dynamic grinding ring, by interior dynamic grinding ring, interior
The cooperation of the adjacent processing component of each two in quiet grinding ring, four processing components of outer dynamic grinding ring and outer quiet grinding ring carries out crushing system
Slurry processing, and during carrying out crushing slurrying processing to food, food keeps orderly flow direction from the inside to the outside, it is ensured that
Food can be by uniform and fully crushing grinding is into slurry, and its mixing time is short, consumes energy low.
As preferred:The interior milling gap, middle milling gap and the size in outer grinding gap are sequentially reduced.By grinding
Mill gap is reduced successively from the inside to the outside, is realized respectively to food in interior milling gap, middle milling gap and outer grinding gap
Corase grind, the effect of fine grinding and Ultrafine Grinding, further ensure that can reach requirement to the fineness and uniformity of foodstuff crushing.
And also make the whole installation of combination grinder reasonable in the extreme by the structure, according to the difference of granularity after foodstuff crushing, make
Interior dynamic grinding ring, interior quiet grinding ring, outer dynamic grinding ring and outer quiet grinding ring coordinate two-by-two plays maximum effect, while can also effectively prolong
The life-span of long each part.
As preferred:The interior milling gap is 0.4~0.6mm, and the middle milling gap is 0.35~0.6mm, described
Outer grinding gap is 0.15~0.5mm., can internally milling gap, middle milling gap according to the characteristic of different food in itself
And the size in outer grinding gap carries out selection setting.
As preferred:The interior dynamic grinding ring includes at least two cutter, and all cutter are with the interior dynamic grinding ring
The heart circumferentially array distribution.Interior dynamic grinding ring realizes the first pulverizing processing to food by setting at least two cutter.Just crush
Food flow into interior milling gap, the outside of cutter and the inwall phase of interior quiet grinding ring through the gap between adjacent cutter
The food that interaction is pointed in interior milling gap is ground, and the particle diameter of food is further diminished.
As preferred:There is the first cut surface crushed in rotary course to food on the cutter, it is described
There is the axis perpendicular to the interior dynamic grinding ring to set in rotary bistrique and towards the first reference plane of the quiet bistrique, described first
The included angle A of cut surface and the intersection and the interior dynamic grinding ring of first reference plane between the tangent line at the intersection outer end is sharp
Angle.By such structure, make the first cut surface of cutter has certain angle of inclination relative to the radial direction of interior dynamic grinding ring,
During rotary bistrique rotates, food contacts the inner side edge of the first cut surface first, i.e. the inner side edge of the first cut surface turns into
The cutting edge first cut first to food, after cutting first enter two neighboring cutter between gap food then
Interior milling gap is directed into via the first cut surface, during food enters interior milling gap, contact first is cut
The outer side edges in face, during rotary bistrique is relative to the rotation of quiet bistrique, the outer side edges of the first cut surface turn into carries out two to food
The secondary cut sword of secondary cutting, the particle diameter of the food through secondary cut further diminishes, to adapt to the grinding in interior milling gap
Processing.Therefore, cutter can form effective cutting to food by the first cut surface being obliquely installed, and reach to food
First crushing effect, while the first cut surface also has to the effect that is oriented to of food flow direction after crushing, and tilt
The first cut surface increase can also be located at the centrifugal force of the food inside interior dynamic grinding ring during the rotation, accelerate food and enter
Enter the speed of milling gap in flowing to from the inside to the outside, therefore the efficiency for crushing cutting can be effectively improved, also make to enter interior grind
The food flow velocity for grinding gap is increased, so as to lift interior dynamic grinding ring and grinding efficiency of the interior quiet grinding ring collective effect to food.
There is the second cut surface crushed in rotary course to food on the grinding knife of the outer dynamic grinding ring, it is described
Included angle B between the tangent line of the outside edge of second cut surface and the outer dynamic grinding ring in second cut surface is acute angle.
By such structure, make the second cut surface of grinding knife has certain angle of inclination relative to the radial direction of outer dynamic grinding ring,
During rotary bistrique rotates, the food in middle milling gap contacts the inner side edge of the second cut surface first, the second cut surface
Inner side edge coordinates the food in centering milling gap to be ground with interior quiet grinding ring, and the food after grinding enters two neighboring grinding
Gap between knife is simultaneously directed into outer grinding gap through the second cut surface, during food enters outer grinding gap,
Contact the outer side edges of the second cut surface, in rotary bistrique relative to during quiet bistrique is rotated, the outer side edges of the second cut surface with it is outer
Quiet grinding ring coordinates to be regrind to the food for entering outer grinding gap, and the particle diameter of the food through regrinding further becomes
It is small, reach granularity requirements needed for slurrying.Therefore, grinding knife passes through the second cut surface for being obliquely installed and interior quiet grinding ring and outer quiet
The cooperation of grinding ring can form effective grinding to food, and reach the effect ground step by step to food, while second
Food after cut surface also has to grinding flows to the effect being oriented to, and the second cut surface can also be in rotation
During increase the centrifugal force of food, accelerate food and enter the speed that flows from the inside to the outside, therefore grinding can be effectively improved
The efficiency of crushing.
