WO2015192284A1 - Centrifugeuse à faible vitesse - Google Patents

Centrifugeuse à faible vitesse Download PDF

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Publication number
WO2015192284A1
WO2015192284A1 PCT/CN2014/079908 CN2014079908W WO2015192284A1 WO 2015192284 A1 WO2015192284 A1 WO 2015192284A1 CN 2014079908 W CN2014079908 W CN 2014079908W WO 2015192284 A1 WO2015192284 A1 WO 2015192284A1
Authority
WO
WIPO (PCT)
Prior art keywords
transmission member
annular
spiral body
juice
container
Prior art date
Application number
PCT/CN2014/079908
Other languages
English (en)
Chinese (zh)
Inventor
李晓川
Original Assignee
深圳市联创三金电器有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 深圳市联创三金电器有限公司 filed Critical 深圳市联创三金电器有限公司
Priority to PCT/CN2014/079908 priority Critical patent/WO2015192284A1/fr
Priority to CN201520210298.9U priority patent/CN204683294U/zh
Priority to CN201510165257.7A priority patent/CN105310453B/zh
Priority to PCT/CN2015/081424 priority patent/WO2015192744A1/fr
Publication of WO2015192284A1 publication Critical patent/WO2015192284A1/fr

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Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J19/00Household machines for straining foodstuffs; Household implements for mashing or straining foodstuffs
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J19/00Household machines for straining foodstuffs; Household implements for mashing or straining foodstuffs
    • A47J19/02Citrus fruit squeezers; Other fruit juice extracting devices
    • A47J19/025Citrus fruit squeezers; Other fruit juice extracting devices including a pressing screw

