CN211155362U - Host computer part and cooking machine - Google Patents

Abstract

The application provides a host computer part and cooking machine. The host machine part comprises a base, a shell and a motor assembly, the shell covers the base and is connected with the motor assembly in a buckling mode, and the shell, the motor assembly and the base are connected into a whole in a locking mode through fasteners. The buckle is connected between shell and the motor element, can strengthen the combination compactness between shell, motor element and the base, and the firm in connection degree is high. The shell is connected with the motor assembly buckle, can improve the structural stability of host computer part on the basis that does not increase fastener quantity, convenient assembling. The shell is connected with the motor assembly buckle, and the structural influence on the shell and the base is small.

Description

Host computer part and cooking machine

Technical Field

The application relates to cooking device technical field, relates to a host computer part and cooking machine.

Background

Broken wall cooking machine includes the base, installs in the motor element of base and covers the shell of locating the base, and motor element is located between base and the shell. The fastener passes through shell and motor element and lock and be connected to the base to shell, motor element and base lock and be in an organic whole structure. However, when the food processor processes the food material, vibration is generated, and the vibration is transmitted to the joint portion of the housing, the motor assembly and the base, which easily causes the thread of the fastener to loosen. Accordingly, the tightness of the joint between the base, the motor assembly and the housing is reduced, and accordingly, the noise is increased. In the related art, the food processor improves the locking firmness by increasing the number of fasteners, however, the increase of the number of fasteners not only increases the complexity of the structure, but also increases the cost and the complexity of the assembly.

SUMMERY OF THE UTILITY MODEL

In view of this, this application provides a host computer part and cooking machine.

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

the application provides a first aspect, discloses a host computer part, including base, shell and motor element, the shell cover establish connect in the base and with the motor element buckle is connected, and the fastener will the shell motor element with the base locking connection is integrative.

Optionally, the motor assembly includes a mounting bracket, and the housing abuts against the mounting bracket and is in snap-fit connection with the mounting bracket. The position of the motor component clamped by the shell and the base is set as the mounting bracket, the structural design is flexible, and the buckle connection is convenient.

Optionally, the mounting bracket includes a substrate and a fastening portion spaced apart from the periphery of the substrate, the substrate is connected to the base, and the housing is fastened to the fastening portion. The clamping part is connected with the clamping part in a clamping mode, so that the assembly position of the mounting bracket and the housing is further limited, and the positioning precision is improved.

Optionally, the fastening portion includes two or more fastening ribs disposed on two sides of the substrate. The buckle muscle distributes in the both sides of base plate to the joint power that makes buckle portion and joint portion is balanced, and the atress is unanimous in the assembling process, and the equilibrium is good.

Optionally, the housing includes a cover body portion, a clamping portion protruding from the cover body portion, and at least two positioning columns, the positioning columns define the assembly position of the mounting bracket, and the clamping portion is connected to the edge of the mounting bracket in a snap-fit manner. The positioning column is connected to the mounting bracket in a positioning mode in an inserting or abutting mode so as to limit the assembling position of the mounting bracket. When the positioning column positions the mounting bracket, the clamping part can be connected to the mounting bracket corresponding to the buckle.

Optionally, the clamping portion comprises two vertical plates arranged oppositely and a clamping main body correspondingly arranged on the vertical plates, and the clamping main body is connected with the mounting bracket in a buckling mode. The riser can local elastic bending under receiving the extrusion force condition to make buckle portion and joint portion buckle be connected, convenient assembling.

Optionally, the clamping main body comprises a clamping convex rib formed by locally protruding from the surface of the vertical plate, and the clamping convex rib is hooked to the mounting bracket; and/or the clamping main body comprises a clamping groove formed by sinking the surface of the vertical plate, and at least part of the mounting bracket is inserted in the clamping groove. The convex rib of joint and joint groove can set up in the riser simultaneously, also can only set up one of them to be connected with the installing support buckle, with the assembly compactness of improvement shell and installing support, and reduce the locking quantity of fastener between base and the shell.

