CN116058695B

CN116058695B - Durable-to-work driving motor and method for food processor

Info

Publication number: CN116058695B
Application number: CN202310088719.4A
Authority: CN
Inventors: 刘嘉良; 张婷婷; 陈柏川; 曾铭钦; 梁伟
Original assignee: Jiangmen Chuangroi Applied Technology Research Co ltd; Jiangmen Weixinghui Technology Co ltd; Jiangmen Pengjiang District Yuweichang Electrical Appliance Ind Co ltd
Current assignee: Jiangmen Chuangroi Applied Technology Research Co ltd; Jiangmen Weixinghui Technology Co ltd; Jiangmen Pengjiang District Yuweichang Electrical Appliance Ind Co ltd
Priority date: 2023-02-09
Filing date: 2023-02-09
Publication date: 2023-08-15
Anticipated expiration: 2043-02-09
Also published as: CN116058695A

Abstract

The invention discloses a driving motor for a food processor and a method thereof, and relates to the technical field of motor equipment, the driving motor comprises a driving shell and a baffle plate arranged in the driving shell, the left side of the baffle plate is a cylindrical cavity, the middle upper end of the cylindrical cavity is provided with a shaft hole, a second rotating block is matched in the shaft hole, the inner wall of the shaft hole is provided with a sealing ring matched with the second rotating block.

Description

Durable-to-work driving motor and method for food processor

Technical Field

The invention relates to the technical field of motor equipment, in particular to a driving motor and a driving method for a food processor, which work permanently.

Background

The current cooking machine generally comprises cup and host computer base, cup detachably installs in the host computer base and stirs work, current cooking machine passes through driving motor and drives the blade work, can lead to motor temperature to rise under the long-term work, and current cooking machine is very little in order to realize miniaturization, the heat dissipation space of motor is very limited, lead to current cooking machine to only work for a short time like this, long-time work can lead to the part to overheat and damage, because the heat dissipation mode of motor here is only passive heat exchange, the radiating effect is not good, especially in hot summer, and current cooking machine's driving motor is single-shaft structure, crushing effect is general, need utilize long-time crushing to improve crushing effect.

Based on the above, the driving motor and the method for the food processor, which work permanently, can eliminate the defects of the prior device.

Disclosure of Invention

The invention aims to provide a driving motor and a driving method for a food processor, which work permanently, so as to solve the problems in the background technology.

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

the utility model provides a driving motor for cooking machine that work is durable, includes driving housing and sets up at its inside baffle, the baffle left side is cylindrical cavity, and the upper end is equipped with the shaft hole in this cylindrical cavity, and the cooperation is equipped with a second rotatory piece in this shaft hole, the shaft hole inner wall be equipped with second rotatory piece matched with sealing washer, a perforation has been seted up to second rotatory piece intermediate position, and the cooperation is equipped with a jackshaft in this perforation, jackshaft and second rotatory piece upper end all are equipped with the blade mounting groove that is used for installing crushing blade, the jackshaft bottom is equipped with a first rotatory piece, first rotatory piece upper end and jackshaft lower extreme all are equipped with a driving disk, second rotatory piece and jackshaft lower extreme are connected and are used for driving its fast rotating's drive part, the driving housing surface at drive part place is equipped with heat radiation structure.

Based on the technical scheme, the invention also provides the following optional technical schemes:

in one alternative: the driving part comprises a friction transmission part arranged between two transmission discs, the friction transmission part is in friction contact with the upper transmission disc and the lower transmission disc, an anti-slip layer is arranged on the transmission surfaces of the two transmission discs, the friction transmission part is arranged at the output end of a driving shaft, the other end of the driving shaft penetrates through a partition plate to extend into a driving cavity, a plurality of rotor modules are distributed on the outer side of the driving shaft in the driving cavity in an array manner, and a plurality of stator modules are matched in the driving cavity on the outer side of the rotor modules.

In one alternative: and a sound insulation layer is arranged on the outer side of the driving shell, so that noise pollution is reduced.

