阅读说明：本技术 一种压榨结构及包括该结构的原汁机 (Squeezing structure and juice machine comprising same ) 是由 李波 于 2021-06-11 设计创作，主要内容包括：一种压榨结构及包括该结构的原汁机,包括压榨杯体,压榨杯体内设置有压榨腔,所述压榨杯体至少侧壁部分设成若干个组成件,若干个组成件上下叠放连接形成侧壁部,相邻的两组成件之间形成连通压榨腔的出汁间隙；原汁机采用该压榨结构通过若干个构成侧壁部的组成件上下叠放形成出汁间隙,实现汁渣分离,省去了采用金属结构的过滤网,节约成本且清洗时更加方便以及彻底。(A squeezing structure and a juice machine comprising the same comprise a squeezing cup body, wherein a squeezing cavity is arranged in the squeezing cup body, at least the side wall part of the squeezing cup body is provided with a plurality of components, the components are overlapped and connected up and down to form a side wall part, and a juice outlet gap communicated with the squeezing cavity is formed between every two adjacent components; the juice machine adopts this to squeeze the structure and stacks from top to bottom through the component of a plurality of constitution lateral wall portion and form out the juice clearance, realizes the separation of juice sediment, has saved the filter screen that adopts metallic structure, and is more convenient and thorough when practicing thrift the cost and wasing.)

1. The utility model provides a squeeze structure, includes and squeezes the cup, squeezes and is provided with in the cup and squeezes the chamber, its characterized in that: at least the side wall part of the squeezing cup body is provided with a plurality of components which are overlapped and connected up and down to form a side wall part, and a juice outlet gap communicated with the squeezing cavity is formed between the two adjacent components.

2. A press structure as claimed in claim 1, wherein: the end face of the component forming the juice outlet gap is provided with a plurality of notches, and the notches are matched with the end faces of the adjacent components to form a juice outlet communicated with the squeezing cavity.

3. A press structure as claimed in claim 1, wherein: the bottom wall part or/and the components of the squeezing cup body are/is provided with a connecting structure, and the connecting structure enables the components to be stacked up and down to form detachable connection.

4. A press structure as claimed in claim 3, wherein: the connecting structure is provided with a guide space for the components to slide along the limiting direction of the components, and the two adjacent components realize relative limited up-and-down displacement movement through the guide space so as to increase the width of the juice outlet gap.

5. A press structure as claimed in claim 1, wherein: the uppermost part of the outer wall surface of the component is provided with a liquid guide inclined surface which is connected with the juice outlet gap.

6. A press structure as claimed in claim 4, wherein: the components are in a circular ring shape or an arc block shape.

7. A press structure as claimed in claim 6, wherein: connection structure includes that a plurality of are only along the detain ear of circumference equipartition on end wall portion and component, detain the ear and extend to the periphery of upper strata component, the component corresponds to detain the ear and extends and have detain the piece, detain and set up the adaptation on the ear and detain the piece lock joint and have the bar lock joint hole that the remaining position formed the guide space.

8. A press structure as claimed in claim 7, wherein: the outer wall surface of the component extends to form guide convex ribs for buckling and guiding the buckling lugs at the left side and the right side of the buckling block.

9. A press structure as claimed in claim 1, wherein: the upper portion chamber wall and the lower part chamber wall of squeezing the chamber go up the circumference equipartition and have a plurality of longitudinal extension squeeze protruding muscle and squeeze protruding muscle down, a plurality of protruding muscle portions of equipartition on the internal face of component, after a plurality of components stack the connection from top to bottom, the protruding muscle portion on the component constitutes the partly of squeezing the protruding muscle on, on squeeze the adjacent interval of protruding muscle and be greater than the adjacent interval of pressing the protruding muscle down.

10. A stock machine which is characterized in that: a press structure comprising any of claims 1 to 9.

Technical Field

The invention relates to the field of a juicer, in particular to a squeezing structure and a juicer comprising the same.

Background

Along with the improvement of standard of living, the consumer uses stock machine oneself to make fruit juice more and more, and present stock machine includes filter assembly usually for the fruit juice separation, and current filter assembly includes filter screen device, accomplishes the processing of squeezing the juice of fruit vegetables with the extrusion fit who relies on spiral head and squeeze the cup, and relies on the separation of filter screen device realization sediment juice.

