CN101816337A

CN101816337A - Residue-less grinding mechanism of soymilk machine

Info

Publication number: CN101816337A
Application number: CN201010163889A
Authority: CN
Inventors: 李伦源; 李志隆
Original assignee: Individual
Current assignee: Guangdong Yide Electric Appliance Co Ltd
Priority date: 2010-04-30
Filing date: 2010-04-30
Publication date: 2010-09-01
Anticipated expiration: 2030-04-30
Also published as: CN101816337B

Abstract

The invention discloses a residue-less grinding mechanism of a soymilk machine, which comprises a feeding shell, a soymilk storage base, a movable grinding disc, a feeding rod and a static grinding disc, wherein the movable grinding disc is arranged at the tail end of the feeding rod, the static grinding disc is mounted in the soymilk storage base, the movable grinding disc and the static grinding disc are oppositely mounted to form a main grinding area, one part of the feeding rod in a processing cavity comprises a screw part and a mixture bearing disc arranged at the tail end of the feeding rod, a helical cavity of the screw part forms a first crushing area, the movable grinding disc is mounted on the mixture bearing disc, a mixing groove is arranged between the screw part and the mixture bearing disc which is provided with a conveying passage, the movable grinding disc is provided with a conveying hole, and a mixing pin is mounted on the feeding shell, penetrates into the mixing groove and forms a conveying gap with the groove wall of the mixing groove so that a second crushing area is formed by the mixing groove. Materials pass by the helical cavity of the screw, the first crushing area and the second crushing area to enter the main grinding area without blockage and can be thoroughly ground, and ground soymilk liquid is tender and delicate without residue.

Description

The residue-less grinding mechanism of soy bean milk making machine

Technical field

The present invention relates to the grinding mechanism field of household soy milk machine product, specifically is a kind of residue-less grinding mechanism of soy bean milk making machine.

Background technology

At present, common soy bean milk making machine mostly is electronic stirring structure, and the soy bean milk making machine of this type blends the beans product by stirring blade, add the hot preparation soya-bean milk then, yet, there is a large amount of beans residues by blending the soya-bean milk that the beans preparation of product gets, both wasted raw material greatly, a lot of beneficiating ingredients still are deposited in the beans residue, people can not fully enjoy whole nutrition of bean products, and, completely deposit the soy bean milk making machine inner chamber of residue, cleaning is inconvenience very, very not environmental protection.

In view of the weak point of traditional soybean milk machine, a lot of soy bean milk making machine producers have designed and have produced the soy bean milk making machine of abrasive structure, and the soy bean milk making machine of this structure has overcome the weak point of traditional product substantially, have significantly reduced the residual of bean dregs during the preparation soya-bean milk.For example be that Chinese invention patent application 99126159.3 discloses a kind of food grinder that can be used for preparing soya-bean milk, this grinder has overcome the weak point of traditional soybean milk machine, has possessed the advantage of grinding type soymilk machine substantially.Yet, the disclosed product of this patent application just will grind to get rid of after raw material is smashed a little by helical blade into upper and lower abrasive sheet and constitute milling zone, the material that enters milling zone is still bigger, the material of larger particles degree enters this grinding and goes to grind, pulping can't be ground for a full due during wherein a lot of material, the slurries that are prepared into are very coarse, and mouthfeel is fine and smooth not at all.For another example, Chinese patent 200920049686.8 disclosed a kind of soy bean milk making machine with hand-mill stirrer, the weak point that the soy bean milk making machine of this structure exists the disclosed product of above-mentioned patent application to exist equally, this product is also just incited somebody to action all by worm screw, and product is brought in the spiral mill line, to realize purpose with beans product defibrination, wherein a lot of materials still can't fully be ground pulping, and the soya-bean milk of gained is very coarse equally.

