CN208973548U - A kind of heated type food processor that heating efficiency is high - Google Patents

Abstract

The utility model provides a kind of heated type food processor that heating efficiency is high, including base, motor and control panel in base, stirring cup, crushing knife, heating device, stirring cup includes cup body, the cup lid being covered on above cup body and the attachment base below cup body, bottom of cup is equipped with metal dish, metal dish is in bowl-shape, metal dish includes metal dish side wall and metal dish bottom wall, heating device is set on metal dish, graphite thermal conductive layer is equipped between metal dish and heating device, due to the good thermal conductivity of graphite thermal conductive layer, the cracking heat for generating heating device of energy quickly passs metal dish fastly, improve the heating efficiency of metal dish, to quickly to the slurries or heat foods in stirring cup, improve the processing efficiency of food processor, shorten the process time of food processor, namely reduce user's waiting Time enables a user to the quickly edible food processed, greatly improves the experience and satisfaction of user.

Description

A kind of heated type food processor that heating efficiency is high

Technical field

The utility model relates to field of food processing machines more particularly to a kind of heated type food processings that heating efficiency is high Machine.

Background technique

In existing heated type food processor, it is generally provided with heat-generating disc below stirring cup, when machine startup, fever Disk leads to the mode of heat transfer, by stirring cup slurries or warming foods to suitable temperature.

General heat-generating disc includes metal disk body, heat-conducting plate and heat-generating pipe, and heat-generating pipe heating power is to transfer heat to Heat-conducting plate, heat-conducting plate transfer heat to metal disk body again, though such mode can complete the heating to slurries or food, and it is such Mode low efficiency largely effects on the processing efficiency of food processor, and processing efficiency is low makes long processing time, and in this fast pace Life in, not only cannot save the time to user, also delay user time, leverage the usage experience of user.

Summary of the invention

The purpose of this utility model is to provide the good heated type food processor of a kind of heating efficiency height, user experience.

In order to achieve the above object, the utility model adopts the following technical solution: a kind of heated type that heating efficiency is high food Product processing machine including base, the motor in base and control panel, the stirring cup above base, is set in stirring cup Crushing knife, heating device, stirring cup includes cup body, the cup lid being covered on above cup body and the attachment base below cup body, Bottom of cup is equipped with metal dish, and for metal dish in bowl-shape, metal dish includes metal dish side wall and metal dish bottom wall, wherein it is described plus Thermal is set on metal dish, and graphite thermal conductive layer is equipped between metal dish and heating device.

Further, the heating device is heat-generating pipe, and heat-generating pipe includes tube body and is set to and manages intracorporal heating wire, tube body The interior insulating layer filled with separation heating wire and tube body.

Further, the graphite thermal conductive layer is coated on heat-generating pipe outside and is bonded setting with metal dish, outside metal dish Package board equipped with encapsulation graphite thermal conductive layer.

Further, the graphite thermal conductive layer fits in setting, heat-generating pipe outside metal dish and fits in graphite thermal conductive layer and set It sets.

Further, the heating device is electromagnetic coil.

Further, the graphite thermal conductive layer fits in setting outside metal dish, and encapsulation graphite guide is equipped with outside metal dish The package board of thermosphere, package board are magnetic conduction package board, and electromagnetic coil is set to the outside of package board.

Further, the graphite thermal conductive layer fits in setting outside metal dish, and electromagnetic coil is set to graphite thermal conductive layer It is external.

Further, the graphite thermal conductive layer is set to outside metal dish by coating or sintering.

Further, the heating device is only set on metal dish side wall；Alternatively, heating device is only set to metal dish bottom wall On；Alternatively, being equipped with the heating device on metal dish side wall and metal dish bottom wall.

Further, the surface that the metal dish is contacted with food is equipped with protective layer, and protective layer is Teflon layer or ceramics Layer or glaze layer.

After adopting the above technical scheme, the utility model has the advantages that

1, heating device is set on metal dish, and graphite thermal conductive layer is arranged between metal dish and heating device, due to The good thermal conductivity of graphite thermal conductive layer, the cracking heat for generating heating device of energy quickly pass metal dish fastly, improve gold The heating efficiency for belonging to disk, to quickly improve the processing of food processor to the slurries or heat foods in stirring cup Efficiency, shortens the process time of food processor, that is, reduces the time of user's waiting, enables a user to quickly edible The food processed greatly improves the experience and satisfaction of user.

2, heating device is heat-generating pipe, and heat-generating pipe includes tube body and is set to the intracorporal heating wire of pipe, is filled in tube body Separating the insulating layer of heating wire and tube body, the heating device of such structure is not only simple in structure, and it is easily processed into type, it heats simultaneously It is high-efficient.

