CN211961786U - High-heat-conduction high-strength mocha kettle - Google Patents

Abstract

The utility model relates to a moka kettle, it relates to a high heat conduction high strength moka kettle. This kind of high heat conduction high strength mocha kettle, including last kettle body and lower kettle body, kettle body bottom is equipped with the heat conductor down, and the heat conductor extends to have the first heat conduction strip of a plurality of kettle body lateral walls under the laminating, is equipped with a plurality of second heat conduction strips on the lateral wall of lower kettle body, and first heat conduction strip constitutes latticed structure with second heat conduction strip, and latticed structure coats and is stamped the enhancement layer, goes up the kettle body and covers the same enhancement layer. The heat conduction structure formed by the heat conductor, the first heat conduction strip and the second heat conduction has good heat conduction capability. The heat-insulating layer in the reinforcing layer has good heat-insulating capability. The outer layer in the reinforcing layer has good anti-collision capacity.

Description

High-heat-conduction high-strength mocha kettle

Technical Field

The utility model relates to a moka kettle, more specifically say, it relates to a high heat conduction high strength moka kettle.

Background

Mocha kettles are a tool for extracting and concentrating coffee. Present mocha kettle is mostly aluminium system mocha kettle, and aluminium has hardness low, the soft, the high characteristics of heat conductivity in matter ground, though this makes aluminium system mocha kettle have workable, the fast characteristics of heating but has also led to aluminium system mocha kettle's thermal insulation performance poor, takes place to leave the vestige on one's body easily when colliding with simultaneously, serious still can influence the security that mocha kettle used.

SUMMERY OF THE UTILITY MODEL

To the deficiency that prior art exists, the utility model aims to provide a have good heat conductivility also have good thermal insulation performance and also can prevent the mocha kettle that collides with the wound simultaneously.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a high heat conduction high strength mocha kettle, includes kettle body and lower kettle body, and kettle body bottom is equipped with the heat conductor down, and the heat conductor extends to have the first heat conduction strip of a plurality of laminating kettle body lateral walls down, is equipped with a plurality of second heat conduction strips on the lateral wall of lower kettle body, and first heat conduction strip constitutes latticed structure with second heat conduction strip, and latticed structure coats and is stamped the enhancement layer, and it has the same enhancement layer to go up the kettle body cover.

Through adopting above-mentioned technical scheme, the heat conductor can increase the area of contact of kettle body bottom and heat source down, improves the heat conduction efficiency between heat source and the kettle body down, improves the heat conductivility of kettle body bottom down, and the first heat conduction strip that the heat conductor extends can make the heat of heat source also can transmit the lateral wall of kettle body down when transmitting kettle body bottom down on, further improves the heat conductivility of kettle body down. The grid structure that second heat conduction strip and first heat conduction strip constitute can increase the area of contact of heat conduction structure and kettle body lateral wall down, promotes the thermal even degree of kettle body lateral wall down. The reinforced layer can strengthen the structural strength of the outer surfaces of the lower kettle body and the upper kettle body, reduce the influence of collision on the structures of the upper kettle body and the lower kettle body and improve the collision resistance of the kettle body.

The utility model discloses further set up to: the heat conductor is composed of a plurality of heat conducting rings.

By adopting the technical scheme, the first heat conduction strip extends from the heat conduction ring at the most center to the second heat conduction strip and is connected with the heat conduction ring at the outer side, so that the heat conductor and the first heat conduction strip form a net-shaped heat conduction structure, the contact area with a heat source is further increased, and the heat conduction capability is improved.

The utility model discloses further set up to: the grids of the grid-shaped structure are provided with through holes.

Through adopting above-mentioned technical scheme, the through-hole can strengthen graticule mesh in heat exchange's efficiency, further improves the thermal even degree on the kettle body lateral wall down, reduces thermal loss.

The utility model discloses further set up to: the reinforcing layer comprises a spacing layer, an insulating layer and an outer layer.

By adopting the technical scheme, the spacing layer can protect the heat-insulating layer and the outer layer which are positioned at the outer side of the spacing layer as the spacing layer between the heat-conducting structure and the reinforcing layer, and the influence of high temperature on the heat-insulating layer and the outer layer material is reduced. The heat preservation can reduce the loss of heat. The reinforced layer has good mechanical strength and can avoid the influence of collision on the kettle body structure. The spacing layer is a heat insulation board, and the outer layer is a stainless steel plate.

The utility model discloses further set up to: the heat preservation layer is a polyurethane hard heat preservation layer.

By adopting the technical scheme, the polyurethane hard heat insulation layer has good heat insulation performance, can slow down the loss of heat of the kettle body and improve the heat insulation capacity of the kettle body.

To sum up, the beneficial effects of the utility model are that:

1. the heat conducting structure formed by the heat conductor, the first heat conducting strip and the second heat conducting strip has good heat conducting capacity.

