CN213309277U - Small-sized food processor - Google Patents

Small-sized food processor Download PDF

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Publication number
CN213309277U
CN213309277U CN202020977469.1U CN202020977469U CN213309277U CN 213309277 U CN213309277 U CN 213309277U CN 202020977469 U CN202020977469 U CN 202020977469U CN 213309277 U CN213309277 U CN 213309277U
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China
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heating plate
motor
assembly
shell
fixed
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CN202020977469.1U
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Chinese (zh)
Inventor
王旭宁
徐敬博
张文凡
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Joyoung Co Ltd
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Joyoung Co Ltd
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Abstract

The utility model discloses a small-size food processor, including inner bag subassembly, be located inner bag subassembly below and the fixed integrative casing subassembly of inner bag subassembly, the casing subassembly includes the shell, is located the motor element of shell, the inner bag subassembly includes the glass cup body that runs through from top to bottom, sets up the heating plate in glass cup body bottom, the power output shaft of motor element runs through the heating plate and stretches into in the glass cup body, the end of the power output shaft of motor element is provided with crushing blade, the bottom opening of glass cup body has the annular turn-ups of inside extension, the heating plate is located annular turn-ups top, the bottom surface of heating plate protrusion has connecting portion, connecting portion and casing subassembly are fixed; and a sealing ring is arranged between the annular flanging and the heating plate, and the heating plate and the shell component clamp the annular flanging.

