CN109222690B

CN109222690B - Broken wall machine

Info

Publication number: CN109222690B
Application number: CN201811311688.XA
Authority: CN
Inventors: 唐梓健; 纪晓旭; 王美晓; 刘冬丽; 丁龙龙; 谭新宪; 蒋沅峰; 张志平; 王琳
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2018-11-06
Filing date: 2018-11-06
Publication date: 2024-03-15
Anticipated expiration: 2038-11-06
Also published as: CN109222690A

Abstract

The invention relates to the technical field of cooking machines, and discloses a wall breaking machine, which comprises: the stirring cup comprises a cup body, a tool apron and a wall breaking tool, wherein the cup body comprises a side wall and a bottom wall, the side wall and the bottom wall are matched to form a stirring cavity which is positioned at one side of the bottom wall and is used for placing food materials, and a cup bottom groove which is positioned at the other side of the bottom wall and is open and away from the stirring cavity; the cutter seat is positioned in the stirring cavity and is arranged on the bottom wall, and the wall breaking cutter is arranged on the cutter seat; the base is provided with a driving device for driving the wall breaking knife and a heat dissipation assembly; and one end of the heat conduction pipe assembly extends into the seat body of the tool apron, and the other end of the heat conduction pipe assembly is connected with the heat dissipation assembly so as to be used for transferring heat of the tool apron to the heat dissipation assembly. This broken wall machine is through heat pipe subassembly with the heat transfer to the radiator unit on blade holder and the broken wall sword fast, and radiator unit discharges the heat of deriving in the outside air, improves broken wall machine heating element's heat-sinking capability, guarantees the temperature before the food temperature keeps handling in the broken wall machine.

Description

Broken wall machine

Technical Field

The invention relates to the technical field of cooking machines, in particular to a wall breaking machine.

Background

The wall breaking machine is a cooking machine for breaking food materials by utilizing ultra-high rotating speed (22000 rpm). It has wide application, and can treat vegetables, fruits, nuts, grains, bones, ice cubes, etc. The high rotational speed of the wall breaking machine during operation causes a large amount of heat to be inevitably generated by the internal parts. The heat is enough to heat the food materials in the wall breaking machine cup, so that not only is the taste of the food materials affected, but also the oxidation speed of certain nutrient components in the food materials is increased, and the nutrient loss is caused. Therefore, it is important to sufficiently crush the food material while maintaining the original temperature of the food material as much as possible.

Disclosure of Invention

The invention provides a wall breaking machine, which can improve the heat radiation capability of heating parts of the wall breaking machine and ensure that the temperature of food materials in the wall breaking machine is kept at a temperature before treatment.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a wall breaking machine, comprising:

the stirring cup comprises a cup body, a tool apron and a wall breaking tool, wherein the cup body comprises a side wall and a bottom wall, and the side wall and the bottom wall are matched to form a stirring cavity which is positioned at one side of the bottom wall and used for placing food materials, and a cup bottom groove which is positioned at the other side of the bottom wall and is open and away from the stirring cavity; the cutter seat is positioned in the stirring cavity and is arranged on the bottom wall, and the wall breaking cutter is arranged on the cutter seat;

the base is provided with a driving device for driving the wall breaking knife and a heat dissipation assembly;

and one end of the heat conduction pipe assembly extends into the seat body of the tool apron, and the other end of the heat conduction pipe assembly is connected with the heat dissipation assembly so as to be used for transferring heat of the tool apron to the heat dissipation assembly.

The wall breaking machine comprises a stirring cup, a base and a heat conducting pipe assembly; the stirring cup comprises a cup body, a cutter holder and a wall breaking cutter, wherein a stirring cavity and a cup bottom groove are formed in the cup body; the base is provided with a driving device for driving the wall breaking knife and a heat dissipation assembly; one end of the heat conduction component stretches into the seat body of the tool apron, and the other end of the heat conduction component is connected with the heat dissipation component. At broken wall machine during operation, interior part friction generates heat, and most heat can be transmitted to blade holder and broken wall sword on, above-mentioned broken wall machine can be through heat pipe assembly quick with the heat transfer to radiator unit on blade holder and the broken wall sword, in the outside air is discharged to the heat that will derive by radiator unit for the heat that broken wall machine during operation produced does not accumulate in broken wall machine, and then improves the heat dispersion of broken wall machine heating element, guarantees the temperature before the food temperature maintenance in the broken wall machine is handled.