Summary of the invention

The objective of the invention is to overcome the deficiencies in the prior art, a kind of residue-less grinding mechanism thorough, that effects on slurry making prevents the soy bean milk making machine that material stops up well and effectively that grinds is provided.

Goal of the invention of the present invention is achieved in that a kind of residue-less grinding mechanism of soy bean milk making machine, charging housing that comprising matches installs and storage slurry base, charging housing and storage slurry base are cavity body structure, both cavitys constitute the process chamber of preparation soya-bean milk, have the charging aperture that is communicated with described process chamber on the charging housing, have the grout outlet that is communicated with described process chamber on the storage slurry base, in the described process chamber movable grinding disc is housed, feeding rod and static cutting disk, feeding rod is fixedly mounted on the charging housing, the front end of feeding rod connects the exterior power output mechanism, movable grinding disc is fixedly mounted on the terminal of feeding rod and rotates with feeding rod, static cutting disk is installed in the storage slurry base, the relative installation with static cutting disk of movable grinding disc also is separated with the grinding gap mutually, this grinds the main milling zone of gap formation to material, it is characterized in that: the part that described feeding rod is positioned at process chamber comprises screw rod part and batch mixing carrier, screw rod helical cavity partly constitutes pulverizes the district to first of material, the batch mixing carrier is positioned at the terminal of feeding rod and is used to install movable grinding disc, the sidewall sealing of batch mixing carrier is assemblied on the internal chamber wall of charging housing, batch mixing carrier and screw rod have the mixing tank for coating colors of the helical cavity that is communicated with the screw rod part between partly, have the defeated material passage that is communicated with mixing tank for coating colors on the batch mixing carrier, movable grinding disc has defeated material passage and grinds the material transport hole that the gap is communicated with, the batch mixing pin is housed on the charging housing, the batch mixing pin is stretched and is inserted in the mixing tank for coating colors and leaves the punishment in advance gap with the cell wall of mixing tank for coating colors, and described mixing tank for coating colors constitutes pulverizes the district to second of material.After pulverizing district and second and pulverize the district through first for material, enter follow-up grinding work again, improved grinding gets very thorough, and the slurries that grinding is come out do not have residue extremely, the soft exquisiteness of soya-bean milk; And, material is through after the helical cavity of screw rod, have only enough tiny material to enter defeated material passage by the punishment in advance gap, and the material that can not enter next passage is constantly blended by the batch mixing pin in mixing tank for coating colors, make that it is finally enough tiny, meet particular requirement could and pass through material passing passage, prevent that material from producing clogging when entering material passing passage, help mill grinding material more completely, improve grinding effect.

Further perfect as technique scheme, the periphery of described batch mixing carrier is provided with the not-go-end bulge loop, the inwall of charging housing is provided with flange, the lateral surface of flange is sealingly fastened on the inner ring surface of not-go-end bulge loop, flange inner face and feeding rod leave the feeding gap, the two ends in feeding gap are communicated with mixing tank for coating colors and defeated material passage respectively, and this feeding gap constitutes the pre-grinding district to material.By cooperating of not-go-end bulge loop and flange, effectively improved the sealing of the internal chamber wall of the sidewall of batch mixing carrier and charging housing, and, by the pre-grinding district that forms between flange outer sides face and the feeding rod, can more effectively improve the slurrying quality of material.

In the manufacture process of product, further perfect to the aforementioned techniques scheme, the end direction of described screw rod pitch partly from the front end of feeding rod to feeding rod reduces successively.Because material partly rotates with screw rod, material can be under centrifugal action, and material is realized oneself's extruding in the helical cavity that the inwall and the pitch of charging housing reduces successively, make material obtain preliminary crushing.

Simultaneously, have water injection hole on the batch mixing pin of the present utility model, water injection hole is communicated with the external world and the mixing tank for coating colors of grinding mechanism.In the soya-bean milk preparation process, can inject the water of certain component to mixing tank for coating colors by water injection hole, both helped the batch mixing pin better to do the material that minces, also can regulate the concentration of soya-bean milk.