Description

Small-sized food processor
Technical Field
The utility model relates to a food processor, in particular to a small-size food processor.
Background
A food processor, a device for heating and processing materials, comprises a soybean milk machine and a wall breaking machine.
At present, Chinese patent with publication number CN105286633B discloses a soybean milk machine, which comprises a barrel body, a grinder arranged in the barrel body and a grinding electrode adjacent to the grinder, wherein the barrel body comprises an inner container, and a heating component is fixed at the bottom of the inner container. The inner container is positioned in the barrel body, the appearance is invisible, and the user experience is poor.
In addition, transparent glass is used as the inner container material, although the inner container can be seen, the inner container and the heating component cannot be integrally welded, the lower end of the inner container needs to be provided with an opening for installing the heating component, and liquid in the inner container can flow out of the opening.
SUMMERY OF THE UTILITY MODEL
To the deficiency that prior art exists, the utility model aims to provide a small-size food preparation machine, it has the advantage of stabilizing sealed glass cup body and heating plate.
The above technical purpose of the present invention can be achieved by the following technical solutions: a small-sized food processor comprises a liner assembly and a shell assembly, wherein the shell assembly is positioned below the liner assembly and is fixed into a whole, the shell assembly comprises a shell and a motor assembly positioned in the shell, the liner assembly comprises a glass cup body and a heating plate, the glass cup body penetrates through the shell from top to bottom, the heating plate is arranged at the bottom of the glass cup body, a power output shaft of the motor assembly penetrates through the heating plate and extends into the glass cup body, a crushing blade is arranged at the tail end of the power output shaft of the motor assembly, an annular flanging extending inwards is arranged at an opening at the bottom of the glass cup body, the heating plate is positioned above the annular flanging, a connecting part protrudes from the bottom surface of the heating plate, and the connecting part is fixed with the; and a sealing ring is arranged between the annular flanging and the heating plate, and the heating plate and the shell component clamp the annular flanging.
Preferably, the motor assembly is directly fixed on the connecting portion, and the heating plate and the motor assembly clamp the annular flanging.
Preferably, the motor assembly comprises a motor support fixed on the connecting part and a driving motor fixed on the motor support, the driving motor and the heating plate are separated by the motor support, and the annular flanging is clamped by the heating plate and the motor support.
Preferably, the motor component is a driving motor fixed on the connecting part, and the driving motor and the heating plate clamp the annular flanging.
Preferably, the shell assembly further comprises a bottom cover fixed at the bottom of the shell, the bottom cover supports the bottom of the motor assembly, and the shell and the heating plate clamp the annular flanging.
Preferably, the connecting part is a stud, and the shell assembly is fixed with the stud through a fastener in a threaded manner.
Preferably, the thickness of the annular flanging is larger than the thickness of the side wall of the glass body;
or the thickness of the annular flanging is not less than 3 mm.
Preferably, the inner wall of the glass cup body is integrally formed with a turbulence rib, and the turbulence rib extends downwards to the annular flanging.
Preferably, the heating plate is provided with a notch avoiding the turbulence rib from top to bottom.
Preferably, the handle assembly is further included, the upper end of the handle assembly is fixed on the inner container assembly, and the lower end of the handle assembly is fixed on the shell assembly.
To sum up, the utility model discloses the beneficial effect who contrasts in prior art does:
1. the shell assembly comprises a shell and a motor assembly positioned in the shell, and the motor assembly occupies more than half of the mass of the shell assembly; the shell assembly is heavier than a shell assembly only with a shell, and when the inner container assembly is directly lifted, the shell assembly has larger pull-down force to the heating plate under the action of gravity; the clamping force between the heating plate and the annular flanging is larger, the sealing effect is better, and the stable sealing between the heating plate and the glass cup body is ensured;
2. because the sealing ring is positioned between the heating plate and the annular flanging, when the heating plate and the motor assembly clamp the annular flanging tightly, the heating plate presses the sealing ring on the annular edge to realize the sealing of the heating plate and the annular edge, namely the sealing of the heating plate and the glass cup body is realized, the motor assembly is abutted against the annular flanging, the downward early warning force of the heating plate can be provided, and the sealing of the heating plate and the annular flanging is favorably ensured;
3. the motor component has weight, exerts pulling force on the heating plate under the action of gravity, and the pulling force and the early warning force form resultant force so as to further improve the pressing force of the heating plate on the annular flanging, so that the sealing effect of the heating plate and the annular flanging is better, when the food processor is placed on a table top, the shell is supported by the table top, but the motor component is not supported by the table top, and can continuously exert downward pulling force on the heating plate;
4. the heating disc and the driving motor are separated by the motor bracket, so that the temperature of the driving motor is prevented from rising sharply, the working efficiency of the driving motor is ensured to be stable, and the ablation in the driving motor is reduced;
5. the motor bracket can slow down the vibration of the driving motor so as to reduce the vibration transmitted to the inner container assembly, thereby reducing the possibility of the glass body breaking;
6. the turbulence ribs are used for improving the material crushing efficiency and enhancing the structural strength of the glass cup body and the annular flanging; when bearing longitudinal pressure in the annular turn-ups, the vortex muscle can share a part of component to it is cracked to reduce annular turn-ups atress too big and take place, and then guarantees that the heating plate can be stable with the sealed cooperation of annular turn-ups.
Drawings
FIG. 1 is a sectional view of the embodiment;
FIG. 2 is a first partial schematic view of the embodiment;
FIG. 3 is a second partial schematic view of the embodiment.
Reference numerals: 1. a liner assembly; 2. a glass body; 21. annular flanging; 22. a turbulence rib; 3. heating the plate; 31. a connecting portion; 311. a stud; 4. a housing assembly; 41. a motor assembly; 411. a motor bracket; 412. a drive motor; 42. a housing; 43. a bottom cover; 5. a fastener; 6. a seal ring; 7. a notch; 8. a handle assembly.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
Referring to fig. 1, a small food processor comprises a liner assembly 1 and a shell assembly 4 positioned below the liner assembly 1.
The shell component 4 is fixed at the lower end of the liner component 1 and forms an integral piece with the liner component 1, namely the liner component 1 and the shell component 4 are fixed into a whole. In normal use, the shell component 4 and the liner component 1 are not detached.
The inner container component 1 comprises a glass cup body 2 which penetrates through the upper part and the lower part and a heating plate 3 which is fixed at the lower end opening of the glass cup body 2. The lower end opening of the glass body 2 extends inwards to form an annular flanging 21, and the heating plate 3 is positioned above the annular flanging 21. A sealing ring 6 for sealing the gap between the heating plate 3 and the annular flanging 21 is arranged between the heating plate and the annular flanging.
The bottom surface of the heating plate 3 is protruded with a connecting part 31, and the shell component 4 is fixed on the connecting part 31 to realize the fixation with the heating plate 3. The shell component 4 and the heating plate 3 clamp the annular flanging 21, so that the heating plate 3 and the annular flanging 21 are clamped tightly to ensure that the liner component 1 is stably sealed.
