DE202010013221U1 - Aluminum pan with composite bottom - Google Patents

Abstract

Aluminum pan or pan with a composite bottom, which is provided with a magnetically conductive metal material, characterized in that
the magnetically conductive metal material are tailored magnetically conductive metal sheets;
the pelvic floor has at least four separate parts of magnetically conductive metal sheet;
the center part of the outer surface of the magnetically conductive metal sheets exposes;
the outsides of the magnetically conductive metal sheets are flush with the pelvic floor;
the edges of the magnetically conductive metal sheets are integrated and fastened by an aluminum alloy on the base of the basin.

Description

FIELD OF THE INVENTION

The invention relates to aluminum pots and pans with composite bottom.

BACKGROUND OF THE INVENTION

• 1. Wegen der unterschiedlichen thermischen Ausdehnungskoeffizienten dehnen sich Aluminium und magnetisch leitende Metallbleche je nach Fläche thermisch unterschiedlich. Gleiche Flächen des vorgenannten magnetisierbaren Metallblechs und des Alubodens haben also im Verbund unterschiedliche thermische Ausdehnungswerte. Dies gilt bei Gebrauch auch für das magnetisch leitende Metallblech und den Aluboden der Pfannen oder Töpfe. Dadurch werden die konvexen Bolzen am Rand des Beckenbodens aus dem magnetischen Metallblech gezogen. Die unterschiedliche thermische Expansion und Kontraktion bewirkt, dass sich die Kanten der konvexen Bolzen versetzen und dass der Boden bei Gebrauch den Induktionsherd zerkratzt. Auch kann das magnetisch leitende Metallblech vom Beckenboden abgehen.
• 2. Die vorgenannten magnetisierbaren Metallbleche werden am Beckenboden durch Umformen der konvexen Bolzen gehalten und durch deren Zusammenpressen mit dem Beckenboden. Die lockere Verbindung zwischen dem magnetisierbaren Metallblech und dem Beckenboden kann in einer schlechten thermischen Leitung zwischen den Teilen resultieren.

There are many aluminum pots and pans. Pans and pots made of cast aluminum are usually not suitable for induction cookers. The CN 200510061988.3 describes to solve this problem an aluminum pan with a composite bottom, which is connected to a plate of a magnetically conductive metal. For this purpose, convex bolts are formed on the bottom of the Alupfannen, which engage in corresponding flanges of the magnetic-conductive metal sheets. In manufacture, the flanges of the magnetically conductive metal plate are placed on the convex bolts of the ladle bottom, and the convex bolts are deformed by compression so that the magnetic metal plate is fixed to the bottom of the ladle. Although this aluminum pan with a composite bottom is suitable for induction cookers, it has the following disadvantages:

• 1. Due to the different thermal expansion coefficients, aluminum and magnetically conductive metal sheets expand thermally differently depending on the area. The same surfaces of the aforementioned magnetizable metal sheet and the aluminum floor thus have different thermal expansion values in the composite. This also applies to the magnetically conductive metal sheet and the aluminum floor of the pans or pots when in use. As a result, the convex bolts on the edge of the pelvic floor are pulled out of the magnetic metal sheet. The differential thermal expansion and contraction causes the edges of the convex bolts to displace and, in use, the floor to scratch the induction hob. Also, the magnetically conductive metal sheet may depart from the pelvic floor.
• 2. The aforementioned magnetizable metal sheets are held on the pelvic floor by reshaping the convex studs and compressing them with the pelvic floor. The loose connection between the magnetizable metal sheet and the pelvic floor may result in poor thermal conduction between the parts.