However, the current filter screen devices have the following disadvantages: firstly, the filter screen device is mainly made of metal materials (such as stainless steel and containing a large amount of iron ions), when juice and residues are separated, juice and the filter screen made of the metal materials are contacted and are easy to generate chemical reaction with the iron ions, and the taste of the juice is influenced; secondly, the juice outlet holes of the filter screen device are woven into a net shape by metal wires and then are integrally formed with a net rack made of plastic materials by injection molding, and the production direction has high process requirement, complex production process and high cost; after the juice machine is used up, fibers of the material residues are accumulated in the metal mesh holes, a user needs more time and clear water to clean the filter screen device, so that the cleaning is difficult, resources are wasted, bacteria can be bred in the residual material residues after long-term use, and the food sanitation and safety problems are easy to occur; fourth, some filtering component moulds plastics circumference through single cup and forms a plurality of bars grids, forms out the juice hole or forms narrow and small juice clearance through the outer cup of seting up vertical grid and the cooperation of interior cup through the clearance between the adjacent grid, but this structure leads to filtering component's lateral wall portion bearing capacity to reduce easily, and intensity weakens, when squeezing harder fruit vegetables or filtering component and falling on the ground, extrudes disconnected or the broken problem of grid strip easily.

Therefore, further improvement of the pressing structure of the juice machine is needed.

Disclosure of Invention

The present invention is directed to solve the above-mentioned problems, and provides a simple and reasonable squeezing structure and a juice extractor comprising the same, which is capable of forming a juice gap by stacking a plurality of components constituting a side wall portion up and down, so that the squeezing structure is easier to clean.

The utility model provides a squeeze structure, includes and squeezes the cup, squeezes and is provided with in the cup and squeezes the chamber, squeeze the cup at least lateral wall portion and establish into a plurality of components, a plurality of components stack from top to bottom and connect and form lateral wall portion, form the play juice clearance that the chamber was squeezed in the intercommunication between two sets of components of adjacent.

The invention can also be solved by adopting the following technical measures:

the end face of the component forming the juice outlet gap is provided with a plurality of notches, and the notches are matched with the end faces of the adjacent components to form a juice outlet communicated with the squeezing cavity.

The bottom wall part or/and the components of the squeezing cup body are/is provided with a connecting structure, and the connecting structure enables the components to be stacked up and down to form detachable connection.

The connecting structure is provided with a guide space for the components to slide along the limiting direction of the components, and the two adjacent components realize relative limited up-and-down displacement movement through the guide space so as to increase the width of the juice outlet gap.

The uppermost part of the outer wall surface of the component is provided with a liquid guide inclined surface which is connected with the juice outlet gap.

The components are in a circular ring shape or an arc block shape.

Connection structure includes that a plurality of are only along the detain ear of circumference equipartition on end wall portion and component, detain the ear and extend to the periphery of upper strata component, the component corresponds to detain the ear and extends and have detain the piece, detain and set up the adaptation on the ear and detain the piece lock joint and have the bar lock joint hole that the remaining position formed the guide space.

The outer wall surface of the component extends to form guide convex ribs for buckling and guiding the buckling lugs at the left side and the right side of the buckling block.

The upper portion chamber wall and the lower part chamber wall of squeezing the chamber go up the circumference equipartition and have a plurality of longitudinal extension squeeze protruding muscle and squeeze protruding muscle down, a plurality of protruding muscle portions of equipartition on the internal face of component, after a plurality of components stack the connection from top to bottom, the protruding muscle portion on the component constitutes the partly of squeezing the protruding muscle on, on squeeze the adjacent interval of protruding muscle and be greater than the adjacent interval of pressing the protruding muscle down.

A juice machine, which comprises the squeezing structure.

The invention has the following beneficial effects:

(1) the squeezing structure and the juice machine with the squeezing structure are simple in structure and reasonable in design, the squeezing structure is integrally formed by plastic injection molding, juice cannot be in contact with metal materials, the juice is prevented from being oxidized, and the taste and the color of the juice can be kept.

(2) According to the squeezing structure and the juice machine with the squeezing structure, the bottom wall part and the components of the squeezing cup body are formed by one-time injection molding, the production process is simple, the production cost is low, the bottom wall part and the components are connected in a buckling mode through the buckling lugs, the assembly is convenient and rapid, and the use difficulty of a user is reduced.

(3) According to the squeezing structure and the juice machine with the squeezing structure, after the squeezing structure is used, a user can rapidly and completely disassemble a plurality of components and independently wash the components, so that the washing efficiency can be improved, the whole squeezing structure is not provided with narrow gaps for residue accumulation during washing, the width of a juice outlet gap is increased by using a guide space, and clear water can keep a high-speed water flow to wash the residues in the juice outlet gap, and the juice machine is clean and thorough.

(4) According to the squeezing structure and the juice machine with the same, the side wall part is formed by the annular components, so that the compressive strength of the squeezing structure can be increased, the squeezing structure can be prevented from being broken, cracked, exploded and the like even if the squeezing structure is applied to a high-power juice machine for squeezing harder fruits and vegetables, and the squeezing structure is durable and high in safety factor.