In this manufacture course of products, described material transport hole is positioned at the central part of movable grinding disc, and material enters main milling zone from movable grinding disc, and material and slurries are taken the edge out of from the middle part of main milling zone in process of lapping, increases abrasive areas.

And the position of offering of the grout outlet of product is lower than static cutting disk, is beneficial to make the slurries discharge, avoids soaking static cutting disk.

And it for the ease of the preparation of storage slurry base, is a ring body structurc with described storage slurry base, is provided with the support pads that is used to install static cutting disk in the cavity of storage slurry base.

The present invention is to existing soy bean milk making machine at traditional abrading type structure, and the grinding mechanism of soy bean milk making machine is made improvements, and it has the following advantages:

(1) material obtains preliminary pulverizing through first centrifugal force of pulverizing the district from pressing, enter second of mixing tank for coating colors then and pulverize the district, the batch mixing pin carries out blending the second time to the material that rotates with feeding rod, at this moment, have only material up to specification to enter defeated material passage by the punishment in advance gap, and the material that can not enter the punishment in advance gap is constantly blended by the batch mixing pin in mixing tank for coating colors, make it final up to specification and pass through material passing passage, enter follow-up grinding work again, this helps mill grinding material more completely, improve grinding effect, grind the slurries that come out and do not have residue extremely, the soft exquisiteness of soya-bean milk; And material is constantly beaten by the batch mixing pin in mixing tank for coating colors, can prevent effectively that material from producing clogging when entering material passing passage.

(2) based on above-mentioned technique effect, adopt cooperating of not-go-end bulge loop and flange between the internal chamber wall of the sidewall of batch mixing carrier and charging housing, both sealings have effectively been improved, and, by the pre-grinding district that forms between flange outer sides face and the feeding rod, can more effectively improve the slurrying quality that material is installed.

(3) simultaneously, the end direction of screw rod pitch partly from the front end of feeding rod to feeding rod reduces successively, because material partly rotates with screw rod, material can be under centrifugal action, material is realized constantly oneself's extruding in the helical cavity that the inwall and the pitch of charging housing reduces successively, make material obtain preliminary, the crushing of consolidation gradually, help to improve follow-up grinding effect.

Description of drawings

Accompanying drawing 1 is the section of structure of the embodiment of the invention 1;

Accompanying drawing 2 is the structure explosive view of accompanying drawing 1;

Accompanying drawing 3 is among the embodiment 1, the profile of batch mixing carrier, batch mixing pin, charging housing, movable grinding disc and static cutting disk;

Accompanying drawing 4 is a feeding rod structural representation among the embodiment 1;

Accompanying drawing 5 is the structural representation at another visual angle of feeding rod among the embodiment 1;

Accompanying drawing 6 is the section of structure of the embodiment of the invention 2.

The specific embodiment

The invention will be further described below in conjunction with accompanying drawing.