3, graphite thermal conductive layer is coated on outside heat-generating pipe and is bonded setting with metal dish, and encapsulation stone is equipped with outside metal dish The package board of black heat-conducting layer, such graphite thermal conductive layer can greatly improve well by the heat transfer of heat-generating pipe to metal dish The thermal efficiency of metal dish, and graphite thermal conductive layer is encapsulated by package board and is fixed, guarantee the degree of packing of graphite thermal conductive layer, so that Graphite thermal conductive layer is conducted heat faster.

4, by fitting in graphite thermal conductive layer outside metal dish, and heat-generating pipe fits in setting outside graphite thermal conductive layer, In this way after heat-generating pipe fever, heat is directly passed to graphite thermal conductive layer, and graphite thermal conductive layer transfers heat to metal dish again, such Mode not only guarantees good heat transfer efficiency, and structure is simple, is easy to the processing system of metal dish, graphite thermal conductive layer and heat-generating pipe It makes.

5, heating device may be electromagnetic coil, be heated by way of electromagnetic heating to metal dish, and heating quickly, is imitated Rate is higher.

6, graphite thermal conductive layer fits in setting outside metal dish, and the encapsulation of encapsulation graphite thermal conductive layer is equipped with outside metal dish Plate, package board are magnetic conduction package board, and electromagnetic coil is set to the outside of package board, and such electromagnetic coil is powered and produces between package board Magnetisation field is to heat package board, and the heat of package board passes through graphite thermal conductive layer again and transfers heat to metal dish, Ci Zhongfang Formula heating efficiency is more preferable.

7, graphite thermal conductive layer fits in setting, electromagnetic coil outside metal dish and is directly arranged in the outside of graphite thermal conductive layer, this Sample electromagnetic coil is powered generates magnetic field so that graphite thermal conductive layer quickly heats between graphite thermal conductive layer, and graphite thermal conductive layer again will be hot Amount passes to metal dish, in metal dish slurries or food heat, the heating of such structure is more direct, more efficient.

8, graphite thermal conductive layer is set to outside metal dish by coating or sintering, facilitates the machine-shaping of graphite thermal conductive layer, High production efficiency.

It 9, can be according to different by the way that heating device to be set on metal dish side wall or on bottom wall or on side wall and bottom wall Structure designs different modes, guarantees the integrally-built reasonability of food processor, and guarantee the heating efficiency of heating device.

10, by the way that protective layer is arranged with the surface for contacting food in metal dish, and protective layer is Teflon layer or ceramics Layer or glaze layer, in this way in the roughness for reducing metallic disc surface, be not easy with food generate it is various react, food when heated, It will not be sticking, guarantee food cooking mouthfeel, be also convenient for the cleaning of metal dish.

Detailed description of the invention

The utility model is described in further detail with reference to the accompanying drawing:

Fig. 1 is the decomposition diagram of heated type food processor embodiment one described in the utility model.

Fig. 2 is the decomposition diagram of stirring cup in heated type food processor embodiment one described in the utility model.

Fig. 3 is the cross-sectional view of metal dish in heated type food processor embodiment one described in the utility model.

Fig. 4 is the enlarged drawing of A in Fig. 3.

Fig. 5 is the partial schematic diagram of metal dish in heated type food processor embodiment two described in the utility model.

Fig. 6 is the partial schematic diagram of metal dish in heated type food processor embodiment three described in the utility model.

Fig. 7 is the partial schematic diagram of metal dish in heated type food processor example IV described in the utility model.

Fig. 8 is the partial schematic diagram of metal dish in heated type food processor embodiment five described in the utility model.

Marked the names of the parts are as follows in figure:

1, base；2, stirring cup；21, cup body；211, handle；212, first handle lid；213, second handle lid；22, cup Lid；23, attachment base；3, crushing knife；4, heat-generating pipe；41, tube body；42, heating wire；43, insulating layer；5, metal dish；51, metal dish Side wall；52, metal dish bottom wall；6, graphite thermal conductive layer；7, electromagnetic coil；8, package board；9, protective layer；10, sealing ring.

Specific embodiment

Below in conjunction with drawings and the specific embodiments, the utility model is described in further detail.