As preferred:Angle C between first cut surface and first reference plane is acute angle.So make in whole
Dynamic grinding ring forms the structure of similar turbine, in the rotary course of rotary bistrique, and that grinding ring is moved including food is internally formed vortex, one
Aspect accelerates the speed that the food in interior dynamic grinding ring flows from inside to outside, improves the cutting and grinding efficiency of cutter, another
The inside for enabling food to be processed be rapidly introduced into interior dynamic grinding ring during aspect carries out pulverizing processing.
As preferred:Also have in the rotary bistrique parallel to first reference plane and towards the of the outer quiet grinding ring
Two reference planes, have the first liquid ebb interval between second reference plane and the outer quiet grinding ring., can by the first liquid ebb interval
To realize that the food completed to crushing slurrying carries out pressure release, make the food in outer grinding gap is ground to be machined into the first cutting
Flowed outwardly behind gap at the first liquid ebb interval, it is to avoid food is stopped in the first cutting gap of quiet grinding ring outside, and is influenceed
To the processing effect of food.
As preferred:Gap between the neighboring abrasive knife of the outer dynamic grinding ring is more than the first cutting of the outer quiet grinding ring
Gap between gap, and/or the neighboring abrasive knife of the outer dynamic grinding ring is more than the second cutting gap of the interior quiet grinding ring.It is logical
Cross such structure setting, it is ensured that food reaches the processing granularity requirements of needs during grinding.
As preferred:Also include cover body, the cover body has the feed end and discharge end being oppositely arranged, the feed end tool
There is charging aperture, the discharge end has discharging opening;
The quiet bistrique and the rotary bistrique are respectively positioned on the inside of the cover body, the one of the interior quiet grinding ring and outer quiet grinding ring
End is connected to the feed end of the cover body, and projection of the charging aperture on the cover body axial direction is positioned at the interior quiet grinding ring
It is internal;
The rotary bistrique has the closing surface of charging aperture described in vertical partition wall and the discharging opening;
There is the second liquid ebb interval, institute between the outer quiet grinding ring and the rotary bistrique and the inner circumferential wall of the cover body
The second liquid ebb interval is stated to connect with the discharging opening.
By the setting of cover body, on the one hand realize that the installation to quiet bistrique is fixed, on the other hand by food collection to be processed
In be processed inside cover body, it is to avoid the dispersive effects of food to processing effect.Food to be processed is limited by closing surface
Make in the inside of combination grinder, food is flowed from the inside to the outside in combination grinder during processing, until
Machine into the second liquid ebb interval, finally flowed out from discharging opening.
As preferred:The charging aperture and the interior dynamic grinding ring are coaxial, and the diameter of the charging aperture is less than or equal to
The internal diameter of the interior dynamic grinding ring.By such structure, make food to be processed through inside of the charging aperture completely into interior dynamic grinding ring,
First cutting and grinding processing is carried out through interior dynamic grinding ring.
The beneficial effects of the invention are as follows:The present invention is carried out by the relative rotation between rotary bistrique and quiet bistrique to food
Crushing grinding slurrying, food sequentially passes through three layers of milling gap after the first crushing by interior dynamic grinding ring, by interior dynamic grinding ring,
The cooperation of the adjacent processing component of each two in interior quiet grinding ring, four processing components of outer dynamic grinding ring and outer quiet grinding ring is crushed
Slurrying is processed, and during carrying out crushing slurrying processing to food, food keeps orderly flow direction from the inside to the outside, it is ensured that
Food can by it is uniform and fully crushing grinding into slurry.Simultaneously in three layers of milling gap during rotary bistrique is rotated
Food be ground simultaneously, that is, realize and once rotate, three shearings and grind, therefore be effectively shortened the crushing of food
Mixing time, reduces the energy consumption of the crushing pulping process of food.
Brief description of the drawings
In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
There is the accompanying drawing used required in technology description to be briefly described, it should be apparent that, drawings in the following description are only this
Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with
Other accompanying drawings are obtained according to these accompanying drawings.
