CN209733691U - Food preparation machine with long service life - Google Patents

Abstract

The utility model provides a food processing machine with long service life, which comprises a machine base and a stirring cup, wherein the stirring cup comprises a cup body, a cup cover and a cup seat, a cutter disc assembly is arranged between the bottom of the cup body and the cup seat, the cutter disc assembly comprises a metal disc and a crushing cutter, the bottom of the metal disc is provided with an installation cavity for installing a bearing sleeve, a bearing is arranged in the bearing sleeve, the crushing cutter comprises a cutter shaft and a blade, the blade is arranged at the upper end of the cutter shaft, the lower end of the cutter shaft passes through the bearing, the lower end of the cutter shaft is provided with an upper connector, a heat dissipation block which can rotate along with the cutter shaft is sleeved on the cutter shaft between the bearing and the upper connector, the heat dissipation block is provided with a through hole for the cutter shaft to pass through, the heat dissipation block is positioned below the bearing, the periphery of the heat dissipation block is provided with a fan part, thus when the cutter, thereby the radiating effect of fine assurance bearing, and then guarantee food preparation machine holistic life.

Description

Food preparation machine with long service life

Technical Field

the utility model relates to a food preparation machine field especially relates to a long service life's food preparation machine.

Background

Food preparation machine commonly used at present, generally include the frame and set up the stirring cup on the frame, be equipped with the motor in the frame, the stirring cup includes the cup, bowl cover and cup, be equipped with blade disc assembly between cup bottom and the cup, blade disc assembly includes the metal disc and locates the crushing sword on the metal disc, the bottom of metal disc is equipped with the installation cavity of installation bearing housing, be equipped with the bearing in the bearing housing, crushing sword includes arbor and blade, the arbor passes the bearing and is connected with motor drive, motor drive crushing sword is in order to smash and process the material that drops into in the stirring cup, very big convenience has been brought for the user, also more and more receive user's favor.

However, crushing sword can bring a large amount of heats when high-speed rotation, and a large amount of heats can be transmitted for the arbor, and then transmit for the bearing is in high temperature state, makes the lubricating oil or the lubricating grease temperature of bearing too high, leads to lubricating oil or lubricating grease to run off or the carbonization, and then makes the bearing lubrication variation, and easy wearing and tearing shorten the bearing life-span, and make the noise grow of crushing sword work.

Disclosure of Invention

an object of the utility model is to provide a long service life's food preparation machine.

in order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a long service life's food preparation machine, including frame and stirring cup, be equipped with motor and control panel in the frame, the stirring cup includes the cup, the lid fits the bowl cover of cup top and locates the cup below, be equipped with blade disc assembly between cup bottom and the cup, blade disc assembly includes the metal disc and locates the crushing sword on the metal disc, the bottom of metal disc is equipped with the installation cavity of installation bearing housing, be equipped with the bearing in the bearing housing, crushing sword includes arbor and blade, the arbor upper end is located to the blade, the arbor lower extreme passes the bearing, the arbor lower extreme is equipped with the connector, wherein, the cover is equipped with on the arbor between bearing and the last connector can be along with arbor pivoted radiating block, the radiating block is equipped with the through-hole that supplies the arbor to pass, the radiating block is located the bearing below, the periphery of.

Furthermore, two ends of the fan blade part are provided with wind sweeping surfaces which are spiral.

Furthermore, the inner side surface of the heat dissipation block is provided with a downward-inclined air guide cambered surface, the inclined direction of the air guide cambered surface inclines towards the rotating direction of the crushing knife, and the air guide cambered surface is smoothly connected with the air sweeping surface.

Furthermore, the upper end face of the heat dissipation block is provided with a limiting step, the bearing is a rolling bearing, and the limiting step is abutted to an inner ring of the rolling bearing.

Further, the radiating block is at least partially positioned in the bearing sleeve.

Furthermore, the radiating block is in interference fit connection with the cutter shaft through the through hole so that the radiating block can synchronously rotate along with the cutter shaft.