Embodiment one:

As shown in Figures 1 to 4, the utility model provides a kind of heated type food processor that heating efficiency is high, including base 1, the motor (not shown) in base 1 and control panel (not shown), the stirring cup 2 above base 1, set In crushing knife 3, heating device in stirring cup 2, stirring cup 2 includes cup body 21, the cup lid 22 for being covered on 21 top of cup body and sets Attachment base 23 in 21 lower section of cup body, cup body 21 are glass cup body, and 21 side wall of cup body is equipped with handle 211, and handle 211 is also glass It handle and is integrally formed with cup body 21, is equipped with handle cover outside handle 211, handle cover is plastic handle lid and by first handle lid 212 and second handle lid 213 fasten, 21 bottom of cup body is equipped with metal dish 5, and for metal dish 5 in bowl-shape, metal dish 5 includes gold Belong to disk side wall 51 and metal dish bottom wall 52, crushing knife 3 is rotationally connected with the center of metal dish bottom wall 52, attachment base 23 and cup body 21 It is connected through a screw thread and fixes so that metal dish 5 to be clipped between 21 bottom of cup body and attachment base 23, certainly, metal dish 5 and cup body It is equipped with sealing ring 10 at 21 cooperations, to guarantee leakproofness between the two, slurries or food is avoided to leak out.

In the present embodiment, heating device is set on metal dish 5, and graphite thermal conductive layer is equipped between metal dish 5 and heating device 6, due to the good thermal conductivity of graphite thermal conductive layer, the cracking heat for generating heating device of energy quickly passs metal dish fastly, mentions The heating efficiency of metal dish is risen, to quickly improve food processor to the slurries or heat foods in stirring cup Processing efficiency, shorten the process time of food processor, that is, reduce the time of user's waiting, enable a user to fast The fast food food processed, greatly improves the experience and satisfaction of user.

Specifically, heating device is heat-generating pipe 4, heat-generating pipe 4 includes tube body 41 and the heating wire 42 in tube body 41, pipe Filled with the insulating layer 43 for separating heating wire 42 and tube body 41 in body 41, the heating device of such structure is not only simple in structure, easily In machine-shaping, while heating efficiency is high.

Graphite thermal conductive layer 6 is coated on 4 outside of heat-generating pipe and is bonded setting with metal dish 5, i.e. graphite thermal conductive layer 6 is coated on pipe The outside of body 41, is equipped with the package board 8 of encapsulation graphite thermal conductive layer 6 outside metal dish 5, and package board 8 is metal plate, package board 8 with Metal dish 5 is integrally welded, and such graphite thermal conductive layer can greatly improve well by the heat transfer of heat-generating pipe to metal dish The thermal efficiency of metal dish, and graphite thermal conductive layer is encapsulated by package board and is fixed, guarantee the degree of packing of graphite thermal conductive layer, so that Graphite thermal conductive layer is conducted heat faster.

In order to promote the thermal efficiency of metal dish, it is equipped with heating device on metal dish side wall 51 and metal dish bottom wall 52, It is equipped with heating tube, certainly, graphite thermal conductive layer 6 is also coated on metal dish side wall 51 and metal dish bottom wall 52, is arranged in this way It is advantageous in that, not only guarantees the integrally-built reasonability of food processor, and guarantee the heating efficiency of heating device.

It should be understood that heat-generating pipe can also be only set on metal dish side wall.

It should be understood that heat-generating pipe can also be only set on metal dish bottom wall.

Embodiment two:

The difference between this embodiment and the first embodiment lies in the surface that metal dish is contacted with food is equipped with protective layer.

In the present embodiment, as shown in figure 5, the surface that metal dish 5 is contacted with food is equipped with protective layer 9, protective layer 9 is specially Teflon layer, Teflon layer are coated on the surface of metal dish 5.

The advantage of this embodiment is that being not easy to generate with food materials various in this way in the roughness for reducing metallic disc surface Reaction, food materials when heated, will not be sticking, and guaranteed that food materials cook mouthfeel, are also convenient for the cleaning of metal dish.

It should be understood that protective layer may be ceramic layer or glaze layer.

Other not described part-structures and its advantages are the same as example 1, and are no longer repeated one by one here.

Embodiment three:

The difference between this embodiment and the first embodiment lies in graphite thermal conductive layer is different with the set-up mode of heat-generating pipe.

In the present embodiment, it is arranged as shown in fig. 6, graphite thermal conductive layer 6 fits in outside metal dish 5, graphite thermal conductive layer 6 is specific It is set to outside metal dish 5 by coating, heat-generating pipe 4 fits in the setting of graphite thermal conductive layer 6.

The advantage of this embodiment is that heat is directly passed to graphite thermal conductive layer, graphite heat conducting after such heat-generating pipe fever Layer transfer heat to metal dish again, such mode not only guarantees good heat transfer efficiency, and structure is simple, be easy to metal dish, The processing and manufacturing of graphite thermal conductive layer and heat-generating pipe.

It should be understood that the surface that metal dish is contacted with food also can be set protective layer, protective layer be Teflon layer or Ceramic layer or glaze layer.

It should be understood that graphite thermal conductive layer can also be set to outside metal dish by sintering.

Other not described part-structures and its advantages are the same as example 1, and are no longer repeated one by one here.