In one alternative: the heat radiation structure is including setting up the inlet port that is used for admitting air in the drive shell left side and setting up the exhaust port that is used for exhaust in the drive shell right side, be equipped with the inlet check valve that is used for admitting air in the inlet port, and the inlet port outside can be dismantled and be equipped with the filter tip, it has a plurality of gas blowing hole corresponding with rotor module position to distribute on the baffle, be equipped with the exhaust check valve in the gas blowing hole.

In one alternative: the inside floating mechanism that is used for making second rotatory piece and jackshaft float in order to adjust crushing position that is equipped with of drive shell, floating mechanism is including rotating the second piston board that sets up in the second rotatory piece outside, be connected through the second reset spring between second piston board upper end and the drive shell inner wall, the rotation of first rotatory piece outside is equipped with a first piston board, first piston board lower extreme is connected through reset spring with the drive shell inner bottom.

In one alternative: and sealing rings matched with the inner walls of the cylindrical cavities are arranged on the outer sides of the second piston plate and the first piston plate, and the positions of the air inlet holes and the air blowing holes correspond to the positions of the friction driving parts.

In one alternative: the friction transmission piece is including setting up the center piece at the drive shaft tip, center piece outside symmetry is equipped with two telescopic links, and it is equipped with one to support the briquetting to slide on every telescopic link, it has set up the installation draw-in groove to support the briquetting lateral surface, and the cooperation is equipped with an elasticity friction belt in the installation draw-in groove in two to support the briquetting, elasticity friction belt and driving disk frictional contact, it is equipped with the floating chamber with telescopic link matched with to support briquetting tip, the cross-section of floating chamber and telescopic link is the rectangle, be equipped with the coupling spring that will support briquetting and center piece to connect in the floating chamber, be equipped with in drive shaft and the center piece and be used for driving the expansion impeller that supports the briquetting and outwards slide along the telescopic link.

In one alternative: the expansion pushing piece comprises a transmission cavity arranged in the center block, an extension rod is arranged at the end part of the extension rod, the end part of the extension rod extends into the transmission cavity, a pressing wheel is arranged at the end part of the extension rod, a transmission hole with a rectangular section is formed in the driving shaft, a pushing rod is matched in the transmission hole, the end part of the pushing rod extends into the transmission cavity, a pushing inclined block is arranged at the end part of the pushing rod, the pressing wheel matched with the pushing inclined block is arranged at the end part of the extension rod, an expansion piston block is arranged at the other end of the pushing rod, an expansion filler groove for filling expansion filler is formed in the driving shaft, the section of the expansion filler groove is rectangular, the expansion piston block is matched with the expansion filler groove, and the position of the expansion filler groove corresponds to the position of the rotor module.

Compared with the prior art, the invention has the following beneficial effects:

the invention is designed aiming at the existing needs, provides two driving shafts for the food processor, realizes double-shaft crushing, greatly improves the crushing effect, utilizes thermal expansion to trigger the piston to move so as to accelerate cold air to enter, thereby cooling the transmission component and the electrified component, enabling the equipment to work for a long time, and the piston movement can trigger the crushing shaft to float up and down so as to further improve the crushing effect, thereby achieving two purposes and having strong practicability.

Drawings

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is a schematic view of the structure of the position of the blowhole of the present invention.

Fig. 3 is a schematic view of a second piston plate and a first piston plate of the present invention.

Fig. 4 is a schematic view of a friction transmission member according to the present invention.

FIG. 5 is a schematic diagram of the structure of a central block according to the present invention.

Fig. 6 is a schematic view of the internal structure of the driving shaft of the present invention.

Reference numerals annotate: the driving housing 11, the blow hole 12, the stator module 13, the rotor module 14, the driving shaft 15, the partition 17, the first rotary block 18, the return spring 19, the first piston plate 20, the friction transmission member 21, the air intake hole 22, the second piston plate 23, the intermediate shaft 24, the second return spring 25, the second rotary block 26, the blade mounting groove 27, the expansion packing groove 28, the expansion piston block 29, the pushing rod 30, the pushing inclined block 31, the pushing wheel 32, the extension rod 33, the floating chamber 34, the elastic friction belt 35, the pushing block 36, the mounting clamping groove 37, and the center block 38.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent.

