KR100928428B1 - Manufacturing method of large-capacity gas soup pot and large pot with triple pot with triple structure - Google Patents

Abstract

The present invention relates to a large-capacity gas pot, and more particularly, to a large-capacity gas pot and a method for producing a large pot with a large pot having a triple structure of stainless steel-aluminum-stainless steel.

Large pot for large-capacity gas soup pot according to the present invention is an outer stainless steel sheet having a diameter of φ1500mm or more, the inner stainless steel sheet having a diameter of φ1500mm or more, and the aluminum having a diameter of φ1500mm or more positioned between the outer and the inner stainless steel plate It is made of a plate, characterized in that the outer and inner stainless steel sheet and the aluminum plate is joined by heat-pressing, and press-pressed to have an inner space of an opening diameter of φ900mm or more characterized in that it is formed concave.

Description

Manufacturing method of large-capacity gas soup pot and large pot with a triple pot with triple structure {HIHG-CAPACITY SOUP COOKER HAVING TRIPLE STRUCTURE CALDRON, METHOD OF MANUFACTURING THE TRIPLE STRUCTURE CALDRON}

The present invention relates to a large-capacity gas pot, and more particularly, to a large-capacity gas pot and a method for producing a large pot with a large pot having a triple structure of stainless steel-aluminum-stainless steel.

In general, a large-capacity gas soup pot is a kitchen utensil that can cook a large amount of soup, stew, and fried at a time by using the city gas as the main fuel. Large-capacity gas soup pots are distinguished from soup pots and pots used for cooking a small amount of food in a general household in that they are used in a restaurant or a group lunch place to prepare a meal for a large number of people.

Large pots for large-capacity gas soup pots installed in large-capacity gas pots to accommodate foods have large capacities of 100 to 500 servings, so the opening diameter is usually φ900 mm or more and heavy, making it difficult to move and clean them.

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A large pot for a large-capacity gas soup pot according to the prior art is manufactured by casting or plastic working using a metal such as aluminum alloy, cast iron, or stainless steel having good heat resistance as a single material. In particular, large pots are widely used as the main material for kitchen appliances, stainless steel having excellent corrosion resistance.

However, since stainless steel is hard as high alloy steel, workability is largely inferior. Therefore, in the production of large pots, the press processing, which can be mass-produced, cannot be performed, and spinning processing, also known as "herashibori," is generally performed. Spinning process is to fix the circular shape of the product on the lathe spindle and insert the material plate between the circle and the tailstock and rotate it together with the main axis. It is a method of molding a product having a shape such as a circular shape by pressing from.

Spinning is a problem that occurs when the mechanical processing by the roller, such as the thickness of the large portion of the contact with the roller becomes thin, such that the thickness of the large pot is not uniform, causing defects in the product. In addition, there is a problem that takes a lot of effort and time for the worker to uniformly process the thickness of the pot using the stick.

Since a large pot according to the prior art is made of stainless steel having a poor thermal conductivity as a single material, there is a problem in that portions other than the portions filled with food or locally heated portions are deformed or burned due to high heat. In addition, the large pot has a problem that the food is difficult to stick to easily pressed.

The present invention has been devised for the above problems, not only excellent workability, but also easily manufactured with a uniform thickness, and excellent thermal conductivity to prevent the pot from being deformed or burned, and the food does not stick to the pot. An object of the present invention is to provide a gas soup pot and a method of manufacturing the same.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments in conjunction with the accompanying drawings.

In order to achieve the above object, a large pot for a large-capacity gas soup pot having a triple structure according to the present invention includes an external stainless steel sheet having a diameter of φ1500 mm or more, an internal stainless steel sheet having a diameter of φ1500 mm or more, and the external and internal stainless steel sheets. It is made of an aluminum plate having a diameter of φ1500mm or more positioned between the ashes, the outer and inner stainless steel sheet and the aluminum plate is joined by heat pressing, and formed by pressing to have an inner space of an opening diameter of φ900mm or more concave. It is characterized by.

In addition, the manufacturing method of a large pot for a large-capacity gas soup kettle having a triple structure according to the present invention comprises the steps of laminating an aluminum plate between the outer stainless steel sheet and the inner stainless steel sheet, and thermally press the laminated plate And cutting the joined plate to have a diameter of φ1500 mm or more, and pressing the cut plate material to concave to have an internal space of an opening diameter of φ900 mm or more.

Large pot for large-capacity gas soup pot according to the present invention has a triple structure of stainless steel-aluminum-stainless steel, not only good corrosion resistance but also excellent workability can be mass-produced through press processing. In addition, the large pot has a good thermal conductivity, so that the entire pot is evenly heated, thereby preventing the pot from being burned or deformed locally, and preventing food from being easily pressed and burned.

In addition, the manufacturing method of a large pot for a large-capacity gas soup pot according to the present invention can be easily produced a large pot of uniform thickness through the press processing, thereby improving the product performance.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of a large-capacity gas soup pot with a large pot having a triple structure according to the present invention and a manufacturing method thereof.

1 is a front view showing the operation structure of the large-capacity gas soup pot of the present invention. The large-capacity gas soup pot according to the present invention has a frame 10, a combustion cylinder 20 installed to be rotatable about an axis provided in the frame 10, and an upper portion of which is open, and an open upper portion of the combustion cylinder 20. An exhaust part 30 provided with a plurality of exhaust holes provided therein and exhaust gas is discharged, a gas burner part 40 installed at a lower part of the combustion cylinder 20, and a large pot for a large-capacity gas soup pot placed in the exhaust part 30 ( 50), a cover 60 which is installed to be foldable to the frame 10 and covers the large pot 100 for the large-capacity gas soup pot, the combustion cylinder 20, the exhaust part 30, the gas burner part 40, It comprises a handle 70 having a worm and a worm gear to rotate the large pot 100 for a large-capacity gas soup pot.
2 is a partial cutaway perspective view showing a large pot for a large-capacity gas soup pot according to the present invention, Figure 3 is a block diagram showing a method for producing a large pot for large-capacity gas soup pot according to the present invention.