Optionally, the positioning column is connected to the mounting bracket and the base in an inserting manner, and the fastener is connected to the base along the positioning column in a locking manner. The positioning column is connected with the mounting support and the base in an inserting mode, so that the shell, the motor assembly and the base are connected into a whole in a locking mode, and the assembling precision is high.

Optionally, the base includes a base portion and an air duct portion protruding from the base portion, the motor assembly is inserted into the air duct portion, the mounting bracket is erected on the air duct portion, the housing cover is connected to the base portion, and the fastener passes through the housing and the mounting bracket and locks to the air duct portion. The local butt of shell is in installing support, and the fastener passes shell and installing support and locks to wind channel portion to it is integrative to make shell, motor element and base locking be connected.

The second aspect that the application provided discloses a cooking machine, including cup part and as above host computer part, cup part assemble in the shell and with the motor element drive is connected.

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

the buckle is connected between shell and the motor element, can strengthen the combination compactness between shell, motor element and the base, and the firm in connection degree is high. The shell is connected with the motor assembly buckle, can improve the structural stability of host computer part on the basis that does not increase fastener quantity, convenient assembling. The shell is connected with the motor assembly buckle, and the structural influence on the shell and the base is small.

Drawings

Fig. 1 is a schematic cross-sectional structural diagram of a host component shown in an exemplary embodiment of the present application.

Fig. 2 is an exploded view of a host component shown in an exemplary embodiment of the present application.

Fig. 3 is a schematic view illustrating an assembly structure of a housing and a motor assembly according to an exemplary embodiment of the present application.

Fig. 4 is an enlarged schematic view of a structure at a in fig. 1.

Fig. 5 is a schematic structural diagram of a motor assembly according to an exemplary embodiment of the present application.

Fig. 6 is a schematic structural diagram of a housing provided with a snap-in rib according to an exemplary embodiment of the present application.

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

In the figure, a housing 10; a clip portion 11; a vertical plate 111; a clamp body 112; a catching groove 1121; a snap-fit rib 1122; a cover body portion 12; a positioning column 13; a base 20; a base portion 21; an air duct portion 22; a motor assembly 30; a mounting bracket 31; a substrate 311; a latch portion 312; a snap rib 3121; a connection hole 313; a motor main body 32; a host part 100; the bowl part 200.

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.

Fig. 1 is a schematic cross-sectional structural diagram of a host component 100 shown in an exemplary embodiment of the present application. Fig. 2 is an exploded view of a host component 100 according to an exemplary embodiment of the present application. As shown in fig. 1 and 2, the main unit 100 includes a base 20, a housing 10 and a motor assembly 30, the housing 10 is covered and connected to the base 20 and is connected to the motor assembly 30 in a snap-fit manner, and a fastener locks and connects the housing 10, the motor assembly 30 and the base 20 into a whole.

The housing 10 and the base 20 are both thin-walled structural members, and the housing 10 is covered on the base 20 to form an installation space. The motor assembly 30 is located in the installation space. The motor assembly 30 is matched and connected with the base 20, and comprises a motor assembly 30 which is detachably connected with the base 20 through a fastener; alternatively, the motor assembly 30 is mounted to the base 20 and cooperates with the base 20.

The housing 10 is connected to the base 20, and a portion of the housing 10 protrudes into the mounting space and abuts against the motor assembly 30 to define a mounting position of the motor assembly 30. And, shell 10 and motor element 30 snap-fit connection to form location and connection structure, both combine closely, and the cooperation precision is high. The fastening piece is inserted into the housing 10 and passes through the motor assembly 30 to be locked to the base 20, so that the housing 10, the motor assembly 30 and the base 20 are locked and connected into a whole, and the combination tightness is high. The housing 10 is connected with the motor assembly 30 in a snap-fit manner, so that the structural stability of the main machine part 100 can be improved on the basis of not increasing the number of fasteners, and the assembly is convenient. The housing 10 is snap-fit connected with the motor assembly 30, and has little influence on the structure of the housing 10 and the base 20.