• 1. Das magnetisch leitende Metallmaterial wird an den Bodenabschnitten mit Hilfe einer metallischen Hochtemperatur-Sprühbeschichtung angebracht. Hierzu muss man ein Füllmaterial zum magnetisierbaren Metallmaterial hinzusetzen, sonst erhält man keine ausreichende Verbindung zwischen dem magnetischen Metallmaterial und dem Pfannenboden. Dies führt unvermeidlich zu einem lockeren Aufbau des magnetisierbaren Metallmaterials. Dies hat zur Folge, dass es sich leicht vom Pfannenboden ablösen kann, wenn man diesen zu stark erhitzt.
• 2. Weil das magnetisch leitende Metallmaterial an den jeweiligen Bodenabschnitten mit einer Hochtemperatur-Sprühbeschichtung aufgebracht wird, kann man keines mit gröberem Korn bearbeiten und beschneiden. Dies kann zur Folge haben, dass der Pfannenboden eine vergleichsweise großen Oberflächenrauheit besitzt, was bei Gebrauch wiederum zu Kratzern auf dem Induktionsherd führt.

The CN 200810137690.X further describes a composite floor for an aluminum pan and its manufacture. It is proposed to connect the bottom of the aluminum pan to a magnetizable metal material having convex ribs which divide the pan bottom into a number of regions. The magnetically conductive metal material is attached to the regions each by means of a high temperature metal spray coating. Although suitable for induction cookers, it is disadvantageous:

• 1. The magnetically conductive metal material is attached to the bottom sections by means of a high-temperature metallic spray coating. For this purpose, one has to add a filling material to the magnetizable metal material, otherwise one does not obtain a sufficient connection between the magnetic metal material and the bottom of the pan. This inevitably leads to a loose structure of the magnetizable metal material. This has the consequence that it can easily detach from the bottom of the pan, if heated too much.
• 2. Because the magnetically conductive metal material is applied to the respective bottom sections with a high temperature spray coating, one can not work and trim any one with coarser grain. This can result in the pan bottom having a comparatively large surface roughness, which in turn leads to scratches on the induction cooker in use.

SUMMARY OF THE INVENTION

It is an object of the invention to provide induction cooker suitable aluminum pans and pans, wherein a reliable connection between composite floor and aluminum bunk and perfect thermal conductivity should be given.

This object is achieved by aluminum pots and pans according to claim 1. Preferred embodiments are specified in the subclaims.

They describe aluminum pots and pans with a composite bottom, wherein the pelvic floor is provided with a magnetizable metal material. The magnetically conductive metal material is usually a tailored magnetically conductive metal sheet. In the pelvic floor at least four separate parts of magnetically conductive metal sheet are used. The middle part of the outer surface of the respective metal sheet is exposed. The edges of the respective metal sheet are flush with pelvic floor. The edges of the individual metal sheets are folded and connected by an aluminum alloy with the pool bottom. Since the pelvic floor contains at least four separate parts of magnetically conductive metal sheet, the individual surfaces of magnetically conductive metal sheet are considerably smaller. As a result, the differences due to the thermal expansion between the individual magnetizable metal sheets and the aluminum pelvic body are smaller. This significantly reduces in use the tensions between the aluminum basin and the composite floor. This achieves that the magnetizable metal sheets do not stand out from the aluminum pelvic body. Since the individual magnetizable metal sheets are folded and fastened by an aluminum alloy on the bottom of the basin, there is a close connection between the magnetizable metal sheets and the bottom of the pool, so that one obtains an ideal thermal conduction.

One embodiment relates to composite-bottomed aluminum pans and pans, wherein magnetically-conductive metal material is attached to the pelvic floor, characterized in that: the magnetically-conductive metal material is a cut-to-size magnetically conductive metal sheet; that at least four separate parts of this metal sheet are inserted in the tank bottom; that the central part of the outer surface of the magnetizable metal sheet is each free is; however, the outside of the respective magnetizable metal sheet is flush with the pelvic floor; the edge of the respective metallically conductive metal sheets is folded and attached to the bottom of the basin by an aluminum alloy.

