CN218219951U - Food processor with good heat dissipation effect - Google Patents

Abstract

The utility model relates to a kitchen cooking appliance, especially a food processor that radiating effect is good, include: a heat insulation seat; the frying cup is placed on the heat insulation seat in an exposed manner; the supporting column is fixed on one side of the heat insulation seat; the host is arranged on the support column and is arranged in a protruding manner towards one side of the heat insulation seat; the main machine comprises a shell and a main body, the shell is fixed on the support column, the main body is provided with an installation cavity, a heating device is arranged in the installation cavity, and the main body is matched with the frying cup during cooking; the lower extreme of main part has annular turn-ups, and annular turn-ups is used for sheltering from the installation gap between casing and the main part, is formed with the heat dissipation chamber between casing and the main part, is provided with the air outlet with heat dissipation chamber and outside atmosphere intercommunication on the annular turn-ups. The utility model discloses food processor's simple structure, manufacturing cost is lower, and deep-fry cup directly exposes, can not have the problem at clearance dead angle to, the main part radiating effect is good, does not scald one's hand.

Description

Food processor with good heat dissipation effect

Technical Field

The utility model relates to a kitchen cooking appliance, especially a food processor that radiating effect is good.

Background

The air fryer utilizes the principle of high-speed air circulation to change air into 'oil', quickly heat and embrittle food, and make delicious food similar to deep-fry. Like meat, seafood and pickled chips, can be made into delicious food with excellent mouthfeel without adding oil. If the food itself does not contain oil, like fresh vegetables, french fries, etc., the mouthfeel of a traditional frying practice can be made with a spoon of oil. Therefore, the food processor needs less oil, so that the cooked food is healthier and more popular with consumers.

The existing air fryer generally comprises a machine body, an installation cavity is arranged in the machine body, an opening through which the fryer can be inserted into the installation cavity is formed in one side of the machine body, and the user can install the fryer like a push-pull drawer when using the air fryer. Because only one side opening of installation cavity, the sediment is hidden to the dirt easily hiding in the installation cavity, has the dead angle of clearance, and the user can't clear up by oneself, does not clear up for a long time, breeds the bacterium easily, sends the peculiar smell, has food potential safety hazard. Meanwhile, when the existing air fryer cooks, the outer surface of the machine body is easy to scald hands.

SUMMERY OF THE UTILITY MODEL

The utility model aims to reach aims at providing a food processor that the radiating effect is good, this food processor's simple structure, manufacturing cost is lower, and deep-fry cup directly exposes, can not have the problem at clearance dead angle to, the main part radiating effect is good, does not scald one's hand, and, food processor's molding is unique, has overturned the perception that the consumer fried the pot to current air.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a food processor that radiating effect is good which characterized in that: the method comprises the following steps:

a heat insulation seat;

the frying cup is naked and placed on the heat insulation seat;

the lower end of the supporting column is fixed on one side of the heat insulation seat, and the upper end of the supporting column extends upwards;

the main machine is positioned above the frying cup, is arranged on the supporting column and is arranged in a protruding manner towards one side of the heat insulation seat;

the main machine comprises a barrel-shaped shell and a main body, the shell is fixed on the support column, the main body is arranged in the shell from a lower port of the shell, the main body is provided with an installation cavity with an opening at the lower end, a heating device is arranged in the installation cavity, and the opening at the lower end of the main body is matched with a cup opening of the frying cup during cooking; the lower extreme of main part has the annular turn-ups of outside extension, the annular turn-ups is used for sheltering from the installation gap between casing and the main part, wherein, be formed with the heat dissipation chamber between casing and the main part, and be provided with the air outlet with heat dissipation chamber and outside atmosphere intercommunication on the annular turn-ups.

Furthermore, the main body can be lifted relative to the shell, the air outlet is provided with a hidden position hidden in the shell and an exposed position exposed out of the shell, and during cooking, the air outlet is exposed out of the shell, and air in the heat dissipation cavity can be convected with the external atmosphere through the air outlet.

Further, the main part is including the bowl that forms the installation cavity and wrap up the heat exchanger that separates in the bowl outside, it is formed with the cold wind chamber to separate between heat exchanger and the bowl, and installs the thermantidote in the cold wind intracavity, it is provided with the intercommunicating pore with cold wind chamber and heat dissipation chamber intercommunication to separate to be provided with on the heat exchanger, wherein, the annular turn-ups sets up in the lower extreme that separates the heat exchanger.