In one embodiment, as shown in fig. 1-6, a driving motor for a durable food processor comprises a driving housing 11 and a partition 17 arranged in the driving housing, wherein the left side of the partition 17 is a cylindrical cavity, the middle upper end of the cylindrical cavity is provided with a shaft hole, a second rotating block 26 is matched in the shaft hole, the inner wall of the shaft hole is provided with a sealing ring matched with the second rotating block 26, a through hole is formed in the middle position of the second rotating block 26, an intermediate shaft 24 is matched in the through hole, the upper ends of the intermediate shaft 24 and the second rotating block 26 are both provided with blade mounting grooves 27 for mounting crushing blades, the bottom of the intermediate shaft 24 is provided with a first rotating block 18, the upper end of the first rotating block 18 and the lower end of the intermediate shaft 24 are both provided with a transmission disc, the second rotating block 26 and the lower end of the intermediate shaft 24 are connected with driving components for driving the driving components to rotate rapidly, the second rotating block 26 and the intermediate shaft 24 are reversely rotated by the driving components, so that power is provided for cutting, and the housing 11 is provided with a driving surface for continuously cooling air through a cooling structure;

the driving part comprises a friction driving part 21 arranged between two driving discs, the friction driving part 21 is in friction contact with the upper driving disc and the lower driving disc, the driving surfaces of the two driving discs are provided with anti-slip layers, the friction driving part 21 is arranged at the output end of a driving shaft 15, the other end of the driving shaft 15 penetrates through a partition plate 17 to extend into a driving cavity, a plurality of rotor modules 14 are distributed on the outer side of the driving shaft 15 in the driving cavity in an array manner, a plurality of stator modules 13 are matched in the driving cavity on the outer side of the rotor modules 14, so that a power source can be provided for the driving shaft 15 through the matching of the stators and the rotors, and the driving cavity provides enough heat dissipation space to facilitate heat dissipation work;

the heat dissipation structure comprises an air inlet hole 22 arranged at the left side of the driving shell 11 and used for air intake and an exhaust port arranged at the right side of the driving shell 11 and used for exhaust, an air intake one-way valve used for air intake is arranged in the air inlet hole 22, a filter tip is detachably arranged at the outer side of the air inlet hole 22, a plurality of air blowing holes 12 corresponding to the position of the rotor module 14 are distributed on the partition plate 17, and the air exhaust one-way valve is arranged in the air blowing holes 12, so that air enters from the air inlet hole 22 and then enters between the stator module 13 and the rotor module 14 from the air blowing holes 12, the driving part is cooled, dust in the entering air can be removed by the filter tip arranged here, and the influence of dust on the service life of parts is avoided;

in order to further improve the crushing effect, a floating mechanism for enabling the second rotating block 26 and the middle shaft 24 to float so as to adjust the crushing position is arranged in the driving shell 11, the crushing position of the crushing blade can be continuously adjusted through the floating mechanism, the blade is also beneficial to promoting fluid flow when floating, so that the crushing effect is improved, the floating mechanism comprises a second piston plate 23 rotatably arranged on the outer side of the second rotating block 26, the upper end of the second piston plate 23 is connected with the inner wall of the driving shell 11 through a second reset spring 25, a first piston plate 20 is rotatably arranged on the outer side of the first rotating block 18, the lower end of the first piston plate 20 is connected with the inner bottom of the driving shell 11 through a reset spring 19, so that under the action of a friction transmission piece 21, the second piston plate 23 and the first piston plate 20 can be continuously driven by pushing force, and then the reset spring is matched, so that the second piston plate 23 and the first piston plate 20 continuously float up and down, the second piston plate 23 and the first piston plate 20 can drive the middle shaft 24 and the second rotating block 26 to float, so that the crushing effect is improved;