Definitions

  • the present invention relates to a household machine for mashing food, and more particularly to an extracting device for juice.
  • Background Art A conventional juicer first uses a high-speed rotating blade to pulverize fruits and vegetables, and then filters the juice in the pulverized fruits and vegetables by a high-speed rotating sieve.
  • conventional juicers are limited in the production of soft, slender and tough ingredients such as pressed stems and green vegetables. And it smashes the fruits and vegetables by rotating the blades at a high speed, and the high-speed rotation generates a certain amount of heat, thus seriously destroying the freshness and nutrition of the fruits and vegetables.
  • a juice extractor presses fruits and vegetables between a spiral rotating at a low speed and a circular filter to produce juice or extract.
  • the spiral body and the annular filter screen are arranged in an open top juicer container, the spiral body is in the shape of a spindle, and a plurality of spiral leaves (like thread) are formed in the circumference of the spiral blade.
  • the size is slightly smaller than the annular filter mesh, and the spiral body is formed into a spindle-shaped body and the annular filter mesh forms a gap with a large gap.
  • the food material is cut from the spiral blade at the tip end of the spiral body, and the spiral blade which is rotated by the spiral body is pressed downward, and the gap is downward. Gradually smaller, the ingredients are gradually crushed and crushed, and the juice is squeezed out through the filter to flow into the container to realize the function of juicing.
  • a ring-shaped brush holder in order to prevent the grain particles from clogging the annular filter mesh, a ring-shaped brush holder is usually arranged, and a plurality of soft rubber wipers are distributed thereon, and the soft rubber scraper is wound around the ring filter through the ring-shaped brush holder. Relatively rotating, the soft rubber scraper is in contact with the annular filter screen to scrape off the particles of the food material that are blocked in the pores of the annular filter mesh, thereby realizing the function of preventing the grain particles from clogging the filter mesh hole and affecting the juice extraction effect.
  • the power transmission mode of the existing juicer to the annular brush holder is: a lower end of the spiral body connected to the main body is provided with a ring of external teeth, which drives the planetary gear fixed to the bottom of the container, and then drives the lower end through the planetary gear to provide a circle
  • the annular screen is divided into upper and lower loops, and the pellets of the food arrive at the bottom of the sieve, and it is considered that the juice has been squeezed out and discharged from the opening of the bottom surface of the annular sieve.
  • the planetary gears of existing juicers are not easy to clean and may cause juice contamination.
  • the rotational power of the annular brush holder is fixed by a planetary gear fixed to the bottom of the container.
  • a certain gap must be designed between the planetary gear and the container and the rotating shaft.
  • the juice extracted from the ingredients is passed through the bottom of the container.
  • Outflow there must be some juice between the planet gears and the container and the rotating shaft.
  • the planetary gears are usually designed to be undetachable or difficult to disassemble. Due to the inability to remove and wash, the juice between the planet gears and the container and the rotating shaft is usually not completely cleaned, which in turn leads to contamination of the freshly squeezed juice.
  • Juice extraction efficiency is low.
  • the ingredients are cut by the spiral leaves at the top of the spiral rotating at low speed, and then between the spiral and the annular filter for juice extraction.
  • Each cutting amount is an effective depth of the gap between the spiral body and the annular filter screen, and the size of the cross section of the food material fed into the gap between the spiral body and the annular filter screen cannot be larger than the diameter of the feed port due to the limitation of the smaller feed port diameter. . That is to say, the amount of food material that is fed into the gap between the spiral body and the annular filter and cut by the spiral leaves at the top of the spiral body is very limited, and does not reach the maximum load that the juicer can withstand. Therefore, the juice extraction efficiency of conventional juicers is not high.
  • the operation is unstable and easy to get stuck.
  • the working efficiency of the juicer is basically determined by the operator's feeding speed.
  • the user feeds fast or the user presses the material with the pressing tool it is easy to cause too much food to be forced between the spiral body and the annular filter, which increases the working load of the product, and too much food is squeezed into the spiral at the same time.
  • the annular filter screens the annular filter screen is easily expanded and deformed, the juice yield of the food material is lowered, and the spiral body is easily caught and stops rotating.
  • the fibrous structure from which the juice is extracted is difficult to pass through the small slag opening, which causes the residue of the food material to be discharged, which affects the efficiency of juice extraction.
