CN212394636U - Die-casting aluminium dish concave-convex line that generates heat and glass container bottom concave-convex road agree with subassembly - Google Patents

Abstract

The utility model discloses a die-cast aluminium dish concave-convex lines that generates heat agrees with subassembly with the concave-convex way in glass container bottom. This die-casting aluminium dish unsmooth line that generates heat, including the dish body that generates heat, the upper surface of the dish body that generates heat is provided with first lug and the second lug that generates heat, the upper end of going up the ceramic plate is provided with first ceramic block and second ceramic block. This die-casting aluminium dish concave-convex line and the unsmooth road in glass container bottom agree with the subassembly, the round platform shape structural design that the dish body that generates heat adopted the fretwork, and through first lug that generates heat, the second lug that generates heat, the heat conduction recess, first glass lug, the second heated tank, the setting of second heated tank and second glass lug, improve the heating efficiency that generates heat the dish greatly, and the glass container body, go up the ceramic plate, the dish body that generates heat, lower ceramic plate cup joints each other from top to bottom with the heat preservation base in proper order, and then be convenient for to the maintenance and the change of each spare part, and the maintenance cost is reduced, and the use is very simple.

Description

Die-casting aluminium dish concave-convex line that generates heat and glass container bottom concave-convex road agree with subassembly

Technical Field

The utility model relates to an electric rice cooker technical field specifically is a die-casting aluminium dish concave-convex lines that generates heat agrees with subassembly with the concave-convex way in glass container bottom.

Background

Electric cookers are also known as electric cookers and electric rice cookers. The electric cooker is a cooker which converts electric energy into heat energy, has various heating operation functions of steaming, boiling, stewing and the like on food, and is convenient to use, safe and reliable. The heating plate not only can cook food, but also can preserve heat, is clean and sanitary when in use, has no pollution, saves time and labor, is one of indispensable tools for the modernization of housework, and comprises an important component part including a heating plate and an inner container.

However, the concave-convex lines of the existing die-casting aluminum heating plate are designed by adopting a planar annular structure, and although the die-casting aluminum heating plate has a certain heating effect, the heating area is small, and the heating efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a die-casting aluminium generates heat and coils unsmooth line and the unsmooth road in glass container bottom and agrees with the subassembly to solve the unsmooth line that the current die-casting aluminium that proposes generates heat and coil in the above-mentioned background art and all adopt planar annular structural design, though have certain heating effect, the area of its heating is less, the lower problem of heating efficiency.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a die-casting aluminium dish unsmooth line that generates heat, is including the dish body that generates heat, the upper surface that generates heat the dish body is provided with first heating lug and second heating lug, first heating lug is located the below that the second generates heat the lug, the lower extreme that generates heat the dish body is provided with down the ceramic plate, the upper end that generates heat the dish body is provided with the ceramic plate, the upper end of going up the ceramic plate is provided with first ceramic block and second ceramic block, first ceramic block is located the below of second ceramic block, first heating lug and second heating lug are located the inside of first ceramic block and second ceramic block respectively, the upper end of going up the ceramic plate is located and reserves the heat conduction recess between first ceramic block and the second ceramic block, the lower extreme that generates heat the dish body is provided with the heat preservation base.

Preferably, the heating plate body, the first heating lug and the second heating lug are of an integrated structure, and the heating plate body, the first heating lug and the second heating lug are formed by aluminum plate die-casting.

Preferably, the heating plate body, the lower ceramic plate, the upper ceramic plate and the heat preservation base are all designed into a hollow-out round table-shaped structure, and the upper ceramic plate, the first ceramic block and the second ceramic block are designed into an integrated structure.

Preferably, the first heating bump, the second heating bump, the first ceramic block, the second ceramic block and the heat conducting groove are all designed in an annular structure, the first heating bump, the second heating bump, the first ceramic block, the second ceramic block and the heat conducting groove are all provided with a plurality of structures, the diameters of the first heating bump, the second heating bump, the first ceramic block, the second ceramic block and the heat conducting groove are sequentially decreased progressively from bottom to top, and the surfaces of the first ceramic block and the second ceramic block and the lower end face inside the heat conducting groove are all provided with stripes.

Preferably, go up ceramic plate, generate heat set body, lower ceramic plate and heat preservation base cup joint each other from top to bottom in proper order.

