CN218219952U - Anti-loosening food processor - Google Patents

Abstract

The utility model relates to a kitchen cooking appliance, especially a locking food processor that moves, include: 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 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 machine is matched with the cup opening of the frying cup during cooking; the lower end of the supporting column is provided with an installation plate extending outwards, and the supporting column is fixed on the heat insulation seat through the installation plate. The utility model discloses food processor's simple structure, manufacturing cost is lower to, fried cup directly exposes, and the host computer will fry the cup centre gripping with heat-insulating seat together, realizes cooking, consequently can not have the problem at clearance dead angle, and the user clearance is convenience very also, and in addition, food processor's mounting structure is compact, can not appear not hard up problem.

Description

Anti-loosening food processor

Technical Field

The utility model relates to a kitchen cooking appliance, in particular to a locking food processor.

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, chips, etc., the mouthfeel of a traditional frying method can be made with a scoop 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 fryer is installed like a push-pull drawer when a user uses 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.

SUMMERY OF THE UTILITY MODEL

The utility model aims to reach aims at providing a food processor, this food processor's simple structure, manufacturing cost is lower to, deep-fry cup directly exposes, and the host computer will be fried the cup centre gripping with thermal-insulated seat together, realizes cooking, consequently can not have the problem at clearance dead angle, and the user clears up convenience very also, and in addition, food processor's mounting structure is compact, can not appear not hard up problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a locking food processor that moves 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 support column, and is arranged in a protruding manner towards one side of the heat insulation seat, the main machine 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 machine is matched with the cup opening of the frying cup during cooking;

the lower end of the supporting column is provided with an installing plate extending outwards, and the supporting column is fixed on the heat insulation seat through the installing plate.

Further, thermal-insulated seat includes the base and installs in the bottom plate of base bottom, the base encloses with the bottom plate and closes to be formed with thermal-insulated chamber, the support column runs through the base setting, and the mounting panel is fixed in thermal-insulated intracavity.

Further, the mounting plate is clamped and fixed by the base and the bottom plate;

alternatively, the base plate is fixed to the base or the base plate by screws.

Furthermore, a heat insulation cavity is arranged in the heat insulation seat, a hollow channel is arranged in the support column, one end of the channel is communicated with the host, and the other end of the channel is communicated with the heat insulation cavity.

Furthermore, the channel is an air outlet channel, air holes for communicating the heat insulation cavity with the external atmosphere are formed in the cavity wall of the heat insulation cavity, and heat in the host machine can be dissipated to the external atmosphere through the air outlet channel, the heat insulation cavity and the air holes;

or the channel is a wiring channel, the peripheral wall of the heat insulation cavity is provided with a wire passing opening, and a power wire electrically connected with the heating device extends out of the outer part through the wiring channel, the heat insulation cavity and the wire passing opening.

Further, the passageway includes the air-out passageway and walks the line passageway, be provided with the bleeder vent with thermal-insulated chamber and outside atmosphere intercommunication on the chamber wall in thermal-insulated chamber, wherein, the power cord of being connected with the heating device electricity stretches out the thermal-insulated seat outside through walking the line passageway with thermal-insulated chamber, and the heat in the host computer distributes to outside atmosphere through air-out passageway, thermal-insulated chamber and bleeder vent.

Furthermore, the air outlet channel and the wiring channel are the same channel;

or the air outlet channel and the wiring channel are separated by an isolation rib, and the isolation rib is integrally formed on the support column.

Furthermore, a lifting mechanism is arranged on the main machine or the heat insulation seat, the main machine and the frying cup can axially move relatively through the lifting mechanism, and the frying cup is matched with the main machine when cooking is realized;

or the frying cup comprises a positioning section and a movable section, wherein the positioning section is placed on the heat insulation seat, the movable section can move up and down relative to the positioning section, the movable section is fixedly sleeved with the positioning section, and the top of the movable section forms a cup opening of the frying cup and is matched with the host;

or the distance from the center of the host to the support column is L2, wherein L2 is not more than 80mm.

Furthermore, a positioning groove is formed in the heat insulation seat, and the frying cup is positioned in the positioning groove.

Further, when the frying cup is placed in the positioning groove, the distance between the outer wall of the frying cup and the supporting column is L1, wherein L1 is not less than 3mm.

After the technical scheme is adopted, the main machine is arranged on the support column, the lower end of the support column is fixed on the heat insulation seat, and meanwhile, the frying cup is placed on the heat insulation seat in an exposed mode, so that the main machine is matched with the frying cup in a sealing mode when cooking is achieved. Compare in current air fryer, the utility model discloses an it exposes in the host computer outside to explode the cup, consequently, can not have the dead angle, and the user clears up also convenience very. And the host machine can not breed bacteria easily because the residue is not cleaned correspondingly. Meanwhile, because the frying cup is of an exposed structure, the frying cup does not need to be installed on the inner side of the main machine, the frying cup is simpler to place, especially when the frying cup is of a transparent structure, a user can directly see through the frying cup to observe the whole cooking process, and the use experience of the user is greatly improved. Additionally, the utility model discloses a food processor, the molding is succinct, pleasing to the eye to, the structure is also simple, and manufacturing cost is lower, and the support column installation is firm, has not only overturned the perception of consumer to the fried pot of traditional air, and not hard up problem can not take place for the support column yet.