Furthermore, a lifting mechanism for realizing the lifting of the main body relative to the shell is arranged between the shell and the main body.

Further, the host computer still includes the installing support, the installing support is supported by the casing, and the main part hoist and mount are on the installing support.

Furthermore, the top of the shell is provided with an inward flange, the flange is provided with a limiting hole, the mounting bracket is provided with a connecting column inserted into the limiting hole, a positioning step is arranged in the limiting hole, the connecting column is supported by the positioning step, and the main body is hoisted below the connecting column.

Further, the host computer still includes the rotary disk by the turn-ups support, rotary disk relative casing rotary motion, the installing support is located the top of rotary disk, and the main part is located the below of rotary disk, the spliced pole passes the rotary disk to be connected installing support and main part, the rotary disk is at rotatory in-process, drives the relative casing of main part and installing support and goes up and down.

Furthermore, a lifting chute and a sliding block which is inserted into the lifting chute and moves along the lifting chute are arranged between the rotating disk and the mounting bracket, the lifting chute is a rotating chute which is circumferentially arranged, the limiting hole limits circumferential rotation of the connecting column under the driving of the rotating disk, and the main body and the mounting bracket only do lifting movement in the shell.

Furthermore, a cover body connected with the rotating disk is arranged at the top of the mounting support, the mounting support is hidden between the rotating disk and the cover body by the cover body, a rotating handle is arranged on the cover body, and the rotating handle can be manually rotated to drive the rotating disk to rotate.

Furthermore, a clamping groove is formed in the rotating disc, clamping ribs inserted into the clamping groove are formed in the cover body, and the cover body is matched with the clamping groove through the clamping ribs to realize that the rotating handle is manually rotated to drive the rotating disc to rotate.

After adopting above-mentioned technical scheme, because the host computer is installed on the support column, and on the lower extreme of support column was fixed in thermal-insulated seat, simultaneously, the naked placing of fried cup was on thermal-insulated seat, consequently, can not have the dead angle, the user clearance also very convenience, the host computer also corresponding can not be because of the residue does not clear up in addition, and breed the problem of bacterium easily. Meanwhile, the main machine comprises a barrel-shaped shell and a main body arranged in the shell, the main body can lift relative to the shell, and the main body is matched with the frying cup when cooking is realized. The utility model discloses a be provided with the air outlet on food processor's the host computer, can realize the air in the host computer and outside atmospheric convection, the host computer radiating effect is good, can not have the problem of scalding one's hand. And, the utility model discloses food processor's structure is simplified, and user operation is convenient, has promoted user's use greatly and has experienced. In addition, the food processor of the utility model has the advantages of simple and beautiful appearance, lower manufacturing cost and subversion of the cognition of the consumer to the traditional air fryer.

Drawings

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

FIG. 1 is a schematic structural diagram of a first embodiment of a food processor according to the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic illustration of an exploded view of the food processor of FIG. 1;

FIG. 4 is a schematic structural view of a second embodiment of the food processor of the present invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 4;

FIG. 6 is a schematic illustration of an exploded view of the food processor of FIG. 4;

fig. 7 is a schematic view of the mounting structure of the rotary disk, the mounting bracket and the cover body in fig. 6.

Detailed Description

The first embodiment is as follows:

as shown in fig. 1, fig. 2, and fig. 3, the structure of the first embodiment of the present invention is schematically illustrated. A food processor comprising: a heat insulation base 1;

the frying cup 2 and the glass cup body are arranged on the heat insulation seat 1 in an exposed manner;

the lower end of the supporting column 3 is fixed on one side of the heat insulation seat 1, and the upper end of the supporting column 3 extends upwards;

and the main machine 4 is positioned above the frying cup 2, is arranged on the supporting column 3 and is arranged in a protruding manner towards one side of the heat insulation seat 1.