Furthermore, the radiating block is arranged on the upper connector and rotates synchronously with the cutter shaft along with the upper connector.

Furthermore, the radiating block is in a shape of a circular plate and is located at the upper end of the upper connector, and the fan blade part is a plurality of inclined plane notches arranged on the periphery of the radiating block.

Furthermore, the radiating block is in a shape of a circular plate and is positioned at the upper end of the upper connector, and the fan blade part is a plurality of convex rib pieces arranged on the upper end surface of the radiating block.

Further, go up the connector and include the body and locate the driving gear on the body, the radiating block is cylindricly and is located the upper end of body, and flabellum portion is for locating a plurality of flabellums on the radiating block periphery, and a plurality of flabellums link into an integrated entity and at least part protrusion in the lateral wall of driving gear with the driving gear.

After the technical scheme is adopted, the utility model has the advantages of as follows:

1. The utility model discloses in, it can be along with arbor pivoted radiating block to overlap on the arbor between bearing and last connector, and set up the through-hole that supplies the arbor to pass on the radiating block, and the radiating block is located the bearing below, and set up fan blade portion in the periphery of radiating block, when the arbor rotates like this, the radiating block also rotates, make the radiating block form the fan effect, the fan effect of radiating block siphons away the air of arbor and high temperature around the bearing, thereby take away the heat of arbor and bearing and go out side by side, thereby the radiating effect of fine assurance bearing, also be the lubricated effect of guaranteeing the bearing, reduce wear, in order to promote the life of bearing, and then promote the holistic life of food preparation machine, and simultaneously, the bearing is lubricated effectual, can also make the rotatory smooth and easy of crushing sword, the noise is little.

2. The two ends of the fan blade portion are provided with the wind sweeping surfaces which are spiral, so that the fan effect of the radiating block is guaranteed, the radiating block rotates at a high speed along with the cutter shaft, the air exhausting direction of the spiral wind sweeping surfaces is downward, hot air cannot pass through the bearing again, the bearing absorbs partial heat, and the hot air is directly exhausted, so that the radiating effect of the bearing is guaranteed well.

3. Through the wind-guiding cambered surface that sets up the downward sloping at the medial surface of radiating block, the incline direction of wind-guiding cambered surface inclines towards the direction of rotation of smashing the sword, and the wind-guiding cambered surface is connected with the windsweeper is in the same direction as smooth, can make the outside blowing that hot-blast ability is better through the wind-guiding cambered surface for hot-blast below discharge promotes radiating effect and radiating efficiency.

4. Through set up spacing step at the up end of radiating block, and the bearing is antifriction bearing, and spacing step is contradicted with antifriction bearing's inner circle, and the locking force that accessible spacing step will go up between connector and the arbor transmits antifriction bearing's inner circle like this to fine play carries out the effect of axial spacing fixed to antifriction bearing, with the job stabilization nature who guarantees antifriction bearing.

5. The radiating block is at least partially located in the bearing sleeve, so that the radiating block is closer to the bearing, the bearing can be better cooled, and the radiating effect of the bearing and the service life of the bearing are guaranteed.

6. The radiating block is in interference fit connection with the cutter shaft through the through hole so that the radiating block can synchronously rotate along with the cutter shaft, namely the radiating block is directly connected and fixed with the cutter shaft and rotates along with the rotation of the cutter shaft, so that the radiating block is convenient to install and fix, is reliable in fixation and not easy to loosen, and can well guarantee the radiating effect of the radiating block.

7. The radiating block is arranged on the upper connecting head and rotates synchronously with the upper connecting head and the cutter shaft, namely the radiating block indirectly rotates along with the rotation of the cutter shaft through the upper connecting head, so that the radiating block can rotate, a fan effect is formed under the action of the fan blade part, hot air is sucked away by the fan through air suction, hot air is discharged, the bearing is also radiated, and the normal service life of the bearing is ensured.