In one possible embodiment, the heat conducting pipe assembly includes at least one heat conducting pipe, one end of each heat conducting pipe extends into the seat body of the tool apron, and the other end of each heat conducting pipe is matched with the heat dissipating assembly to transfer heat to the heat dissipating assembly.

In one possible embodiment, the heat dissipation assembly includes a metal ring, one side of which is in contact with the heat conduction tube assembly, and a spacer is provided in the metal ring.

In one possible implementation mode, the heat dissipation assembly further comprises a centrifugal fan blade and a plurality of metal fins, wherein the centrifugal fan blade is located on one side, away from the stirring cup, of the spacer, one end of each metal fin is adjacent to the centrifugal fan blade, and the other end of each metal fin is connected with one side, away from the heat conduction assembly, of each metal ring.

In one possible implementation manner, the base further comprises a base shell for placing the heat dissipation component, wherein the base shell is formed with a limiting frame surrounding the heat dissipation component, the limiting frame is in limiting fit with the bottom of the stirring cup, and an air outlet is formed in the limiting frame.

In one possible implementation mode, a circle of air guide plates are enclosed between the metal fins and the limiting frame, and gaps corresponding to the air outlets are formed in the air guide plates.

In one possible implementation mode, the wall breaking knife comprises a knife blade and a knife shaft, wherein the knife shaft is installed in the knife seat in a penetrating mode, two ends of the knife shaft extend into the stirring cavity and the groove at the bottom of the cup, the knife blade is installed at the end portion, located in the stirring cavity, of the knife shaft, and one end of the heat conducting pipe is adjacent to the knife shaft and extends into the seat body of the knife seat.

In one possible embodiment, the base housing further comprises a receiving cavity on a side of the heat dissipation assembly facing away from the stirring cup, and the driving device is located in the receiving cavity.

In one possible implementation mode, the driving device comprises a motor and a transmission shaft with two ends connected with the motor and the cutter shaft respectively, the centrifugal fan blade is arranged on the transmission shaft, and a round hole with a radius larger than that of the transmission shaft and used for enabling the transmission shaft to pass through is formed in the center of the spacer.

In one possible embodiment, the region of the base housing opposite the motor is formed with an air inlet.

Drawings

Fig. 1 is a schematic structural diagram of a wall breaking machine according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a bottom of a stirring cup according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a base according to an embodiment of the present invention.

Icon:

1-a stirring cup; 11-a cup body; 111-sidewalls; 112-a bottom wall; 113-cup cover; 114-a handle; 12-a knife holder; 121-a lock nut; 131-knife shaft; 132-blades; 133-a first connector;

2-a base; 211-metal rings; 2111-pit; 212-spacers; 213-centrifugal fan blades; 214-metal fins; 215-air deflector; 2151-notch; 221-motor; 222-a transmission shaft; 223-a second connector; 23-a base housing; 231-a limit frame; 232-an air inlet; 233-control panel;

3-heat pipe assembly.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the present invention provides a wall breaking machine, comprising:

the stirring cup 1, the stirring cup 1 comprises a cup body 11, a tool apron 12 and a wall breaking tool, the cup body 11 comprises a side wall 111 and a bottom wall 112, the side wall 111 and the bottom wall 112 are matched to form a stirring cavity which is positioned at one side of the bottom wall 112 and is used for placing food materials, and a cup bottom groove which is positioned at the other side of the bottom wall 112 and is open and is away from the stirring cavity; the cutter holder 12 is positioned in the stirring cavity and is arranged on the bottom wall 112, and the wall breaking cutter is arranged on the cutter holder 12;

the base 2, the base 2 is provided with a driving device for driving the broken wall knife and a heat dissipation component;

and one end of the heat conduction pipe assembly 3 extends into the seat body of the tool apron 12, and the other end of the heat conduction pipe assembly 3 is connected with the heat dissipation assembly so as to be used for transferring heat of the tool apron 12 to the heat dissipation assembly.