Embodiment 1

To shown in Figure 5, present embodiment is for being applied on the horizontal soy bean milk making machine product according to Fig. 1, described residue-less grinding mechanism, and it comprises charging housing 1 and storage slurry base 2, both match the installation frame body of this mechanism of formation are installed.Charging housing 1 and storage slurry base 2 are cavity body structure, both cavitys are installed the process chamber that constitutes the preparation soya-bean milk relatively, have the charging aperture 3 that is communicated with described process chamber on the charging housing 1, have the grout outlet 4 that is communicated with described process chamber on the storage slurry base 2, generally speaking, charging aperture 3 is positioned at the top of charging housing 1 sidewall, and its big I is decided by actual product preparation requirement, 4 of grout outlets are below storage slurry base 2 sidewalls, the size of grout outlet 4 also can be decided by the preparation requirement of actual product, and in order to accelerate to store up slurry speed, the quantity of grout outlet 4 can be provided with several.Movable grinding disc 5, feeding rod 6 and static cutting disk 7 are housed in the described process chamber, movable grinding disc 5 all can adopt the edible timber mill of sanding disc, millstone plate, special metal grinding table and hard with static cutting disk 7, and the position of offering of the grout outlet 4 of product is lower than static cutting disk 7 and with static cutting disk 7 certain distance is arranged apart, be beneficial to and make the slurries discharge, avoid soaking static cutting disk 7.Feeding rod 6 is fixedly mounted on the charging housing 1, and the front end of feeding rod 6 connects the exterior power output mechanism, and the exterior power output mechanism is generally motor, perhaps also can adopt manual drives, and the front end of feeding rod 6 can be bearing on the charging housing 1 by bearing 14; 5 of movable grinding discs are fixedly mounted on the bottom of feeding rod 6 and rotate with feeding rod 6, static cutting disk 7 is installed in the storage slurry base 2, movable grinding disc 5 is with static cutting disk 7 relative installations and be separated with grinding gap 8 mutually, this grinds the main milling zone that gap 8 constitutes material, when preparation of product, can require to set the size of grinding gap 8 according to grinding fineness.The present invention improves the grinding mechanism of traditional grinding type soymilk machine, the part that described feeding rod 6 is positioned at process chamber comprises screw rod part 61 and batch mixing carrier 62, screw rod partly 61 helical cavity formation is pulverized the district to first of material, in the manufacture process of product, screw rod partly 61 the pitch bottom direction from the top of feeding rod 6 to feeding rod 6 reduces successively, the degree that reduces can be by 1: 0.9: 0.8: 0.7 ... the equal difference level changes, and the number of turns of spiral can require to decide according to preparation of product.Because material partly 61 rotates with screw rod, material can be under centrifugal action, and material is realized oneself's extruding in the helical cavity that the inwall and the pitch of charging housing 1 reduces successively, make material obtain preliminary crushing.

Simultaneously, batch mixing carrier 62 of the present invention is positioned at the bottom of feeding rod 6 and is used to install movable grinding disc 5, the sidewall sealing of batch mixing carrier 62 is assemblied on the internal chamber wall of charging housing 1, makes outwards seepage of material and slurries to guarantee that material and slurries all enter follow-up pulverizing or grinding step.Batch mixing carrier 62 and screw rod partly have the mixing tank for coating colors 63 of the helical cavity that is communicated with screw rod part 61 between 61, have the defeated material passage 621 that is communicated with mixing tank for coating colors 63 on the batch mixing carrier 62, movable grinding disc 5 has defeated material passage 621 and grinds the material transport hole 51 that gap 8 is communicated with, this material transport hole 51 is positioned at the central part of movable grinding disc 5, material enters main milling zone from movable grinding disc 5, material and slurries are taken the edge out of from the middle part of main milling zone in process of lapping, increase abrasive areas.In addition, this material transport hole 51 also can be opened in the excentral fringe region of movable grinding disc 5, as long as there are enough abrasive areas at the edge from material transport hole 51 to mill with thorough grinding material.Meanwhile, batch mixing pin 9 is housed on the charging housing 1, batch mixing pin 9 is stretched and is inserted in the mixing tank for coating colors 63 and leaves punishment in advance gap 10 with the cell wall of mixing tank for coating colors 63, and described mixing tank for coating colors 63 constitutes pulverizes the district to second of material.Simultaneously, have water injection hole 91 on the batch mixing pin 9 of the present utility model, water injection hole 91 is communicated with the external world and the mixing tank for coating colors 63 of grinding mechanism.In the soya-bean milk preparation process, both can inject the water of certain component to mixing tank for coating colors 63 by water injection hole 91, the also water filling port that can set up at charging aperture 3 is by injecting corresponding water amount toward water filling port, help batch mixing pin 9 better to do the material that minces equally, also can regulate the concentration of soya-bean milk.

