KR950004055B1 - Method and apparatus for making vacuum bottles - Google Patents

Abstract

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Description

Internal and external pathogen processing method of stainless vacuum thermos and its device

1 is a view of a conventional stainless vacuum thermos. Front view of exopathic processing equipment.

2 is a cross-sectional view of the internal and external diseases completed by the present invention.

3 is the inside of the stainless vacuum insulation of the present invention. Front view of exopathic processing equipment.

* Explanation of symbols for the main parts of the drawings

1: drive unit 2: transfer unit

3: moving part 4: forming part

10: driving chuck 11: first mold

20: shuttle 21: second mold

30: cylinder 40: forming roller

The name of this field is the inside of stainless vacuum thermos, which can prevent the thinness of materials during processing of inner and outer bottles of stainless vacuum thermos and also increase the work efficiency. The present invention relates to a method for processing an external pathogen and an apparatus thereof.

In general, the internal and external pathogen processing method of stainless vacuum thermos is made by processing the inner and outer paths of the inner and outer paths into a mold and welds them to the cylindrical inner and outer paths in a circumferential direction. I have used the method of completion.

However, such a conventional processing method not only generates a large amount of defective products due to welding bulges when welding in the circumferential direction, but also reduces productivity for the complexity of the work process, inefficient work, and material and production costs. There was a problem that led to the rise.

Therefore, in recent years, a processing method using a mechanical device has been proposed to solve such a problem. As shown in FIG. 1, the mold 110 is fixed to the fixed chuck 120 at one side of the base 500, and the cylindrical shape It consists of a fixed part 100 to be fixed to the pipe 400 of the base material 400, and a drive part 200 to rotate the mold 110 of the fixed part 100 by the drive of a power source. It has been using a processing method for pressing the base material 400, which is fixed to the mold 110 of the drive unit 200 by using a mechanical device, by pressing with a spinning process with a roller 300 by human hands. .

However, this also causes the difficulty of welding and the defect caused by bursting due to the thinning phenomenon in which the thickness of the material is drastically reduced. There is a problem point that leads to inefficiency.

The present invention has been invented to solve the conventional problems as described above, as well as preventing the thinning of the material during the processing of internal and external diseases, as well as to ensure that two sets of internal and external diseases can be produced in one process. Stainless vacuum thermos to increase efficiency. It is an object of the present invention to provide an external pathogen processing method and an apparatus thereof.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is to install two sets of molds corresponding to each other, and inserting the base material into the respective molds to form the inlet portion of the inner and outer bottles by the forming means to be collected in the center direction as shown in FIG. Likewise, the material thickness is gathered in the center direction during the molding process, so that the material thickness is not only thickened, but also by cutting the center part of the mold to make two sets of internal and external diseases in one process.

In addition, the apparatus for such a processing method, as shown in Figure 3, is located on one side of the body 500, the first mold 11 is fixed to the drive chuck 10 and the drive chuck 10 by a power source Linear reciprocation of the drive unit 1 which allows the first mold 11 to be rotated by the driving of the first mold 11 and the carriage 20 where the second mold 21 is chucked to correspond to the first mold 11. A transfer part 2 capable of transferring the second mold 21, and an operating part 3 providing a driving force so that the transfer part 2 can be operated in a linear reciprocating motion by the operation of the cylinder 30. ) And the base material 400 fixed to the first mold 11 and the second mold 21 to be molded into the shape of the molds 11 and 21 by the operation of the molding roller 40 by automatic control. The apparatus of the present invention having such a configuration comprises a first mold 11 coupled to and fixed to the drive chuck 10 of the drive unit 1. Inserting one side of the base material 400 made of a cylindrical pipe into the cylinder, and transferring the carriage 20 of the transfer unit 2 by the cylinder 30 of the operating unit 3 to chuck the second carriage 20. The base material 400 is inserted into the other side to correspond to the first mold 11 in contact with the mold 21.

At this time, when the driving unit 1 is driven, the first mold 11 coupled to the driving chuck 10 is rotated and the base material 400 inserted into the first mold 11 and the second mold 21. ) Rotates together, and the forming roller 40 of the forming part 4 operated by automatic control forms the base material 400 while linearly reciprocating to the left and right sides of the base material 400 made of the cylindrical pipe. The thickness of the material is added to Hung Hung. The foreign body inlet 400 is gathered in the center direction where the material is thickened.

When the molding is completed as described above, the center of the inner and outer paths of the inlet 400 is cut, and the second mold 21 separates and transports the chucked carriage 20 to release the molded base material 400. It will be able to produce two sets of internal and external diseases in one process.

As described above, according to the present invention, two sets of molds having the same shape are mutually matched to each other so that the materials can be gathered in the center direction in which the inner and outer paths of the inlet are formed. Not only can it be prevented, but also a large number of machining can be done in one process, thereby improving work efficiency and productivity.

Claims (2)

Insert one side of the base material of the cylindrical pipe into the first gilt hung coupled to the drive chuck of the drive unit, and transfer the second mold chucked to the carriage by the cylinder of the operation unit to the other side of the base material The first mold and the base metal inserted into the first mold and the second mold are rotated together while the first mold fixed to the driving chuck is rotated by driving the driving unit. The thickness of the base material is gathered toward the center of the inner and outer paths of the inlet to be molded while the forming roller operated by the forming unit linearly reciprocates to the left and right sides of the base material of the cylindrical pipe, and the inner and outer paths of the inlet are thickened. The inner and outer bodies are formed by cutting the center of the inlet, and the second mold is separated by the chucked carriage to transport. Internal and external pathogen processing method of stainless vacuum insulation name that allows two sets of internal and external pathogens to be produced by one-time processing as the external pathogen is released. The driving unit is located on one side of the body 500 and the first mold 11 is fixedly coupled to the driving chuck 10 and the first mold 11 can be driven by the driving chuck 10 by a power source. (1) and the transfer part (2) to be able to transfer the second mold 21 in a linear reciprocating motion of the carriage 20, the second mold 21 is chucked to correspond to the first mold (11) And, the operating unit 3 for providing a driving force so that the transfer unit 2 can be operated in a linear reciprocating motion by the operation of the cylinder 30, and the first mold 11 and the second mold 21 Stainless vacuum thermos, characterized in that consisting of a molded part (4) to be molded into the shape of the mold (11, 21) by the operation of the forming roller 40 by automatic control of the clamping base material 400 Internal and external pathogen processing equipment.