CN211609126U - Scald-proof cooking machine - Google Patents

Abstract

The utility model discloses a prevent scalding machine of cooking belongs to food processing technology field, and aim at overcomes the defect that the dish scald-proof structure life-span that generates heat is short among the current machine of cooking. The dish machine that generates heat is equipped with thermal-insulated structure including the dish that generates heat, and thermal-insulated structure includes the panel, and the panel has the panel outer edge that extends to the dish outside that generates heat, and the panel sets up and fixed connection with the dish components of a whole that can function independently that generates heat. The utility model provides a prevent scalding machine of cooking directly follows as the dish that generates heat with thermal-insulated structure, replaces the connecting portion that turns up of original dish that generates heat with the thermal-insulated structure that has the outer edge of panel, need not to follow at the panel outward and additionally set up thermal-insulated structure, avoids the panel to follow outer thermal-insulated structural deformation outward and influence thermal-insulated effect and pleasing to the eye phenomenon, improves the life of preventing scalding the structure.

Description

Scald-proof cooking machine

Technical Field

The utility model belongs to the technical field of food processing, a prevent scalding machine of cooking is related to.

Background

The dish frying machine generally comprises a heating plate and a heat shield surrounding the outer side of the heating plate, and when the heat shield rotates along with the heating plate, an everting connecting part is arranged at the upper end of the heating plate and connected with the upper end of the heat shield. The dish that generates heat is the heat-generating body, can produce higher culinary art temperature, also can have higher temperature naturally with the integrative connecting portion that sets up of dish that generates heat, and connecting portion expose the easy user of scalding outward. Among the prior art, in order to prevent that connecting portion from scalding the user, set up one deck silica gel circle on connecting portion, the silica gel circle is pushed down through the clamp plate, and the clamp plate passes through the fix with screw on the connecting portion of dish that generates heat. The anti-scalding structure has the following defects that the silica gel ring is easy to be heated and deformed, the expansion caused by heat and the contraction caused by cold are obvious, the anti-scalding effect is easy to be attenuated, the service life is short, the silica gel ring is exposed, and the appearance is influenced after the silica gel ring is deformed.

Disclosure of Invention

The utility model provides a prevent scalding machine of cooking to the problem that prior art exists, aim at overcome the defect that the dish scald preventing structure life-span that generates heat is short among the current machine of cooking.

The utility model discloses a realize like this:

the utility model provides a prevent scalding fried dish machine, includes the dish that generates heat, its characterized in that, the upper end that generates heat the dish is equipped with thermal-insulated structure, thermal-insulated structure includes the panel, the panel have to generate heat the panel outer edge that extends outside the dish, the panel with generate heat a components of a whole that can function independently setting and fixed connection. The heat insulation structure with the panel outer edge replaces the connection portion that turns up of original dish that generates heat, need not to set up heat insulation structure along additionally outside the panel, avoids the panel outer edge outer heat insulation structure to warp and influence thermal-insulated effect and pleasing to the eye phenomenon, improves scald preventing structure's life.

Preferably, the panel is provided with a fixing part, the fixing part is protruded downwards relative to the outer edge of the panel, the upper end of the heating plate is provided with a flanging which is turned outwards, and the fixing part and the flanging can be detachably and fixedly connected. The panel and the heating plate can be stably butted by the aid of the fixing portions and the flanges.

Preferably, the fixing portion is provided with a screw hole with a downward opening, the flange is provided with a first through hole, and the panel is fixed on the heating plate through a screw which penetrates through the first through hole and is screwed into the screw hole. The fixed part is favorable for setting up darker screw, the panel of being convenient for and the dish stable connection that generates heat.

Preferably, the heat insulation structure further comprises a heat insulation ring arranged between the fixing portion and the flange, a second through hole is formed in the heat insulation ring, the second through hole corresponds to the first through hole and the screw hole, and the screw penetrates through the second through hole. The heat insulation ring can improve the heat insulation effect and reduce the heat insulation requirement of the panel.