Specifically, the housing assembly 4 includes a housing 42 and a motor assembly 41 positioned within the housing 42, the motor assembly 41 occupying more than half the mass of the housing assembly 4. Such a housing assembly 4 is heavier than the housing assembly 4 having only the shell 42, and when the inner bladder assembly 1 is lifted directly, the housing assembly 4 has a greater pull-down force on the heating pan 3 under the action of gravity; the clamping force of the heating plate 3 and the annular flanging 21 is larger, and the sealing effect is better, so that the stable sealing of the heating plate 3 and the glass cup body 2 is ensured.
The motor component 41 is provided with a power output shaft which penetrates through the heating plate 3 and extends into the glass body 2. The tail end of the power output shaft of the motor assembly 41 is provided with a crushing blade, namely the crushing blade is positioned in the glass body 2 and used for crushing materials in the glass body 2.
The motor assembly 41 is directly fixed to the connecting portion 31, and the heating pan 3 clamps the annular flange 21 together with the motor assembly 41. Because the sealing ring 6 is located between the heating plate 3 and the annular flanging 21, when the heating plate 3 and the motor component 41 clamp the annular flanging 21 tightly, the heating plate 3 compresses the sealing ring 6 on the annular edge to realize the sealing of the heating plate 3 and the annular edge, namely realize the sealing of the heating plate 3 and the glass cup body 2. Motor element 41 and annular turn-ups 21 butt can provide the decurrent precaution power of heating plate 3, is favorable to guaranteeing that heating plate 3 is sealed with annular turn-ups 21. In addition, the motor assembly 41 has weight, the motor assembly 41 exerts pulling force on the heating plate 3 under the action of gravity, and the pulling force and the early warning force form resultant force to further improve the pressing force of the heating plate 3 on the annular flanging 21, so that the sealing effect of the heating plate 3 and the annular flanging 21 is better. When the food processor is placed on a table top, the housing 42 is supported by the table top, but the motor assembly 41 is not supported by the table top and can continue to exert a downward pulling force on the heating pan 3.
Referring to fig. 1 and 2, in particular, the motor assembly 41 includes a motor bracket 411 fixed to the connecting portion 31, and a driving motor 412 fixed to the motor bracket 411. The driving motor 412 is located below the motor holder 411 so that the motor holder 411 partitions the driving motor 412 and the heating pan 3. The heating plate 3 and the motor bracket 411 clamp the annular flanging 21, so that the heating plate 3 presses and seals the sealing ring 6 on the annular flanging 21. When the driving motor 412 is operated, the inside of the driving motor 412 is ablated due to an excessive temperature, and the magnetism inside the driving motor 412 is weakened as the temperature increases, which may reduce the operating efficiency of the driving motor 412. The heating plate 3 and the driving motor 412 are separated by the motor bracket 411, which is beneficial to avoiding the temperature of the driving motor 412 from rising sharply, so as to ensure the stable working efficiency of the driving motor 412 and reduce the ablation inside the driving motor 412. In addition, the motor bracket 411 can reduce the vibration of the driving motor 412 so as to reduce the vibration transmitted to the liner assembly 1, and further reduce the possibility of the glass body 2 being cracked.
In another embodiment, the motor assembly 41 of the motor assembly 41 is a driving motor 412, the driving motor 412 is directly fixed on the connecting part 31, and the driving motor 412 and the heating plate 3 clamp the annular flange 21. Compare driving motor 412 and install through the support, driving motor 412 is direct fixed with heating plate 3, is favorable to reducing motor element 41's cost to and reduce motor element 41's the installation degree of difficulty.
In other embodiments, the housing assembly 4 includes a bottom cover 43 secured to the bottom of the outer shell 42, and the outer shell 42 and the hotplate 3 clamp the annular flange 21 such that the hotplate 3 presses the sealing ring 6 against the annular rim. The bottom cover 43 drags the bottom of the motor assembly 41 to realize the support of the motor assembly 41 of the bottom cover 43. When the food processor is placed on the table top, the table top supports the housing 42 and the motor assembly 41 by supporting the bottom cover 43, and the heating plate 3 is only pre-stressed by the housing 42, so that the sealing ring 6 is pressed against the annular edge by the heating plate 3. Compared with the scheme that the motor assembly 41 is fixed on the heating plate 3, the annular edge of the scheme has smaller pressure on the heating plate 3, is not easy to crack and has longer service life.
In this embodiment, the connection portion 31 is a stud 311 welded and fixed to the bottom of the heating plate 3, and the stud 311 extends downward; the housing assembly 4 is threadedly secured to the stud 311 by a fastener 5. The fastener 5 is a screw or a dowel pin. In other embodiments, the connecting portion 31 is a snap that is secured to a detent on the housing component 4.
In this embodiment, the thickness of the annular flange 21 is greater than the thickness of the sidewall of the glass body 2, and the thickness of the annular flange 21 is not less than 3 mm. The annular flange 21 bears the clamping force of the motor assembly 41 and the heating plate 3, and needs to have certain thickness to reduce the possibility of being clamped and broken, so that the thickness of the annular flange 21 needs to be thicker than that of the side wall of the glass body 2 and is not less than 3 mm. In other embodiments, only the thickness of the annular flange 21 is greater than the thickness of the side wall of the glass body 2; alternatively, only the thickness of the annular flange 21 is not less than 3 mm.
In this embodiment, the inner wall of the glass body 2 is integrally formed with the turbulence rib 22, and the turbulence rib 22 extends downwards to the annular flange 21, i.e. is integrated with the annular flange 21. The turbulence ribs 22 are used for improving the efficiency of material crushing, and can also enhance the structural strength of the glass cup body 2 and the annular flanging 21. When longitudinal pressure is borne in the annular flanging 21, the turbulence ribs 22 can share a part of force, so that the annular flanging 21 is prevented from being broken due to overlarge stress, and the heating plate 3 can be stably matched with the annular flanging 21 in a sealing manner.
In other embodiments, the turbulence rib 22 is integrally formed on the inner wall of the glass body 2, the turbulence rib 22 is located above the annular flange 21, and the distance between the lower end of the turbulence rib 22 and the annular flange 21 is more than 5 mm.
Referring to fig. 1 and 3, in the embodiment, when the heating plate 3 is hermetically mounted on the annular flange 21, the heating plate 3 is mounted on the annular flange 21 from above the annular flange 21, and the heating plate 3 is provided with the notch 7 avoiding the spoiler rib 22. The notch 7 on the heating plate 3 can avoid the turbulence rib 22 to avoid the turbulence rib 22 from blocking the heating plate 3 to cause the heating plate 3 to be incapable of being installed downwards.
Referring to fig. 1 and 2, in the present embodiment, the small food processor further includes a handle assembly 8, wherein an upper end of the handle assembly 8 is fixed to the inner container assembly 1, and a lower end of the handle assembly 8 is fixed to the housing assembly 4. The user can lift the food processor by means of the handle assembly 8 to effect support of the housing assembly 4 and bring the bladder assembly 1 up together. Of course, the user can also lift the inner container assembly 1 directly to lift the shell assembly 4. Compared with the food processor lifted by directly lifting the liner assembly 1, the pulling force of the shell assembly 4 on the liner assembly 1 can be reduced by lifting the handle assembly 8, and the possibility of the glass cup body 2 being cracked is further reduced.
In other embodiments, the handle assembly 8 is integrally formed with the glass body 2 without additional fastening structure, resulting in a better appearance consistency.
The above description is only an exemplary embodiment of the present invention, and is not intended to limit the scope of the present invention, which is defined by the appended claims.

