Juice extractor and spiral extrusion juicing screw rod thereof
Technical Field
The utility model relates to a juice extractor technical field, concretely relates to juice extractor and screw extrusion screw rod of squeezing juice thereof.
Background
The fruits and vegetables are main foods for human bodies to take vitamins, and researches show that people who often eat the fruits and vegetables have higher physical health state than people who do not like eating the fruits and vegetables, particularly in the aspect of preventing diseases, the fruits and vegetables also have irreplaceable effects, and the fruits and vegetables belong to good products in healthy diet. Although the fruits and vegetables are rich in nutrition, many people do not like to eat the fruits and vegetables directly, and the fruits and vegetables are squeezed to obtain the fruit and vegetable juice by a juicer.
The existing juice extractor generally comprises a base, a juice collecting cavity connected with the base, a screw rod and an extrusion filter cylinder which are arranged in the juice collecting cavity, and an upper cover which covers the juice collecting cavity, wherein a blanking channel communicated with the juice collecting cavity is arranged on the upper cover, materials are driven by the screw rod to move downwards after passing through the blanking channel, and the materials are extruded and squeezed in a crushing gap formed between the juice collecting cavity and the extrusion filter cylinder.
For example, chinese utility model patent CN103393338A discloses a juice extraction module for a juice extractor. Comprises a container, a filter screen, a spiral and a juice extraction module, so as to extract juice from food materials. The top end of the container is coupled with a cover and is provided with a feed inlet through which food materials are put, the juice extraction module comprises a squeezing part and a squeezing processing part, the squeezing part is formed at the top end of the spiral in an upward narrowing mode, and a squeezing blade is formed on the squeezing part; the squeezing processing part is connected to the feed inlet, and a concave surface is formed at the bottom of the cover and used for accommodating the squeezing part, wherein the squeezing blade squeezes the food material in the squeezing processing part. The scheme can effectively squeeze food materials and automatically provide the food materials to the spiral, so that the food materials are not required to be pushed in a troublesome manner, and the use convenience is improved. However, this type of juicer also has the following drawbacks:
(1) the positioning shaft is arranged at the top of the spiral, so that the spiral is arranged higher in order to accommodate larger food materials, the blanking channel is arranged in an offset manner, the size of the whole device is increased, the material cost is wasted, and the transportation and the storage are not facilitated;
(2) the blanking channel is arranged in a biased mode, and the blanking channel and the feeding hole are small, so that blanking is inconvenient, and the juicing effect and the juicing efficiency are affected.
In view of this, it is urgently needed to improve the existing juice extractor, so as to separate from the original arrangement mode of the positioning shaft, reduce the volume of the juice extractor, reduce the material cost, increase the convenience of blanking, and increase the juice extracting effect and the juice extracting efficiency.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that current juice extractor adopts the locating shaft to connect the screw rod, leads to the screw rod to set up higher, and unloading passageway biasing sets up, has increased whole volume, and has the unloading inconvenient, leads to the effect of squeezing the juice and the problem of squeezing the juice inefficiency.
In order to solve the technical problem, the utility model provides an adopted technical scheme is a screw extrusion juice extraction screw rod of juice extractor is provided, the spiral portion on the lateral surface of screw rod forms the extrusion portion of squeezing juice, the upper portion of the portion of squeezing juice upwards the spiral extend, and form the chamber that holds that can supply the rotation central axis of screw rod to pass between the inner wall of the filtering component of medial surface and juice extractor, it can supply the size to exceed to hold the chamber the radial edible material entering of screw rod, the rotation central axis of screw rod is located hold within the horizontal projection face in chamber.
In the scheme, the inner side surface of the upper part of the squeezing part and the top of the screw are connected into a whole in a smooth transition manner in a concave cambered surface form.
The utility model also provides a juice extractor, which comprises a juice extracting cup and a cup cover which are arranged detachably, wherein a screw rod which is vertically arranged is arranged inside the juice extracting cup, the screw rod is driven by a driving device arranged at the bottom of the juice extracting cup, a filtering component is sleeved on the periphery of the screw rod,
a discharging channel is arranged in the middle of the cup cover;
the spiral part on the outer side face of the screw rod forms an extrusion juicing part, a containing cavity for food materials to enter the filtering assembly is formed between the inner side face of the upper end of the extrusion juicing part and the inner wall of the filtering assembly, the containing cavity is communicated with the blanking channel, and the rotating central axis of the screw rod and the inlet of the blanking channel are both positioned in the horizontal projection plane of the containing cavity.