Example IV:

The difference between this embodiment and the first embodiment lies in heating device is different.

In the present embodiment, as shown in fig. 7, heating device is electromagnetic coil 7, graphite thermal conductive layer 6 is fitted in outside metal dish 5 It is arranged, the package board 8 of encapsulation graphite thermal conductive layer 6 is equipped with outside metal dish 5, package board 8 is magnetic conduction package board, and electromagnetic coil 7 is set In the outside of package board 8, package board 8 has coated metal dish side wall and metal dish bottom wall；Equally, the bottom wall of corresponding package board 8 and Side wall is also equipped with electromagnetic coil 7.

The advantage of this embodiment is that such electromagnetic coil, which is powered, generates magnetic field between package board to add package board Heat, and the heat of package board passes through graphite thermal conductive layer again and transfers heat to metal dish, such mode heating efficiency is more preferable.

It should be understood that the surface that metal dish is contacted with food also can be set protective layer, protective layer be Teflon layer or Ceramic layer or glaze layer.

It should be understood that electromagnetic coil can also be the equal of being located at metal dish side wall only on the side wall of package board It is external.

It should be understood that electromagnetic coil can also be the equal of being located at metal dish bottom wall only on the bottom wall of package board It is external.

Other not described part-structures and its advantages are the same as example 1, and are no longer repeated one by one here.

Embodiment five:

The difference of the present embodiment and example IV is that graphite thermal conductive layer is different with the set-up mode of electromagnetic coil.

In the present embodiment, it is arranged as shown in figure 8, graphite thermal conductive layer 6 fits in outside metal dish 5, graphite thermal conductive layer 6 is specific It is set to outside metal dish 5 by coating, electromagnetic coil 7 is set to the outside of graphite thermal conductive layer 6.

The advantage of this embodiment is that such electromagnetic coil is powered generates magnetic field so that graphite guide between graphite thermal conductive layer Thermosphere quickly heats, and graphite thermal conductive layer transfers heat to metal dish again, in metal dish slurries or food heat, Such structure heating is more direct, more efficient.

It should be understood that graphite thermal conductive layer can also be set to outside metal dish by sintering.

Other not described part-structures and its advantages are identical as example IV, no longer repeat one by one here.

In addition to above preferred embodiment, for the utility model there are also other embodiments, those skilled in the art can root It is made various changes and modifications according to the utility model, without departing from the spirit of the utility model, should belong to the utility model Range defined in appended claims.

Claims (10)

1. a kind of heated type food processor that heating efficiency is high, motor and control panel including base, in base are set to Stirring cup above base, the crushing knife in stirring cup, heating device, stirring cup include cup body, are covered on above cup body Cup lid and the attachment base below cup body, bottom of cup be equipped with metal dish, for metal dish in bowl-shape, metal dish includes metal dish Side wall and metal dish bottom wall, which is characterized in that the heating device is set on metal dish, is equipped between metal dish and heating device Graphite thermal conductive layer.

2. heated type food processor according to claim 1, which is characterized in that the heating device is heat-generating pipe, hair Heat pipe includes tube body and is set to the intracorporal heating wire of pipe, is filled with the insulating layer for separating heating wire and tube body in tube body.

3. heated type food processor according to claim 2, which is characterized in that the graphite thermal conductive layer is coated on fever It is bonded setting outside pipe and with metal dish, the package board of encapsulation graphite thermal conductive layer is equipped with outside metal dish.

4. heated type food processor according to claim 2, which is characterized in that the graphite thermal conductive layer fits in metal Setting outside disk, heat-generating pipe fit in graphite thermal conductive layer setting.

5. heated type food processor according to claim 1, which is characterized in that the heating device is electromagnetic coil.

6. heated type food processor according to claim 5, which is characterized in that the graphite thermal conductive layer fits in metal Setting outside disk, metal dish outside are equipped with the package board of encapsulation graphite thermal conductive layer, and package board is magnetic conduction package board, and electromagnetic coil is set In the outside of package board.

7. heated type food processor according to claim 5, which is characterized in that the graphite thermal conductive layer fits in metal Setting outside disk, electromagnetic coil are set to the outside of graphite thermal conductive layer.

8. the heated type food processor according to claim 4 or 7, which is characterized in that the graphite thermal conductive layer passes through painting It covers or is sintered and be set to outside metal dish.

9. heated type food processor according to claim 1, which is characterized in that the heating device is only set to metal dish On side wall；Alternatively, heating device is only set on metal dish bottom wall；Alternatively, being all provided on metal dish side wall and metal dish bottom wall State heating device.

10. heated type food processor according to claim 1, which is characterized in that the metal dish was contacted with food Surface is equipped with protective layer, and protective layer is Teflon layer or ceramic layer or glaze layer.