8. The radiating block is in a disc shape and is located at the upper end of the upper connector, the fan blade part is a plurality of inclined plane notches arranged on the periphery of the radiating block, and therefore when the radiating block rotates along with the upper connector, the heat of the cutter shaft and the heat of the bearing are sucked away and discharged through the inclined plane notches to form a fan effect, the fan sucks air, and therefore the radiating effect of the bearing is guaranteed, and the normal service life of the bearing is further guaranteed.

9. The radiating block is in a circular plate shape and is located at the upper end of the upper connector, the fan blade part is a plurality of convex rib pieces arranged on the upper end face of the radiating block, and therefore when the radiating block rotates along with the upper connector, the radiating block passes through the plurality of convex rib pieces to form a fan effect, the fan sucks air to suck away and discharge heat of the cutter shaft and the bearing, so that the radiating effect of the bearing is guaranteed, and the normal service life of the bearing is further guaranteed.

10. Go up the connector and include the body and locate the driving gear on the body, the radiating block is cylindricly and is located the upper end of body, and the flabellum portion is for locating a plurality of flabellums on the radiating block periphery, when the radiating block rotates along with last connector like this, through a plurality of flabellums to form the fan effect, the fan induced drafts and siphons away the heat of arbor and bearing and discharges, thereby guarantees the radiating effect of bearing, and then guarantees the normal life of bearing.

Drawings

The present invention will be further explained with reference to the accompanying drawings:

Fig. 1 is a cross-sectional view of a food processor according to a first embodiment of the present invention.

Fig. 2 is a cross-sectional view of a cutter head assembly in an embodiment of the food processor of the present invention.

Fig. 3 is an enlarged view of a in fig. 2.

Fig. 4 is a schematic structural view of a heat dissipation block in a food processor according to an embodiment of the present invention.

Fig. 5 is a schematic structural view of a heat dissipation block in a second embodiment of the food processor of the present invention.

Fig. 6 is a schematic structural view of a heat dissipation block in a third embodiment of the food processor of the present invention.

Fig. 7 is a schematic structural view of a heat dissipation block in a fourth embodiment of the food processor of the present invention.

Fig. 8 is a schematic structural view of a heat dissipation block in a fifth embodiment of the food processor of the present invention.

The names of the components marked in the figures are as follows:

1. A machine base; 11. a motor; 2. a stirring cup; 21. a cup body; 22. a cup cover; 23. a cup holder; 3. a cutter head assembly; 31. a metal disc; 311. a mounting cavity; 32. a crushing knife; 321. a cutter shaft; 322. a blade; 33. a bearing housing; 34. a bearing; 35. an upper connector; 351. a body; 352. a transmission gear; 36. a heat dissipating block; 361. a through hole; 362. a fan blade portion; 3621. sweeping the wind surface; 363. an air guide cambered surface; 364. a limiting step; 365. a bevel notch; 366. a convex rib sheet; 367. and (4) fan blades.

Detailed Description

the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. It is to be understood that the following terms "upper," "lower," "left," "right," "longitudinal," "lateral," "inner," "outer," "vertical," "horizontal," "top," "bottom," and the like are used in an orientation or positional relationship relative to one another only as illustrated in the accompanying drawings and are used merely for convenience in describing and simplifying the invention, and do not indicate or imply that the device/component so referred to must have a particular orientation or be constructed and operated in a particular orientation and therefore should not be considered as limiting the invention.

the first embodiment is as follows:

As shown in fig. 1 to 4, the utility model provides a food processing machine with long service life, which comprises a machine base 1 and a stirring cup 2, wherein a motor 11 and a control panel (not shown in the figure) are arranged in the machine base 1, the stirring cup 2 comprises a cup body 21, a cup cover 22 covering the upper part of the cup body 21 and a cup base 23 arranged below the cup body 21, a cutter head component 3 is arranged between the bottom of the cup body 21 and the cup base 23, the cutter head component 3 comprises a metal disc 31 and a crushing cutter 32 arranged on the metal disc 31, the bottom of the metal disc 31 is provided with an installation cavity 311 for installing a bearing sleeve 33, the bottom of the metal disc 31 protrudes upwards to form an installation boss, the inner cavity of the installation boss is the installation cavity 311, a bearing 34 is arranged in the bearing sleeve 33, the crushing cutter 32 comprises a cutter shaft 321 and a cutter blade 322, the cutter blade 322 is arranged at the upper end of the cutter shaft 321, the connecting hole is the internal thread hole, arbor 321 lower extreme outside is equipped with the external screw thread, through the cooperation of being connected between internal thread hole and the external screw thread in order to be connected upper connector 35 and arbor 321 lower extreme together fixedly, motor 11 is equipped with the motor shaft, the motor shaft upper end be equipped with upper connector 35 complex lower connector, motor 11 rotates with drive crushing sword 32 through the cooperation between upper connector 35 and the lower connector to stir food, smash, thereby accomplish the preparation of food.

In this embodiment, the heat dissipating block 36 capable of rotating with the arbor 321 is sleeved on the arbor 321 between the bearing 34 and the upper connector 35, the heat dissipating block 36 has a through hole 361 for the arbor 321 to pass through, the heat dissipating block 36 is located below the bearing 34, and the fan blade part 362 is disposed at the periphery of the heat dissipating block 36, the fan blade part 362 is specifically provided with three fan blades evenly spaced along the circumferential direction of the heat dissipating block 36, such that when the arbor rotates, the heat dissipating block also rotates, the heat dissipating block forms a fan effect, the fan effect of the heat dissipating block sucks away the high temperature air around the arbor and the bearing, thereby taking away the heat of the arbor and the bearing and discharging the heat, thereby well ensuring the heat dissipating effect of the bearing, i.e. ensuring the lubricating effect of the bearing, reducing the wear, prolonging the service life of the bearing, further prolonging the service life of the whole food processor, and simultaneously, the bearing has good lubricating effect, and, the noise is low; moreover, the heat dissipating block 36 is shaped like a circular block, so that a fan effect can be better formed, and the air suction and exhaust effects of the heat dissipating block, that is, a good heat dissipating effect, can be ensured.

In order to improve the heat dissipation effect of the heat dissipation block, the two ends of the fan blade 362 can be provided with the wind sweeping surfaces 3621, the wind sweeping surfaces 3621 are spiral, the formation of the fan effect of the heat dissipation block is ensured, and when the heat dissipation block rotates at a high speed along with the cutter shaft, the wind exhausting direction of the spiral wind sweeping surfaces is downward, so that hot wind cannot pass through the bearing again to enable the bearing to absorb partial heat, namely, the hot wind is directly exhausted, and the heat dissipation effect of the bearing is well ensured.

In order to improve the heat dissipation efficiency of the heat dissipation block, a downward-inclined air guide cambered surface 363 can be arranged on the inner side surface of the heat dissipation block 36, the inclined direction of the air guide cambered surface 363 inclines towards the rotating direction of the crushing knife 32, the air guide cambered surface 363 is smoothly connected with the air sweeping surface 3621, hot air can be blown outwards better through the air guide cambered surface, the hot air is discharged from the lower part, and the heat dissipation effect and the heat dissipation efficiency are improved.

In order to ensure the working stability of the bearing, a limiting step 364 can be arranged on the upper end surface of the heat dissipation block 36, the bearing 34 is a rolling bearing, and the limiting step 364 is abutted against the inner ring of the rolling bearing, so that the locking force between the upper connector and the cutter shaft can be transmitted to the inner ring of the rolling bearing through the limiting step, thereby well playing a role in axially limiting and fixing the rolling bearing so as to ensure the working stability of the rolling bearing; of course, in order to further ensure the working stability of the bearing, a lower limiting step abutting against the upper end surface of the upper connector 35 may be provided on the lower end surface of the heat dissipation block 36.