Fig. 1 is the mounting structure schematic diagram of the embodiment of the present invention;
Fig. 2 is the structural representation of the embodiment of the present invention;
Fig. 3 is the enlarged drawing located in Fig. 2;
Fig. 4 is the stereogram of rotary bistrique in the embodiment of the present invention;
Fig. 5 is the top view of rotary bistrique in the embodiment of the present invention;
Fig. 6 is the sectional view of rotary bistrique in the embodiment of the present invention;
Fig. 7 is the stereogram of interior dynamic grinding ring in the embodiment of the present invention;
Fig. 8 is the top view of interior dynamic grinding ring in the embodiment of the present invention;
Fig. 9 is the structural representation of interior quiet grinding ring in the embodiment of the present invention;
Figure 10 is the front view of interior quiet grinding ring in the embodiment of the present invention;
Figure 11 is the upward view of interior quiet grinding ring in the embodiment of the present invention;
Figure 12 is the sectional view of interior quiet grinding ring in the embodiment of the present invention;
Figure 13 is the structural representation of the quiet grinding ring in China and foreign countries of the embodiment of the present invention;
Figure 14 is the front view of the quiet grinding ring in China and foreign countries of the embodiment of the present invention;
Figure 15 is the upward view of the quiet grinding ring in China and foreign countries of the embodiment of the present invention;
Figure 16 is the enlarged drawing located in Figure 15;
Figure 17 is the sectional view of cover body in the embodiment of the present invention;
Figure 18 be in the embodiment of the present invention in quiet grinding ring structural representation on cover body is attached to outer quiet grinding ring.
100, motor in figure;101st, output shaft;200th, grinder is combined;201st, interior milling gap;202nd, middle milling gap;
203rd, outer grinding gap;204th, the first liquid ebb interval;205th, the second liquid ebb interval;206th, closing surface;207th, the second reference plane;
210th, quiet bistrique;211st, outer quiet grinding ring;2111a, the first cutting gap A;2111b, the first cutting gap B;212nd, interior quiet grinding ring;
2121st, the second cutting gap;220th, rotary bistrique;221st, outer dynamic grinding ring;2211st, grinding knife;2212nd, the second cut surface;222nd, it is interior
Dynamic grinding ring;2221st, annular part;2222nd, cutter;2223rd, the first cut surface;2224th, the first reference plane;223rd, mounting disc;
2231st, flange;2232nd, mounting hole;230th, cover body;231st, charging aperture;232nd, discharging opening;233rd, annular mounting groove;300th, guide
Plate;301st, material guide hole;400th, hopper.
Embodiment
At least there is following technical problem in existing food pulper:
1. in order to reach food crush fineness requirement, it is necessary to by improve power of motor and extension the motor working time come
Realize, energy consumption is larger.
2. existing pulper can not ensure to food crush the uniformity of slurrying.
For technical problem present in above-mentioned prior art, grinder, bag are combined the embodiments of the invention provide one kind
Include quiet bistrique and rotary bistrique;The quiet bistrique includes being provided with the outer quiet grinding ring of multiple first cutting gaps and provided with multiple second
The interior quiet grinding ring of cutting gap, first cutting gap is less than second cutting gap;The rotary bistrique is included provided with many
The outer dynamic grinding ring of individual grinding knife and for just crushing in move grinding ring, the outer dynamic grinding ring stretches into the outer quiet grinding ring and interior quiet
Between grinding ring, the interior dynamic grinding ring is stretched into the interior quiet grinding ring, and the rotary bistrique is made described quiet by power set driving rotation
Form three layers of milling gap from the inside to the outside between bistrique and the rotary bistrique, three layers of milling gap are respectively from the inside to the outside successively
Interior milling gap, middle milling gap and the outer grinding gap of arrangement.
The present invention carries out crushing grinding slurrying by the relative rotation between rotary bistrique and quiet bistrique to food, and food exists
After first crushing by interior dynamic grinding ring, sequentially pass through three layers of milling gap, by interior dynamic grinding ring, interior quiet grinding ring, outer dynamic grinding ring and
The cooperation of the adjacent processing component of each two in outer quiet four processing components of grinding ring carries out crushing slurrying processing, and to food
Thing is carried out during crushing slurrying processing, and food keeps orderly flow direction from the inside to the outside, it is ensured that food can by uniform and
Fully crushing grinding is into slurry.The food in three layers of milling gap is ground simultaneously simultaneously during rotary bistrique is rotated
Mill, that is, realize and once rotate, three shearings and grinding, therefore is effectively shortened the crushing mixing time of food, reduces
The energy consumption of the crushing pulping process of food.
