CN210043866U - Food processor - Google Patents

Abstract

The application provides a cooking machine, cooking machine include the host computer part with assemble in the cup body part of host computer part. The cup body component comprises a cup body component, a cup cover component and a capacity regulating component, wherein the cup body component is provided with a containing space and a stirring knife group positioned in the containing space. The capacity regulating assembly is inserted into the cup body assembly and covers the stirring cutter set, and the cup cover assembly is covered on the cup body assembly and limits the capacity regulating assembly in the cup body assembly. The capacity regulating assembly is inserted into the cup body assembly and reduces the volume of the accommodating space of the cup body assembly, the stirring knife group can complete the dry grinding function of the food materials in the smaller accommodating space, and the dry grinding effect is good. Transfer appearance subassembly and cup body subassembly swing joint, will transfer the appearance subassembly and take out the back, cup body subassembly processing large capacity cooking function, convenient to use. The bowl cover subassembly is injectd and is transferred the relative position of holding subassembly and cup body subassembly, and the operating stability and the good repeatability of cooking machine.

Description

Food processor

Technical Field

The application relates to a cooking device technical field relates to a cooking machine.

Background

The cooking machine includes the host computer part and assembles in the cup part of host computer part, and host computer part drive cup part is in order to carry out corresponding cooking function, like being used for carrying out dry grinding, beating the dry grinding cooking machine of functions such as powder, perhaps carries out the broken wall cooking machine that fruit vegetables edible material processed. Wherein, cup body part includes cup body subassembly, lid and locates the bowl cover subassembly of cup body subassembly and assemble in the crushing knife tackle of cup body subassembly, smashes the edible material of cup body subassembly in crushing knife tackle under the drive of host computer part to realize functions such as dry grinding, the powder of beating, the juice of cooking machine.

In the correlation technique, use the dry milling function on broken wall cooking machine, smash the food material of knife tackle processing cup body subassembly under the drive of host computer part. Because the accommodation space of cup body subassembly is big, the activity space that leads to smashing knife tackle processing to eat the material in-process and eat material is big, smashes the crushing effect of knife tackle to eating the material poor.

Therefore, in order to obtain a good dry grinding effect, the wall breaking food processor usually needs to be provided with a dry grinding cup on the basis of a cold cup and/or a hot cup. However, the addition of a dry grinding cup not only increases the material and processing cost, but also increases the packaging volume for accommodating the food processor and the dry grinding cup, increases the production cost and occupies a large space.

SUMMERY OF THE UTILITY MODEL

In view of this, the present application provides a food processor.

Specifically, the method is realized through the following technical scheme:

the application provides a first aspect, discloses a cooking machine, including host computer part with assemble in the cup part of host computer part, cup part includes cup body subassembly, bowl cover subassembly and transfers and hold the subassembly, cup body subassembly is equipped with accommodation space and is located stirring knife tackle in the accommodation space, it inserts to transfer and hold the subassembly cup body subassembly and cover are located stirring knife tackle, bowl cover subassembly lid is located cup body subassembly will it is injectd in to transfer and hold the subassembly in the cup body subassembly.

Optionally, the cap assembly abuts against the volume adjusting assembly. The cup cover assembly covers the opening of the cup body assembly and abuts against the volume adjusting assembly to limit the contact position of the volume adjusting assembly and the cup body assembly and keep the contact position stable in the operation process.

Optionally, the capacity regulating assembly is detachably assembled to the cup cover assembly. The capacity regulating assembly is inserted into the cup body assembly and reaches the assembly position of the capacity regulating assembly in the cup body assembly when the cup cover assembly is covered at the preset position of the cup body assembly, and the insertion depth of the capacity regulating assembly and the matching position of the capacity regulating assembly and the cup body assembly are good in adjustability.

Optionally, the volume adjusting assembly comprises a sealing cover covering the stirring knife set, and the cup cover assembly is connected to the sealing cover. The cup cover assembly is directly or indirectly connected to the sealing cover in a butt connection mode, a detachable connection mode and the like, and the sealing cover is located in the cup body assembly and covers the stirring knife set to limit the processing space of the stirring knife set.

Optionally, the sealing cover comprises a cover body part covered on the stirring knife group and a positioning rib protruding on the cover body part, and the cup cover component abuts against the positioning rib. The protruding lid body portion of locating muscle to increase the total length of sealed lid, enlarged the home range of sealed lid, in order to adjust the cooperation position relation between sealed lid and the cup body subassembly in the convenience.