Host computer 4 includes casing 41 and installs the main part 42 in casing 41, casing 41 is the tubbiness to be fixed in on the support column 3, in casing 41 was packed into by casing 41's lower port to main part 42, just main part 42 had lower extreme open-ended installation cavity 401, wherein, installation cavity 401 formed the hot-blast chamber, and is provided with heating device 5 and hot-blast fan 61 in the installation cavity 401, hot-blast fan 61 is located heating device 5's top to blow towards fried cup 2 circulation, main part 42 is including forming installation cavity 401's bowl 421 and the thermal-insulated cover 422 of parcel in the bowl 421 outside, be formed with cold air chamber 402 between thermal-insulated cover 422 and the bowl 421, and install fan 62 in the cold air chamber 402, simultaneously, still be provided with on the thermal-insulated cover 422 and be used for driving hot-blast fan 61 and fan 62 pivoted motor 7, wherein, main part 42 is liftable to casing 41 for the time of realizing the culinary art, the lower extreme opening of main part 42 and the cup mouth sealing fit of fried cup 2. In this embodiment, the sealing ring 8 is fixed at the lower opening of the main body 42, and during cooking, the main body 42 descends relative to the housing 41 to press the sealing ring 8 against the frying cup 2.

In this embodiment, the lower end of the heat insulation cover 422 has an annular flange 4221 extending outwards, the annular flange 4221 is used for blocking a mounting gap between the casing 41 and the main body 42, wherein a heat dissipation chamber 403 is formed between the casing 41 and the main body 42, a communication hole 4220 for communicating the cold air chamber 402 with the heat dissipation chamber 403 is provided on the heat insulation cover 422, and an air outlet 4222 for communicating the heat dissipation chamber 403 with the outside atmosphere is provided on the annular flange 4221.

In the embodiment, the lifting mechanism 9 is disposed in the housing 41, and the lifting mechanism 9 can drive the main body 42 to lift in the housing 41, so as to realize the sealing engagement between the main body 42 and the frying cup 2. The lifting mechanism 9 includes a gear (not shown) and a rack (not shown) engaged with the gear, the gear is fixed on the housing 41, the rack is mounted on the main body 42, and the gear drives the rack to move axially, so that the main body 42 is lifted in the housing 41. In the process of lifting the main body 42 relative to the housing 41, the air outlet 4222 has a hidden position hidden in the housing 41 and an exposed position exposed to the housing 41, when cooking, the main body 42 is lowered relative to the housing 41, and at this time, the air outlet 4222 is exposed to the housing 41, and air in the heat dissipation cavity 403 can convect with the external atmosphere through the air outlet 4222.

Meanwhile, in the present embodiment, the heat insulation seat 1 includes a base 11 for supporting the frying cup 2 and a bottom plate 12 installed at the bottom of the base 11, wherein the base 11 and the bottom plate 12 enclose to form a heat insulation cavity 10, a positioning groove 110 is provided on the base 11, and the frying cup 2 is positioned in the positioning groove 110. The lower end of the supporting column 3 is provided with an installation plate 31 extending outwards, the base 11 is provided with a through hole 111, the upper end of the supporting column 3 penetrates out of the through hole 111 from the bottom of the base 11, and the installation plate 31 is fixed in a heat insulation cavity 10 formed by enclosing a bottom plate 12 of the base 11 through a screw a.

To this embodiment, because the host computer is installed on the support column, and the lower extreme of support column is fixed in on the thermal-insulated seat, simultaneously, the naked placing of fried cup is on the thermal-insulated seat, consequently, can not have the dead angle, the user clears up also convenience very, and the host computer is also corresponding can not clear up because of the residue in addition, and breed the problem of bacterium easily. Meanwhile, the main machine comprises a barrel-shaped shell and a main body arranged in the shell, the main body can lift relative to the shell, and when cooking is realized, the main body is matched with the frying cup in a sealing mode. The air outlet is formed in the main machine of the food processor, air in the main machine can be in convection with external atmosphere, the heat dissipation effect of the main machine is good, and the problem of scalding hands cannot occur. The food processor of the embodiment has the advantages of simplified structure and convenient operation of users, and greatly improves the use experience of the users. In addition, the food processor of the embodiment has the advantages of simple and attractive appearance, simple structure and lower manufacturing cost, and overturns the cognition of consumers on the traditional air fryer.

Moreover, for the embodiment, the air outlet is formed in the main body, so that convection between air in the heat dissipation cavity and the outside atmosphere can be realized. Meanwhile, the air outlet can also be arranged towards the frying cup, so that the outer wall of the frying cup can be cooled by air flow blown out from the air outlet, and the outer wall surface of the frying cup is not excessively hot. And greatly facilitates the operation of the consumers after cooking.