In the present embodiment, the periphery of described batch mixing carrier 62 is provided with not-go-end bulge loop 622, the inwall of charging housing 1 is provided with flange, the lateral surface 111 of flange is sealingly fastened on the inner ring surface 6221 of not-go-end bulge loop 622, flange inner face 112 leaves feeding gap 12 with feeding rod 6, the two ends in feeding gap 12 are communicated with mixing tank for coating colors 63 and defeated material passage 621, the pre-grinding district that this feeding gap 12 constitutes material respectively.By cooperating of not-go-end bulge loop 622 and flange, effectively improved the sealing of the internal chamber wall of the sidewall of batch mixing carrier 62 and charging housing 1, and, by the pre-grinding district that forms between flange outer sides face 111 and the feeding rod 6, can more effectively improve the slurrying quality of material.

The workflow of present embodiment is:

Material (comprising certain water yield) enters from charging aperture 3, partly carry out centrifugal in 61 (the first pulverizing districts) at screw rod subsequently, the consolidation extruding, material is tentatively crushed, the material of tentatively being crushed enters mixing tank for coating colors 63 (second pulverizes the district) subsequently, at this moment, enough tiny material can enter feeding gap 12 from punishment in advance gap 10, tiny inadequately material is still stayed and is continued in the mixing tank for coating colors 63 to be continued to blend by batch mixing pin 9 or squeezed back first again and pulverize the district, enter the material in feeding gap 12, obtain pre-grinding between the medial surface 112 of flange 11 that can be by charging housing 1 inwall and the feeding rod 6, material tentatively has the slurries effect after pre-grinding, flow into the defeated material passage 621 on the batch mixing carrier 62 subsequently, enter the material transport hole 51 on the movable grinding disc 5 then, enter main milling zone again, material after main milling zone grinds has been very soft slurries, and slurries flow out from grout outlet 4 thereupon.

Embodiment 2

Present embodiment is for being applied on the vertical soy bean milk making machine product, and its basic structure is identical with embodiment substantially, does not say in this omission, have slightly be:

Charging aperture 3 on the charging housing 1 is opened in the front end of housing, is convenient to user's reinforced operation.

Present embodiment is designed to ring body structurc with described storage slurry base 2, is provided with the support pads 13 that is used to install static cutting disk 7 in the cavity of storage slurry base 2, will store up slurry base 2 and be divided into two structures, is convenient to store up the preparation of slurry base 2.At this moment, 4 ends of grout outlet at storage slurry base 2.

In embodiment 2, movable grinding disc 5 and static cutting disk 7 are arranged up and down.

In addition, beyond illustrated embodiment 1 and embodiment 2, charging housing 1 of this mechanism and storage slurry base 2 can be prepared as integral structure, and this variation also should belong to rationally deriving of the invention, should belong to protection scope of the present invention.In addition, the grinding mechanism of soy bean milk making machine of the present invention can be used for the grinding of five cereals, vegetables and fruits class, meat and chemical material, and this also should belong to effectively deriving of the invention, belongs to protection domain of the present invention.

Use the soy bean milk making machine that the present invention makes, material is pulverized the centrifugal force in district from pressing the preliminary pulverizing that obtains through first, enter second of mixing tank for coating colors 63 then and pulverize the district, subsequently, 9 pairs of materials that rotate with feeding rod 6 of batch mixing pin carry out blending the second time, at this moment, have only enough little material to enter defeated material passage 621, and the material that can not enter next passage is constantly blended in mixing tank for coating colors 63 by batch mixing pin 9, make it final enough tiny and pass through material passing passage by punishment in advance gap 10, enter follow-up grinding work again, help mill grinding material more completely, improve grinding effect, grind the slurries that come out and do not have residue extremely, the soft exquisiteness of soya-bean milk, excellent taste; And material is constantly beaten by batch mixing pin 9 in mixing tank for coating colors 63, can prevent effectively that material from producing clogging when entering material passing passage.

