CN206365735U - A kind of pan of cupric knitmesh - Google Patents

Abstract

The utility model discloses a kind of pan of cupric knitmesh, including pot, pot includes the composite bed being made up of intermediate layer, the last layer being arranged on above intermediate layer and the next layer being arranged on below intermediate layer；Last layer and next layer are aluminium lamination, and intermediate layer is layers of copper.Because the heat-transfer rate of copper is far longer than steel, iron and aluminium, so heat can be transmitted to the optional position of pot body rapidly, and because the network structure of layers of copper enables layers of copper fully wrapped around by aluminium lamination, the high speed heat conduction of copper causes the temperature of whole pot to be all that, close to change simultaneously, the bottom of a pan absciss layer phenomenon would not occur because local uneven in temperature even.

Description

A kind of pan of cupric knitmesh

Technical field

The utility model is related to the cooking container such as tableware, kitchen tools, cooker, vessel field, more particularly to a kind of cupric is knitted The pan of net.

Background technology

Conventional pan is integrally the complex metal layer that is formed by multilayer material to constitute, when composite bed includes two When layer or more than two layers of material, generally by aluminium lamination layers of material is bonded together.In actual fabrication process In, it is oxidized easily due to aluminium lamination surface and impurity is there may be between layers of material, this can causes to bond loosely between material Gu, easily there is absciss layer phenomenon.Three kinds of the most frequently used materials of such as pot are the combinations of steel, aluminium and iron, in heating-up temperature change When very fast, because material is uneven after heat skewness and aluminium lamination surface oxidation, pot surface will be made local drum occur Situation about rising, that is, absciss layer phenomenon.Traditional stainless steel pan, iron pan and aluminum pan, heat conduction during use It is relatively slow, easily cause the situation pockety of heat in pot.The general the bottom of a pan is awfully hot, and pot side is not but hot, influences the effective of heat Using and culinary art when food cooking level it is uneven.Adjusted therefore, it is necessary to further to the structure of pan.

Utility model content

The utility model aims to solve the problem that above-mentioned mentioned technical problem, and there is provided a kind of pan of cupric knitmesh, including pot Body, pot includes by intermediate layer, the last layer being arranged on above intermediate layer and next layer of institute being arranged on below intermediate layer The composite bed of composition；Last layer and next layer are aluminium lamination, and intermediate layer is layers of copper.

It is preferred that, the through hole of some up/down perforations is offered in layers of copper.

It is preferred that, layers of copper is netted, and netted layers of copper includes some ribs and the through hole surrounded by rib.

It is preferred that, last layer is connected with next layer of aluminium lamination by through hole to be integrated.

It is preferred that, composite bed also includes upper two layers be arranged on above last layer and is arranged on lower the two of next layer of lower section Layer.

It is preferred that, upper two layers are stainless steel layer.

It is preferred that, upper two layers are stainless iron layer.

It is preferred that, lower two layers are stainless steel layer.

It is preferred that, lower two layers are stainless iron layer.

Beneficial effect is：Compared with prior art, a kind of pan of cupric knitmesh of the present utility model is in steel, aluminium and iron institute One layer of netted layers of copper is set in the composite bed of composition, because the heat-transfer rate of copper is far longer than steel, iron and aluminium, so heat meeting The rapid optional position for being transmitted to pot body, and because the network structure of layers of copper enables layers of copper fully wrapped around by aluminium lamination, The high speed heat conduction of copper causes the temperature of whole pot to be all that, close to change simultaneously, the bottom of a pan would not go out because local uneven in temperature even Existing absciss layer phenomenon, netted settings also assures that being stably connected with for layers of copper and aluminium lamination, and aluminium lamination, which is aoxidized, will not cause layers of copper and aluminium lamination It is separated, the overall structure of composite bed is stable.

Brief description of the drawings

Embodiment of the present utility model is described in further detail below in conjunction with accompanying drawing, wherein：

Fig. 1 is the sectional view of pot and the enlarged drawing of pot sidepiece composite bed；

Fig. 2 is the sectional view of bottom of pot body composite bed；

Fig. 3 is the structural representation of each layer separation in composite bed.

Embodiment

The overall structure of the pan of cupric knitmesh has following examples：

Embodiment one

As shown in Figure 1-Figure 3, a kind of pan of cupric knitmesh, including pot 1, pot 1 includes by intermediate layer 2, set The composite bed that last layer 3 and next layer 4 for being arranged on below intermediate layer 2 in the top of intermediate layer 2 are constituted；The He of last layer 3 Next layer 4 is aluminium lamination, and intermediate layer 2 is layers of copper.

One layer of layers of copper is set in the composite bed that steel, aluminium and iron are constituted, because the heat-transfer rate of copper is far longer than steel, iron And aluminium, so heat can be transmitted to the optional position of pot body rapidly, the pan heat conduction constituted relative to traditional steel, iron and aluminium Performance is more preferable.

Embodiment two

As shown in Figure 1-Figure 3, a kind of pan of cupric knitmesh, including pot 1, pot 1 includes by intermediate layer 2, set The composite bed that last layer 3 and next layer 4 for being arranged on below intermediate layer 2 in the top of intermediate layer 2 are constituted；The He of last layer 3 Next layer 4 is aluminium lamination, and intermediate layer 2 is layers of copper；Offer the through hole 7 of some up/down perforations in layers of copper, layers of copper be it is netted, it is netted Layers of copper include some ribs and by rib around through hole 7, the aluminium lamination of last layer 3 and next layer 4 passes through through hole 7 It is connected and is integrated, composite bed, which also includes, is arranged on upper two layer 5 of the top of last layer 3 and is arranged under next lower section of layer 4 Two layer 6.