Preferably, the side wall of the heating plate is provided with a support rib, the upper end of the support rib is abutted to the lower end face of the flange, the lower end of the support rib is provided with a mounting groove, and a heating tube is arranged in the mounting groove. The support rib can strengthen the intensity of the flanging, improve the stability of connection of the flanging and the fixing part, and the installation groove is convenient for positioning the heating tube.

Preferably, a cavity with a downward opening is formed in the fixing portion, a connecting rib is arranged in the cavity, and the upper surface of the heat insulation ring abuts against the connecting rib. The contact area between the thermal-insulated circle of splice bar can reduce and insulate against heat and the panel slows down heat-conduction between the two, improves thermal-insulated effect.

Preferably, the connecting rib is provided with a plurality of strips which are distributed in the concave cavity at equal intervals. Therefore, all parts of the heat insulation ring can be supported in a balanced manner, and the connection stability is improved.

Preferably, the lower surface of the outer edge of the panel is provided with a convex part protruding downwards, the convex part and the fixing part enclose a groove together, the cooking machine comprises a heat insulation cover surrounding the outer side of the heating plate, and the upper end of the heat insulation cover is embedded into the groove. This results in a better seal between the heat shield and the panel to improve the heat shield effect of the heat shield.

Preferably, the lower surface on the outer edge of panel has downward bellied protruding muscle, protruding muscle has many and equidistant distribution and is in the recess, the upper end of insulating boot supports on the protruding muscle, form annular breach in the lateral wall of the upper end portion of insulating boot, the convex part inlays in the annular breach, the outer wall of convex part with the outer wall parallel and level of insulating boot. The protruding muscle can increase the panel and separate the friction between the heat exchanger, is favorable to separating the heat exchanger and rotates along with the dish that generates heat more steadily, and the convex part is convenient for separate heat exchanger, the whole assembly of dish that generates heat with the outer wall that separates the heat exchanger parallel and level.

Preferably, the cooking machine comprises a housing enclosing the outer side of the heat shield, a rotating gap exists between the housing and the heat shield, the outer edge of the panel is provided with a shielding part extending outwards, and the shielding part is shielded above the rotating gap. Thus, foreign matters can be prevented from entering the cooker from the rotating gap between the shell and the heat shield.

The utility model provides a prevent scalding machine of cooking directly follows as the dish that generates heat with thermal-insulated structure, replaces the connecting portion that turns up of original dish that generates heat with the thermal-insulated structure that has the outer edge of panel, need not to follow at the panel outward and additionally set up thermal-insulated structure, avoids the panel to follow outer thermal-insulated structural deformation outward and influence thermal-insulated effect and pleasing to the eye phenomenon, improves the life of preventing scalding the structure.

Drawings

FIG. 1 is a schematic structural view of a part of a structural section of a cooker;

FIG. 2 is an exploded view of a part of the structure of the cooker;

FIG. 3 is a schematic sectional view of the heat shield and the heating plate in an assembled relationship;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a schematic structural diagram of a panel;

fig. 6 is a schematic structural view of the heating plate.

Reference is made to the accompanying drawings in which: 100. a housing; 200. a housing; 210. a rotational clearance; 300. a heat shield; 310. an annular gap; 400. a heating plate; 410. a heat generating tube; 420. flanging; 421. a first through hole; 422. a convex column; 430. a limiting groove; 440. supporting ribs; 500. an inner container; 600. a panel; 610. a panel outer edge; 611. a convex portion; 612. a groove; 613. a rib is protruded; 614. a shielding portion; 620. a fixed part; 621. a screw hole; 622. a convex ring; 623. a concave cavity; 624. connecting ribs; 700. a heat insulation ring; 710. a second through hole; 720. a boss; 730. a concave ring.