Drawings

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

FIG. 1 is a schematic cross-sectional view of a food processor according to the present invention;

FIG. 2 is a diagram illustrating the operation of the food processor of the present invention;

FIG. 3 is a schematic view of the exploded structure of the food processor of the present invention;

fig. 4 is a schematic structural view of the bottom of the support column in fig. 1.

Detailed Description

The embodiment is as follows:

as shown in fig. 1, fig. 2, fig. 3, and fig. 4, which are schematic structural diagrams of an embodiment of the present invention. 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;

the main machine 4 is positioned above the frying cup 2, is installed on the supporting column 3 and protrudes towards one side of the heat insulation seat 1, the main machine 4 is provided with an installation cavity 40 with an opening at the lower end, a heating device 5 and a hot air fan 6 are arranged in the installation cavity 40, the hot air fan 6 is positioned above the heating device 5 and blows air circularly towards the frying cup 2, and a motor 7 for driving the hot air fan 6 to rotate is further arranged in the main machine 4;

during cooking, the frying cup 2 is clamped between the main machine 4 and the heat insulation seat 1, and the cup opening of the frying cup 2 is in sealing fit with the lower end opening of the mounting cavity 40.

In this embodiment, the host 4 is movably mounted on the supporting column 3, and the host 4 can move up and down relative to the supporting column 3. The frying cup is characterized in that a slide way (not shown in the figure) and a driving device (not shown in the figure) are arranged on the supporting column 3, the main machine 4 is installed on the slide way, the driving device is used for driving the main machine 4 to move on the slide way so as to realize the movement of the main machine 4 relative to the frying cup 2, a sealing ring 8 is further fixed at an opening at the lower end of the main machine 4, the main machine 4 moves along the slide way under the driving of the driving device to compress the sealing ring 8 onto the frying cup 2, and when cooking is realized, the main machine 4 compresses the sealing ring 8 onto the frying cup 2.

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.

In this embodiment, the supporting column 3 has a hollow channel 30, wherein the channel 30 includes an air outlet channel 301 and a routing channel 302, the air outlet channel 301 and the routing channel 302 are separated by a spacer rib 32, and the spacer rib 32 is integrally formed on the supporting column 3. The bottom plate 12 is provided with an air vent 120 communicated with the outside atmosphere, and the base 11 is provided with a wire passing notch 112. The power cord 9 electrically connected to the heating device 5 extends out of the heat insulation seat 1 through the wiring channel 302 and the heat insulation cavity 10 and the wire passing notch 112, and the heat in the main unit 4 is dissipated to the outside atmosphere through the air outlet channel 301, the heat insulation cavity 10 and the air holes 120.

For this embodiment, because the main machine is installed on the support column, and the lower extreme of support column is fixed in on the heat-insulating seat, simultaneously, the fried cup is naked to be placed on the heat-insulating seat, when realizing cooking, the main machine will fry the cup centre gripping with the heat-insulating seat together. Compared with the existing air fryer, the frying cup of the embodiment is exposed outside the main machine, so that dead corners can not exist, and the user can clean the frying cup very conveniently. And the host machine can not breed bacteria easily because the residue is not cleaned correspondingly. Meanwhile, because the frying cup is of an exposed structure, the frying cup does not need to be installed on the inner side of the host, the frying cup is simpler to place, and the frying cup is of a glass cup body structure, so that a user can directly see through the frying cup to observe the whole cooking process, and the use experience of the user is greatly improved. In addition, the food processor of this embodiment, the molding is succinct, pleasing to the eye to, the structure is also simple, and manufacturing cost is lower, has overturned the cognition of consumer to traditional air fryer, and moreover, the support column installation in this embodiment is firm, can not take place the problem of pine and take off.

It should be noted that, in this embodiment, the lifting mechanism provided on the main frame is not limited to automatically realize lifting by the driving device, and may also be a first mounting position where the main frame is matched with the frying cup and a second mounting position where the main frame is separated from the frying cup, where the main frame is manually switched between the first mounting position and the second mounting position. Certainly, to this embodiment, realize the sealed cooperation of host computer and fried cup, also not be limited to the host computer and go up and down, also can fry the cup and go up and down, for example, be provided with elevating system on heat-insulating seat, drive through elevating system and fry the cup and go up and down, also can realize when culinary art, the host computer will fry the cup and press from both sides tightly on heat-insulating seat. Besides, the heat insulation seat is provided with a lifting mechanism for driving the frying cup to lift, the frying cup can also be provided with 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 sleeved and fixed with the positioning section, and the top of the movable section forms a cup opening of the frying cup and is in sealing fit with the host machine.