To make the object, technical solutions and advantages of the present invention clearer, technical scheme will be carried out below
Detailed description.Obviously, described embodiment is only a part of embodiment of the invention, rather than whole embodiments.
Therefore, the detailed description of embodiments of the invention below to providing in the accompanying drawings is not intended to limit claimed
The scope of the present invention, but be merely representative of the present invention selected embodiment.Based on the embodiment in the present invention, this area is common
The every other embodiment that technical staff is obtained under the premise of creative work is not made, belongs to what the present invention was protected
Scope.
It should be noted that:Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi
It is defined in individual accompanying drawing, then it further need not be defined and explained in subsequent accompanying drawing.
In the description of the invention, it is to be understood that the orientation or position of the instruction such as term " on ", " under ", "left", "right"
It is or the orientation or position that the invention product is usually put when using based on orientation shown in the drawings or position relationship to put relation
Put relation, or the orientation that usually understands of those skilled in the art or position relationship, be for only for ease of the description present invention and
Simplify description, rather than indicate or imply that the equipment or element of meaning there must be specific orientation, with specific azimuth configuration
And operation, therefore be not considered as limiting the invention.
In the description of the invention, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " setting ",
" installation " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or be integrally connected.For this
For the those of ordinary skill in field, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.
Fig. 1 is the mounting structure schematic diagram of the embodiment of the present invention;Fig. 2 is the structural representation of the embodiment of the present invention.
As depicted in figs. 1 and 2, grinder 200 is combined the embodiments of the invention provide one kind, should for food pulper
Combination grinder 200 is driven by the power set of food pulper.The power set of food pulper generally use motor
100, naturally it is also possible to which being more actually needed selection, other can provide the power set of rotary power.Motor 100, which has, to be used for
Export the output shaft 101 of power.
Fig. 3 is the enlarged drawing located in Fig. 2.
As shown in Figures 2 and 3, the combination grinder 200 includes quiet bistrique 210 and the rotary bistrique 220 being coaxially disposed.In group
After being filled on food pulper, rotary bistrique 220 and the output shaft 101 of motor 100 are connected.Rotary bistrique 220 and motor 100
Connection between output shaft 101 uses conventional mechanical connection manner to be that can be achieved, and specific connected mode can be actual
Situation is configured.As long as ensure that the output shaft 101 of motor 100 drives the synchronous axial system of rotary bistrique 220.Such as:This
In embodiment, non-circular mounting hole 2232 is machined with rotary bistrique 220, rotary bistrique is realized by the mounting hole 2232
Being connected between 220 and the output shaft 101 of motor 100, and ensure that rotary bistrique 220 is same with the output shaft 101 of motor 100
Step is rotated.
Quiet bistrique 210 includes being provided with the outer quiet grinding ring 211 of multiple first cutting gaps and provided between the multiple second cuttings
The interior quiet grinding ring 212 of gap 2121, interior quiet grinding ring 212 and outer quiet grinding ring 211 are coaxial, and the first cutting gap is less than the second cutting gap
2121.So have the first cutting gap and the second cutting gap 2121 and adding for cutting and crushing is carried out to the food of different-grain diameter
Work is used, and because food is first processed through the second cutting gap 2121, then is processed through the first cutting gap, therefore will
First cutting gap is sized to smaller than the second cutting gap 2121.
In actual processing, the width of first cutting gap is 0.2~2mm, the width of second cutting gap 2121
Spend for 0.5~2mm.
Fig. 4 to Fig. 6 is the structural representation of rotary bistrique 220 in the embodiment of the present invention.
As shown in Figures 4 to 6, rotary bistrique 220 includes the outer dynamic grinding ring 221 provided with multiple grinding knifes 2211 and is used for
The interior dynamic grinding ring 222 just crushed, interior dynamic grinding ring 222 and outer dynamic grinding ring 221 are coaxial.
Gap between optionally embodiment, the neighboring abrasive knife 2211 of outer dynamic grinding ring 221 is equal, and moves outside
Gap between the neighboring abrasive knife 2211 of grinding ring 221 is more than the first cutting gap of outer quiet grinding ring 211, while moving grinding ring outside
Gap between 221 neighboring abrasive knife 2211 is more than the second cutting gap 2121 of interior quiet grinding ring 212.
As another alternatively embodiment, the gap between the neighboring abrasive knife 2211 of outer dynamic grinding ring 221 is equal, outside
Gap between the neighboring abrasive knife 2211 of dynamic grinding ring 221 is more than the second cutting gap 2121 of interior quiet grinding ring 212.