  • the formation process of the food residue is the entry of the ingredients into the spiral and the annular filter
  • the gap between the two is gradually pressed from top to bottom until the ingredients are considered to have reached the root of the annular filter after the juice is extracted, and the slag outlet of the existing juicer is designed to be directed from the inner wall of the annular filter to the bottom of the annular filter.
  • An opening formed by the center extension, i.e., the residue of the food material needs to be squeezed out along the annular screen to the bottom.
  • a container having a juice outlet and a slag outlet at the lower end;
  • An annular filter located inside the container, for separating the juice of the fruit and vegetable from the mixture of the slag; a spiral body located inside the annular filter for extracting the juice of the fruit and vegetable;
  • a ring brush holder located at the periphery of the annular filter
  • a transmission member located on the spiral body and the annular screen portion, the transmission member being coupled to the upper central shaft of the spiral body, the transmission member transmitting rotational force to the annular brush holder by means of a transmission pair.
  • the upper end of the annular brush holder is provided with at least two gear shafts, and the gear shafts are respectively provided with planetary gears rotatable around the gear shaft; the upper part of the container is provided with an inner ring gear, and the lower part of the transmission member is provided An outer ring gear, the planetary gears meshing with an inner ring gear of the container and an outer ring gear of the transmission member, respectively.
  • the upper end of the annular brush holder is provided with at least two gear shafts, and the gear shafts are respectively provided with planetary gears rotatable around the gear shaft;
  • the annular filter mesh portion is provided with an outer ring gear, and the lower part of the transmission member
  • An inner ring gear is provided, and the planetary gears mesh with the outer ring gear of the annular screen and the inner ring gear of the transmission member, respectively.
  • annular scraper is provided with a first spline tooth
  • a lower portion of the transmission member is provided with a second spline tooth that engages with the first spline tooth of the annular scraper.
  • a slow juicer is also designed, the juicer assembly comprising:
  • a container having a juice outlet and a slag outlet at the lower end;
  • An annular filter located inside the container, for separating the juice of the fruit and vegetable from the mixture of the slag; a spiral body located inside the annular filter for extracting the juice of the fruit and vegetable;
  • a ring brush holder located at the periphery of the annular filter; Further comprising a transmission member, the transmission member is located at the spiral body and the annular filter screen portion, the transmission member is coupled with an upper central shaft of the spiral body, and the transmission member transmits rotational power to the annular brush holder by means of a transmission pair;
  • the top surface of the transmission member is provided with a cutting insert.
  • a cutting platen is disposed under the transmission member, the cutting platen is fixedly connected with the annular filter screen, and a cutting port is arranged corresponding to the cutting platen and the feeding port; the cutting platen is matched with the transmission member, and the cutting platen is flat under the cutting platen. And conforming to the spiral leaf at the upper end of the spiral body.
  • the transmission member is conical, and correspondingly, the container cover and the cutting platen are also conical.
  • a slag discharge port is disposed at a lower end of the side of the annular filter.
  • a guide piece is extended from both ends of the slag discharge port toward the spiral body, and the guide piece is parallel to an outer tangent line of the spiral blade above the spiral body.
  • the present invention has the following technical effects:
  • the power of the ring brush holder is transmitted through a transmission member added in the upper part of the spiral body.
  • the transmission structure is easy to disassemble and clean, and the transmission structure is not directly in contact with the juice.
  • the contact parts with the juice are easy to clean, ensuring fresh juice and sanitation. .
  • the low-speed cutting structure can cut large pieces of food into smaller pieces before the ingredients are introduced into the spiral body and the annular filter to extract the juice, and then the ingredients cut into small pieces are sent between the spiral body and the annular filter.
  • the juice is extracted by pressing, thus eliminating the need for the user to manually cut the ingredients.
  • the low-speed cutting structure can be used as a quantitative feeding device to quickly feed a certain amount of food material that is cut into small pieces into a spiral body and an annular filter to extract juice.
  • the cutting efficiency of the low-speed cutting structure By setting the cutting efficiency of the low-speed cutting structure to an appropriate value, such as by adjusting the thickness of the cutting, the number of cutting tools, that is, the number of cuttings per revolution, the cutting efficiency can be adjusted and set to be compared with the juicer.