It should also be noted that, in this embodiment, the positioning groove is formed in the heat insulation seat, so as to facilitate the placement of the frying cup by a user, and prevent the frying cup from not being placed in place by the user, and the main machine is not aligned with the frying cup when being lifted or lowered during the cooking process. 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 the present embodiment, the distance between the frying cup and the support column is L1, wherein L1 is required to be not 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. The heating device may be an electric heating tube or a halogen tube. In addition, it should be noted that, in this embodiment, because the support column has the heat dissipation air duct inside, the heat dissipation air duct is communicated with the heat insulation cavity in the heat insulation seat, wherein the heat insulation cavity is communicated with the external atmosphere through the air holes formed in the bottom plate, so that the 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 insulate 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.

In addition, for the present embodiment, the main body is supported by the supporting pillar, and the lower end of the supporting pillar 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 L2 from the center of the main body to the support column also needs to be controlled, for the embodiment, L2 is required to be not more than 80mm, and when the distance L2 is within 80mm, the possibility of tipping of the food processor is low.

It should be noted that, in this embodiment, the mounting plate is fixed on the base by screws, and of course, the mounting plate may also be fixed on the bottom plate by screws, or the mounting plate is clamped and fixed with the bottom plate by the base. Moreover, in this embodiment, the air outlet channel is separated from the wiring channel by the isolation rib arranged on the support column, so as to prevent the power line in the wiring channel from being scalded or scalded by the heat in the air outlet channel. Of course, if the power line is a high temperature resistant power line, or the heat passing through the air outlet channel is low, the air outlet channel and the routing channel may be the same channel.

It should be noted that those skilled in the art will appreciate that the present invention includes, but is not limited to, those illustrated in the accompanying drawings and described in the foregoing detailed description. 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 locking food processor that moves 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 support column and protrudes towards one side of the heat insulation seat, the main machine 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 machine is matched with the cup opening of the frying cup during cooking;

the lower end of the supporting column is provided with an installing plate extending outwards, and the supporting column is fixed on the heat insulation seat through the installing plate.

2. The anti-loosening food processor of claim 1, wherein: the heat insulation seat comprises a base and a bottom plate installed at the bottom of the base, a heat insulation cavity is formed by the base and the bottom plate in a surrounding mode, the supporting column penetrates through the base, and the mounting plate is fixed in the heat insulation cavity.

3. The anti-loosening food processor defined in claim 2 wherein: the mounting plate is clamped and fixed by the base and the bottom plate;

alternatively, the mounting plate is fixed to the base or the bottom plate by screws.

4. The anti-loosening food processor of claim 1, wherein: a heat insulation cavity is arranged in the heat insulation seat, a hollow channel is arranged in the support column, one end of the channel is communicated with the host, and the other end of the channel is communicated with the heat insulation cavity.

5. The anti-loosening food processor of claim 4, wherein: the channel is an air outlet channel, air holes for communicating the heat insulation cavity with the external atmosphere are formed in the cavity wall of the heat insulation cavity, and heat in the host machine can be dissipated to the external atmosphere through the air outlet channel, the heat insulation cavity and the air holes;

or the channel is a wiring channel, a wire passing port is formed in the peripheral wall of the heat insulation cavity, and a power line electrically connected with the heating device extends out of the heat insulation cavity through the wiring channel and the wire passing port.

6. The anti-loosening food processor defined in claim 4 wherein: the passageway includes the air-out passageway and walks the line passageway, be provided with the bleeder vent that communicates thermal-insulated chamber and outside atmosphere on the chamber wall in thermal-insulated chamber, wherein, the power cord of being connected with heating device electricity stretches out the thermal-insulated seat outside through walking the line passageway with thermal-insulated chamber, and the heat in the host computer distributes to the outside atmosphere through air-out passageway, thermal-insulated chamber and bleeder vent.

7. The anti-loosening food processor of claim 6, wherein: the air outlet channel and the wiring channel are the same channel;

or the air outlet channel and the wiring channel are separated by an isolation rib, and the isolation rib is integrally formed on the support column.

8. The anti-loosening food processor of claim 1, wherein: the host machine or the heat insulation seat is provided with a lifting mechanism, the host machine and the frying cup can axially move relatively through the lifting mechanism, and the frying cup is matched with the host machine when cooking is realized;

or the frying cup comprises a positioning section and a movable section, wherein the positioning section is placed on the heat insulation seat, the movable section can move up and down relative to the positioning section, the movable section is fixedly sleeved with the positioning section, and the top of the movable section forms a cup opening of the frying cup and is matched with the host;

or the distance from the center of the host to the support column is L2, wherein L2 is not more than 80mm.

9. The anti-loosening food processor of claim 1, wherein: the heat insulation seat is provided with a positioning groove, and the frying cup is positioned in the positioning groove.

10. The anti-loosening food processor of claim 9, wherein: when the frying cup is placed in the positioning groove, the distance between the outer wall of the frying cup and the supporting column is L1, wherein L1 is not less than 3mm.

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