when it should be noted that, sealing rings matched with the inner walls of the cylindrical chambers are arranged on the outer sides of the second piston plate 23 and the first piston plate 20, and the positions of the air inlet holes 22 and the air blowing holes 12 correspond to the positions of the friction transmission members 21, so that the spatial variation between the second piston plate 23 and the first piston plate 20 can guide the external cold air to enter, and the cold air enters between the stator module 13 and the rotor module 14 along the air blowing holes 12, so that the electrified part is cooled, and the friction transmission area can be cooled, thereby effectively improving the durability of the components in use;

the friction transmission member 21 comprises a center block 38 arranged at the end part of the driving shaft 15, two telescopic rods are symmetrically arranged at the outer side of the center block 38, an abutting block 36 is slidably arranged on each telescopic rod, an installation clamping groove 37 is formed in the outer side surface of each abutting block 36, an elastic friction belt 35 is matched in the installation clamping groove 37 in each abutting block 36, the elastic friction belt 35 is in friction contact with the transmission disc, a floating cavity 34 matched with the telescopic rod is formed at the end part of each abutting block 36, the cross sections of the floating cavity 34 and the telescopic rods are rectangular, a connecting spring for connecting the abutting blocks 36 with the center block 38 is arranged in each floating cavity 34, an expansion pushing member for driving the abutting blocks 36 to slide outwards along the telescopic rods is arranged in each driving shaft 15 and each center block 38, and the two abutting blocks 36 are driven to be far away through the expansion pushing member, so that the friction transmission member 21 is in an elliptic structure, and a basis is provided for driving the distance between the second piston plate 23 and the first piston plate 20;

the expansion pushing member comprises a transmission cavity arranged in the center block 38, the end part of the pushing block 36 is provided with an extension rod 33, the end part of the extension rod 33 extends into the transmission cavity, the end part of the extension rod 33 is provided with an expansion piston block 29, the inside of the driving shaft 15 is provided with a transmission hole with a rectangular section, the transmission hole is matched with a pushing rod 30, the end part of the pushing rod 30 extends into the transmission cavity, the end part of the pushing rod 30 is provided with a pushing inclined block 31, the end part of the extension rod 33 is provided with an expansion piston block 32 matched with the pushing inclined block 31, the other end of the pushing rod 30 is provided with an expansion packing groove 28 for packing expansion packing, the section of the expansion filler groove 28 is rectangular, the expansion piston block 29 is matched with the expansion filler groove 28, the position of the expansion filler groove 28 corresponds to the position of the rotor module 14, when the food processor is in initial work, the whole heat is less, the expansion filler groove 28 is not expanded, along with the use, when the expansion filler in the expansion filler groove 28 expands, the expansion piston block 29 can be pushed to move axially along the driving shaft 15, the expansion piston block 29 pushes the pushing rod 30 to move, the pushing inclined block 31 can generate pushing force on the second piston plate 23, the pushing pressing wheel 32 can generate acting force on the extending rod 33 under the action of the inclined surface, and the pushing pressing blocks 36 slide along the telescopic rod, so that the two pushing blocks 36 expand, and an elliptic structure is constructed;

the expansion filler can be mercury, and can meet the requirement of thermal expansion.

The embodiment discloses a driving motor and a method for a durable food processor, wherein in actual use, when the food processor is initially operated, the overall heat is less, the expansion filler groove 28 is not expanded at the moment, the stator module 13 and the rotor module 14 cooperate to drive the driving shaft 15 to rotate, the driving shaft 15 drives the friction transmission piece 21 to rotate, the friction force between the friction transmission piece 21 and the upper and lower transmission discs can drive the second rotating block 26 and the intermediate shaft 24 to rotate rapidly, and the heat dissipation at the moment is only that the outside is passively led into the driving shell 11 to dissipate, so that enough heat dissipation space is provided for the stator module 13 and the rotor module 14;

two driving shafts are constructed, two crushing blades can be arranged, and the two crushing blades reversely rotate, so that the crushing effect is effectively improved;