The motor assembly 30 is coupled to the base 20 and is partially held between the housing 10 and the base 20. In one embodiment, the motor assembly 30 includes a mounting bracket 31 assembled to the base 20, and the housing 10 abuts against the mounting bracket 31 and is snap-fit with the mounting bracket 31. The mounting bracket 31 is provided at one end of the motor assembly 30 and is connected to the base 20. Namely, the mounting bracket 31 is a portion of the motor assembly 30 held between the housing 10 and the base 20. Wherein, the motor assembly 30 is provided with a motor main body 32, and the mounting bracket 31 is assembled at an output end of the motor main body 32. Alternatively, the mounting bracket 31 is configured as a plate-shaped structure or protrudes in a flange shape from the outer circumferential wall of the motor assembly 30.

Optionally, the base 20 includes a base portion 21 and an air duct portion 22 protruding from the base portion 21, and the air duct portion 22 is protruding from the base portion 21 in a tubular structure. The motor assembly 30 is inserted into the air duct portion 22, and the mounting bracket 31 is erected on the air duct portion 22. Specifically, the motor main body 32 is inserted into the air channel portion 22 and forms a ventilation channel with the side wall of the air channel portion 22, and the mounting bracket 31 is erected on the top of the air channel portion 22, so that the motor assembly 30 is integrally assembled with the base 20.

The housing 10 is covered and connected to the base portion 21 and covered outside the motor assembly 30, and the edge of the housing 10 is smoothly connected to the edge of the base portion 21. Part of the housing 10 abuts against the mounting bracket 31, and the fastening member passes through the housing 10 and the mounting bracket 31 and is locked to the air channel portion 22, so that the housing 10, the motor assembly 30 and the base 20 are locked and connected integrally.

As shown in fig. 3, in an alternative embodiment, the housing 10 includes at least two positioning pillars 13, the positioning pillars 13 are inserted into the mounting bracket 31 and the base 20, and the fastening member is locked and connected to the base 20 along the positioning pillars 13, so that the positioning accuracy is high. Specifically, the mounting bracket 31 is provided with a connecting hole 313 matched with the positioning column 13, and the positioning column 13 abuts against the mounting bracket 31. The fastening member passes through the positioning column 13 and the connecting hole 313 and is locked to the air channel portion 22. In an alternative embodiment, the inner diameter of connection hole 313 matches the outer diameter of positioning column 13, so that positioning column 13 can pass through connection hole 313 and abut against air channel portion 22, thereby improving the tightness of combination between positioning column 13 and mounting bracket 31. Alternatively, the positioning column 13 is provided with a stepped shaft structure or a conical shaft structure. Optionally, the number of the positioning pillars 13 is four, and the positioning pillars are distributed at intervals on the housing 10.

The mounting bracket 31 is snap-fit to the housing 10 to further enhance the tightness of the engagement of the two. In an embodiment, the housing 10 includes a cover portion 12, a plurality of positioning posts 13 protruding from the cover portion 12 and spaced apart from each other, and a plurality of engaging portions 11 protruding from the cover portion 12, wherein the engaging portions 11 intersect with the positioning posts 13. The positioning column 13 defines an assembling position of the mounting bracket 31, and the clamping part 11 is connected with the edge of the mounting bracket 31 in a snapping mode.

The cover body portion 12 covers the base 20, and the edge thereof is connected to the edge of the base portion 21. The positioning posts 13 are positioned and connected to the mounting bracket 31 by means of plugging or abutting to define the assembling position of the mounting bracket 31. The clamping portion 11 is protruded on the cover body 12 and parallel to the positioning column 13, so that when the positioning column 13 positions the mounting bracket 31, the clamping portion 11 can be connected to the mounting bracket 31 correspondingly.