  • the maximum juice efficiency is matched to achieve the goal of maximizing the efficiency of the juicer.
  • the low-speed cutting structure can effectively control the maximum amount of the foodstuff entering between the spiral body and the annular filter screen, thereby ensuring the stability of the operation of the juicer, in particular, avoiding the occurrence of the spiral body stopping the rotation due to the overload, and the motor is stuck. The phenomenon.
  • the low-speed cutting structure does not require additional power, and is directly connected to the rotating spiral.
  • the rotation speed is synchronized with the spiral. Therefore, the cutting principle is to use low-speed cutting without destroying the nutrients of the ingredients and the taste of the ingredients.
  • a cutting platen is provided between the low-speed cutting structure and the spiral body to assist in secondary cutting.
  • the cutting platen is fixedly assembled with the annular screen, that is, the cutting platen rotates relative to the low-speed cutting structure and the spiral body.
  • the food material cut by the low-speed cutting structure falls into the gap formed in the cutting platen, and then the food material falls from the gap into the gap between the spiral body and the annular filter screen.
  • the larger food material is subjected to secondary cutting by the shearing structure formed by the relatively rotating cutting platen and the spiral body, further ensuring the falling into the spiral body and the ring shape.
  • the size of the food in the gap between the screens is not too large and the size is uniform. This minimizes the load on the motor and further ensures the stability of the load on the motor, avoiding transient large loads damaging the motor performance and affecting the life of the juicer.
  • the slagging structure design of the present invention is to provide a special slag discharge chamber at the bottom of the annular filter screen, and a horizontal slag discharge opening is formed on the slag discharge inner wall, and the size of the slag discharge opening provided thereon is not Subject to other structural constraints, it can be set to a larger suitable size.
  • the slag discharge port is arranged on the inner wall of the lower part of the annular filter screen, and the residue of the food material descends along the annular filter screen to reach the lower part of the annular filter screen and can be arranged in the ring shape.
  • the slag discharge port on the inner wall of the filter screen is directly discharged to improve the efficiency of slagging.
  • the design of the slag discharge port utilizes the centrifugal force generated by the spiral blade of the spiral body to promote the rotation of the food residue, and the residue of the food material is taken out from the slag discharge port to further improve the slagging efficiency.
  • the low speed cutting structure of the present invention is tapered, and the contact area of the food material with the low speed cutting structure can be maximized without increasing the diameter of the conventional juicer.
  • Figure 1 is an external view of a juice extracting assembly of the juice extractor of the present invention
  • Figure 2 is a schematic exploded view of the juicer assembly of the juicer of the present invention
  • Figure 3 is a schematic cross-sectional view of the juicer assembly of the juicer of the present invention.
  • FIG. 4 is a schematic view showing a power transmission structure of a juice extracting unit according to an embodiment of the juice extractor of the present invention
  • FIG. 5 is a schematic view showing a power transmission structure of a juice extracting unit according to another embodiment of the juice extracting machine of the present invention
  • FIG. 7 is a schematic view showing the flow of the material cutting of the low speed cutting structure of the juicer of the present invention
  • Figure 8 is a schematic view showing the working principle of secondary cutting of the shearing structure formed between the cutting platen and the spiral body of the juicer of the present invention
  • Figure 10 is a cross-sectional view taken along line AA of Figure 9, illustrating the power between the low-speed cutting structure and the annular brush holder Pass The principle of the structure;
  • Figure 11 is a schematic view of the slag discharge port of the present invention.
  • FIG. 12 is a schematic view showing a slag discharging route and a principle of the embodiment of the present invention.
  • Figure 13 is a cross-sectional view taken along line B-B of Figure 11 .
  • the lower part a container 100 provided with a juice outlet 101 and a slag outlet 102; an annular sieve 500 located inside the container 100 for separating the juice of the fruit and vegetable from the mixture of the slag juice; located inside the annular filter 500 for use in fruits and vegetables a juiced spiral body 400; an annular scraper 600 located outside the annular screen 500; a transmission member 300 located at an upper portion of the spiral body 400 and the annular screen 500, the transmission member 300 transmitting rotational power to the annular brush holder 600 by means of a transmission pair . Also included is a container lid 200 at the upper end of the container 100.
  • the transmission member 300 is conical, and accordingly, the container cover 200 is also conical.