In order to improve the heat dissipation effect of the bearing, the heat dissipation block 36 may be at least partially located in the bearing housing 33, so that the heat dissipation block is closer to the bearing, thereby better dissipating heat from the bearing, ensuring the heat dissipation effect of the bearing and prolonging the service life of the bearing.

It can be understood that, in order to improve the multifunctionality of the food processor, a heating device can be arranged outside the metal plate, so that the food processor has a heating function, the food processor can make soybean milk, rice paste, thick soup or porridge, and the multifunctionality of the food processor is improved, so that the user experience is improved.

Example two:

The difference between this embodiment and the first embodiment is that the heat dissipation block is disposed on the upper connection head.

in this embodiment, as shown in fig. 5, the structure of the heat dissipating block 36 is the same as that of the heat dissipating block in the first embodiment, that is, the heat dissipating block 36 is a circular block, the heat dissipating block 36 is disposed on the upper connector 35, the heat dissipating block 36 and the upper connector 35 are integrally formed, the heat dissipating block 36 rotates with the cutter shaft synchronously with the upper connector 35, and the through hole 361 of the heat dissipating block 36 is in clearance fit with the cutter shaft, that is, the heat dissipating block indirectly rotates with the cutter shaft through the upper connector, so that the heat dissipating block can also rotate, thereby forming a fan effect under the action of the fan blade portion, the fan sucks air to suck hot air away the hot air and discharge the hot air, that is, the bearing is cooled, so as to ensure the normal service.

It will be appreciated that the slug may also be secured to the upper connector by welding or gluing or screwing or snapping.

Other structures and advantages of the parts not described are the same as those of the first embodiment, and are not described in detail here.

Example three:

The present embodiment is different from the second embodiment in that the structure of the blade portion is different.

In this embodiment, as shown in fig. 6, the heat dissipating block 36 is in a circular plate shape and is located at the upper end of the upper connector 35, the heat dissipating block 36 and the upper connector 35 are integrally formed, of course, the through hole of the heat dissipating block 36 and the connecting hole of the upper connector 35 are integrated, the blade part is a plurality of inclined plane notches 365 arranged on the periphery of the heat dissipating block 36, the inclined plane notches 365 are specifically four and arranged at intervals along the circumferential direction of the heat dissipating block 36, so that when the heat dissipating block rotates along with the upper connector, the heat dissipating block passes through the inclined plane notches to form a fan effect, the fan sucks the heat of the cutter shaft and the bearing away and discharges the heat, thereby ensuring the heat dissipating effect of the bearing, and further ensuring the normal service life.

Other structures and advantages of the parts not described are the same as those of the embodiment, and are not described in detail here.

Example four:

the present embodiment is different from the second embodiment in that the structure of the blade portion is different.

In this embodiment, as shown in fig. 7, the heat dissipation block 36 is in a circular plate shape and is located at the upper end of the upper connector 35, the heat dissipation block 36 and the upper connector 35 are integrally formed, of course, the through hole of the heat dissipation block 36 and the connecting hole of the upper connector 35 are integrated, the blade part is a plurality of convex rib pieces 366 arranged at the upper end surface of the heat dissipation block 36, the convex rib pieces 366 are specifically four and are arranged at intervals along the circumferential direction of the upper end surface of the heat dissipation block 36, thus, when the heat dissipation block rotates along with the upper connector, the heat dissipation block passes through the plurality of convex rib pieces, so as to form a fan effect, the fan sucks the heat of the cutter shaft and the bearing away and discharges the heat, thereby ensuring the heat dissipation effect of the bearing, and further.

Other structures and advantages of the parts not described are the same as those of the embodiment, and are not described in detail here.

Example five:

The present embodiment is different from the second embodiment in that the structure of the blade portion is different.