Optionally, the mounting bracket 31 includes a substrate 311 and a fastening portion 312 spaced apart from the periphery of the substrate 311, the substrate 311 is connected to the base 20, and the housing 10 is fastened to the fastening portion 312. The base plate 311 is fixedly coupled to the motor main body 32 and extends outward in a radial direction of the motor main body 32 to form a flange structure. The latch 312 is disposed on the periphery of the substrate 311, for example, the latch 312 is disposed at the edge of the substrate 311. When the positioning column 13 is limited to the base plate 311, the buckling part 312 is buckled with the buckling part 11 to further limit the assembling position of the mounting bracket 31 and the shell 10, and the positioning precision is improved. Optionally, the latching portion 312 includes two or more latching ribs 3121 disposed on two sides of the base plate 311. Specifically, the snap ribs 3121 are symmetrically distributed on both sides of the base plate 311, so that the snap force of the snap portion 312 and the snap portion 11 is balanced, the stress is consistent in the assembling process, and the balance is good. For example, the snap ribs 3121 are partially formed at two opposite sides of the base 311 so that the two opposite sides of the base 311 are snap-connected to the snap portion 11. Accordingly, the engaging portion 11 is formed as a groove or a hole structure. It should be noted that one side of the latching rib 3121 may be provided with an inclined surface or a curved surface to facilitate the positioning of the latching portion 312 and the latching portion 11.

As shown in fig. 3 and 4, the clamping portion 11 is connected to the mounting bracket 31 in a snap-fit manner, in an embodiment, the clamping portion 11 includes two opposite vertical plates 111 and a clamping main body 112 correspondingly disposed on the vertical plates 111, and the clamping main body 112 is connected to the mounting bracket 31 in a snap-fit manner.

The vertical plate 111 protrudes from the cover 12 and forms a cantilever structure, and the latch body 112 is disposed on the vertical plate 111. In the process of fastening connection between the fastening part 312 and the fastening part 11, the vertical plate 111 is locally elastically bent under the condition of extrusion force, so that the fastening part 312 is fastened and connected with the fastening part 11, and the assembly is convenient. Optionally, the vertical plate 111 intersects with the positioning column 13 and extends toward the free end of the positioning column 13 to keep the position of the vertical plate 111 stable, and meanwhile, the structural strength and stability of the clamping portion 11 are also kept, so that the mounting bracket 31 is stably connected with the housing 10 in a clamping manner.

As shown in fig. 5 and 6, the latch body 112 is snap-connected to the mounting bracket 31, and in an alternative embodiment, the latch body 112 includes a latch rib 1122 formed by partially protruding from the surface of the vertical plate 111, and the latch rib 1122 is hooked to the mounting bracket 31. The clamping rib 1122 is directly hooked on one side surface of the mounting bracket 31 to form a clamping connection structure, and the positioning column 13 abuts against the other side surface of the mounting bracket 31 to limit the assembly position of the mounting bracket 31, so that the assembly effect is good.

In another alternative embodiment, the latch body 112 includes a latch groove 1121 formed by recessing from the surface of the vertical plate 111, and at least a portion of the mounting bracket 31 is inserted into the latch groove 1121. The edge of the mounting bracket 31 is provided with a protruding snap rib 3121, and the snap rib 3121 is snapped into the snap groove 1121 to define the snap connection position of the mounting bracket 31 and the snap part 11, which is convenient for snap connection.

It should be noted that the clamping ribs 1122 and the clamping grooves 1121 may be disposed on the vertical plate 111 at the same time, or may be disposed on only one of the clamping grooves 1121, and are connected to the mounting bracket 31 by a snap fit, so as to improve the assembling tightness between the housing 10 and the mounting bracket 31 and reduce the locking number of the fasteners between the base 20 and the housing 10.

As shown in fig. 7, the main unit part 100 disclosed in the above embodiment is applied to a food processor to keep the operation of the main unit part 100 stable and the bonding tightness in case of vibration is high. In one embodiment, the food processor comprises a cup part 200 and a main body part 100 as disclosed in the above embodiments, wherein the cup part 200 is assembled on the housing 10 and is in driving connection with the motor assembly 30.