In the scheme, the outer side face of the bottom of the screw is provided with the annular flange, the bottom face of the inner cavity of the juicing cup is provided with the annular groove, the annular flange is inserted into the annular groove, and the lower end of the filtering component is inserted into the annular groove and is abutted against the top face of the annular flange.
In the above scheme, the bottom surface of the cup cover is provided with a limiting groove, the limiting groove is matched with the upper end of the filtering component, and after the cup cover is buckled, the limiting groove is abutted against the upper end surface of the filtering component.
In the above scheme, the filtering component consists of a filter screen bracket and a filter screen arranged on the filter screen bracket.
In the scheme, one or more filter screens are provided, and a plurality of juice leaking holes are densely distributed on the filter screens.
In the above scheme, the filter screen with filter screen support integrated into one piece, or with filter screen support detachably sets up.
In the above scheme, the interval is equipped with a plurality of bar beads on filtering component's the inner wall, the bar bead is followed filtering component's vertical setting, just the horizontal width of bar bead from top to bottom reduces gradually.
In the scheme, the top of the juicing cup is provided with the surrounding plate, the inner wall of the surrounding plate is provided with the plurality of L-shaped plates at intervals, the clamping grooves are formed between the L-shaped plates and the top of the juicing cup, the clamping plates matched with the clamping grooves are arranged at the bottom of the cup cover, the distance between the clamping grooves can be used for the clamping plates to insert, and the openings of the clamping grooves are opposite and the same.
Compared with the prior art, the utility model discloses need not to use the location axle, reduced the vertical dimension of screw rod, and then reduced the volume of juice extractor, reduce material cost, be convenient for transport and accomodate, the top eccentric settings of the extrusion portion of squeezing the juice of screw rod simultaneously, the rotation central axis is located the unloading passageway export and holds within the horizontal projection face in chamber, has increased the size that holds the chamber, makes it can hold the size and surpass the radial edible material of filter assembly, increases the effect of squeezing the juice and the efficiency of squeezing the juice.
Drawings
Fig. 1 is a schematic structural view of the present invention;
fig. 2 is an exploded view of the present invention;
fig. 3 is a cross-sectional view of the present invention;
fig. 4 is a schematic structural view of the inside of the filter unit of the present invention;
fig. 5 is a schematic structural view of the screw of the present invention.
Detailed Description
The utility model provides a juice extractor and spiral extrusion juice screw rod thereof need not to use the location axle, has reduced the vertical dimension of screw rod, and then has reduced the volume of juice extractor, reduces material cost, is convenient for transport and accomodate, has increased the size that holds the chamber, makes it can hold the size and surpass the radial edible material of filter assembly, increases the effect of squeezing the juice and the efficiency of squeezing the juice. The invention is described in detail below with reference to the drawings and the detailed description.
As shown in fig. 5, the utility model provides a screw extrusion of juice extractor screw rod of squeezing juice, the spiral portion on the lateral surface of screw rod 30 forms the portion of squeezing juice, the upper portion spiral extension of the portion of squeezing juice, and form the chamber that holds that can supply the rotation central axis of screw rod 30 to pass between the inner wall of the filtering component 40 of medial surface and juice extractor, hold the chamber and can supply the size to exceed the radial edible material entering of screw rod 30, the rotation central axis of screw rod 30 is located within the horizontal projection face that holds the chamber.
Further optimally, the inner side face of the upper part of the squeezing and juicing part and the top of the screw rod 30 are connected into a whole in a concave arc surface type smooth transition mode, namely, the top of the screw rod 30 is not provided with a central positioning shaft, the end face of the screw rod 30 does not need to extend out of the squeezing and juicing part to be connected with a rotating shaft on the squeezing and juicing cup 10, and the space of the food material containing cavity is avoided being occupied.
The utility model discloses a top eccentric settings of portion of squeezing juice, the rotatory central axis of screw rod 30 is located the export of unloading passageway 21 and holds within the horizontal projection face in chamber, has increased the size that holds the chamber, makes it can hold the size and surpass the radial edible material of filter assembly 40, during the use, need not to be cut into less cubic with fruit, avoids appearing too much the card of fruit simultaneously and holds the phenomenon in chamber, increases the convenience and the efficiency of squeezing juice of use.
As shown in fig. 1-5, the utility model also discloses a juice extractor, including the juice extraction cup 10 and the bowl cover 20 that can dismantle the setting, the inside of juice extraction cup 10 is equipped with the screw rod 30 of arranging perpendicularly, and the screw rod 30 is driven by the drive arrangement who sets up in the bottom of juice extraction cup 10, and the periphery cover of screw rod 30 is equipped with filtering component 40.