By the optional embodiment of above two, externally the gap between the neighboring abrasive knife 2211 of dynamic grinding ring 221 with
The size relationship of first cutting gap and/or the second cutting gap 2121 is set, it is ensured that food is in the process ground
In reach required processing granularity requirements.
As shown in Figures 2 and 3, outer dynamic grinding ring 221 is stretched between outer quiet grinding ring 211 and interior quiet grinding ring 212, interior dynamic grinding ring
222 stretch into interior quiet grinding ring 212, and the driving of motor 100 rotary bistrique 220 rotates, and make to be formed between quiet bistrique 210 and rotary bistrique 220
Three layers of milling gap from the inside to the outside, interior milling gap 201 that three layers of milling gap are respectively arranged in order from the inside to the outside, in grind
Grind gap 202 and outer grinding gap 203.
In the use of the present invention, rotary bistrique 220 is under, quiet bistrique 210 is mutually embedded upper.Worked by motor 100
Driving rotary bistrique 220 rotates, and makes to form relative rotation between rotary bistrique 220 and quiet bistrique 210, crushing grinding system is carried out to food
Slurry, rotary bistrique 220 uses mutually nested structure with quiet bistrique 210, the mistake relatively rotated in rotary bistrique 220 and quiet bistrique 210
Cheng Zhong, forms the structure of similar labyrinth sealing, can slow down stream of the food in rotary bistrique 220 and the axial direction of quiet bistrique 210
Dynamic speed, makes food to be more evenly distributed in the axial direction in three layers of milling gap, adds so as to be advantageously implemented grinding
The uniformity of work.Food sequentially passes through three layers of milling gap, by interior dynamic grinding ring after the first crushing by interior dynamic grinding ring 222
222nd, interior quiet grinding ring 212, outer dynamic grinding ring 221 processing component adjacent with each two in outer quiet 211 4 processing components of grinding ring
Cooperation carry out crush slurrying processing, and to food carry out crush slurrying processing during, food keep from the inside to the outside
Orderly flow direction, it is ensured that food can be by uniform and fully crushing grinding is into slurry, and its mixing time is short, consumes energy low.
Optionally embodiment, as shown in figure 3, between interior milling gap 201, middle milling gap 202 and outer grinding
The size of gap 203 is sequentially reduced.Reduced successively from the inside to the outside by milling gap, in interior milling gap 201, middle milling gap
202 and outer grinding gap 203 realize the effect of the corase grind to food, fine grinding and Ultrafine Grinding respectively, further ensure that pair
The fineness and uniformity of foodstuff crushing can reach requirement.And also make the whole installation of combination grinder 200 by the structure
In the extreme rationally, according to the difference of granularity after foodstuff crushing, interior dynamic grinding ring 222, interior quiet grinding ring 212, outer dynamic grinding ring 221 and outer are made
Quiet grinding ring 211 coordinates two-by-two plays maximum effect, while can also effectively extend the life-span of each part.
Optionally embodiment, interior milling gap 201 is 0.4~0.6mm, middle milling gap 202 is 0.35~
0.6mm, outer grinding gap 203 is 0.15~0.5mm., can internal milling gap according to the characteristic of different food in itself
201st, middle milling gap 202 and the size in outer grinding gap 203 carry out selection setting.
Fig. 7 and Fig. 8 are the structural representations of interior dynamic grinding ring 222 in the embodiment of the present invention.
Optionally embodiment, interior dynamic grinding ring 222 includes at least two cutter 2222, all cutter 2222
Within move the center circumferentially array distribution of grinding ring 222.Interior dynamic grinding ring 222 is realized by setting at least two cutter 2222
To the first pulverizing processing of food.The food just crushed flows into interior milling gap through the gap between adjacent cutter 2222
201, the food that the inwall interaction of the outside of cutter 2222 and interior quiet grinding ring 212 is pointed in interior milling gap 201 enters
Row grinding, makes the particle diameter of food further diminish.In the present embodiment, as shown in Figure 7 and Figure 8, interior dynamic grinding ring 222 has 2 and cut
Cutter 2222.