Detailed Description

The following detailed description is made of specific embodiments of the present invention with reference to the accompanying drawings, so as to make the technical solution of the present invention easier to understand and master. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The embodiment provides a prevent scalding fried dish machine, as shown in fig. 1, including shell 100, casing 200, heat shield 300, dish 400 and the inner bag 500 that generates heat, shell 100, casing 200, heat shield 300, dish 400 and the inner bag 500 that generates heat set gradually from outside to inside, and casing 200 sets up in shell 100 promptly, and heat shield 300 sets up in casing 200, and dish 400 that generates heat sets up in heat shield 300, and inner bag 500 sets up in dish 400 that generates heat.

The shell 100 wraps all parts in the shell to play a decorative role, so that the appearance of the cooking machine has integrity and attractiveness, foreign matters such as oil smoke can be prevented from entering the shell 100, and all parts in the shell 100 are protected.

Set up heating tube 410 on the dish 400 that generates heat, heating tube 410 can produce heat after the circular telegram, and heat transfer makes dish 400 that generates heat generate heat after dish 400 that generates heat to inner bag 500 to in the dish 400 that generates heat heats, thereby cooks the food heating in the inner bag 500.

As shown in fig. 2-4, the upper end of the heating plate 400 is provided with a heat insulation structure, which can insulate the high temperature of the heating plate 400, and the user can not be scalded when touching the exposed part of the heat insulation structure, thus forming a scald-proof cooking machine.

The insulation structure includes a panel 600, and the panel 600 may be made of an insulation material or a heat conduction material. When the panel 600 is made of a heat insulating material, the panel 600 may be directly contacted with the heating plate 400 or may be connected with the heating plate by disposing the heat insulating ring 700 at intervals; when the panel 600 is made of a heat conductive material, the panel 600 and the heat generating plate 400 must be connected at intervals by providing the heat insulating ring 700. The heat insulating material can be made of high-temperature resistant plastics and the like, and the heat conducting material can be made of microcrystalline plates, aluminum alloy and the like. In this embodiment, as shown in fig. 2 to 4, the panel 600 is made of a heat insulating material, and the heat insulating ring 700 is disposed between the panel 600 and the heat generating plate 400, so that the double heat insulation has a better heat insulating effect, and the heat insulating ring 700 can reduce the heat insulating requirement of the panel 600, so that the panel 600 has a larger selection space for the material, and can be made of a material with a lower cost.

The panel 600 has a panel outer edge 610 extending to the outer side of the heating plate 400, when the inner container 500 is placed in the heating plate 400, the outward turning part at the upper end of the inner container 500 can be lapped on the panel outer edge 610, the heating plate 400 is heated to take and place the inner container 500, the panel outer edge 610 is easily touched, and a user cannot be scalded by the panel outer edge 610 due to the heat insulation material between the panel outer edge 610 and the heating plate 400.

Panel 600 and the dish 400 components of a whole that can function independently setting that generates heat, panel 600 and the dish 400 that generates heat between can adopt different materials to make like this, the dish 400 that generates heat requires to adopt the heat conduction material to make, the panel 600 of components of a whole that can function independently adopts thermal insulation material to make can not with the dish 400 integrated into one piece that generates heat, need panel 600 and the dish 400 that generates heat to carry out fixed connection after independently processing is accomplished respectively, panel 600 and the dish 400 that generates heat set up thermal-insulated circle 700, and thermal-insulated circle 700 need break off the panel 600 and the heat-conduction between the dish 400 that generates heat, this also needs panel.

The panel 600 may be a flat plate-like structure. In this embodiment, as shown in fig. 2 to 5, the panel 600 has a fixing portion 620, the fixing portion 620 protrudes downward relative to the outer edge 610 of the panel, and the fixing portion 620 is thickened at a connecting portion between the panel 600 and the heating plate 400, so that the example of the heating plate 400 and the outer edge 610 of the panel is prolonged, the formation of heat conduction is increased, the thermal attenuation in the heat conduction process is increased, and the heat insulation effect is improved.