2. The heat-insulating layer in the reinforcing layer has good heat-insulating capability.

3. The outer layer in the reinforcing layer has good anti-collision capacity.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

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

FIG. 3 is a schematic structural view of the bottom of the lower kettle body according to the embodiment of the present invention;

wherein the reference numerals are: 1. an upper kettle body; 2. a lower kettle body; 3. a heat conductor; 31. a heat conducting ring; 4. a reinforcing layer; 41. a spacer layer; 42. a heat-insulating layer; 43. an outer layer; 5. a first heat conducting strip; 6. a second heat conducting strip; 7. and a through hole.

Detailed Description

Embodiments of the present invention are further described with reference to fig. 1 to 3.

The utility model provides a high heat conduction high strength mocha kettle, includes kettle body 1 and lower kettle body 2, and 2 bottoms of kettle body are equipped with heat conductor 3 down, and heat conductor 3 extends to have the first heat conduction strip 5 of 2 lateral walls of kettle body under a plurality of laminating, is equipped with a plurality of second heat conduction strips 6 on the lateral wall of kettle body 2 down, and first heat conduction strip 5 constitutes latticed structure with second heat conduction strip 6, and latticed structure coats and is stamped enhancement layer 4, and it has the same enhancement layer 4 to go up kettle body 1 cover.

The heat conductor 3 can increase the area of contact of 2 bottoms of kettle body and heat sources down, improves the heat conduction efficiency between heat source and the kettle body 2 down, improves the heat conductivility of 2 bottoms of kettle body down, and the first heat conduction strip 5 that the heat conductor 3 extends can make the heat of heat source also can transmit the lateral wall of kettle body 2 down when transmitting 2 bottoms of kettle body down on, further improves the heat conductivility of kettle body 2 down. The grid structure that second heat conduction strip 6 and first heat conduction strip 5 constitute can increase the area of contact of heat conduction structure and 2 lateral walls of kettle body down, promotes the thermal even degree of kettle body 2 lateral walls down. The structure strength of the lower kettle body 2 and the outer surface of the upper kettle body 1 can be enhanced by the reinforcing layer 4, the influence of collision on the structures of the upper kettle body 1 and the lower kettle body 2 is reduced, and the collision resistance of the kettle body is improved.

The heat conductor 3 is formed by a number of heat conducting rings 31. The first heat conduction strip 5 extends from the heat conduction ring 31 at the center to two and is connected with the heat conduction ring 31 at the outer side, so that the heat conductor 3 and the first heat conduction strip 5 form a net-shaped heat conduction structure, the contact area with a heat source is further increased, and the heat conduction capability is improved.

The grid of the grid-like structure is provided with through holes 7. Through-hole 7 can strengthen graticule mesh in heat exchange's efficiency, further improves 2 thermal even degrees on the lateral wall of kettle body down, reduces thermal loss.

The reinforcing layer 4 comprises a spacer layer 41, an insulation layer 42 and an outer layer 43. The spacer layer 41 serving as a spacer layer between the heat conducting structure and the reinforcing layer 4 can protect the insulating layer 42 and the outer layer 43 outside the spacer layer 41, and reduce the influence of high temperature on the materials of the insulating layer 42 and the outer layer 43. The insulation layer 42 can reduce heat loss. The reinforced layer 4 has good mechanical strength and can avoid the influence of collision on the kettle body structure. The spacing layer 41 is a heat insulation board, and the outer layer 43 is a stainless steel plate.

The heat-insulating layer 42 is a polyurethane hard heat-insulating layer 42. The polyurethane hard heat insulation layer 42 has good heat insulation performance, can slow down the heat loss of the kettle body and improves the heat insulation capability of the kettle body.

The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and the skilled in the art can carry out the common changes and replacements within the technical solution of the present invention.

Claims (5)

1. The utility model provides a high heat conduction high strength mocha kettle, includes kettle body (1) and lower kettle body (2), its characterized in that, kettle body (2) bottom is equipped with heat conductor (3) down, heat conductor (3) extend have a plurality of laminating first heat conduction strip (5) of kettle body (2) lateral wall down, be equipped with a plurality of second heat conduction strips (6) down on the lateral wall of kettle body (2), first heat conduction strip (5) with second heat conduction strip (6) constitute latticed structure, latticed structure coats and is stamped enhancement layer (4), it has same enhancement layer (4) to go up kettle body (1) cover.

2. A mocha kettle with high thermal conductivity and high strength as claimed in claim 1, wherein the thermal conductor (3) is composed of several thermal conductive rings (31).

3. A mocha kettle with high heat conductivity and high strength as claimed in claim 1, wherein the grid of the latticed structure is provided with through holes (7).

4. A mocha kettle with high heat conductivity and high strength as claimed in claim 1, wherein the reinforcing layer (4) comprises a spacing layer (41), an insulating layer (42) and an outer layer (43).

5. A mocha kettle with high heat conductivity and high strength as claimed in claim 4, wherein the heat insulation layer (42) is a polyurethane hard heat insulation layer (42).

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