Optionally embodiment, powder is carried out as shown in fig. 7, having on cutter 2222 in rotary course to food
There is the axis perpendicular to interior dynamic grinding ring 222 to set in the first broken cut surface 2223, rotary bistrique 220 and towards quiet bistrique 210
The first reference plane 2224.As shown in figure 8, the first cut surface 2223 and the intersection of the first reference plane 2224 and interior dynamic grinding ring 222
Included angle A between the tangent line at the intersection outer end is acute angle.By such structure, the first of cutter 2222 are made to cut
Face 2223 has certain angle of inclination relative to the radial direction of interior dynamic grinding ring 222, during rotary bistrique 220 rotates, food
Contact first the inner side edge of the first cut surface 2223, the i.e. inner side edge of the first cut surface 2223 turn into food is cut first
Cutting edge first, after cutting first enter two neighboring cutter 2222 between gap food then via the first cut surface
2223 are directed into interior milling gap 201, during food enters interior milling gap 201, contact the first cut surface
2223 outer side edges, during rotary bistrique 220 is relative to the rotation of quiet bistrique 210, the outer side edges of the first cut surface 2223 turn into
The secondary cut sword of secondary cut is carried out to food, the particle diameter of the food through secondary cut further diminishes, to adapt to interior grinding
Attrition process in gap 201.Therefore, cutter 2222 can be formed to food by the first cut surface 2223 being obliquely installed
Effective cutting, and the effect of the first crushing to food is reached, while the first cut surface 2223 also has to the food after crushing
Flow to the effect that is oriented to, and inclined first cut surface 2223 can also increase during rotation and be located at interior dynamic mill
The centrifugal force of the food of the inside of circle 222, accelerates the speed that food enters the interior milling gap 201 of flow direction from the inside to the outside, therefore can be with
The efficiency for crushing cutting is effectively improved, also increases the food flow velocity into interior milling gap 201, so as to lift interior dynamic mill
Circle 222 and grinding efficiency of the interior quiet collective effect of grinding ring 212 to food.
As shown in Figure 4 and Figure 5, have on the grinding knife 2211 of outer dynamic grinding ring 221 and powder is carried out to food in rotary course
The second broken cut surface 2212.As shown in figure 5, the second cut surface 2212 and outer dynamic grinding ring 221 are in the outer of the second cut surface 2212
Included angle B between the tangent line of side edge is acute angle.By such structure, make the phase of the second cut surface 2212 of grinding knife 2211
There is certain angle of inclination for the radial direction of outer dynamic grinding ring 221, during rotary bistrique 220 rotates, middle milling gap 202
Interior food contacts the inner side edge of the second cut surface 2212 first, and the inner side edge of the second cut surface 2212 is matched somebody with somebody with interior quiet grinding ring 212
The food closed in centering milling gap 202 is ground, between the food after grinding enters between two neighboring grinding knife 2211
Gap is simultaneously directed into outer grinding gap 203 through the second cut surface 2212, during food enters outer grinding gap 203,
The outer side edges of the second cut surface 2212 are contacted, during rotary bistrique 220 is relative to the rotation of quiet bistrique 210, the second cut surface
2212 outer side edges coordinate with outer quiet grinding ring 211 to be regrind to the food for entering outer grinding gap 203, through grinding again
The particle diameter of the food of mill further diminishes, and reaches granularity requirements needed for slurrying.Therefore, grinding knife 2211 by be obliquely installed
The cooperation of two cut surfaces 2212 and interior quiet grinding ring 212 and outer quiet grinding ring 211 can form effective grinding to food, and reach
To the effect ground step by step of food, while the food flow direction after the second cut surface 2212 also has to grinding is carried out
The effect of guiding, and the second cut surface 2212 can also increase the centrifugal force of food during rotation, accelerate food and enter
Enter the speed flowed from the inside to the outside, therefore the efficiency ground can be effectively improved.
Optionally embodiment, as shown in fig. 7, the folder between the first cut surface 2223 and the first reference plane 2224
Angle C is acute angle.So make to move the structure that grinding ring 222 forms similar turbine in whole, in the rotary course of rotary bistrique 220, food
That grinding ring 222 is moved including thing is internally formed vortex, on the one hand accelerates the speed that the food in interior dynamic grinding ring 222 flows from inside to outside
Degree, improves the cutting and grinding efficiency of cutter 2222, food to be processed is rapidly introduced into during another aspect interior
The inside of dynamic grinding ring 222 carries out pulverizing processing.
Optionally embodiment, as shown in Figures 2 to 5, also has parallel to the first reference plane in rotary bistrique 220
2224 and face out the second reference plane 207 of quiet grinding ring 211.As shown in Fig. 2 between the second reference plane 207 and outer quiet grinding ring 211
With the first liquid ebb interval 204.Pass through the first liquid ebb interval 204, it is possible to achieve the food completed to crushing slurrying carries out pressure release,
Make the food in outer grinding gap 203 is ground to be machined into after the first cutting gap at the first liquid ebb interval 204 to outflow
Go out, it is to avoid food is stopped in the first cutting gap of quiet grinding ring 211 outside, and influence the processing effect to food.