Thus, the following advantages are associated: Since at least four separate magnetically conductive metal sheets are used in the tank bottom, the individual surface sizes of the magnetizable metal sheets are considerably smaller. This significantly reduces the differences due to the thermal expansion between the individual magnetizable sheets and the aluminum bowl body. Even when using the aluminum pots and pan with composite bottom does not occur the problem that the magnetizable metal sheets peel off because of the different thermal expansion coefficients of aluminum pelvic body. Since the edges of the magnetizable metal sheet are folded in and the sheet is fastened to the bottom of the tank by an aluminum alloy, there is a close connection between the magnetizable metal sheet and the bottom of the tank and an ideal thermal conductivity is obtained. Since the magnetizable metal sheets are tailored press parts, this allows a compact structure and smooth surfaces, so that the induction cooker is not scratched. Preferably, eight separate magnetically conductive metal sheets are used in the pelvic floor. Several magnetically conductive metal sheets lead to smaller differences between the individual magnetizable metal sheets and the aluminum base. Separate magnetically conductive metal sheets on the bottom of the basin also allow less use of magnetizable metal sheets and can reduce material costs.

The edge of the magnetizable metal sheet is formed into an oblique flange by folding and pressing. The side surface of the flange is folded over by the aluminum. The flange end is punched under extrusion into the pelvic floor. The extruded aluminum alloy in the pelvic floor, on the other hand, automatically surrounds the side surface of the flange, so that a close connection between the magnetizable metal sheet and the pelvic floor and a perfect thermal conduction are obtained. Since the laterally inclined flange is produced by direct folding and pressing of the edge of the magnetizable metal sheet, this gives a reliable connection of the flanges to the middle parts of the magnetizable metal sheets.

The pelvic floor has a base whose profile is compatible with the inner surface of flanged magnetizable plates. As a result, a close connection between the magnetizable sheets and the bottom of the basin is achieved and a protection against a concave deformation of the central part of the magnetizable sheets during the extrusion. It also allows a close connection between the magnetizable metal sheets and the pelvic floor and a better thermal conduction.

The magnetizable metal sheet may be made of one or more stainless steel sheet, iron sheet and iron alloy sheets. The bottom of the pan has a pattern comprising magnetizable metal sheets and an aluminum alloy on the base of the basin.

At least eight separate pieces of magnetizable metal sheets, which run from the middle section to the edge of the pelvic floor, are embedded in the pelvic floor. Several magnetizable metal sheets reduce the differences between the individual magnetizable metal sheets and the aluminum bowl body and a reliable attachment of the magnetizable metal sheets. The heating of the magnetizable metal sheets by induction is not affected by the fact that the magnetizable metal sheets run from the middle part to the edge of the pelvic floor.

BRIEF DESCRIPTION OF THE FIGURES

It shows:

1 a cross section of the composite-ground aluminum basin (Embodiment 1);

2 an enlarged section of the cross section of the magnetizable metal sheet before insertion into the pelvic floor (Embodiment 1);

3 an enlarged section of the cross section of the magnetizable metal sheet before insertion into the pelvic floor according to embodiment 2;

4 an enlarged section of the cross section of the magnetizable metal sheet before insertion into the pelvic floor according to embodiment 3;

5 an enlarged section of the cross section of the magnetizable metal sheet before insertion into the pelvic floor according to embodiment 4;

6 a drawing of the aluminum pot with composite bottom according to embodiment 5;

7 a large representation of the cross section of a magnetizable metal sheet before insertion into a pelvic floor according to embodiment 5;

8th a large representation of the cross section of a magnetizable metal sheet after insertion into the pelvic floor according to embodiment 5;

9 an enlarged view of the cross section of the magnetizable metal sheets before extrusion according to embodiment 5;

10 an enlarged view of the cross section of the magnetizable metal sheets after extrusion according to embodiment 5;

11 - 13 Drawings of another three pelvic floor patterns;

14 a drawing of another pattern of the pelvic floor.

DESCRIPTION OF PREFERRED EMBODIMENTS

Please refer 1 and 2 , The aluminum pot or the pan with composite bottom has a pelvic floor 1 , is embedded in the magnetically conductive metal material. The magnetically conductive metal material is cut metal sheets 2 , In the pelvic floor eight separate pieces of magnetizable metal sheets are embedded. Several magnetically conductive metal sheets cause the differences between the individual magnetizable metal sheets and the aluminum bottom to become smaller. The outside of the magnetizable metal sheets are flush with the pelvic floor. The middle part on the outside of the magnetizable metal sheets is exposed. The edges of the magnetizable metal sheets are folded and fixed with an aluminum alloy on the bottom of the tank. The edges of the magnetizable metal sheets are by folding and pressing in bevelled flanges 3 formed. The side surface of the flange is surrounded by aluminum. The pelvic floor points to a base surface 4 which is compatible with the profile of the inside surface of the flanged magnetizable metal sheets. The magnetizable metal sheets are made of stainless steel. Of course, iron sheets and sheets of ferroalloys can be used.