Optionally, the location muscle is equipped with at least one location breach, the cup body subassembly is equipped with at least one vortex muscle, the location breach card is held in the vortex muscle correspondingly. The positioning gap limits the rotation of the sealing cover, and the positioning precision is high.

Optionally, the sealing cover further comprises a turbulence convex rib protruding from the cover body part, and the turbulence convex rib protrudes towards the stirring knife group. The convex rib of vortex is towards stirring knife tackle direction protrusion to change and strike the motion trail of eating the material in lid somatic part, improve the impact probability who eats material and stirring knife tackle, machining efficiency is high.

Optionally, the volume-adjusting assembly further comprises a locking member, and the locking member is connected to the cup lid assembly and detachably connected to the sealing cover. The sealing cover is assembled on the locking piece and is inserted into the preset position of the cup body assembly along with the locking piece, and the adjustability of the inserting position is good.

Optionally, the capacity regulating assembly is connected with the joint of the cup body assembly in a sealing mode.

Optionally, the capacity regulating assembly is provided with an elastic sealing element, and the elastic sealing element is elastically attached to the inner side wall of the cup body assembly under the pressure action of the cup cover assembly. Elastic sealing element elastic deformation and sealed laminating in the inside wall of cup body subassembly, it is sealed effectual.

The technical scheme provided by the embodiment of the application can have the following beneficial effects:

the capacity regulating assembly is inserted into the cup body assembly and reduces the volume of the accommodating space of the cup body assembly, the stirring knife group can complete the dry grinding function of the food materials in the smaller accommodating space, and the dry grinding effect is good. Transfer appearance subassembly and cup body subassembly swing joint, will transfer the appearance subassembly and take out the back, cup body subassembly processing large capacity cooking function, convenient to use. The bowl cover subassembly is injectd and is transferred the relative position of holding subassembly and cup body subassembly, and the operating stability and the good repeatability of cooking machine.

Drawings

Fig. 1 is a schematic cross-sectional view of a food processor in which a cup cover assembly abuts against a volume adjusting assembly according to an exemplary embodiment of the present application.

Fig. 2 is a schematic cross-sectional structural view of a food processor in which the volume adjusting assembly is detachably connected to the cup cover assembly according to an exemplary embodiment of the present application.

Fig. 3 is a schematic diagram of an exploded configuration of a cup component according to an exemplary embodiment of the present application.

Fig. 4 is an enlarged schematic view of a structure at a in fig. 2.

Fig. 5 is a schematic structural view illustrating a screw-fastening connection of a locking member and a capacity regulating assembly according to an exemplary embodiment of the present application.

Fig. 6 is an enlarged schematic view of B in fig. 5.

Fig. 7 is a schematic structural diagram of a wall-breaking food processor according to an exemplary embodiment of the present application.

In the figures, a capacity regulating assembly 10; a seal cover 11; a lid portion 111; a positioning rib 112; a positioning notch 113; an annular groove 114; turbulence ribs 115; a locking member 12; a lever body portion 121; a stopper portion 122; a connecting portion 123; an elastic seal member 13; the ring tube portion 131; a sealing bead 132; a cup body assembly 20; a stirring blade group 21; a cup lid assembly 30; a host part 40; a drive assembly 41; a base 42.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present application. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

As shown in fig. 1 and fig. 2, in an embodiment, the food processor includes a main machine component 40 and a cup body component assembled to the main machine component 40, the cup body component includes a cup body component 20, a cup cover component 30 and an accommodating component 10, the cup body component 20 is provided with an accommodating space and a blending knife group 21 located in the accommodating space. The capacity-adjusting assembly 10 is inserted into the cup body assembly 20 and covers the stirring knife set 21, and the cup cover assembly 30 covers the cup body assembly 20 and limits the capacity-adjusting assembly 10 in the cup body assembly 20.

The cup body assembly 20 is configured as a cold or hot cup that constitutes a container-like structure. The stirring knife assembly 21 is located at the bottom of the cup body assembly 20, and the cup cover assembly 30 is arranged at the opening of the cup body assembly 20 in a covering manner. The volume adjusting assembly 10 is assembled to the cup body assembly 20 and located in the accommodating space, and the volume adjusting assembly 10 moves towards the direction of the stirring knife set 21 and covers the stirring knife set 21. Accordingly, the processing space of the stirring blade set 21 is limited in the surrounding area between the cup body assembly 20 and the volume adjusting assembly 10, the volume of the processing space is small, and the processing efficiency of the cup body component for performing the functions of dry grinding, powder grinding and the like is high.