It should be noted that, in this embodiment, the casing of host computer is fixed with the support column, and is provided with elevating system between casing and the main part to realize that the main part is liftable relatively to the fried cup. The lifting mechanism is not limited to the meshing transmission of the gear and the rack in the embodiment. The lifting mechanism also can comprise a screw rod and a nut matched with the screw rod, the nut is fixed on the shell, the screw rod is installed on the main body, and the main body is driven by the screw rod to lift in the shell while rotating circumferentially relative to the shell. Or the lifting mechanism comprises a driving wheel and a driving rope, one end of the driving rope is connected with the main body, and the other end of the driving rope is driven by the driving wheel to lift, so that the main body can lift in the shell. In addition, the lifting mechanism can also be two pairs of magnets which are magnetically attracted, wherein one magnet is arranged on the shell, the other magnet is arranged on the main body, and the main body and the magnets on the main body are driven to lift and move together by moving the magnets on the shell. Of course, the lifting mechanism is not limited to the above-mentioned solution disclosed in this embodiment, and is also applicable to the solution that can realize the lifting of the main body relative to the housing in the prior art.

In the present embodiment, in order to raise and lower the main body with respect to the housing, a physical structure may be provided between the main body and the housing in addition to the raising and lowering mechanism. For example, one of the casing and the main body is provided with a lifting chute, the other one of the casing and the main body is provided with a sliding block capable of being inserted into the lifting chute, the lifting chute is a rotating chute arranged circumferentially, and the sliding block moves along the lifting chute to realize that the main body rotates relative to the casing and simultaneously lifts in the casing. Of course, when the main body is lifted by the lifting mechanism, the lifting mechanism may be an automatic lifting mechanism or a manual lifting mechanism. In addition, for the embodiment, the sealing fit between the main machine and the frying cup is not limited to the lifting of the main body in the main machine, and the lifting of the frying cup can also be used. For example, be provided with elevating system on thermal-insulated seat, drive through elevating system and fry the cup and go up and down, when also can realizing cooking, the host computer will fry the cup and press from both sides tightly on thermal-insulated seat. Besides, the heat insulation seat is provided with a lifting mechanism for driving the frying cup to lift, the frying cup can be of a lifting structure, for example, the frying cup comprises a positioning section placed on the heat insulation seat and a movable section which can move up and down relative to the positioning section, the movable section is fixed with the positioning section in a sleeved mode, and the top of the movable section forms a cup opening of the frying cup and is in sealing fit with the main machine.

It should also be noted that, in this embodiment, the positioning groove is provided on the heat insulation seat for the purpose of facilitating the placement of the frying cup by the user, and preventing the user from not placing the frying cup in place, and during the cooking process, the main body is not aligned with the frying cup when being lifted. Meanwhile, for the embodiment, the frying cup is positioned, and a space can be formed between the outer wall of the frying cup and the supporting column. For this embodiment, the distance between the frying cup and the support column is required to be no less than 3mm.

In this embodiment, be provided with the sealing washer between fried cup and the host computer to make host computer and fried cup sealing fit, the in-process of culinary art can not have hot-air between host computer and the fried cup and leak. Of course, the frying cup and the main machine can be not matched in a sealing mode, and even if a little hot air leaks out, the cooking effect of food is not affected. In this embodiment, the heating device may be an electric heating tube or a halogen tube. In addition, it should be noted that, in this embodiment, a heat dissipation air duct is disposed inside the support column, and the heat dissipation air duct is communicated with a heat insulation cavity in the heat insulation seat, wherein the heat insulation cavity is communicated with the external atmosphere through an air hole disposed on the bottom plate, so that heat inside the host can be dissipated to the external atmosphere through the heat dissipation air duct and the heat insulation cavity. Meanwhile, the heat insulation cavity can also effectively isolate the frying cup from the working table surface, so that the working table is prevented from being scalded by the overheated bottom wall of the frying cup. Of course, the heat insulation seat in the embodiment may also be a heat insulation plate.

It should be noted that, for this embodiment, the main body is supported by the supporting column, and the lower end of the supporting column is fixed on the heat insulation seat, so that the main body may have a risk of toppling. In order to solve the problem, the inventor finds that the vertical projection area of the heat insulation seat is preferably larger than that of the main machine, so that the problem that the food processor cannot tip over can be effectively guaranteed. Meanwhile, in order to prevent the food processor from tipping, the distance from the center of the main body to the support column also needs to be subjected to size control, and for the embodiment, the distance is required to be not more than 80mm, and when the distance is within 80mm, the probability of tipping of the food processor is low.