In actual processing, a kind of processing structure of rotary bistrique 220 is as follows:
As shown in Figures 2 to 5, rotary bistrique 220 includes a circular mounting disc 223, one of end face of mounting disc 223
For closing surface 206, there is the step projected radially outwardly in the outer circumferential walls of mounting disc 223 less than the part of closing surface 206
Into flange 2231, the end face nearer apart from closing surface 206 of flange 2231 be the second reference plane 207.Dynamic grinding ring 221 is by one outside
The multiple grinding knifes 2211 being arranged on the closing surface 206 of mounting disc 223 are constituted in interval annular spread, outer dynamic grinding ring 221
Excircle is located at the inner side at the edge of closing surface 206.
Interior dynamic grinding ring 222 includes an annular part 2221, one of end of annular part 2221 as shown in Figure 7 and Figure 8
Face is the first reference plane 2224, and cutter 2222 are integrally disposed upon in the first reference plane 2224 of annular part 2221.Cutter
2222 height is highly consistent with grinding knife 2211.
As shown in Figures 2 to 5, the annular groove matched with annular part 2221, interior dynamic grinding ring are machined with mounting disc 223
222 are embedded in annular groove by annular part 2221 and fasten (screw not shown in figure) by screw, and it is screwed in screw
Afterwards, it will be welded by way of welding between screw and interior dynamic grinding ring 222 and mounting disc 223, realize interior dynamic grinding ring 222 in peace
Installation in sabot 223 is fixed.After interior dynamic grinding ring 222 is arranged in mounting disc 223, the first reference plane 2224 and closing surface 206
Flush.Dynamic being fixedly connected between grinding ring 222 and outer dynamic grinding ring 221 in so can be achieved, can not be split, it is ensured that interior dynamic mill
What is connected between circle 222 and outer dynamic grinding ring 221 is firm, so as to ensure that the stabilization that rotary bistrique 220 works.
In actual processing, a kind of processing structure of quiet bistrique 210 is as follows:
The interior quiet grinding ring 212 of quiet bistrique 210 is Split type structure when being processing with outer quiet grinding ring 211.It is internally quiet separately below
Grinding ring 212 is described in detail with outer quiet grinding ring 211:
Fig. 9 is the structural representation of interior quiet grinding ring 212 in the embodiment of the present invention;Figure 10 be in the utility model embodiment in
The front view of quiet grinding ring 212;Figure 11 is the upward view of interior quiet grinding ring 212 in the embodiment of the present invention;Figure 12 is the embodiment of the present invention
In in quiet grinding ring 212 sectional view.
As shown in Fig. 9 to Figure 12, interior quiet grinding ring 212 is in annular, and wherein one end is installation end, the peace of interior quiet grinding ring 212
The external diameter for filling end is slightly larger than the external diameter of remainder, and the installation end of quiet grinding ring 212 carries out the processing of screw hole so as to including.It is interior quiet
The internal diameter of grinding ring 212 is then integrally consistent, and only carries out chamfered at two ends.From the other end of interior quiet grinding ring 212 vertically
The second cutting gap 2121 is processed, circumferentially array divides the axis of the second cutting gap 2121 quiet grinding ring 212 within being processed into
Cloth it is multiple.The depth and the height of cutter 2222 and grinding knife 2211 of second cutting gap 2121 are basically identical.First
Cutting gap is consistent with the depth of the second cutting gap 2121.Between the radial direction of second cutting gap 2121 and interior quiet grinding ring 212
Angle D be acute angle.
Figure 13 is the structural representation of the quiet grinding ring 211 in China and foreign countries of the embodiment of the present invention;During Figure 14 is the utility model embodiment
The front view of outer quiet grinding ring 211;Figure 15 is the upward view of the quiet grinding ring 211 in China and foreign countries of the embodiment of the present invention;Figure 16 is located in Figure 15
Enlarged drawing.
As shown in FIG. 13 to 15, outer quiet grinding ring 211 is in annular, and wherein one end is installation end, and the other end is outlet end,
The external diameter of the installation end of outer quiet grinding ring 211 is more than the external diameter of its outlet end, and the external diameter of the outlet end of outer quiet grinding ring 211 is slightly larger than
The external diameter of part between its installation end and its outlet end.The internal diameter of outer quiet grinding ring 211 is then integrally consistent.It is outer quiet
The first cutting gap through two ends is machined with grinding ring 211 vertically, the first cutting gap is also extended through positioned at outer quiet mill simultaneously
The inner and outer wall of part between the installation end and outlet end of circle 211.