The utility model also provides a unsmooth road of glass container bottom agrees with subassembly, it includes as above a die-cast aluminium dish unsmooth line that generates heat, it still includes glass container body, first glass lug, first heated groove, second heated groove and second glass lug, the first glass lug of lower extreme fixedly connected with of glass container body, the inboard that the lower extreme of glass container body is located first glass lug is provided with first heated groove, the inboard that the inside of glass container body is located first heated groove is provided with the second heated groove, the lower extreme of glass container body is located fixedly connected with second glass lug between first heated groove and the second heated groove.

Preferably, the lower end of the glass container body is designed to be a hollow round table-shaped structure, and the glass container body is sleeved with the upper ceramic plate.

Preferably, the first glass bump and the second glass bump are respectively connected with the heat insulation base and the heat conduction groove in a clamping manner, the first heated groove and the second heated groove are respectively connected with the first ceramic block and the second ceramic block in a clamping manner, and the first glass bump, the first heated groove, the second heated groove and the second glass bump are all designed in an annular structure.

Preferably, the first glass bump, the second glass bump and the glass container body are designed in an integrated structure.

Preferably, the first glass bump, the upper end surfaces in the first heated groove and the second heated groove, and the surface of the second glass bump are all provided with stripes.

Compared with the prior art, the beneficial effects of the utility model are that:

1. this die-casting aluminium dish concave-convex line and the concave-convex way in glass container bottom agree with the subassembly, the round platform shape structural design that the dish body that generates heat adopted the fretwork, for traditional planar structure's design, the heating area of the dish that generates heat has been increased, and through first lug that generates heat, the second lug that generates heat, the heat conduction recess, first glass lug, the second heated groove is with the setting of second glass lug, the heating area of the dish body that generates heat and the heated area of glass container body have further been increased, and then the heating efficiency of the dish that generates heat is greatly improved.

2. This die-casting aluminium dish concave-convex line that generates heat agrees with subassembly with the concave-convex way in glass container bottom, glass container body, go up the ceramic plate, generate heat a set body, lower ceramic plate cup joints from top to bottom with the heat preservation base in proper order each other, and then is convenient for to the maintenance and the change of each spare part, has reduced cost of maintenance, uses very simply.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure of the heating plate body of the present invention;

FIG. 3 is a schematic view of the top view structure of the heating plate body of the present invention;

fig. 4 is a schematic view of the cross-sectional structure of the glass container body of the present invention.

In the figure: 1. a heating plate body; 2. a first heat-generating bump; 3. a second heat generating bump; 4. a lower ceramic plate; 5. feeding a ceramic plate; 6. a first ceramic block; 7. a second ceramic block; 8. a heat conducting groove; 9. a heat-insulating base; 10. a glass container body; 11. a first glass bump; 12. a first heat receiving tank; 13. a second heated bath; 14. and a second glass bump.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a die-casting aluminium dish unsmooth line that generates heat, including dish body 1 that generates heat, the upper surface that dish body 1 that generates heat is provided with first heating lug 2 and second heating lug 3, first heating lug 2 is located the below that the second generates heat lug 3, the lower extreme that dish body 1 generates heat is provided with down ceramic plate 4, the upper end that dish body 1 generates heat is provided with ceramic plate 5, the upper end of going up ceramic plate 5 is provided with first ceramic block 6 and second ceramic block 7, first ceramic block 6 is located the below of second ceramic block 7, first heating lug 2 and second heating lug 3 are located the inside of first ceramic block 6 and second ceramic block 7 respectively, the upper end that goes up ceramic plate 5 is located and reserves heat conduction recess 8 between first ceramic block 6 and the second ceramic block 7, the lower extreme that dish body 1 generates heat is provided with heat preservation base 9.

Further, the heating plate body 1, the first heating lug 2 and the second heating lug 3 adopt an integrated structure, and the heating plate body 1, the first heating lug 2 and the second heating lug 3 are formed by die-casting an aluminum plate, so that the integrity of the heating plate body 1 is ensured.

Further, the heating plate body 1, the lower ceramic plate 4, the upper ceramic plate 5 and the heat preservation base 9 are all designed in a hollow-out round table-shaped structure, the upper ceramic plate 5, the first ceramic block 6 and the second ceramic block 7 are designed in an integrated structure, and the heating area of the heating plate body 1 is increased.