The wall breaking machine provided by the embodiment of the invention comprises a stirring cup 1, a base 2 and a heat conducting pipe assembly 3; the stirring cup 1 comprises a cup body 11, a cutter holder 12 and a wall breaking cutter, wherein a stirring cavity and a cup bottom groove are formed in the cup body 11, the cutter holder 12 is positioned in the stirring cavity and is arranged on the bottom wall 112 of the stirring cup 1, and the wall breaking cutter is arranged on the cutter holder 12; the base 2 is provided with a driving device for driving the wall breaking knife and a heat dissipation assembly; one end of the heat conducting component extends into the seat body of the tool seat 12, and the other end of the heat conducting component is connected with the heat radiating component. At broken wall machine during operation, internals friction generates heat, and most heat can be transmitted to blade holder 12 and broken wall sword on, and the broken wall machine can be through heat pipe assembly 3 quick with the heat transfer on blade holder 12 and the broken wall sword to radiator unit in this embodiment, in the outside air is discharged to the heat of deriving by radiator unit for the heat that the broken wall machine during operation produced does not accumulate in the broken wall machine, and then improves the heat dispersion of broken wall machine heating element, guarantees the temperature before the food material temperature maintenance is handled in the broken wall machine.

Specifically, the stirring cup 1 is further provided with a cup cover 113 and a handle 114.

In the embodiment of the invention, the heat conducting tube assembly 3 comprises at least one heat conducting tube, one end of each heat conducting tube extends into the seat body of the tool apron 12, and the other end of each heat conducting tube is matched with the heat radiating assembly to transfer heat to the heat radiating assembly.

The structure of the heat-conducting pipe assembly 3 can be as shown in fig. 1 and 2, four heat-conducting pipes are uniformly distributed at the bottom of the stirring cup 1, one end of each heat-conducting pipe extends into the seat body of the tool apron 12, the other end is flush with the opening edge of the groove at the bottom of the cup, and the pipe body is tightly attached to the bottom surface and the inner side surface of the groove at the bottom of the cup, so that the stirring cup 1 is simple in structure at the bottom of the cup and convenient to contact with the base 2. In practical application, the number and arrangement of the heat conducting pipes are determined according to practical situations, and the heat conducting pipes are not limited herein.

Specifically, a side of the tool holder 12 facing away from the stirring cavity is formed with mounting holes corresponding to the heat conducting pipes one by one, one end of each heat conducting pipe is inserted into the mounting hole to extend into the base body of the tool holder 12, and the locking nut 121 fixes the heat conducting pipes on the tool holder 12 and fixes the tool holder 12 on the bottom wall 112 of the stirring cup 1. The mounting hole can be a threaded hole, so that the heat conduction pipe is in threaded fit with the threaded hole, and the heat conduction pipe is tightly connected with the tool apron 12, thereby facilitating heat dissipation.

In the embodiment of the invention, the heat conducting pipe can be a heat pipe or a copper rod.

When the heat conducting pipe is a heat pipe, the end connected with the tool apron 12 is the evaporation end of the heat pipe, and the end connected with the heat dissipation component is the condensation end of the heat pipe. The condensing end of the heat pipe can be made of copper, the surface of the condensing end of the heat pipe is smooth spherical, and the whole surface of the heat pipe is subjected to antioxidation treatment. The thickness and number of the heat pipes can be changed, for example, if the wall breaking machine can be provided with 4 heat pipes with the diameter of 5mm, or the heat pipes with the diameter of larger (such as 6mm and 8 mm) with the small number, or the heat pipes with the diameter of smaller (3 mm) with the large number can keep the overall heat dissipation capacity of the heat pipes unchanged. In practical application, the thickness and the number of the heat pipes need to be comprehensively measured. In practical applications, the shape of the heat pipe may be changed, and may be, for example, a cylindrical shape, a flat shape, or the like.

In the embodiment of the invention, as shown in fig. 1 and 3, the heat dissipation assembly may include a metal ring 211, where one side of the metal ring 211 contacts with the heat conduction tube assembly 3, a spacer 212 is disposed in the metal ring 211, and the metal ring 211 contacts with the heat conduction tube assembly 3, so that heat on the heat conduction tube assembly 3 is quickly transferred to the metal ring 211, and heat dissipation is accelerated, and the spacer 212 is disposed in the metal ring 211, so that heat of other heat generating components can be isolated and internal parts can be prevented from being scratched. Preferably, the metal ring 211 is formed with concave points 2111 corresponding to each other at the contact position with the heat conductive pipe, so that the heat conductive pipe can be closely contacted with the metal ring 211.