The volume-adjusting assembly 10 is provided as a separate component and can be connected with the cup body assembly 20 and the cap assembly 30 separately or in combination, so as to change the volume of the cup body assembly 20. Wherein, will transfer and hold subassembly 10 and take out the back in following cup body subassembly 20, cup body subassembly 20 resumes the cooking function of the executable processing large capacity food material of original volume, convenient to use. The cup cover assembly 30 limits the relative position of the volume adjusting assembly 10 and the cup body assembly 20, and the running stability and repeatability of the food processor are good.

In one embodiment, the capacity-adjusting assembly 10 is inserted into the cup body assembly 20, and the capacity-adjusting assembly 10 is connected with the inner side wall portion of the cup body assembly 20 in a contact manner. The cup cover assembly 30 covers the opening of the cup body assembly 20 and abuts against the volume adjusting assembly 10 to limit the contact position between the volume adjusting assembly 10 and the cup body assembly 20 and keep the contact position stable in the operation process. Optionally, the volume-regulating assembly 10 is sealingly or matingly connected to the contact portion of the cup body assembly 20.

The capacity-adjusting component 10 is an independent component movably connected to the cup body component 20, and is convenient to disassemble, assemble and move. The capacity-adjusting component 10 and the cup body component 20 are mutually limited and tightly connected through the structure of the capacity-adjusting component, and the stability of the assembling position is good. The cup cover assembly 30 abuts against the volume adjusting assembly 10 to prevent the volume adjusting assembly 10 from loosening under the impact force action of food materials, and the operation stability is good.

In one embodiment, as shown in fig. 2 and 3, the capacity-adjusting assembly 10 is detachably mounted to the lid assembly 30, and the capacity-adjusting assembly 10 and the lid assembly 30 form an integral structure. In the process that the cup lid assembly 30 covers the cup body assembly 20, the adjustable assembly 10 is inserted into the cup body assembly 20, and when the cup lid assembly 30 covers the preset position of the cup body assembly 20, the adjustable assembly 10 reaches the assembly position of the adjustable assembly 10 in the cup body assembly 20, and the adjustability of the insertion depth of the adjustable assembly 10 and the matching position of the adjustable assembly 10 and the cup body assembly 20 is good.

In an alternative embodiment, the volume-adjusting assembly 10 includes a sealing cover 11 covering the blending knife assembly 21, and the cap assembly 30 is connected to the sealing cover 11. Cup cover assembly 30 is through butt connection, can dismantle modes such as connection and directly or indirectly connect in sealed lid 11, and sealed lid 11 is located cup body subassembly 20 and covers and locate stirring knife tackle 21 to inject the processing space of stirring knife tackle 21. Optionally, the sealing lid 11 is provided with a plate-like planar or curved structure to close the cup body assembly 20. Alternatively, the sealing cover 11 is provided as a thin-walled structural member.

Optionally, cap assembly 30 abuts seal cover 11, such as a portion of cap assembly 30 inserted into cup body assembly 20 and abutting an edge of seal cover 11. Alternatively, seal lid 11 is directly locked to lid assembly 30 by fasteners. Optionally, seal lid 11 is locked to lid assembly 30 by a connector. In an alternative embodiment, the volume-adjusting assembly 10 further includes a locking member 12, and the locking member 12 is connected to the lid assembly 30 and detachably connected to the sealing cover 11. Alternatively, lock 12 is fixedly attached to lid assembly 30, such as by fastener, screw structure, etc. lock 12 is fixedly attached to lid assembly 30. Optionally, the locking member 12 is movably connected to the lid assembly 30, for example, the lid assembly 30 is provided with a vent hole, and the locking member 12 is inserted into the vent hole and connected with the lid assembly 30 in an inserting manner; the locking member 12 is inserted into the vent hole and is screwed with the cap assembly 30, etc.

The locking member 12 is connected to the cap assembly 30, and the sealing cap 11 is assembled to the locking member 12. Optionally, the sealing cover 11 is fixedly connected with the locking member 12. For example, the sealing cover 11 is connected to the locking member 12 by a fastening member or screwed into the locking member 12, or the sealing cover 11 and the locking member 12 are assembled into a whole by a screw-fastening structure in which one of them is provided with a rib and the other is provided with a groove matching with the rib. The sealing cover 11 is fixed on the locking piece 12 and inserted into the preset position of the cup body assembly 20 along with the locking piece 12, and the plugging position has good adjustability.