The magnetically conductive metal sheet is completely inserted by folding and pressing in a chamfered flange. Before inserting the magnetizable metal sheets into the aluminum basin, the pelvic floor is recessed 5 provided in which then the sheets are used. The edge of the depression has a bead 6 on, which protrudes from the pelvic floor. If the magnetizable sheets are inserted into the aluminum base, the protruding bead is pressed against the edge of the depression to the edge and thus secures the magnetizable sheets. The aluminum pots or pans with the composite floor according to the invention solve the problem that detachable metal sheets due to the different thermal expansion coefficient of an aluminum floor. The magnetizable metal sheets are cut press files of compact construction and have a smooth surface so as not to scratch the induction hearth. The flanged ends are sunk under extrusion into the bottom surface. The extruded aluminum alloy on the pelvic floor then automatically surrounds the sides of the flange, providing a tight bond between the magnetic metal sheet and the pelvic floor, as well as ideal thermal conduction. Since in the laterally inclined flange directly by folding and pressing the edge of the magnetic metal sheet is formed, also gives a reliable connection of the flange with the central part of the magnetizable metal sheet. The pelvic floor is provided with a base area which is compatible with the profit on the inside of the flanged magnetizable metal sheets. This achieves close contact between the magnetic metal sheets and the pelvic floor and thus protects against concave deformation in the central portion of the magnetic metal sheet during extrusion. At the same time, close contact between the magnetic sheets and the bottom of the pool is achieved, as well as an improvement in the thermal conductivity.

3 shows an enlarged view of the cross section of the magnetizable metal sheets before they are inserted into the pelvic floor. Embodiment 2 can be seen. The edge of the magnetizable sheet 2 is in the obliquely formed flange 3 formed by folding and pressing. Of the sloping flange 3 on the edge of the magnetizable sheet 2 is at a right angle. The others, however, are identical to the embodiment 1. This also solves the problem of the invention.

4 shows an enlarged view of the cross section of the magnetically conductive metal sheets prior to insertion into the pelvic floor. Embodiment 3 can be seen. The cross section of the magnetizable metal sheet 2 is trapezoidal. The other sides are identical to the embodiment 1. The magnetically conductive metal sheet of trapezoidal cross-section can also be attached to the pelvic floor. After at least four separate pieces of magnetically conductive metal sheet are used, the claimed solution results.

5 shows an enlarged view of the magnetizable metal sheets before their insertion into the pelvic floor (Embodiment 3). The pelvic floor has no base surface which would be compatible with the profit on the inside of the magnetizable sheets. The other pages, however, are identical to the embodiment 1.

Please refer 6 . 7 . 8th . 9 and 10 , The figures describe the method of making aluminum pots and pans with composite bottom. It comprises the steps: Manufacture of magnetically conductive metal sheets 2 ; Injection molding of aluminum basin blanks; Pressing the pelvic floor with four wells 5 for insertion of magnetically conductive metal sheets; Placing magnetically conductive metal sheets in the recesses 5 ; Extruding and pressing the magnetically conductive metal sheets with the help of a pressing machine 7-1 and 7-2 and connecting the pelvic floor to the magnetically conductive metal sheets in the ground; Surface treatment of the pelvic floor and maintenance of aluminum pots and pans with composite floor.

The edge of the magnetizable metal sheet 2 gets into the inclined flange 3 formed by folding and pressing, starting from magnetizable metal sheets. The end of the flange is extruded into the pelvic floor by extrusion, with the extruded aluminum alloy of the pelvic floor automatically conforming to the side surfaces of the flange. This gives a close connection between the magnetic plates and the pelvic floor and an ideal thermal conduction. Since the inclined flange is formed directly by pressing and folding the edge of the magnetizable metal sheets, one also obtains a secure connection of the flange with the central part of the magnetizable metal sheets.