The metal ring 211 may be a copper ring, an aluminum ring, a stainless steel ring, or the like, and the metal ring 211 is subjected to an oxidation-resistant treatment, and in practical applications, it is selected according to practical situations, and is not limited herein. The spacer 212 material may be polytetrafluoroethylene, alternatively polyolefin, polystyrene, acrylonitrile butadiene styrene, or the like. Preferably a self-lubricating or scratch-resistant plastic. And may even be a metal foil of iron, aluminium or the like.

In the embodiment of the invention, the heat dissipation assembly further comprises a centrifugal fan blade 213 and a plurality of metal fins 214, wherein the centrifugal fan blade 213 is positioned at one side of the spacer 212, which is away from the stirring cup 1, one end of each metal fin 214 is adjacent to the centrifugal fan blade 213, and the other end of each metal fin is connected with one side of the metal ring 211, which is away from the heat conduction assembly. The heat on the metal ring 211 is transferred to the metal fins 214, the centrifugal fan blades 213 positioned at the center of the metal fins 214 rotate, external air is sucked in and blown to each fin, and the flowing air takes away the heat on the fins and discharges.

Specifically, the plurality of metal fins 214 in the heat dissipation assembly are preferably arranged at a certain angle with respect to the radial direction, and are uniformly distributed on the metal ring 211, and the surfaces of the metal fins 214 are subjected to hydrophilic and antioxidant treatment. The metal fins 214 may be aluminum fins, copper fins, steel fins, and the like. The number of metal fins 214 may be practical.

In the embodiment of the invention, the heat conduction pipe assembly 3 can transfer heat from the stirring cup 1 to the metal ring 211 of the base 2 as soon as possible, and finally quickly transfers the heat to the outside through the combined action of the metal fins 214 and the centrifugal fan blades 213, so that the temperature of the food is maintained to be the same as the temperature before treatment to the greatest extent.

In the embodiment of the invention, the base 2 further comprises a base housing 23 for placing the heat dissipation assembly, the base housing 23 is formed with a limit frame 231 surrounding the heat dissipation assembly, the limit frame 231 is in limit fit with the bottom of the stirring cup 1, and an air outlet is formed on the limit frame 231. The above-mentioned spacing frame 231 can restrict stirring cup 1 position, and the placing of stirring cup 1 and the contact of heat conduction pipe assembly 3 and radiator module of being convenient for to be formed with the air exit on the spacing frame 231, the discharge of the air of being convenient for flows.

Preferably, a circle of air deflector 215 is enclosed between the metal fin 214 and the limit frame 231, and a notch 2151 corresponding to the air outlet is formed on the air deflector 215. The flowing air passing through the metal fins 214 flows along the air deflector 215, so that heat is discharged from the air outlet.

In the embodiment of the invention, specifically, the wall breaking knife comprises a blade 132 and a knife shaft 131, the knife shaft 131 is installed in the knife holder 12 in a penetrating way, two ends of the knife shaft 131 extend into the stirring cavity and the cup bottom groove, the blade 132 is installed at the end part of the knife shaft 131 in the stirring cavity, and one end of the heat conducting pipe is adjacent to the knife shaft 131 and extends into the seat body of the knife holder 12. As shown in fig. 2, one end of the heat conducting pipe uniformly surrounds the cutter shaft 131, and as the heat generated by the internal parts of the wall breaking machine is transferred to the cutter holder 12 and the blade 132 by the cutter shaft 131, the heat conducting pipe is arranged close to the cutter shaft 131, which is more beneficial for transferring the heat on the cutter holder 12 and the wall breaking cutter to the heat dissipation component.

In the above embodiment of the invention, the base housing 23 further comprises a receiving cavity located at a side of the heat dissipation component away from the stirring cup 1, and the driving device is located in the receiving cavity.