  • the juicer is provided with an annular scraper 600 for timely scraping the annular filter 500 to the particles of the food material which are clogged into the filter holes.
  • annular scraper 600 As shown in Figs. 9 and 10, a plurality of soft rubber wipers 602 are distributed thereon.
  • the ring scraper 600 drives the soft rubber scraper 602 to rotate around the annular filter net 500.
  • the inner side of the soft rubber scraper 602 scrapes off the particles of the food material that are blocked in the filter mesh hole, and the outer side of the soft rubber wiper 602 scrapes off the juice splashed on the inner wall of the container 100. .
  • the transmission member 300 and the upper central shaft 402 of the spiral 400 are coupled by a spline that is easy to disassemble to transmit torque.
  • the structure is connected by inner and outer hexagons. Both can also use other connections that facilitate the disassembly of the transmitted torque.
  • the power transmission between the transmission member 300 and the annular scraper 600 is performed by a spline connection or a planetary gear connection.
  • the following embodiment can be applied to the transmission power transmission structure between the transmission member 300 and the annular scraper 600.
  • the power transmission structure between the transmission member 300 and the annular scraper 600 is not limited to the following embodiments, and other solutions extending from these solutions can be employed.
  • Embodiment 1 is a diagrammatic representation of Embodiment 1:
  • the upper end of the annular scraper 6QQ is provided with three gear shafts 604, and three gear shafts 604 are respectively provided with three planetary gears 603 which are freely rotatable therearound.
  • the inner wall of the top of the container 100 is provided with an inner ring gear 103, and the annular scraper 600 is fitted into the container 100, and the three planetary gears 603 thereon mesh with the inner ring gear 103 on the container 100.
  • An outer ring gear 301 is disposed at the bottom of the transmission member 300, the transmission member 300 is assembled into the container 100, and the outer ring gear 301 at the bottom and the three planetary gears on the annular scraper 600 603 meshed.
  • the transmission member 300 is splined with the central shaft 402 of the spiral body 400, and is rotatable about the center of the juicer with the screw 400.
  • the outer ring gear 301 at the bottom of the transmission member 300 drives the three meshing teeth thereof while rotating.
  • the planet gears 603 rotate about their respective gear shafts 604, thereby causing the entire annular scraper 600 to rotate about the center of the juicer.
  • the working principle of the planetary gear train is already open and is not mentioned here.
  • Embodiment 2 is a diagrammatic representation of Embodiment 1:
  • the upper end of the annular scraper is provided with three gear shafts 6Q4A, and three gear shafts 6Q4A are respectively provided with three planetary gears 603A rotatable therearound.
  • the outer wall of the top end of the annular filter 500A is provided with an outer ring gear 501A, and the annular scraper is fitted into the container 100A.
  • the annular screen 500A is mounted stationary relative to the container 100A.
  • the three planet gears 603A on the annular scraper 600A mesh with the outer ring gear on the annular screen 500A.
  • the bottom of the transmission member 300A is provided with an inner ring gear 301A, and the transmission member 300A is fitted into the container 100A, and the inner ring gear at the bottom thereof meshes with the three planetary gears 603A on the ring-shaped scraper 600A.
  • the transmission member 300A is splined with the central shaft 402 of the spiral body 400, and is rotatable about the center of the juicer with the spiral body 400.
  • the inner ring gear at the bottom of the transmission member 300A drives the three planets that mesh with it while rotating.
  • Gear 603A rotates about its corresponding gear shaft 604A, thereby causing the entire annular scraper to rotate about the center of the juicer.
  • Embodiment 3 is a diagrammatic representation of Embodiment 3
  • the upper end of the annular scraper is provided with a plurality of outer spline or inner snapped first spline teeth 601B evenly distributed around the center thereof.
  • the transmission member 300B is assembled into the container 100B, and the bottom portion is provided with a plurality of inner spline teeth (or externally engaged) second spline teeth 301B evenly distributed around the center thereof, and engaged with the first spline teeth 601B at the upper end of the annular scraper. , transmitting torque.
  • the transmission member 300B is splined with the central shaft 402 of the spiral body 400, and is rotatable about the center of the juicer with the screw 400.
  • the transmission member 300B is fitted into the container 100B, and the bottom portion of the ring and the upper end of the annular scraper are splined. The bite, thereby driving the entire annular scraper to rotate around the center of the juicer.
  • the top surface of the transmission member 300 is provided with a cutting insert 304 to form a low speed cutting structure.
  • a cutting platen 700 is further disposed below the transmission member 300.
  • the cutting platen 700 is fixedly coupled to the annular screen 500 and does not rotate with the spiral body 400.