Claims (10)

1. The utility model provides a small-size food preparation machine, includes the inner bag subassembly, is located inner bag subassembly below and the fixed integrative casing subassembly of inner bag subassembly, casing subassembly includes the shell, is located the motor element of shell, its characterized in that: the inner container assembly comprises a glass cup body and a heating plate, the glass cup body penetrates through the inner container assembly from top to bottom, the heating plate is arranged at the bottom of the glass cup body, a power output shaft of the motor assembly penetrates through the heating plate and extends into the glass cup body, a crushing blade is arranged at the tail end of the power output shaft of the motor assembly, an annular flange extending inwards is arranged at an opening at the bottom of the glass cup body, the heating plate is located above the annular flange, a connecting part is protruded from the bottom surface of the heating plate, and the connecting part is fixed with the shell assembly; and a sealing ring is arranged between the annular flanging and the heating plate, and the heating plate and the shell component clamp the annular flanging.
2. The small food processor as recited in claim 1, wherein: the motor component is directly fixed on the connecting portion, and the heating plate and the motor component clamp the annular flanging.
3. A small food processor as defined in claim 2, wherein: the motor assembly comprises a motor support fixed on the connecting portion and a driving motor fixed on the motor support, the driving motor and the heating plate are separated by the motor support, and the annular flanging is clamped by the heating plate and the motor support.
4. A small food processor as defined in claim 2, wherein: the motor assembly is a driving motor fixed on the connecting part, and the driving motor and the heating disc clamp the annular flanging.
5. The small food processor as recited in claim 1, wherein: the shell assembly further comprises a bottom cover fixed to the bottom of the shell, the bottom cover supports the bottom of the motor assembly, and the shell and the heating plate clamp the annular flanging.
6. The small food processor as recited in claim 1, wherein: the connecting part is a stud, and the shell assembly is fixed with the stud through a fastener in a threaded manner.
7. The small food processor as recited in claim 1, wherein: the thickness of the annular flanging is larger than that of the side wall of the glass body;
or the thickness of the annular flanging is not less than 3 mm.
8. The small food processor as recited in claim 1, wherein: the glass body inner wall integrated into one piece has the vortex muscle, vortex muscle downwardly extending to annular turn-ups.
9. The small food processor as recited in claim 8, wherein: the heating plate is provided with a notch for avoiding the turbulence rib from top to bottom.
10. The small food processor as recited in claim 1, wherein: still include the handle subassembly, handle subassembly upper end is fixed on the inner bag subassembly, handle subassembly lower extreme is fixed on the casing subassembly.
CN202020977469.1U 2020-06-01 2020-06-01 Small-sized food processor Active CN213309277U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020977469.1U CN213309277U (en) 2020-06-01 2020-06-01 Small-sized food processor

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020977469.1U CN213309277U (en) 2020-06-01 2020-06-01 Small-sized food processor

Publications (1)

Publication Number Publication Date
CN213309277U true CN213309277U (en) 2021-06-01

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ID=76080566

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202020977469.1U Active CN213309277U (en) 2020-06-01 2020-06-01 Small-sized food processor

Country Status (1)

Country Link
CN (1) CN213309277U (en)

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