as the service time becomes longer, when the expansion filler in the expansion filler groove 28 expands, the expansion piston block 29 is pushed to axially move along the driving shaft 15, the expansion piston block 29 pushes the pushing rod 30 to move, the pushing inclined block 31 moves to generate pushing force on the second piston plate 23, under the action of the inclined plane, the pressing wheel 32 generates acting force on the extending rod 33, so that the pressing block 36 slides along the telescopic rod, thus the two pressing blocks 36 expand, an elliptical structure is constructed, under the action of the elliptical structure, the second piston plate 23 and the first piston plate 20 are continuously subjected to pushing force, and then the second piston plate 23 and the first piston plate 20 are continuously floated up and down by being matched with the reset of the reset spring, and the second piston plate 23 and the first piston plate 20 can drive the intermediate shaft 24 and the second rotating block 26 to float, so that the crushing blade arranged on the pressing wheel also floats, and the crushing effect is improved;

cool air then enters between the stator module 13 and the rotor module 14 along the air blowing holes 12 so as to cool the electrified part, and the friction transmission area can be cooled, so that the durability of the component use is effectively improved.

The foregoing is merely specific embodiments of the disclosure, but the protection scope of the disclosure is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the disclosure, and it is intended to cover the scope of the disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims

1. The utility model provides a durable driving motor for cooking machine, includes driving shell (11) and sets up baffle (17) in its inside, the left side of baffle (17) is cylindrical cavity, and the upper end is equipped with the shaft hole in this cylindrical cavity, cooperates in this shaft hole and is equipped with a second rotary block (26);

the grinding device is characterized in that a sealing ring matched with a second rotating block (26) is arranged on the inner wall of the shaft hole, a through hole is formed in the middle of the second rotating block (26), an intermediate shaft (24) is arranged in the through hole in a matched mode, blade mounting grooves (27) for mounting grinding blades are formed in the upper ends of the intermediate shaft (24) and the second rotating block (26), a first rotating block (18) is arranged at the bottom of the intermediate shaft (24), a transmission disc is arranged at the upper end of the first rotating block (18) and the lower end of the intermediate shaft (24), a driving part for driving the second rotating block (26) and the lower end of the intermediate shaft (24) to rotate rapidly is connected, and a heat dissipation structure is arranged on the surface of a driving shell (11) where the driving part is located;

the driving part comprises a friction transmission part (21) arranged between two transmission discs, the friction transmission part (21) is in friction contact with the upper transmission disc and the lower transmission disc, an anti-slip layer is arranged on the transmission surfaces of the two transmission discs, the friction transmission part (21) is arranged at the output end of a driving shaft (15), the other end of the driving shaft (15) penetrates through a partition plate (17) to extend into a driving cavity, a plurality of rotor modules (14) are distributed on the outer side of the driving shaft (15) in the driving cavity in an array manner, and a plurality of stator modules (13) are matched in the driving cavity on the outer side of the rotor modules (14);

the heat radiation structure comprises an air inlet hole (22) arranged on the left side of the driving shell (11) and used for air intake and an exhaust port arranged on the right side of the driving shell (11), an air intake one-way valve used for air intake is arranged in the air inlet hole (22), a filter tip is detachably arranged on the outer side of the air inlet hole (22), a plurality of air blowing holes (12) corresponding to the rotor module (14) in position are distributed on the partition plate (17), and the air blowing holes (12) are internally provided with the air exhaust one-way valves;

the inside floating mechanism that is used for making second rotatory piece (26) and jackshaft (24) float in order to adjust crushing position that is equipped with of drive housing (11), floating mechanism is including rotating second piston board (23) that set up in the second rotatory piece (26) outside, be connected through second reset spring (25) between second piston board (23) upper end and drive housing (11) inner wall, first rotatory piece (18) outside rotation is equipped with a first piston board (20), first piston board (20) lower extreme is connected through reset spring (19) in bottom and drive housing (11).

2. The durable-to-operate drive motor for a food processor according to claim 1, wherein a sound insulation layer is provided on the outer side of the drive housing (11).