A kind of pan of the cupric knitmesh of the present embodiment set in the composite bed that steel, aluminium and iron are constituted one layer it is netted Layers of copper, because the heat-transfer rate of copper is far longer than steel, iron and aluminium, so heat can be transmitted to the optional position of pot body rapidly, and And because the network structure of layers of copper enables layers of copper fully wrapped around by aluminium lamination, the high speed heat conduction of copper causes the temperature of whole pot All it is that, close to change simultaneously, the bottom of a pan absciss layer phenomenon would not occur because local uneven in temperature even, and netted setting also ensures Layers of copper and aluminium lamination are stably connected with, and aluminium lamination oxidation will not cause layers of copper and aluminium lamination to be separated, and the overall structure of composite bed is stable, And the thickness of layers of copper and aluminium lamination will reduce much relative to stratified form.

Heated in cooking process in the bottom of a pan, rapid heat conduction is to each position of pot body in the presence of layers of copper for heat, significantly Ground improves energy utilization rate.Just as thermal source is the heart of human body, netted layers of copper is exactly capillary.Due to whole pot body heat Amount is uniform, water or dish in pot are equivalent to comprehensive heat simultaneously, it is to avoid the dish life cooked is ripe uneven.

Wherein rib is the skeleton of the webbed layers of copper of structure, and netted layers of copper can be integrally formed casting, and rib can To be that square-section can also be circular cross-section.Buckle slot is preferably provided with rib, buckle slot includes cell body and stopper, Stopper is arranged at the opening on cell body, and stopper does not close opening, and the aluminium of liquid is entered in buckle slot, kept off after condensation by stopper Firmly so that aluminium lamination can be more closely connected with layers of copper.

Upper two layer 5 is preferably stainless steel layer, due to may be added in cooking process many mordant materials thus Requirement for the inner surface of pot 1 is higher, and upper two layer 5 is the layer of the inner surface of pot 1 preferably with the good stainless steel of corrosion resistance The layer lifting mass of pot 1, increases the service life.

Lower two layer 6 is preferably stainless iron layer, and the performance requirement of the outer surface of pot 1 is low compared with inner surface, from price relatively not The relatively low stainless iron layer of steel of becoming rusty can be cost-effective in the case where ensureing that the overall performance of pot 1 is outstanding, although and stainless iron Layer still suffers from difference in nature compared to stainless steel layer, but for its resistant to rust ability, is all substantially better than wrought iron and cast iron cooker.

The manufacture craft of the composite bed of pot 1 is as follows in the present embodiment：A kind of system of the composite bed of the pan of cupric knitmesh Technique is made, first makes two layer 5, lower two layer 6 and netted layers of copper shaping, is then placed in the middle of upper two layer 5 and lower two layer 6 Layers of copper, layers of copper and upper two layer 5, layers of copper and it is lower two layer 6 between there is gap, up two layer 5 and it is lower two layer 6 between inject and be melt into The aluminium of liquid simultaneously enables liquid aluminium to fill the through hole 7 in layers of copper, liquid aluminium cooling is formed integral upper one afterwards Layer 3 and next layer 4, layers of copper are wrapped up as intermediate layer 2 by the last layer 3 and next layer 4 of one.

Conventional composite, is to be bonded together between two layers or more than two layers of main material by aluminium. But in manufacturing process, aluminium lamination surface is oxidized easily, or there are various impurity between material.It will cause to glue between material Close insecure, absciss layer phenomenon easily occur.Such as conventional three layered materials, are steel, together with three kinds of combinations of materials of aluminium and iron, but In the case of temperature change is faster, just occur that part is heaved, that is, absciss layer phenomenon.Due to liquid under the technique of the present embodiment State aluminium can pass through the through hole 7 in netted layers of copper, so whole layers of copper can be all wrapped in by aluminium, and liquid aluminium can with it is upper Two layer 5 and the combination of lower two layer of 6 height so that composite bed one entirety of formation, the composite bonding force than routine is stronger, more surely It is fixed.

Above example is only not limited to illustrate the technical solution of the utility model, all without departing from this Any modification of utility model spirit and scope or equivalent substitution, it all should cover the scope in technical solutions of the utility model It is interior.

Claims (9)

1. a kind of pan of cupric knitmesh, it is characterised in that including pot（1）, pot（1）Include by intermediate layer（2）, set In intermediate layer（2）The last layer of top（3）And it is arranged on intermediate layer（2）Next layer of lower section（4）The composite bed constituted；On One layer（3）With next layer（4）It is aluminium lamination, intermediate layer（2）For layers of copper.

2. the pan of a kind of cupric knitmesh according to claim 1, it is characterised in that offered in the layers of copper on some The through hole of lower insertion（7）.

3. a kind of pan of cupric knitmesh according to claim 1, it is characterised in that the layers of copper be it is netted, it is netted Layers of copper includes some ribs and the through hole surrounded by rib（7）.

4. according to a kind of pan of any described cupric knitmesh of Claims 2 or 3, it is characterised in that the last layer（3）With Next layer（4）Aluminium lamination pass through through hole（7）It is connected and is integrated.

5. the pan of a kind of cupric knitmesh according to claim 1, it is characterised in that the composite bed also includes being arranged on Last layer（3）Upper two layers of top（5）Be arranged on next layer（4）Lower two layers of lower section（6）.

6. the pan of a kind of cupric knitmesh according to claim 5, it is characterised in that described upper two layers（5）For stainless steel Layer.

7. the pan of a kind of cupric knitmesh according to claim 5, it is characterised in that described upper two layers（5）For stainless iron Layer.

8. the pan of a kind of cupric knitmesh according to claim 5, it is characterised in that described lower two layers（6）For stainless steel Layer.

9. the pan of a kind of cupric knitmesh according to claim 5, it is characterised in that described lower two layers（6）For stainless iron Layer.