As shown in fig. 2, 3 and 6, the upper end of the heating plate 400 has a flange 420 folded outward, and the fixing portion 620 is detachably and fixedly connected to the flange 420. Because the whole thickness of dish 400 that generates heat is thinner, and it is unstable inadequately to connect with the butt joint of the thin wall of dish 400 that generates heat and fixed part 620, turn-ups 420 can increase the contact width of dish 400 that generates heat and fixed part 620, increases the contact surface, and the butt joint of dish 400 that generates heat and panel 600 will be more stable like this, also is convenient for install thermal-insulated circle 700 between the two simultaneously.

When the fixing part 620 and the heating plate 400 are directly contacted and fixedly connected, clamping connection can be adopted; when the heat insulation ring 700 is disposed between the fixing portion 620 and the heat generation plate 400, the fixing portion 620 and the heat generation plate 400 may be respectively bonded to the heat insulation ring 700 to be connected. In this embodiment, the fixing portion 620, the heat insulating ring 700, and the heat generating plate 400 are detachably and fixedly connected by screws. As shown in fig. 2 to 6, the fixing portion 620 has a screw hole 621 with a downward opening, the flange 420 has a first through hole 421, the heat insulating ring 700 has a second through hole 710, the second through hole 710 is disposed corresponding to the first through hole 421 and the screw hole 621, and the panel 600 is fixed on the heat generating plate 400 by a screw passing through the first through hole 421 and the second through hole 710 and screwed into the screw hole 621. The fixing portion 620 can make the screw hole 621 set deeper when thickening the connecting portion of the panel 600 and the heating plate 400, so that the engaging length of the screw and the screw hole 621 is longer, the screw is not easy to loosen, and the fixing of the panel 600 and the heating plate 400 is more stable.

Thermal-insulated circle 700 adopts silica gel to make, and silica gel has advantages such as low carbon environmental protection, nontoxic tasteless, antiskid, difficult ageing, durable, because silica gel is softer, under panel 600 and the centre gripping squeezing action of dish 400 that generates heat, certain deformation can take place for silica gel, and the easy protrusion of inside wall of silica gel generates heat the inside wall of dish 400, can bring inconvenience for getting of inner bag 500 like this. In this embodiment, the inner sidewall of the installed heat insulation ring 700 does not protrude from the inner sidewalls of the heat generating plate 400 and the panel 600. As shown in fig. 3 and 4, the lower surface of the heat insulating ring 700 has a boss 720 protruding downward, the upper end surface of the heat generating plate 400 has a limit groove 430 corresponding to the boss 720, the boss 720 is embedded in the limit groove 430, the inner end of the upper surface of the heat insulating ring 700 has a concave ring 730, the inner end of the lower surface of the fixing part 620 has a convex ring 622 protruding downward, and the convex ring 622 is embedded in the concave ring 730. This can restrict the deformation of the heat insulating ring 700, reduce the thickness of the inner wall of the heat insulating ring 700, and more easily control the heat insulating ring 700 not to protrude from the inner wall of the heat generating plate 400 and the inner wall of the panel 600 when being pressed.

As shown in fig. 6, the flange 420 has a convex pillar 422 protruding upward at the first through hole 421, the lower surface of the heat insulating ring 700 has a groove corresponding to the convex pillar 422, and the convex pillar 422 is embedded in the groove. The cooperation of projection 422 and caulking groove can realize spacing ring circumference spacing, avoids thermal-insulated ring 700 to take place to rotate, reduces the condition of thermal-insulated ring 700 local displacement.