As shown in figure 15, the angle E between the radial direction of the first cutting gap and outer quiet grinding ring 211 is sharp for 1 °~25 °
Angle.As shown in figure 16, the first cutting gap is divided into different the first cutting gap A2111a and the first cutting gap of width
B2111b.First cutting gap A2111a width is more than the first cutting gap B2111b width.First cutting gap
B2111b quantity is more than the first cutting gap A2111a quantity., can be with using the first cutting gap of two kinds of different in width
The flow-disturbing effect to entering the food in outer grinding gap 203 is played, food is fully ground in outer milling gap 203
Through being flowed out in the first liquid ebb interval 204 after mill.
The installation end of quiet grinding ring 211 is also machined with screw hole outside.
Present invention additionally comprises cover body 230.Figure 17 is the sectional view of cover body 230 in the embodiment of the present invention.
As shown in figure 17, cover body 230 has the feed end and discharge end being oppositely arranged, and feed end has charging aperture 231, gone out
Material end has discharging opening 232.Charging aperture 231 is less than discharging opening 232, and discharging opening 232 is more than rotary bistrique 220 and quiet bistrique 210.
Figure 18 be in the embodiment of the present invention in quiet grinding ring 212 structural representation on cover body 230 is attached to outer quiet grinding ring 211
Figure.
Quiet bistrique 210 and rotary bistrique 220 are respectively positioned on the inside of cover body 230.As shown in figure 18, interior quiet grinding ring 212 and outer quiet
The installation end connection of grinding ring 211 is arranged on the feed end of cover body 230, and projection of the charging aperture 231 on the axial direction of cover body 230 is located at
The inside of interior quiet grinding ring 212.
Two coordinated respectively with interior quiet grinding ring 212 and outer quiet grinding ring 211 are machined with the inside of the feed end of cover body 230
Annular mounting groove 233, is machined with the outside of the feed end of cover body 230 and is respectively communicated with the multiple logical of two annular mounting grooves 233
Hole.The installation end of interior quiet grinding ring 212 and outer quiet grinding ring 211 is respectively embedded into after two annular mounting grooves 233, by through through hole
The screw of quiet grinding ring 212 and the screw hole on outer quiet grinding ring 211 realizes interior quiet grinding ring 212 and outer quiet grinding ring 211 in screwing in afterwards
Being connected between cover body 230.
By the setting of cover body 230, on the one hand realize that the installation to quiet bistrique 210 is fixed, on the other hand will be to be processed
Concentration of food is processed inside cover body 230, it is to avoid effect of the dispersive effects of food to processing.
Rotary bistrique 220 has the closing surface 206 of vertical partition wall charging aperture 231 and discharging opening 232.Outer quiet grinding ring 211 and
There is the second liquid ebb interval 205, the second liquid ebb interval 205 and discharging opening between rotary bistrique 220 and the inner circumferential wall of cover body 230
232 connections.
Food to be processed is limited in the inside of combination grinder 200 by closing surface 206, makes food in the process of processing
In flowed from the inside to the outside in combination grinder 200, up to machining into the second liquid ebb interval 205, finally from going out
Material mouth 232 flows out.
Optionally embodiment, charging aperture 231 and interior dynamic grinding ring 222 are coaxial, and charging aperture 231 diameter be less than or
Person is equal to the internal diameter of interior dynamic grinding ring 222.By such structure, make food to be processed through charging aperture 231 completely into interior dynamic mill
The inside of circle 222, carries out cutting and grinding processing through interior dynamic grinding ring 222 first.
As shown in Fig. 2 it is also equipped with carrying out the stock guide 300 of water conservancy diversion in the top of cover body 230 for treating processed food,
The material guide hole 301 of connection discharging opening 232 is machined with stock guide 300, material guide hole 301 is in up big and down small infundibulate, material guide hole
301 lower end is identical with the size of discharging opening 232.Top of the stock guide 300 with cover body 230 by way of grafting is connected, and is being led
After flitch 300 is connected with cover body 230, the lower end of material guide hole 301 is docked with the formation sealing of discharging opening 232, to realize to be added
Work food carries out guide functions from top to bottom.
As shown in figure 1, after the combination grinder 200 of the present invention is attached to food pulper, in the upper of stock guide 300
Side also has a hopper 400 docked with the upper end sealing of material guide hole 301., will when needing to carry out slurrying processing to food
Food is added inside hopper 400 in certain proportion with water, passes through the task driven rotary bistrique 220 of motor 100 of food pulper
Rotation, you can realize that the crushing slurrying to food is processed.
It should be noted that in the case where not conflicting, the embodiment in the present invention and/or the feature in embodiment can
To be combined with each other.
The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any
Those familiar with the art the invention discloses technical scope in, change or replacement can be readily occurred in, should all be contained
Cover within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.