As shown in fig. 2 and 4, the capacity-regulating assembly 10 is optionally connected with the joint of the cup body assembly 20 in a sealing manner. In an alternative embodiment, the volume-adjusting assembly 10 is provided with an elastic sealing member 13, and the elastic sealing member 13 is elastically attached to the inner side wall of the cup body assembly 20 under the pressure of the cap assembly 30. The elastic seal member 13 is made of an elastic material such as rubber. An elastic sealing member 13 is mounted at the edge of the capacity regulating assembly 10, and optionally, the sealing member is mounted in a ring shape at the edge of the sealing cover 11. The capacity-adjusting assembly 10 is assembled in the cup body assembly 20, and the elastic sealing piece 13 is attached to the inner side wall of the cup body assembly 20. When the capacity adjusting assembly 10 moves to a preset position under the pressure action of the cup cover assembly 30, the elastic sealing element 13 elastically deforms and is in sealing fit with the inner side wall of the cup body assembly 20, and the sealing effect is good.

Optionally, the seal cap 11 is provided with an annular groove 114, and the resilient sealing member 13 is secured within the annular groove 114. Optionally, the elastic sealing member 13 includes a ring pipe portion 131 and a sealing rib 132 protruding from the ring pipe portion 131, the ring pipe portion 131 is sleeved on the sealing cover 11, and the sealing rib 132 elastically abuts against an inner sidewall of the cup body assembly 20.

The sealing cover 11 covers the stirring knife assembly 21 and is connected to the inner side wall of the cup body assembly 20 in a sealing manner through the elastic sealing element 13, so that the processing space of the stirring knife assembly 21 is limited in the surrounding area of the cup body assembly 20 and the sealing cover 11, and the sealing performance is good.

As shown in fig. 1, 2 and 5, in an alternative embodiment, the sealing cover 11 includes a cover body 111 covering the blending knife group 21 and a positioning rib 112 protruding from the cover body 111, and the lid cover assembly 30 abuts against the positioning rib 112.

The positioning rib 112 is protruded on the cover body 111 to increase the total length of the sealing cover 11, and the moving range of the sealing cover 11 is enlarged, so as to adjust the matching position relationship between the sealing cover 11 and the cup body assembly 20. Alternatively, the positioning rib 112 is provided as a plurality of column-shaped ribs distributed at intervals. Alternatively, the positioning ribs 112 are provided as an annular tubular structure.

Optionally, the cap assembly 30 abuts the volume adjusting assembly 10, wherein the sealing cover 11 is assembled in the cup body assembly 20, and the elastic sealing member 13 is defined at the inner side wall of the cup body assembly 20. The cup cover assembly 30 covers the opening of the cup body assembly 20 and abuts against the end of the positioning rib 112 and pushes the volume adjusting assembly 10 to move, so that the elastic sealing element 13 is elastically deformed.

As shown in fig. 4 and 6, the volume-adjusting assembly 10 is optionally detachably connected with the cap assembly 30. Specifically, locking piece 12 is inserted into lid assembly 30 and detachably connected to lid portion 111, positioning rib 112 abuts against the inner side wall of lid assembly 30, and the assembly position and stress of sealing cover 11 are balanced. In an alternative embodiment, locking member 12 includes a rod portion 121, a stopper portion 122 protruding from rod portion 121, and a connecting portion 123 disposed on rod portion 121, rod portion 121 is inserted into lid assembly 30, connecting portion 123 is detachably connected to seal cover 11, stopper portion 122 abuts against an outer side surface of lid assembly 30, and positioning rib 112 abuts against an inner side surface of lid assembly 30.

The cup body subassembly 20 is established to the hot cup or the cold cup of cooking machine, and the surperficial protruding at least one vortex muscle that is equipped with of inside wall. For example, four symmetrically distributed turbulence ribs are disposed on the inner side wall of the cup body assembly 20. Adjust and hold subassembly 10 and assemble to cup body subassembly 20 and correspond the setting with the vortex muscle of cup body subassembly 20 to the messenger holds subassembly 10 and assembles can not relative rotation after cup body subassembly 20. In an alternative embodiment, the positioning rib 112 is provided with at least one positioning notch 113, and the positioning notch 113 is clamped to the corresponding spoiler rib. Optionally, the positioning rib 112 is provided with an annular tubular structure, and a positioning notch 113 is formed in a pipe wall of the positioning rib 112 or an annular boss of the positioning rib 112 to limit rotation of the sealing cover 11, so that positioning accuracy is high. The positioning notch 113 is matched and connected with the turbulence rib, and the guidance quality is good.