Wherein, the middle part of the cup cover 20 is provided with a blanking channel 21. As shown in fig. 2 and 5, the screw 30 is the above-mentioned spiral squeezing and juicing screw 30, that is, the spiral portion on the outer side surface of the screw 30 forms a squeezing and juicing portion, a containing cavity for food materials to enter the filtering assembly 40 is formed between the inner side surface of the upper end of the squeezing and juicing portion and the inner wall of the filtering assembly 40, the containing cavity is communicated with the material discharging channel 21, and the rotation central axis of the screw 30 and the inlet of the material discharging channel 21 are both located within the horizontal projection plane of the containing cavity.
Preferably, as shown in fig. 3, the blanking channel 21 is in a straight cylinder shape, and compared with the traditional design mode, the space occupied can be effectively reduced, and meanwhile, the food material can directly enter the accommodating cavity through the blanking channel 21, so that the use convenience is increased without external force.
The utility model provides a juice extractor need not to use the location axle, has reduced screw rod 30's vertical dimension, and then has reduced the volume of juice extractor, reduces material cost, is convenient for transport and accomodates, increases the convenience of using.
Further preferably, as shown in fig. 2 and 3, an annular flange is provided on the outer side surface of the bottom of the screw 30, an annular groove is provided on the bottom surface of the inner cavity of the juice extracting cup, the annular flange is inserted into the annular groove, and the lower end of the filter assembly 40 is inserted into the annular groove and abuts against the top surface of the annular flange.
And the bottom surface of the cup cover 20 is provided with a limit groove which is matched with the upper end of the filter assembly 40, and after the cup cover 20 is buckled, the limit groove is abutted against the upper end surface of the filter assembly 40.
The utility model discloses, bowl cover 20 supports and leans on the up end at filter component 40, and rethread filter component 40's bottom supports on the annular groove, increases the in-process of squeezing the juice, the stability of juice extractor.
As shown in fig. 4, the filter assembly 40 is composed of a screen holder 42 and a screen 41 provided on the screen holder 42. And the filter screen 41 is one or more, and a plurality of juice leaking holes are densely distributed on the filter screen 41, and the filter screen 41 is detachably arranged on the filter screen bracket 42, or the filter screen 41 and the filter screen bracket 42 are integrally formed.
The filter screen 41 is detachably arranged, the design mode is convenient for cleaning and replacing the filter screen 41, and if the filter screen 41 is required to be cleaned after being used for a period of time, the filter screen 41 can be taken out and cleaned, so that the operation is convenient; or when the filter screen 41 is damaged, the filter screen 41 can be directly replaced, so that the cost is saved.
When the filter screen 41 and the filter screen support 42 are integrally formed, the production is convenient, the processing procedures are fewer, and the production efficiency is increased.
Preferably, the utility model discloses a but on filter assembly 40's the inner wall interval be equipped with a plurality of bar bead 43, bar bead 43 provides the resistance for the rotation of eating material along filter assembly 40 vertical setting, and when screw rod 30 drove to eat the material rotation promptly, bead 43 will eat the material and block, will eat the material crushing through the cooperation between screw rod 30 and the bead 43. Further optimally, the transverse width of the strip-shaped convex ribs 43 is gradually reduced from top to bottom, so that the volume of the food material is gradually reduced, and finally the food material is extruded into a juice shape.
Further optimally, the top of squeezing the juice cup 10 is equipped with the bounding wall, and the interval is equipped with a plurality of L template 11 on the inner wall of bounding wall, forms draw-in groove 12 between the top of L template 11 and the cup 10 of squeezing the juice, and the bottom of bowl cover 20 is equipped with the cardboard 22 with draw-in groove 12 looks adaptation, and the distance between each draw-in groove 12 all can supply cardboard 22 to insert, and the opening of each draw-in groove 12 is reverse the same.
During the installation, lock bowl cover 20 makes cardboard 22 on the bowl cover 20 pass the space between each draw-in groove 12, until contacting the top surface of juice extraction cup 10, later revolves soon bowl cover 20, makes cardboard 22 block in the draw-in groove 12, accomplishes the installation, this kind of design simple structure, simple to operate.
The present invention is not limited to the above-mentioned best mode, and any person should learn the structural change made under the teaching of the present invention, all with the present invention has the same or similar technical solution, all fall into the protection scope of the present invention.