(5) The squeezing structure and the juice extractor comprising the same can improve the juice extraction efficiency of the juice extractor, are not easy to block, are not influenced by slag materials in the whole juice extraction process, enable the squeezing screw to rotate smoothly without blockage, have simple and direct juice extraction paths, reduce the roundabout and curved juice extraction paths in the juice extraction process, and further improve the juice extraction efficiency and the juice extraction rate of the juice extractor.

Drawings

FIG. 1 is a schematic cross-sectional view of a press cup of the present invention.

Fig. 2 is a first schematic view of the connection structure of the present invention.

Fig. 3 is an enlarged schematic view of the structure at C in fig. 2.

FIG. 4 is a schematic diagram of a component structure according to the present invention.

FIG. 5 is a schematic view of the width increase of the juice outlet gap of the present invention.

Fig. 6 is a schematic view of a connection structure of the present invention.

FIG. 7 is a first schematic view of the juice outlet gap structure of the present invention.

Fig. 8 is a schematic view of a juice outlet gap structure according to the present invention.

Fig. 9 is a schematic sectional view of a juicer according to the present invention.

Fig. 10 is a schematic cross-sectional view of a juicer of the present invention.

Detailed Description

The invention is further illustrated with reference to the following figures and examples.

Referring to fig. 1 to 6, a squeezing structure comprises a squeezing cup body A, a squeezing cavity A1 is arranged in the squeezing cup body A, at least a side wall part A2 of the squeezing cup body A is divided into a plurality of component parts 1, the component parts 1 are overlapped and connected up and down to form a side wall part A2, and a juice outlet gap A3 communicated with the squeezing cavity A1 is formed between two adjacent component parts 1; the juice machine adopts this to squeeze the structure and stacks from top to bottom through the component part 1 that a plurality of constitutes lateral wall portion A2 and form juice clearance A3, realizes the separation of juice sediment, has saved the filter screen that adopts metallic structure, practices thrift the cost, and when clean, can take apart a plurality of component parts 1 completely fast, independent washing can improve the cleaning efficiency, and is more convenient and thorough when wasing.

In addition, the pressing cup body A comprises a bottom wall part A4, a slag discharge opening A41 is formed in the bottom wall part A4, the component 1 forming the bottommost part of the side wall part A2 is integrally connected with the bottom wall part A4 through injection molding in the embodiment, the structure can prevent a gap from being formed between the bottom wall part A4 and the component 1, and when the pomace is pressed to the bottommost part of the pressing cavity A1, the pomace is easily extruded from the gap, so that the problem can be solved by extending a part of the bottom wall part A4 to form the side wall part A2.

Further, a plurality of notches 2 are formed in the end face of the component 1 forming the juice outlet gap A3, and the notches 2 are matched with the end faces of the adjacent components 1 to form a juice outlet 3 communicated with the squeezing cavity A1; the juice outlet 3 can ensure the juice outlet efficiency, in the embodiment, the notch 2 is arranged on the top edge end face of the component 1, and the juice outlet 3 is formed by pressing the bottom edge end face of the component 1 on the upper layer, so that the notch 2 can also be arranged on the bottom edge end face of the component 1, and the juice outlet 3 is formed by abutting the top edge end face of the component 1 on the lower layer.

Further, a connecting structure is arranged on the bottom wall part A4 of the pressing cup body A or/and the component 1, and a plurality of components 1 are stacked up and down through the connecting structure to form detachable connection; make a plurality of components 1 constitute interconnect through connection structure, after the use, the user can be fast with a plurality of components 1 and separate the component and take apart completely, independent washing.

Further, a guide space B is arranged on the connecting structure, along which the components 1 slide in a limited manner, and the adjacent two components 1 realize relative limited up-and-down displacement movement through the guide space B so as to increase the width of the juice outlet gap A3; this structure can make the user when squeezing cup A and wasing, need not take apart a plurality of components 1 totally, only need make two sets of adjacent component 1 relative motion increase the width of the play juice clearance A3 between the two, can realize wasing thorough purpose equally.

Further, the uppermost part of the outer wall surface of the component 1 is provided with a liquid guiding inclined plane 11 which is connected with the juice outlet gap A3, and the juice has certain viscosity due to sugar, so that after the juice in the squeezing cavity a1 passes through the juice outlet gap A3, the juice can rapidly flow downwards through the liquid guiding inclined plane 11, the juice collecting efficiency is improved, and partial juice is prevented from being adhered to the outer wall surface of the squeezing structure.

Further, the component 1 is in a circular ring shape or an arc block shape, in this embodiment, the component 1 is preferably in a circular ring shape, the side wall portion a2 forms the component 1 with a plurality of upper ports and lower ports parallel through horizontal division, and the height of each component 1 is the same or close, and since the side wall portion a2 of the press cup body a is substantially inclined, the diameter of the component 1 gradually increases from the bottom to the top, so that the components 1 do not need to be completely disassembled through the connecting structure and the guide space B during cleaning, the width of the juice outlet gap A3 is increased in a connected state, and an operation mode that a user needs to judge the installation sequence of the components 1 when re-assembling can be avoided.