It should be noted that, in this embodiment, the mounting plate is fixed on the base through a screw, and of course, the mounting plate may also be fixed on the bottom plate through a screw, or the mounting plate is clamped and fixed with the bottom plate through the base. It should be noted that the above structure and the structural changes of the present embodiment can also be applied to other embodiments of the present invention.

The second embodiment:

as shown in fig. 4, 5, 6 and 7, the structure of the second embodiment of the present invention is schematically illustrated. The difference between the present embodiment and the first embodiment is: in this embodiment, the host further includes an installation support 44 supported by the housing 41, the main body 42 is hung on the installation support 44, wherein the top of the housing 41 is provided with an inward flange 411, the flange 411 is provided with a limiting hole 410, and the installation support 44 is provided with a connection post 444 inserted into the limiting hole 410, wherein a positioning step 4101 is provided in the limiting hole 410, the connection post 444 is supported by the positioning step 4101, and the main body 42 is hung on the connection post 444 through a screw b.

In this embodiment, the main body 4 further includes a rotary disk 43 supported by the flange 411, the rotary disk 43 is rotatably movable relative to the housing 41, the mounting bracket 44 is located above the rotary disk 43, the main body 42 is located below the rotary disk 43, the connecting column 444 penetrates through the rotary disk 43 to connect the mounting bracket 44 with the main body 42, the rotary disk 43 drives the main body 42 and the mounting bracket 44 to move up and down relative to the housing 41 during rotation, so that during cooking, the lower opening of the main body 42 is in sealing fit with the cup opening of the frying cup 2, and hot air is prevented from leaking out and insufficient cooking temperature is prevented.

In this embodiment, the mounting bracket 44 is provided with a lifting sliding groove 441, the rotating disc 43 is provided with a sliding block 431 inserted into the lifting sliding groove 441 and moving along the lifting sliding groove 441, the lifting sliding groove 441 is a rotating sliding groove arranged in the circumferential direction, the limiting hole 410 limits the circumferential rotation of the connecting post 444 under the driving of the rotating disc 43, and the main body 42 and the mounting bracket 44 only perform lifting movement in the housing 41. In addition, the lifting runner 441 is provided with an installation notch 442 into which the slider 431 can be installed.

In addition, in this embodiment, a cover 45 connected to the rotating disc 43 is disposed on the top of the mounting bracket 44, the mounting bracket 44 is hidden between the rotating disc 43 and the cover 45 by the cover 45, wherein a rotating handle 451 is disposed on the cover 45, a slot 432 is disposed on the rotating disc 43, a clamping rib 452 inserted into the slot 432 is disposed on the cover 45, and the cover 45 is matched with the slot 432 through the clamping rib 452 to manually rotate the rotating handle 451 to drive the rotating disc 43 to rotate, so that the main body 42 is lifted relative to the housing 41.

For the present embodiment, the same advantageous effects as the present embodiment are obtained. The air outlet that sets up in the main part can realize the air and the outside atmosphere convection current of the heat dissipation intracavity between casing and the main part, and the effectual main part that dispels the heat. And the air flow blown out from the air outlet can also blow and cool the outer wall of the frying cup, thereby greatly facilitating the operation of consumers.

It should be noted that, in this embodiment, the housing of the main body is fixed to the supporting column, and the main body can be lifted relative to the housing, wherein, there are many lifting structures of the main body relative to the housing, which are not limited to the lifting chute provided on the mounting bracket in this embodiment, and the slider provided on the rotating disk, and the two can be arranged in opposite directions.

For this embodiment, the main body is suspended from the mounting bracket, and the mounting bracket is supported by the flange of the housing. Therefore, the rotating disk may not be required in this embodiment, regardless of the structure of the main body. Even if the main body and the housing are lifted, the rotary disk may not be provided in this embodiment. For example, a lifting chute is arranged between the shell and the main body, and a sliding block is arranged on the other one of the shell and the main body, so that the main body can be lifted relative to the shell, but at the moment, the main body can also rotate while being lifted. It should be noted that, for the main body of the present embodiment, the lifting can be performed automatically or manually.