  • the cutting platen 700 is provided with a feeding opening 701 corresponding to the feeding port 201, and the cut small piece of food material can fall into the gap between the annular screen 500 and the spiral body 400 through the feeding opening 701, the arrow in FIG. Indicates the path to the ingredients.
  • the upper surface of the cutting platen 700 is engaged with the transmission member 300.
  • the lower surface of the cutting platen 700 is a flat surface, and is attached to the spiral blade 401 at the upper end of the spiral body 400.
  • the transmission member 300 has a conical shape that is narrow and wide, and correspondingly, the container cover 200 and the cutting platen 700 are also conical. This shape is designed to increase the length of the cutting edge of the cutting insert 304 while maintaining the shape diameter of the juicer so that it can cut larger sizes of ingredients. At the same time, increase the diameter of the feed port of the juicer to accommodate larger volumes of food, such as an entire apple.
  • the feed port can be designed to resemble an "L" shape with the upper end remaining perpendicular and the lower end angle to an angle perpendicular or nearly perpendicular to the edge of the low speed cutting structure.
  • the feed port can also be designed in a slanted straight type, and the degree of inclination is considered to make the inlet port perpendicular or nearly perpendicular to the edge of the low speed cutting structure.
  • the cutting inserts 304 disposed on the top surface of the transmission member 300 may be provided with one or more sets as needed, and the cutting inserts 304 rotate with the transmission member 300 about the central axis 402 to sequentially cut the foodstuff.
  • the cutting insert 304 can be designed to cut the ingredients into a sheet-like block, and other shapes of cutting inserts can be used to cut the ingredients into the desired desired shape and size. Further, the cutting insert 304 can be formed as a detachable and replaceable cutting insert assembly, and different cutting insert assemblies can be selected according to different needs.
  • the cutting platen 700 has a conical shape with a narrow upper and a lower width. After being assembled with the annular screen 500, a cavity can be formed therewith, and the spiral body 400 is assembled in the chamber. The lower end surface of the cutting platen 700 and the spiral leaf 401 on the spiral body 400 are formed. The upper end is close to the top.
  • the spiral body 400 effectively presses the foodstuff in the chamber by its own rotation, and the foodstuff falls into the chamber without a space for retreat, and only when the spiral body is rotated and pressed, the juice is extracted.
  • the small piece of food material cut by the low-speed cutting structure falls into the gap between the annular screen 500 and the spiral body 400 through the discharge opening 701 on the cutting platen 700, and if a large amount of the food material cannot fall completely into the gap, In the middle, the shearing structure formed by the relative rotation between the lower end surface of the cutting platen 700 and the upper end surface of the spiral blade 401 on the spiral body 400 is subjected to secondary cutting to facilitate the blanking, as shown in FIG.
  • the low-speed cutting structure has the same rotational speed as the spiral 400, and the same principle of low-speed processing does not destroy the nutritional structure and mouthfeel of the food.
  • the low speed cutting structure rotates at a hook speed, and the maximum cutting amount of the cutting insert 304 is constant for the same period of time. That is to say, the low-speed cutting structure can control the maximum amount of the foodstuff entering the gap between the spiral body 400 and the annular screen 500, which can effectively prevent the juicer from being stuck due to overload and the deformation of the annular filter 500 to reduce the juice yield.
  • the maximum cutting amount of the cutting insert 304 By adjusting the maximum cutting amount of the cutting insert 304, the highest efficiency of the juice extraction of the spiral body 400 and the annular screen 500 can be achieved without overloading.
  • the lower end of the annular screen 500 has a slag discharge port 501. Since it is not restricted by other structures, the slag discharge port 501 can set the size of the slag discharge port according to specific design and functional requirements.
  • the slag discharge port 501 is provided at the lower end of the inner wall of the annular screen 500, and the residue of the food material is along
  • the annular screen 500 descends to the lower end of the annular screen 500 and is horizontally discharged by the slag discharge port 501 disposed on the inner wall of the annular screen 500, which simplifies the slag discharge path and improves the efficiency of slagging.
  • the slagging effect is significantly better than the conventional juicer.
  • a guide piece 502 is extended from both ends of the slag discharge port 501 toward the spiral body 400, and the guide piece 502 is parallel to the outer tangential line of the spiral leaf 401 above the spiral body 400.
  • the centrifugal force generated when the spiral residue 401 of the spiral body 400 is pushed to push the food residue A is rotated, and the food residue A is guided to the ring 502 to be discharged from the slag discharge port 501, thereby improving the slagging efficiency.