Furthermore, the first heating lug 2, the second heating lug 3, the first ceramic block 6, the second ceramic block 7 and the heat conducting groove 8 are all designed in an annular structure, the first heating lug 2, the second heating lug 3, the first ceramic block 6, the second ceramic block 7 and the heat conducting groove 8 are all provided with a plurality of diameters, the first heating lug 2, the second heating lug 3, the first ceramic block 6, the second ceramic block 7 and the heat conducting groove 8 are sequentially decreased progressively from bottom to top, the surfaces of the first ceramic block 6 and the second ceramic block 7 and the lower end face inside the heat conducting groove 8 are all provided with stripes, and the heating area of the heating disc is further increased.

Further, go up ceramic plate 5, generate heat and set body 1, ceramic plate 4 cup joint each other from top to bottom with heat preservation base 9 down in proper order, be convenient for go up ceramic plate 5, generate heat set body 1, ceramic plate 4 and heat preservation base 9's quick assembly disassembly down.

The utility model also provides a subassembly is agreed with to unsmooth way in glass container bottom, it includes the unsmooth line of a die-casting aluminium heating plate as above, it still includes glass container body 10, first glass lug 11, first heated tank 12, second heated tank 13 and second glass lug 14, the first glass lug 11 of lower extreme fixedly connected with of glass container body 10, the inboard that the lower extreme of glass container body 10 is located first glass lug 11 is provided with first heated tank 12, the inboard that the inside of glass container body 10 is located first heated tank 12 is provided with second heated tank 13, the lower extreme of glass container body 10 is located fixedly connected with second glass lug 14 between first heated tank 12 and the second heated tank 13.

Further, the lower end of the glass container body 10 is designed to be a hollow-out round table-shaped structure, and the glass container body 10 is sleeved with the upper ceramic plate 5, so that the glass container body 10 can be conveniently taken out and placed.

Furthermore, the first glass bump 11 and the second glass bump 14 are respectively connected with the heat insulation base 9 and the heat conduction groove 8 in a clamping manner, the first heat receiving groove 12 and the second heat receiving groove 13 are respectively connected with the first ceramic block 6 and the second ceramic block 7 in a clamping manner, and the first glass bump 11, the first heat receiving groove 12, the second heat receiving groove 13 and the second glass bump 14 are all designed in an annular structure, so that the stable placement of the glass container body 10 is ensured.

Furthermore, the first glass bump 11, the second glass bump 14 and the glass container body 10 adopt an integrated structure design, so as to ensure the integrity of the glass container body 10.

Furthermore, the upper end faces of the first glass bump 11, the first heated groove 12 and the second heated groove 13 and the surface of the second glass bump 14 are provided with stripes, so that the heated area of the glass container body 10 is increased, and the heating effect is further enhanced.

The working principle is as follows: firstly, an upper ceramic plate 5, a heating plate body 1, a lower ceramic plate 4 and a heat insulation base 9 are sequentially sleeved from top to bottom, the assembled heating plate is fixed at a designated position in a heating electric appliance, a connecting wire of the heating plate and the heating electric appliance is switched on, a glass container body 10 is placed in the electric appliance, a first glass bump 11 is mutually clamped with the side of the heat insulation base 9, a first ceramic block 6, a second ceramic block 7 and a second glass bump 14 are respectively clamped in a first heat receiving groove 12, a second heat receiving groove 13 and a heat conducting groove 8, the lower ends of the heating plate body 1, the lower ceramic plate 4, the upper ceramic plate 5, the heat insulation base 9 and the glass container body 10 are designed into a hollow truncated cone-shaped structure, and the surfaces of the first ceramic block 6 and the second ceramic block 7, the lower end surface in the heat conducting groove 8, the upper end surface in the first glass bump 11, the first heat receiving groove 12 and the second heat receiving groove 13 and the surface of the second glass bump 14 are all provided with stripes, the heating area of the heating plate is greatly increased, and the heating effect of the heating plate is further improved.