Claims

1. the residue-less grinding mechanism of a soy bean milk making machine, charging housing (1) that comprising matches installs and storage slurry base (2), charging housing (1) and storage slurry base (2) are cavity body structure, both cavitys constitute the process chamber of preparation soya-bean milk, have the charging aperture (3) that is communicated with described process chamber on the charging housing (1), have the grout outlet (4) that is communicated with described process chamber on the storage slurry base (2), movable grinding disc (5) is housed in the described process chamber, feeding rod (6) and static cutting disk (7), feeding rod (6) is fixedly mounted on the charging housing (1), the front end of feeding rod (6) connects the exterior power output mechanism, movable grinding disc (5) is fixedly mounted on the terminal of feeding rod (6) and rotates with feeding rod (6), static cutting disk (7) is installed in the storage slurry base (2), the relative installation with static cutting disk (7) of movable grinding disc (5) also is separated with grinding gap (8) mutually, this grinds the main milling zone of gap (8) formation to material, it is characterized in that: the part that described feeding rod (6) is positioned at process chamber comprises screw rod partly (61) and batch mixing carrier (62), the screw rod partly helical cavity formation of (61) is pulverized the district to first of material, batch mixing carrier (62) is positioned at the terminal of feeding rod (6) and is used to install movable grinding disc (5), the sidewall sealing of batch mixing carrier (62) is assemblied on the internal chamber wall of charging housing (1), batch mixing carrier (62) partly has between (61) with screw rod and is communicated with the partly mixing tank for coating colors (63) of the helical cavity of (61) of screw rod, have the defeated material passage (621) that is communicated with mixing tank for coating colors (63) on the batch mixing carrier (62), movable grinding disc (5) has defeated material passage (621) and grinds the material transport hole (51) that gap (8) is communicated with, batch mixing pin (9) is housed on the charging housing (1), batch mixing pin (9) is stretched and is inserted in the mixing tank for coating colors (63) and leaves punishment in advance gap (10) with the cell wall of mixing tank for coating colors (63), and described mixing tank for coating colors (63) constitutes pulverizes the district to second of material.

2. according to the residue-less grinding mechanism of the described soy bean milk making machine of claim 1, it is characterized in that: the periphery of described batch mixing carrier (62) is provided with not-go-end bulge loop (622), the inwall of charging housing (1) is provided with flange (11), the lateral surface (111) of flange (11) is sealingly fastened on the inner ring surface (6221) of not-go-end bulge loop (622), the medial surface (112) of flange (11) leaves feeding gap (12) with feeding rod (6), the two ends in feeding gap (12) are communicated with mixing tank for coating colors (63) and defeated material passage (621) respectively, and this feeding gap (12) constitutes the pre-grinding district to material.

3. according to the residue-less grinding mechanism of the described soy bean milk making machine of claim 1, it is characterized in that: the described screw rod partly bottom direction of pitch from the top of feeding rod (6) to feeding rod (6) of (61) reduces successively.

4. according to the residue-less grinding mechanism of the described soy bean milk making machine of claim 1, it is characterized in that: have water injection hole (91) on the described batch mixing pin (9), water injection hole (91) is communicated with the external world and the mixing tank for coating colors (63) of grinding mechanism.

5. according to the residue-less grinding mechanism of the described soy bean milk making machine of claim 1, it is characterized in that: described material transport hole (51) is positioned at the central part of movable grinding disc (5).

6. according to the residue-less grinding mechanism of the described soy bean milk making machine of claim 1, it is characterized in that: the position of offering of described grout outlet (4) is lower than static cutting disk (7).

7. according to the residue-less grinding mechanism of the described soy bean milk making machine of claim 1, it is characterized in that: described storage slurry base (2) is ring body structurc, is provided with the support pads (13) that is used to install static cutting disk (7) in the cavity of storage slurry base (2).