The sealing cover 11 covers the upper side of the stirring blade set 21, and the food material is driven by the stirring blade set 21 to impact the surface of the cover portion 111. In an optional embodiment, the sealing cover 11 further includes a burbling rib 115 protruding from the cover body 111, and the burbling rib 115 protrudes toward the stirring blade set 21. The convex rib 115 of vortex is protruding towards stirring knife tackle 21 direction to change and strike in the movement track of the edible material of lid portion 111, improve the impact probability of edible material and stirring knife tackle 21, machining efficiency is high. Optionally, two or more turbulence ribs 115 are provided, and two adjacent turbulence ribs 115 are parallel to each other. Alternatively, the spoiler ribs 115 are provided in a dot shape or a long bar shape.

As shown in fig. 1 and 7, the cup part is placed on the main body part 40 so that the main body part 40 is drivingly connected to the blending blade group 21. In an embodiment, the host component 40 includes a base 42, a driving component 41 installed on the base 42, and a control module disposed in the base 42, wherein the driving component 41 is electrically connected to the control module, and the control module controls the driving component 41 to operate according to a built-in program, so that the food processor performs corresponding functions of the material machine, such as dry grinding, powder grinding, and the like. The stirring blade set 21 is assembled in the cup body assembly 20 and extends into the accommodating space for accommodating the food materials, the stirring blade set 21 is driven by the driving assembly 41 to rotate so as to crush the food materials in the cup body assembly 20, and the driving assembly 41 can be set as a motor assembly. Alternatively, the driving assembly 41 is directly mounted at the other end of the blending blade set 21 to drive the blending blade set 21 to rotatably process the food material in the cup body assembly 20. Optionally, the driving assembly 41 is connected to the blending cutter set 21 through a clutch assembly in a plugging manner, so as to drive the blending cutter set 21 to rotate and process the food material in the cup body assembly 20.

The above embodiments are merely preferred embodiments of the present application, which are not intended to limit the present application, and the above embodiments may be combined with each other without conflict. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a food processer, its characterized in that, including host computer part (40) and assemble in the cup body part of host computer part (40), cup body part includes cup body subassembly (20), bowl cover subassembly (30) and transfers and hold subassembly (10), cup body subassembly (20) are equipped with accommodation space and are located stirring knife tackle (21) in the accommodation space, it inserts to transfer and hold subassembly (10) cup body subassembly (20) and cover are located stirring knife tackle (21), bowl cover subassembly (30) lid is located cup body subassembly (20) and will it is injectd in to transfer and hold subassembly (10) in cup body subassembly (20).

2. The food processor of claim 1, wherein the lid assembly (30) abuts the volume-adjusting assembly (10).

3. The food processor of claim 1, wherein the volume adjusting assembly (10) is detachably mounted to the lid assembly (30).

4. The food processor of claim 2 or 3, wherein the volume adjusting assembly (10) comprises a sealing cover (11) covering the stirring knife set (21), and the cup cover assembly (30) is connected to the sealing cover (11).

5. The food processor of claim 4, wherein the sealing cover (11) comprises a cover body (111) covering the stirring knife assembly (21) and a positioning rib (112) protruding from the cover body (111), and the cup cover assembly (30) abuts against the positioning rib (112).

6. The food processor of claim 5, wherein the positioning rib (112) is provided with at least one positioning notch (113), the cup body assembly (20) is provided with at least one turbulence rib, and the positioning notch (113) is clamped to the corresponding turbulence rib.

7. The food processor as claimed in claim 5, wherein the sealing cover (11) further comprises a turbulence rib (115) protruding from the cover body (111), and the turbulence rib (115) protrudes toward the stirring knife set (21).

8. The food processor of claim 4, wherein the volume adjusting assembly (10) further comprises a locking member (12), and the locking member (12) is connected to the lid assembly (30) and detachably connected to the sealing cover (11).

9. The food processor as claimed in claim 1, 2 or 3, wherein the volume adjusting assembly (10) is connected with the joint part of the cup body assembly (20) in a sealing way.

10. The food processor of claim 9, wherein the volume adjusting assembly (10) is provided with an elastic sealing member (13), and the elastic sealing member (13) is elastically attached to the inner side wall of the cup body assembly (20) under the pressure of the cup cover assembly (30).

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