3. The durable food processor driving motor according to claim 1, wherein sealing rings matched with the inner wall of the cylindrical cavity are arranged on the outer sides of the second piston plate (23) and the first piston plate (20), and the positions of the air inlet hole (22) and the air blowing hole (12) correspond to the positions of the friction transmission piece (21).

4. The driving motor for the food processing machine, according to claim 3, characterized in that the friction transmission piece (21) comprises a center block (38) arranged at the end part of the driving shaft (15), two telescopic rods are symmetrically arranged at the outer side of the center block (38), each telescopic rod is slidably provided with a pressing block (36), an installation clamping groove (37) is formed in the outer side surface of each pressing block (36), an elastic friction belt (35) is matched with the installation clamping groove (37) in each pressing block (36), the elastic friction belt (35) is in friction contact with the driving disc, a floating cavity (34) matched with the telescopic rod is formed in the end part of each pressing block (36), the cross section of each floating cavity (34) and the cross section of each telescopic rod are rectangular, a connecting spring for connecting the pressing blocks (36) with the corresponding center block (38) is arranged in each floating cavity (34), and an expansion pushing piece for driving the pressing blocks (36) to slide outwards along the telescopic rods is arranged in each driving shaft (15) and each center block (38).

5. The durable food processor driving motor according to claim 4, wherein the expansion pushing member comprises a transmission cavity arranged in the center block (38), an extension rod (33) is arranged at the end of the extension rod (36), the end of the extension rod (33) extends into the transmission cavity, an abutment roller (32) is arranged at the end of the extension rod (33), a transmission hole with a rectangular cross section is arranged in the driving shaft (15), a pushing rod (30) is matched in the transmission hole, the end of the pushing rod (30) extends into the transmission cavity, a pushing inclined block (31) is arranged at the end of the pushing rod (30), an abutment roller (32) matched with the pushing inclined block (31) is arranged at the end of the extension rod (33), an expansion piston block (29) is arranged at the other end of the packing pushing rod (30), an expansion groove (28) for filling expansion filler is arranged in the driving shaft (15), the cross section of the expansion groove (28) is rectangular, and the expansion piston block (29) is matched with the expansion groove (28) in a position corresponding to the packing position of the rotor (14).

6. The method of using a durable food processor driving motor according to claim 5, comprising the steps of:

step one: when the food processor is in initial work, the whole heat is less, the expansion filling groove (28) is not expanded, the stator module (13) and the rotor module (14) are matched to drive the driving shaft (15) to rotate, the driving shaft (15) drives the friction transmission piece (21) to rotate, the friction force between the friction transmission piece (21) and the upper and lower transmission discs can drive the second rotating block (26) and the intermediate shaft (24) to rotate rapidly, and the heat dissipation at the moment is only that the outside passively enters the driving shell (11) to dissipate heat;

step two: when the expansion filler in the expansion filler groove (28) expands, the expansion piston block (29) can be pushed to axially move along the driving shaft (15), the expansion piston block (29) pushes the pushing rod (30) to move, the pushing inclined block (31) can generate pushing force on the second piston plate (23), under the action of the inclined plane, the pressing wheel (32) can generate acting force on the extension rod (33), the pressing block (36) can slide along the telescopic rod, so that the two pressing blocks (36) can expand, an elliptical structure is formed, under the action of the elliptical structure, the second piston plate (23) and the first piston plate (20) can continuously receive pushing force, and then the second piston plate (23) and the first piston plate (20) continuously float up and down, the second piston plate (23) and the first piston plate (20) can drive the intermediate shaft (24) and the second rotary block (26) to float, the crushing blade mounted on the pressing block can also float, the crushing effect is improved, and air can enter the stator (13) along the air hole and then enter the air hole (13) to cool the position of the air hole, and the air hole can be cooled down in the air hole, and the position of the air hole can be cooled down in the air hole is cooled, and the position can be cooled down in the air hole is cooled down, and the position is cooled down by the air, and the air is cooled down by the air and the air.