Large pot 100 for large-capacity gas soup pot according to the present invention has a triple structure of stainless steel-aluminum-stainless steel as shown in FIG. The layer corresponding to the inner surface of the large-scale gas pot 100 for the large pot 100 is the inner stainless steel sheet 110, the layer corresponding to the outer surface of the large pot 100 is the outer stainless steel sheet 120, the inner and An aluminum plate 130 is disposed between the outer stainless steel plates 110 and 120.

Joining of the inner stainless steel sheet 110 and the aluminum sheet 130 and the outer stainless steel sheet 120 may be rolled, cast, welded, or the like. At this time, it is preferable to join the plate by hot pressing, and in particular, to join by rolling.

The composite sheet of stainless steel-aluminum-stainless steel joined by the rolling process is cut in a circular shape with a shearing machine or the like to have a diameter of φ1500 mm or more, and the bonded composite sheet is placed on a mold having a concave inner space, and a convex press When pressurized with (Press) and plastic processing, it is formed concave to have an internal space of an opening diameter of φ900mm or more. At this time, according to the shape and depth of the recessed inner space of the mold, it is possible to manufacture a variety of capacity of the large pot (100). As a result, the large pot 100 may be manufactured to have a variety of capacities capable of cooking a large amount of food 100 to 500 servings or more.

The large pot 100 according to the present invention is a combination of the advantages of aluminum having excellent corrosion resistance and heat resistance, and aluminum having a low specific gravity and high thermal conductivity. The large pot 100 is formed by joining stainless steel plates 110 and 120 to both sides of an easy-to-process aluminum plate 130, and is capable of press working because of excellent moldability (processability) than the conventional stainless plate alone. .

In addition, since the large pot 100 has a good thermal conductivity, the entire large pot is evenly heated, thereby preventing the large pot from being burned or deformed locally, and preventing the food from being pressed against the pot.

As shown in FIG. 3, the method for manufacturing a large-scale gas cooker 100 for a large-capacity gas soup pot according to the present invention includes a lamination step S100, a bonding step S200, a cutting step S300, and a press working step S400. It is made to include.

Laminating step (S100) is the foreign material of the outer surface of the inner stainless steel sheet 110, the outer stainless steel sheet 120 and the aluminum sheet 130 is removed, and the aluminum sheet 130 to the inner and outer stainless steel sheet (110, 120). If foreign substances such as scale, oil, and dirt existing on the joint surface are not completely removed, there may be a problem in joining. Therefore, remove foreign substances as much as possible.

Bonding step (S200) is a step of bonding by pressing the laminated sheet material, it is preferable to perform a rolling process. Rolling is usually performed by cold rolling after hot rolling at a temperature above the recrystallization temperature of metal materials, and then cold rolling.

Cutting step (S300) is a step of cutting the bonded plate in a circular shape to have a diameter of φ1500mm or more. Cutting step (S300) is preferably carried out by shearing using a shear.

The press working step (S400) is a step of pressing the cut plate material concave so as to have an inner space of an opening diameter of φ900 mm or more. Composite plate material in which stainless steel is bonded to both sides of aluminum plate material is easier to press work (plastic processing) because it has better formability (processability) than plate material made of stainless steel only.

When the composite plate cut in a circular shape is placed on a mold having a concave inner space, and subjected to plastic processing by a convex press, a large concave pot 100 having a concave shape having an inner space of an opening diameter of φ900 mm or more is made. At this time, according to the shape and depth of the recessed inner space of the mold, it is possible to manufacture a large pot 100 having a variety of shapes and depths. The press working as described above has an advantage that the quality of the large pot is improved accordingly because it is easy to uniform the thickness of the large pot 100 as a product as compared to the spinning process.

Since the manufacturing method of the large-sized pot 100 for a large-capacity gas soup pot according to the present invention is press-processed, the product production speed is higher than the spinning process of forming a raw material plate using a stick or a roller with a conventional manpower or mechanical force. Significantly improved and thus mass production is possible.

1 is a front view showing the operation structure of the large-capacity gas soup pot of the present invention,

Figure 2 is a partial cutaway perspective view showing a large pot for large-capacity gas soup pot according to the present invention,

Figure 3 is a block diagram showing a method of manufacturing a large pot for large-capacity gas soup pot according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10 frame 20 combustion chamber

30: exhaust 40: gas burner

50, 100: large pot 60: cover

70: handle 110: internal stainless steel

120: outside stainless steel 130: aluminum

Claims (4)

delete delete frame; A combustion cylinder rotatably installed around the shaft provided in the frame, a gas burner unit installed at a lower portion thereof, and an exhaust unit configured to discharge a combustion gas at an upper portion thereof; A large pot placed on the exhaust portion and rotating together with the combustion cylinder; Including; The large pot, It is a triple structure in which stainless steel, aluminum and stainless steel are sequentially stacked. an outer stainless steel sheet having a diameter of at least 1,500 mm, an inner stainless steel sheet having a diameter of at least 1,500 mm, and an aluminum sheet having a diameter of at least 1,500 mm positioned between the outer and inner stainless steel sheets, The outer stainless steel sheet, the inner stainless steel sheet and the aluminum sheet are joined in a sheet state by hot rolling at a temperature above a recrystallization temperature of stainless steel and aluminum and then cold rolling. A large-capacity gas soup pot characterized in that it is formed concave by pressing to have an inner space of an opening diameter of φ900mm or more. delete

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