Specifically, the driving device includes a motor 221 and a driving shaft 222 with two ends connected to the motor 221 and the cutter shaft 131, the centrifugal fan blade 213 is mounted on the driving shaft 222, and a circular hole having a radius larger than that of the driving shaft 222 and used for passing through the driving shaft 222 is formed at the center of the spacer 212. In the base 2, the transmission shaft 222 is connected with the cutter shaft 131, and the centrifugal fan blade 213 is mounted on the transmission shaft, and the motor 221 can drive the cutter shaft 131 and the centrifugal fan blade 213 to rotate simultaneously, so that the design is simple, and convenience and rapidness are realized. The radius of the round hole formed on the spacer 212 is larger than that of the transmission shaft 222, so that the transmission shaft 222 is not contacted with the spacer 212, friction is avoided, and stirring speed is increased.

In the connection structure between the driving device and the cutter shaft 131, optionally, a first connecting piece 133 is disposed on the cutter shaft 131, a second connecting piece 223 is disposed on the driving device, and the first connecting piece 133 is connected with the second connecting piece 223 in a matching manner, where the first connecting piece 133 and the second connecting piece 223 may be mushroom head connecting pieces that are matched with each other.

In the above embodiment of the invention, the base housing 2 is formed with the air inlet 232 at the region opposite to the motor 221. The centrifugal fan blade 213 pumps in the outside air from the air inlet 232 opposite to the motor 221 and blows the outside air to each metal fin 214, so that most of heat generated during the operation of the wall breaking machine can be completely conducted away, the heat dissipation effect of the motor can be improved, the service life of the motor can be prolonged, and two purposes are achieved.

Specifically, the air inlet 232 can be provided with a shutter structure, and the air inlet 232 is internally covered with a wire netting to prevent insects from entering the wall breaking machine and damaging the circuit.

Specifically, the base housing 23 is further provided with a control panel 233.

It will be apparent to those skilled in the art that various modifications and variations can be made to the embodiments of the present invention without departing from the spirit and scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims

1. A wall breaking machine, characterized by comprising:

the base is provided with a driving device for driving the wall breaking knife and a heat dissipation assembly; the base is provided with a control panel;

one end of the heat conduction pipe assembly extends into the seat body of the tool apron, and the other end of the heat conduction pipe assembly is connected with the heat dissipation assembly so as to be used for transferring heat of the tool apron to the heat dissipation assembly;

the heat dissipation assembly comprises a metal ring, a centrifugal fan blade and a plurality of metal fins; one side of the metal ring is contacted with the heat conduction pipe assembly, and a spacer is arranged in the metal ring; the centrifugal fan blade is located at one side of the spacer, which is away from the stirring cup, one end of the metal fin is adjacent to the centrifugal fan blade, and the other end of the metal fin is connected with one side of the metal ring, which is away from the heat conducting pipe assembly.

2. The wall breaking machine according to claim 1, wherein the heat conducting tube assembly comprises at least one heat conducting tube, one end of each heat conducting tube extends into the seat body of the tool apron, and the other end of each heat conducting tube is matched with the heat radiating assembly to transfer heat to the heat radiating assembly.

3. The wall breaking machine according to claim 1, wherein the base further comprises a base housing for placing the heat dissipation assembly, the base housing is formed with a limit frame surrounding the heat dissipation assembly, the limit frame is in limit fit with the bottom of the stirring cup, and an air outlet is formed in the limit frame.

4. The wall breaking machine according to claim 3, wherein a circle of air guide plate is enclosed between the metal fins and the limiting frame, and a notch corresponding to the air outlet is formed on the air guide plate.

5. The wall breaking machine according to claim 3, wherein the base housing further comprises a containing cavity at a side of the heat dissipation assembly away from the stirring cup, and the driving device is located in the containing cavity.

6. The wall breaking machine according to any one of claims 3 to 5, wherein the wall breaking knife comprises a knife blade and a knife shaft, the knife shaft is installed in the knife holder in a penetrating manner, two ends of the knife shaft extend into the stirring cavity and the cup bottom groove, the knife blade is installed at the end portion, located in the stirring cavity, of the knife shaft, and one end of the heat conducting pipe extends into the seat body of the knife holder adjacent to the knife shaft.

7. The wall breaking machine according to claim 6, wherein the driving device comprises a motor and a transmission shaft with two ends respectively connected with the motor and the cutter shaft, the centrifugal fan blade is mounted on the transmission shaft, and a round hole with a radius larger than that of the transmission shaft and used for allowing the transmission shaft to pass through is formed in the center of the spacer.

8. The wall breaking machine according to claim 7, wherein the base housing is formed with an air inlet in a region opposite to the motor.