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  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Apparatuses For Bulk Treatment Of Fruits And Vegetables And Apparatuses For Preparing Feeds (AREA)
  • Food-Manufacturing Devices (AREA)

Abstract

L'invention concerne une centrifugeuse à faible vitesse comprenant : un récipient (100) comportant à son extrémité inférieure une sortie de jus (101) et une sortie de pulpe (102) ; un écran annulaire (500) disposé à l'intérieur du récipient, (100) ; un corps en spirale (400) disposé à l'intérieur de l'écran annulaire (500) et utilisé pour l'extraction de jus de fruits et de légumes ; et, un cadre de brosse annulaire (600) agencé au niveau de la périphérie de l'écran annulaire (500) ; et comprenant également un élément de transmission (300). L'élément de transmission (300) est agencé au-dessus du corps en spirale (400) et de l'écran annulaire (500). L'élément de transmission (300) est relié à l'arbre central supérieur (402) du corps en spirale (400). L'élément de transmission (300) transmet une puissance rotative au cadre de brosse annulaire (600) au moyen d'un ensemble de transmission. Une lame de coupe (304) peut être agencée sur la surface supérieure de l'élément de transmission. La structure de transmission de la centrifugeuse est pratique à démonter et à nettoyer. Des jus fraîchement pressés sont bons pour la santé et nutritifs. Une structure de coupe à faible vitesse est ajoutée pour éviter la nécessité de coupe manuelle d'articles alimentaires et peut servir en tant qu'appareil d'alimentation à volume fixe.
PCT/CN2014/079908 2014-06-16 2014-06-16 Centrifugeuse à faible vitesse WO2015192284A1 (fr)

Priority Applications (4)

Application Number Priority Date Filing Date Title
PCT/CN2014/079908 WO2015192284A1 (fr) 2014-06-16 2014-06-16 Centrifugeuse à faible vitesse
CN201520210298.9U CN204683294U (zh) 2014-06-16 2015-04-09 定量投料的慢速榨汁系统
CN201510165257.7A CN105310453B (zh) 2014-06-16 2015-04-09 定量投料的慢速榨汁系统及方法
PCT/CN2015/081424 WO2015192744A1 (fr) 2014-06-16 2015-06-15 Système et procédé d'extraction de jus à faible vitesse d'alimentation de matériau à volume fixe

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/CN2014/079908 WO2015192284A1 (fr) 2014-06-16 2014-06-16 Centrifugeuse à faible vitesse

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Publication Number Publication Date
WO2015192284A1 true WO2015192284A1 (fr) 2015-12-23

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PCT/CN2014/079908 WO2015192284A1 (fr) 2014-06-16 2014-06-16 Centrifugeuse à faible vitesse
PCT/CN2015/081424 WO2015192744A1 (fr) 2014-06-16 2015-06-15 Système et procédé d'extraction de jus à faible vitesse d'alimentation de matériau à volume fixe

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CN107232957A (zh) * 2017-08-10 2017-10-10 郑必达 一种可榨果汁的水杯
CN108209522A (zh) * 2017-08-10 2018-06-29 玉明福 一种可榨果汁的新型水杯
CN113715083A (zh) * 2021-08-31 2021-11-30 西安科技大学 一种块茎类蔬菜加工切削装置及方法

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TWI516239B (zh) * 2012-06-29 2016-01-11 金煐麒 果汁壓榨萃取機
CN107713691B (zh) * 2016-08-10 2023-04-11 广东美的生活电器制造有限公司 桶体组件及食物料理机
CN107997560B (zh) * 2016-11-02 2023-06-09 广东美的生活电器制造有限公司 螺杆及食物处理机
CN108340428A (zh) * 2017-01-23 2018-07-31 深圳市联创三金电器有限公司 具有食物甩干功能的电动蔬果切丝切片装置
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