In this embodiment, as shown in fig. 8, the upper connector 35 includes a body 351 and a transmission gear 352 disposed on the body 351, the heat dissipating block 36 is cylindrical and located at the upper end of the body 351, the heat dissipating block 36 and the body 351 are integrally formed, of course, the through hole of the heat dissipating block 36 and the connection hole of the upper connector 35 are integrated, the fan blade portion is a plurality of fan blades 367 disposed on the periphery of the heat dissipating block 36, the plurality of fan blades 367 and the transmission gear 352 are integrally connected and at least partially protrude out of the side wall of the transmission gear 352, wherein at least a portion of the side wall protruding out of the transmission gear can be referred to as the dotted line in fig. 8, the fan blade on the left side of the dotted line is the portion of the fan blade protruding out of the side wall of the transmission gear, the fan blades 367 are four and are uniformly spaced along the circumferential direction of the heat dissipating block 36, so that when the heat dissipating block rotates along, the fan induced drafts and siphons away the heat of arbor and bearing and discharge to guarantee the radiating effect of bearing, and then guarantee the normal life of bearing.

Other structures and advantages of the parts not described are the same as those of the embodiment, and are not described in detail here.

In addition to the preferred embodiments described above, other embodiments of the present invention are also possible, and those skilled in the art can make various changes and modifications according to the present invention without departing from the spirit of the present invention, which should fall within the scope of the present invention defined by the appended claims.

Claims (10)

1. The utility model provides a long service life's food preparation machine, including frame and stirring cup, be equipped with motor and control panel in the frame, the stirring cup includes the cup, the lid fits the bowl cover of cup top and locates the cup below the cup, be equipped with blade disc assembly between cup bottom and the cup, blade disc assembly includes the metal disc and locates the crushing sword on the metal disc, the bottom of metal disc is equipped with the installation cavity of installation bearing housing, be equipped with the bearing in the bearing housing, crushing sword includes arbor and blade, the arbor upper end is located to the blade, the arbor lower extreme passes the bearing, the arbor lower extreme is equipped with the connector, a serial communication port, the cover is equipped with the radiating block that can follow arbor pivoted on the arbor between bearing and the last connector, the radiating block is equipped with the through-hole that supplies the arbor to pass, the radiating block is located the bearing below.

2. The food processor of claim 1, wherein the fan blade portion has air-sweeping surfaces at opposite ends thereof, the air-sweeping surfaces being helical.

3. The food processor as defined in claim 2, wherein the inner side surface of the heat dissipating block is provided with a downwardly inclined air guiding curved surface, the inclined direction of the air guiding curved surface is inclined toward the rotation direction of the crushing blade, and the air guiding curved surface is smoothly connected with the air sweeping surface.

4. The food processor as defined in claim 1, wherein the upper end surface of the heat dissipating block is provided with a limiting step, the bearing is a rolling bearing, and the limiting step abuts against an inner ring of the rolling bearing.

5. The food processor of claim 1, wherein the heat slug is at least partially located within the bearing housing.

6. A food processor as claimed in any one of claims 2 to 5, wherein the heat slug is in interference engagement with the arbor through the through-hole such that the heat slug rotates synchronously with the arbor.

7. The food processor of claim 1, wherein the heat sink is disposed on the upper connector and rotates with the upper connector in synchronization with the arbor.

8. the food processor of claim 7, wherein the heat sink is disc-shaped and is positioned at an upper end of the upper connector, and the fan blade portion is a plurality of beveled notches formed in an outer periphery of the heat sink.

9. The food processor of claim 7, wherein the heat sink is disk-shaped and is disposed at an upper end of the upper connector, and the fan blade portion is a plurality of ribs disposed on an upper end surface of the heat sink.

10. The food processor of claim 7, wherein the upper connector includes a body and a plurality of teeth disposed on the body, the heat sink is cylindrical and disposed at an upper end of the body, the plurality of blades are disposed on a periphery of the heat sink, and the plurality of blades are integrally connected to the teeth and at least partially protrude from a sidewall of the teeth.