As shown in fig. 2 and 6, the side wall of the heating plate 400 has a support rib 440, the support rib 440 extends longitudinally, the upper end of the support rib 440 abuts against the lower end surface of the flange 420, the width of the upper end of the support rib 440 is the same as the width of the flange 420, that is, the outer side wall of the upper end of the support rib 440 is smoothly connected with the outer side wall of the flange 420, and the support rib 440 can strengthen the strength of the flange 420 and reduce the possibility of deformation of the flange 420. The number of the supporting ribs 440 is the same as the number of the first through holes 421, and as shown in fig. 6, the number of the supporting ribs 440 and the number of the first through holes 421 are six, it can be understood that the number may be four, five, seven, or eight, and the supporting ribs 440 and the first through holes 421 are arranged at intervals. The lower end of the support rib 440 is provided with a mounting groove, the heating tube 410 is arranged in the mounting groove, and the mounting groove is convenient for positioning the heating tube 410.

As shown in fig. 5, the fixing portion 620 has a cavity 623 with a downward opening, the fixing portion 620 is ring-shaped, the cavity 623 is correspondingly ring-shaped, the cavity 623 is provided with a connecting rib 624, the connecting rib 624 spans across the cavity 623, and the connecting rib 624 may be strip-shaped or sheet-shaped. The connecting ribs 624 are provided with a plurality of strips and are distributed in the concave cavity 623 at equal intervals, so that all parts of the heat insulation ring 700 can be supported in a balanced manner, and the connection stability is improved. The upper surface of the heat insulation ring 700 is abutted to the connecting ribs 624, the connecting ribs 624 can provide support for connection of the heat insulation ring 700 and the panel 600, the concave cavity 623 and the connecting ribs 624 can reduce the contact area between the heat insulation ring 700 and the panel 600, heat conduction between the heat insulation ring 700 and the panel 600 is slowed down, and the heat insulation effect is improved. Thermal-insulated circle 700 can take place certain degree of deformation when being extruded, specifically, thermal-insulated circle 700 supports and is present concave shape down at the position of splice bar 624, and the position that is not supported presents the last convex of embedding cavity 623, and cavity 623 provides the space of stepping down for thermal-insulated deformation of circle 700 promptly for thermal-insulated circle 700 is difficult to warp to the inside wall protrusion, and thermal-insulated circle 700 accomplishes not protruding in the inside wall of dish 400 that generates heat more easily.

As shown in fig. 4 and 5, the lower surface of the panel outer edge 610 has a protrusion 611 protruding downward, the protrusion 611 and the fixing portion 620 together define a groove 612, and the upper end of the heat shield 300 is inserted into the groove 612. Like this can form bigger contact surface between heat shield 300 and the panel 600 to make the connection face have a bending, make the leakproofness that both connect better, avoid heat shield 300 inboard steam to run off from the junction, make heat shield 300 can exert better heat-proof effect.

As shown in fig. 6, the lower surface of the panel outer edge 610 has a downwardly convex rib 613, the rib 613 has a plurality of ribs and is distributed in the groove 612 at equal intervals, the upper end of the heat shield 300 abuts against the rib 613, and the rib 613 can make the heat shield 300 with certain elasticity generate a certain degree of concave-convex deformation, so that a large friction force is formed between the heat shield 300 and the panel 600, and thus a friction transmission connection is formed between the heat shield 300 and the panel 600, so that the heat shield 300 can rotate together with the heat generating plate 400. The heat shield 300 which synchronously rotates can tightly surround the heating plate 400, so that a closed heat storage cavity is formed between the heating plate 400 and the heat shield 300, the heat insulation effect is ensured, and the heat efficiency of the heating plate 400 in a heating mode is improved.

As shown in fig. 4, the outer side wall of the upper end portion of the heat shield 300 is recessed to form an annular notch 310, the protrusion 611 is embedded in the annular notch 310, the outer wall of the protrusion 611 is flush with the outer wall of the heat shield 300, and the flush outer wall of the protrusion 611 and the heat shield 300 facilitates the integral assembly of the heat shield 300 and the heat generating tray 400, even when the heat shield 300 and the heat generating tray 400 are assembled into the housing 200.