The cup body part 200 includes a mixing cup, a blade holder assembly mounted to the mixing cup, and a mixing blade assembly mounted to the mixing cup, and the mixing blade assembly is drivingly connected to the motor assembly 30. Wherein, be equipped with the accommodation space who holds the edible material in the stirring cup, the stirring knife tackle is rotatory with the edible material in the stirring cup under motor element 30's drive.

In an alternative embodiment, the output shaft of the motor assembly 30 protrudes out of the housing 10, and the lower clutch is mounted on the output shaft of the motor assembly 30. The cup body part 200 is placed in the housing 10, and the upper clutch of the blender knife group is inserted into the lower clutch of the driving assembly, so that the main body part 100 is drivingly connected to the cup body part 200. The driving assembly drives the stirring knife group to rotate, so that the stirring knife group can process food materials in the cup body, and the food materials are convenient to process.

In an optional embodiment, the food processer further comprises a cup cover assembly covering the opening of the stirring cup, so that the accommodating space of the stirring cup is in a closed state, and the sealing effect is good. In an optional embodiment, the cup cover assembly is further provided with a valve body assembly, and the valve body assembly adjusts the air pressure in the stirring cup in a sealing and pressure relief mode.

In an alternative embodiment, the cup body assembly 200 is provided with a heat generating plate for heating the food material within the cup body assembly. The cup body part 200 is assembled on the shell 10 and electrically connected with the control module, the heating plate is electrically connected with the control module, and the control module controls the heating plate to operate and provides electric energy for the heating plate.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (10)

1. The utility model provides a host computer part, characterized in that, includes base (20), shell (10) and motor element (30), shell (10) cover establish connect in base (20) and with motor element (30) buckle is connected, the fastener will shell (10), motor element (30) with base (20) locking connection is integrative.

2. The host part according to claim 1, characterized in that the motor assembly (30) comprises a mounting bracket (31), the housing (10) abutting against the mounting bracket (31) and being snap-connected with the mounting bracket (31).

3. The host component of claim 2, wherein the mounting bracket (31) comprises a base plate (311) and a fastening portion (312) spaced apart from the periphery of the base plate (311), the base plate (311) is connected to the base (20), and the housing (10) is fastened to the fastening portion (312).

4. The host component of claim 3, wherein the snap-fit portion (312) comprises two or more snap-fit ribs (3121) disposed on either side of the base plate (311).

5. The host device according to claim 2, wherein the housing (10) comprises a cover body portion (12), a snap-fit portion (11) protruding from the cover body portion (12), and at least two positioning posts (13), wherein the positioning posts (13) define an assembly position of the mounting bracket (31), and wherein the snap-fit portion (11) is snap-fit connected to an edge of the mounting bracket (31).

6. The host component according to claim 5, wherein the clamping portion (11) comprises two opposite vertical plates (111) and a clamping main body (112) correspondingly arranged on the vertical plates (111), and the clamping main body (112) is connected with the mounting bracket (31) in a clamping manner.

7. The host component according to claim 6, wherein the clamping body (112) comprises a clamping rib (1122) partially protruding from the surface of the vertical plate (111), and the clamping rib (1122) is hooked on the mounting bracket (31); and/or the clamping main body (112) comprises a clamping groove (1121) formed by sinking from the surface of the vertical plate (111), and at least part of the mounting bracket (31) is inserted into the clamping groove (1121).

8. The main unit component according to claim 5, wherein the positioning post (13) is connected to the mounting bracket (31) and the base (20) by plugging, and the fastening member is connected to the base (20) along the positioning post (13) in a locking manner.

9. The host unit according to claim 2, wherein the base (20) includes a base portion (21) and an air channel portion (22) protruding from the base portion (21), the motor assembly (30) is inserted into the air channel portion (22), the mounting bracket (31) is erected on the air channel portion (22), the housing (10) is covered and connected to the base portion (21), and a fastening member is passed through the housing (10) and the mounting bracket (31) and locked to the air channel portion (22).

10. A food processor, comprising a cup part (200) and a main unit part (100) according to any one of claims 1 to 9, wherein the cup part (200) is assembled to the housing (10) and is in driving connection with the motor assembly (30).

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