When injection molding the aluminum pool blanks are also protruding sections 6 obtained, which at the edge of the depression 5 stand out of the pelvic floor. The protruding portion at the edge of the recess becomes the side surface of the flange 3 extruded at the edge of the magnetizable metal sheets while fixing the magnetizable metal sheets. A protruding portion at the edge of the recess facilitates the blending and bonding with the edge of the magnetizable metal sheets under extrusion.

The recess sides are formed so that they fit the magnetizable metal sheet and the recess for the use of the magnetizable metal sheets can be pressed. This achieves a close connection between the magnetizable metal sheets and the recess surface and a protection against concave deformation of the central portion of the magnetizable metal sheets during extrusion.

The aluminum pans and pans with composite bottom Thus solving the problem, they are made as stated above, that despite the different expansion coefficients of magnetizable metal sheets and aluminum bowl body they do not come apart. Since the edge of the magnetizable sheets are surrounded by the aluminum alloy at the bottom of the basin, one obtains a close connection between the magnetizable metal sheets and the bottom of the tank as well as perfect thermal conductivity. Since the magnetizable metal sheets are cut compacts, have a compact structure and a smooth surface, they will not scratch an induction cooker either.

The 11 - 13 are drawings of another three patterns of the pelvic floor. In the pelvic floor 1 are at least eight separate pieces of magnetizable metal sheets 2 admitted. The metal sheets each extend from the middle part of the pelvic floor to the edge. Several magnetically conductive metal sheets reduce the expansion difference between individual magnetizable metal sheets and the aluminum body and guarantee a reliable attachment of the magnetizable metal sheets. The heating of the magnetizable metal sheets by the induction heating plate is not diminished by the fact that the magnetizable metal sheets extend from the middle part of the basin towards the edge.

Please refer 14 , The pattern of the pelvic floor also leaves holes 8th to pins in the middle of the magnetizable metal sheets 2 , The magnetizable metal sheets can also be attached to the bottom of the tank through holes 8th , The edge at the hole 8th can also be set up for a flange.

Here, individual embodiments of the invention have been described. The scope of protection results from the following claims.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• CN 200510061988 [0002]
• CN 200810137690 [0003]

Claims (6)

Composite pan aluminum pan or pan provided with a magnetically conductive metal material, characterized in that the magnetically conductive metal material are tailored magnetically conductive metal plates; the pelvic floor has at least four separate parts of magnetically conductive metal sheet; the center part of the outer surface of the magnetically conductive metal sheets exposes; the outsides of the magnetically conductive metal sheets are flush with the pelvic floor; the edges of the magnetically conductive metal sheets are integrated and fastened by an aluminum alloy on the base of the basin. Aluminum pan or pan with a composite bottom according to claim 1, characterized in that the edge of the magnetically conductive metal sheet is formed by folding and pressing in an obliquely inclined flange and the side surface of the flange is surrounded by aluminum. Aluminum pot or pan with a composite bottom according to claim 2, characterized in that the edge of the magnetically conductive metal sheet is completely or partially formed by folding and pressing formed in an obliquely inclined flange. An aluminum pan or pan with a composite bottom according to claim 2, characterized in that the magnetically conductive metal sheet is provided with a base surface which is compatible with the profile on the inside of the flanged magnetically conductive metal sheet. An aluminum pot or pan with a composite bottom according to claim 1, characterized in that the magnetically conductive metal sheet contains one or more materials selected from stainless steel sheet, iron sheet, sheet of an iron alloy and the pool bottom has a pattern comprising magnetically conductive metal sheets and an aluminum alloy at the bottom of the tank. Aluminum pot or pan with a composite bottom according to claim 1, characterized in that the pelvic floor has at least eight separate pieces of magnetically conductive metal sheets, which extend from the central part to the edge of the pelvic floor.

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