As shown in FIG. 1, a rotational gap 210 exists between the housing 200 and the heat shield 300. Consistent with the existing scheme, the shell 200 is provided with the motor, the motor is in transmission connection with the heating disc 400, when the motor drives the heating disc 400 to rotate, the heat insulation cover 300 and the inner container 500 rotate along with the heating disc 400, but the shell 100 and the shell 200 cannot rotate along with the heat insulation cover and the inner container. The outer edge 610 of the panel is provided with a shielding part 614 extending outwards, and the shielding part 614 is shielded above the rotating gap 210, so that external foreign matters can be prevented from entering the cooker from the rotating gap 210 between the shell 200 and the heat shield 300, the possibility of the malfunction of the cooker is reduced, and the service life of the cooker is prolonged.

In the description of the present invention, it is to be understood that the terms "central", "lateral", "thickness", "upper", "lower", "vertical", "horizontal", "top", "bottom", "inner", "outer", "radial", "circumferential", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise. In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

It should be understood by those skilled in the art that, although the embodiments of the present invention have been described above, the embodiments are only used for understanding the embodiments of the present invention, and are not intended to limit the embodiments of the present invention. It will be apparent to persons skilled in the relevant art that various changes in form and details can be made therein without departing from the spirit and scope of the embodiments of the invention as disclosed in the appended claims.

Claims (10)

1. The utility model provides a prevent scalding fried dish machine, includes the dish that generates heat, its characterized in that, the upper end that generates heat the dish is equipped with thermal-insulated structure, thermal-insulated structure includes the panel, the panel have to generate heat the panel outer edge that extends outside the dish, the panel with generate heat a components of a whole that can function independently setting and fixed connection.

2. An anti-scald cooking machine as claimed in claim 1, wherein the panel has a fixing portion, the fixing portion protrudes downward relative to the outer edge of the panel, the upper end of the heating plate has a flange folded outward, and the fixing portion and the flange are detachably and fixedly connected.

3. An anti-scald cooking machine as claimed in claim 2, wherein the fixing portion has a screw hole with a downward opening, the flange has a first through hole, and the panel is fixed to the heating plate by a screw passing through the first through hole and screwed into the screw hole.

4. The scald-proof cooking machine as claimed in claim 3, wherein the heat insulation structure further comprises a heat insulation ring arranged between the fixing portion and the flange, the heat insulation ring is provided with a second through hole, the second through hole is arranged corresponding to the first through hole and the screw hole, and the screw penetrates through the second through hole.

5. The scald-proof cooking machine as claimed in any one of claims 2 to 4, wherein a support rib is arranged on the side wall of the heating plate, the upper end of the support rib abuts against the lower end face of the flange, a mounting groove is arranged at the lower end of the support rib, and a heating tube is arranged in the mounting groove.

6. An anti-scald cooking machine as claimed in claim 4, wherein the fixing portion has a cavity with a downward opening, the cavity is provided with a connecting rib, and the upper surface of the heat insulation ring abuts against the connecting rib.

7. An anti-scald cooking machine as claimed in claim 6, wherein said connecting ribs are provided in a plurality and are equally spaced in said cavity.

8. The scald-proof cooking machine as claimed in any one of claims 2 to 4, wherein a lower surface of the outer edge of the panel has a downwardly convex portion, the convex portion and the fixing portion together define a groove, the cooking machine includes a heat shield surrounding the outside of the heating plate, and an upper end of the heat shield is embedded in the groove.

9. The scald-proof cooker as claimed in claim 8, wherein the lower surface of the outer edge of the panel has a plurality of ribs protruding downwards, the ribs are distributed in the grooves at equal intervals, the upper end of the heat shield abuts against the ribs, an annular notch is formed in the outer side wall of the upper end of the heat shield, the convex portion is embedded in the annular notch, and the outer wall of the convex portion is flush with the outer wall of the heat shield.

10. The scald-proof cooker of claim 8, comprising a housing enclosing an outer side of the heat shield, wherein a rotational gap exists between the housing and the heat shield, and wherein the outer edge of the panel has an outwardly extending shield portion that shields over the rotational gap.

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