As shown in fig. 7 and 8, when the component 1 is annular, the top edge or/and the bottom edge of the component 1 is/are inclined, so as to form juice outlet gaps a3 which are alternately inclined or parallel to each other; it is also possible that the top edge or/and the bottom edge of the component 1 is/are undulated, thus forming a circumferentially undulated juice outlet gap a 3.

Further, the specific embodiment of the connection structure includes:

referring to fig. 2, the component 1 is annular, the connecting structure includes a plurality of fastening lugs 4 uniformly distributed on the bottom wall portion a4 and the component 1 along the circumferential direction, the fastening lugs 4 extend to the periphery of the component 1 on the upper layer, fastening blocks 12 extend from the component 1 corresponding to the fastening lugs 4, and the fastening lugs 4 are provided with strip-shaped fastening holes 41 which are adapted to the fastening blocks 12 and are fastened and have remaining positions forming a guide space B;

in addition, the lower part of the outer surface of the buckling block 12 is provided with a buckling inclined surface 121, and when the buckling inclined surface 121 connects two adjacent components 1, the buckling lug 4 is gradually pushed open by the buckling inclined surface 121, so that the buckling lug deforms until the buckling block 12 falls into the strip-shaped buckling connection hole 41, and the assembly efficiency can be improved.

In the first embodiment, the fastening lug 4 is connected and matched with the component 1 on the upper layer by extending upwards, and when the fastening lug 4 can also be uniformly distributed on the component 1 only and connected and matched with the component 1 on the lower layer or the bottom wall portion a4 by extending downwards, the component 1 and the bottom wall portion a4 are extended with the fastening block 12 corresponding to the fastening lug 4.

Referring to fig. 6, the component 1 is in an arc block shape, a plurality of side walls 5 extend from the bottom wall portion a4 at intervals, the side walls 5 form a part of the side wall portion a2, a gate 6 is formed between two adjacent side walls 5, the plurality of arc block-shaped components 1 are stacked up and down in the gate 6 to form the rest of the side wall portion a2, a sliding groove 501 is formed in the side edge of each side wall 5, sliding blocks 13 matched with the sliding groove 501 extend from two sides of each component 1, and the components 1 slide into the gate 6 block by block through sliding fit.

Further, the outer wall surface of the component 1 extends with guide ribs 14 for fastening and guiding the fastening lugs 4 at the left and right sides of the fastening block 12, so that the fastening lugs 4 can be quickly matched with the fastening block 12, and the assembly efficiency is improved.

Further, a plurality of longitudinally extending upper pressing convex ribs 7 and lower pressing convex ribs 8 are circumferentially and uniformly distributed on the upper cavity wall and the lower cavity wall of the pressing cavity A1, a plurality of convex rib parts 701 are uniformly distributed on the inner wall surface of the component 1, when a plurality of components 1 are vertically stacked and connected, the convex rib parts 701 on the component 1 form a part of the upper pressing convex ribs 7, and the adjacent distance between the upper pressing convex ribs 7 is larger than that between the lower pressing convex ribs 8; the convex rib 7 that squeezes on this structure can prevent that the fruit vegetables from skidding in squeezing chamber A1 with the convex rib 8 that squeezes down, can improve and squeeze efficiency.

In this embodiment, the number of the components is preferably 4, and the number of the fastening lugs is preferably 3, the fastening lugs are uniformly arranged on the outer side wall of the components, and the fastening lugs and the fastening blocks on the same component are arranged up and down.

A juice machine, comprising the squeezing structure.

Further explaining, the juice extractor is as shown in fig. 9 and 10, and further comprises a motor 8, a squeezing screw 9, a juice collecting cup 10 and a cup cover 15, wherein a juice collecting cavity 101 is arranged in the juice collecting cup 10, the squeezing cup body a is detachably mounted in the juice collecting cavity 101, the squeezing screw 9 is arranged in the squeezing cavity a1, the cup cover 15 is covered at the mouth of the juice collecting cup 10 and is provided with a feeding port 151 communicated with the squeezing cavity a1, the top end of the squeezing screw 9 is rotatably positioned and mounted on the cup cover 15, a motor shaft of the motor 8 is connected with the bottom end or the top end of the squeezing screw 9 and is driven to rotate, a slag discharge channel 102 communicated with a slag discharge port and a juice discharge channel 103 communicated with the juice collecting cavity 101 extend from the side wall of the juice collecting cup 10, and the bottom wall of the juice collecting cup 10 is connected with a slag discharge port plugging piece 16.

The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the invention are shown and described. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.