It should be finally noted that the above only serves to illustrate the technical solution of the present invention, and not to limit the scope of the present invention, and that simple modifications or equivalent replacements performed by those skilled in the art to the technical solution of the present invention do not depart from the spirit and scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a die casting aluminium dish concave-convex line that generates heat, includes dish body (1) that generates heat, its characterized in that: the heating plate is characterized in that a first heating lug (2) and a second heating lug (3) are arranged on the upper surface of the heating plate body (1), the first heating lug (2) is located below the second heating lug (3), a lower ceramic plate (4) is arranged at the lower end of the heating plate body (1), an upper ceramic plate (5) is arranged at the upper end of the heating plate body (1), a first ceramic block (6) and a second ceramic block (7) are arranged at the upper end of the upper ceramic plate (5), the first ceramic block (6) is located below the second ceramic block (7), the first heating lug (2) and the second heating lug (3) are respectively located inside the first ceramic block (6) and the second ceramic block (7), and a heat conduction groove (8) is reserved between the first ceramic block (6) and the second ceramic block (7) at the upper end of the upper ceramic plate (5), the lower end of the heating plate body (1) is provided with a heat preservation base (9).

2. The die-casting aluminum heating plate concave-convex grain as claimed in claim 1, characterized in that: the heating plate is characterized in that the heating plate body (1), the first heating lug (2) and the second heating lug (3) are of an integrated structure, and the heating plate body (1), the first heating lug (2) and the second heating lug (3) are formed by aluminum plate die-casting.

3. The die-casting aluminum heating plate concave-convex grain as claimed in claim 1, characterized in that: the heating plate comprises a heating plate body (1), a lower ceramic plate (4), an upper ceramic plate (5) and a heat insulation base (9), wherein the heating plate body and the heat insulation base are all in hollow-out round table-shaped structural design, and the upper ceramic plate (5) and a first ceramic block (6) and a second ceramic block (7) are in integral structural design.

4. The die-casting aluminum heating plate concave-convex grain as claimed in claim 1, characterized in that: the heat-conducting type LED lamp is characterized in that the first heating lug (2), the second heating lug (3), the first ceramic block (6), the second ceramic block (7) and the heat-conducting groove (8) are designed to be of an annular structure, the first heating lug (2), the second heating lug (3), the first ceramic block (6), the second ceramic block (7) and the heat-conducting groove (8) are arranged in a plurality of numbers, the diameters of the first heating lug (2), the second heating lug (3), the first ceramic block (6), the second ceramic block (7) and the heat-conducting groove (8) are gradually decreased from bottom to top, and the surfaces of the first ceramic block (6) and the second ceramic block (7) and the lower end face inside the heat-conducting groove (8) are all provided with stripes.

5. The die-casting aluminum heating plate concave-convex grain as claimed in claim 1, characterized in that: go up ceramic plate (5), generate heat set body (1), lower ceramic plate (4) and heat preservation base (9) cup joint each other from top to bottom in proper order.

6. A concave-convex road matching component at the bottom of a glass container, which is characterized by comprising the concave-convex grain of the die-cast aluminum heating plate according to any one of claims 1 to 5, it also comprises a glass container body (10), a first glass bump (11), a first heat receiving groove (12), a second heat receiving groove (13) and a second glass bump (14), the lower end of the glass container body (10) is fixedly connected with a first glass bump (11), a first heat receiving groove (12) is arranged at the lower end of the glass container body (10) and positioned at the inner side of the first glass bump (11), a second heat receiving groove (13) is arranged inside the glass container body (10) and positioned at the inner side of the first heat receiving groove (12), the lower end of the glass container body (10) is positioned between the first heat receiving groove (12) and the second heat receiving groove (13) and is fixedly connected with a second glass bump (14).

7. A glass container bottom relief road engaging assembly as in claim 6 wherein: the lower end of the glass container body (10) is designed to be a hollow round table-shaped structure, and the glass container body (10) is sleeved with the upper ceramic plate (5).

8. A glass container bottom relief road engaging assembly as in claim 6 wherein: the first glass bump (11) and the second glass bump (14) are respectively connected with the heat insulation base (9) and the heat conduction groove (8) in a clamping mode, the first heating groove (12) and the second heating groove (13) are respectively connected with the first ceramic block (6) and the second ceramic block (7) in a clamping mode, and the first glass bump (11), the first heating groove (12), the second heating groove (13) and the second glass bump (14) are all designed in an annular structure mode.

9. A glass container bottom relief road engaging assembly as in claim 6 wherein: the first glass bump (11), the second glass bump (14) and the glass container body (10) are designed in an integrated structure.

10. A glass container bottom relief road engaging assembly as in claim 6 wherein: the upper end surfaces of the inner parts of the first glass bump (11), the first heat receiving groove (12) and the second heat receiving groove (13) and the surface of the second glass bump (14) are all provided with stripes.

Images