It should be noted that, in this embodiment, the housing may not be provided with a limiting hole to limit the circumferential rotation of the main body and the mounting bracket, and at this time, the main body and the mounting bracket are driven by the rotating disk to rotate and simultaneously lift relative to the housing. Of course, in this embodiment, the limiting structure for limiting the circumferential rotation of the main body and the mounting bracket is not limited to the limiting hole in this embodiment, and other limiting rotation-stopping structures may be used, such as a rotation-stopping groove provided on the housing, a rotation-stopping rib inserted into the rotation-stopping groove provided on the mounting bracket, and the like. Similarly, it should be noted that the above structural changes of the present embodiment can also be applied to other embodiments of the present invention.

It will be appreciated by those skilled in the art that the present invention includes, but is not limited to, those illustrated in the drawings and described in the detailed description above. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (10)

1. The utility model provides a food processor that radiating effect is good which characterized in that: the method comprises the following steps:

a heat insulation seat;

the frying cup is placed on the heat insulation seat in an exposed manner;

the lower end of the supporting column is fixed on one side of the heat insulation seat, and the upper end of the supporting column extends upwards;

the main machine is positioned above the frying cup, is arranged on the support column and protrudes towards one side of the heat insulation seat;

the main machine comprises a barrel-shaped shell and a main body, the shell is fixed on the support column, the main body is arranged in the shell from a lower port of the shell, the main body is provided with an installation cavity with an opening at the lower end, a heating device is arranged in the installation cavity, and the opening at the lower end of the main body is matched with a cup opening of the frying cup during cooking; the lower extreme of main part has the annular turn-ups of outside extension, the annular turn-ups is used for sheltering from the installation gap between casing and the main part, wherein, be formed with the heat dissipation chamber between casing and the main part, and be provided with the air outlet with heat dissipation chamber and outside atmosphere intercommunication on the annular turn-ups.

2. The food processor with good heat dissipation effect of claim 1, characterized in that: the main part is liftable relative to the shell, the air outlet is provided with a hidden position hidden in the shell and an exposed position exposed out of the shell, and during cooking, the air outlet is exposed out of the shell, and air in the heat dissipation cavity can be convected with the external atmosphere through the air outlet.

3. The food processor with good heat dissipation effect of claim 2, characterized in that: the main part is including the bowl that forms the installation cavity and wrap up the heat exchanger that separates in the bowl outside, it has the cold wind chamber to separate to be formed with between heat exchanger and the bowl, and installs the thermantidote in the cold wind chamber, it is provided with the intercommunicating pore with cold wind chamber and heat dissipation chamber intercommunication to separate to cover, wherein, the annular turn-ups sets up in the lower extreme that separates the heat exchanger.

4. The food processor with good heat dissipation effect of claim 2, wherein: and a lifting mechanism for realizing the lifting of the main body relative to the shell is arranged between the shell and the main body.

5. The food processor with good heat dissipation effect of claim 1, wherein: the host computer still includes the installing support, the installing support is supported by the casing, and the main part hoist and mount are on the installing support.

6. The food processor with good heat dissipation effect of claim 5, wherein: the top of the shell is provided with an inward flange, the flange is provided with a limiting hole, the mounting bracket is provided with a connecting column inserted into the limiting hole, a positioning step is arranged in the limiting hole, the connecting column is supported by the positioning step, and the main body is hoisted below the connecting column.

7. The food processor with good heat dissipation effect of claim 6, wherein: the host computer still includes the rotary disk by the turn-ups support, rotary disk relative casing rotatable motion, the installing support is located the top of rotary disk, and the main part is located the below of rotary disk, the spliced pole passes the rotary disk to be connected installing support and main part, the rotary disk drives the relative casing of main part and installing support and goes up and down at rotatory in-process.

8. The food processor with good heat dissipation effect of claim 7, characterized in that: the lifting sliding groove is circumferentially arranged, the limiting hole limits circumferential rotation of the connecting column under the driving of the rotating disk, and the main body and the mounting bracket only do lifting motion in the shell.

9. The food processor with good heat dissipation effect of claim 7, characterized in that: the top of installing support is provided with the lid of being connected with the rotary disk, the lid hides the installing support between rotary disk and lid, wherein, is provided with rotatory handle on the lid, and the rotatory handle of manual rotation can drive the rotary disk and rotate.

10. The food processor with good heat dissipation effect of claim 9, wherein: the rotary disc is provided with a clamping groove, the cover body is provided with a clamping rib inserted into the clamping groove, and the cover body is matched with the clamping groove through the clamping rib to realize that the rotary handle is manually rotated to drive the rotary disc to rotate.

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