KR100963408B1 - Manufacturing method for hydro-forming tefron bellows - Google Patents

Abstract

The present invention relates to a method for manufacturing a teflon bellows, and more particularly, to form a bellows having a uniform thickness of the pleated portion, and to provide a hydraulic pressure to improve the durability of the bellows by integrally providing a metal tube on the outside of the teflon tube. A method for producing molded teflon bellows.

The present invention is a teflon bellows manufacturing method of mounting the teflon tube flared at both ends in the pressurizing apparatus and then compressed to form a bellows, before the flaring operation of the teflon tube 120 outside the teflon tube 120 After inserting the flange 115 to be provided and then flaring both ends of the Teflon tube 120, and after the flaring operation of the Teflon tube 120, the Teflon tube (inside the mold device 105) A spacer having a spacer 120 and installing spacers between the intermediate molds 107 positioned on the sidewalls of the Teflon tube 120; A pre-expansion step of expanding the sidewall of the Teflon tube (120) outward while injecting water into the Teflon tube (120) and pressurizing it at low pressure after the step; After the preliminary expansion of the Teflon tube 120, the spacer 130 is removed, water is injected into the Teflon tube 120 to pressurize the upper portion of the mold apparatus 105 while pressing the high pressure device ( An expansion step of expanding the Teflon tube 120 secondly by compressing it to 100), and before the flaring operation at both ends to increase the mechanical properties of the Teflon tube 120, And a metal tube installation step of simultaneously forming the metal tube 135 in a state where the metal tube 135 is formed, and the metal tube 135 discharges the air contained in the space between the Teflon tube 120 to the outside. Air holes 137 is characterized in that formed.

Pressurizer, Flange, Teflon Tube, Spacer, Metal Tube

Description

MANUFACTURING METHOD FOR HYDRO-FORMING TEFRON BELLOWS

The present invention relates to a method for manufacturing a hydraulically molded teflon bellows, and more particularly, to form a bellows having a uniform thickness of wrinkles and to provide a bellows metal tube on the outside of the teflon tube to improve the durability of the bellows. One method is to produce a hydraulically molded teflon bellows.

Protects piping and equipment by absorbing heavy stress applied to piping lines from problems such as expansion and expansion of piping, which are generally blood vessels of modern industrial facilities, vibration problems of driving equipment, movement and damage caused by wind pressure and earthquakes. As a means for this purpose, a bellows type expansion pipe capable of absorbing displacement in the longitudinal direction of the pipe is connected and used at regular intervals.

In particular, the use of acid-resistant bellows due to the expansion, new and enlarged acid-proof facilities due to the increased demand for cold-rolled steel sheets (Stainless-steel) is increasing every year.

In the conventional method of manufacturing a bellows stretched tube, a bellows bellows is formed by inserting a teflon tube into the inside of the mold apparatus, heating the mold apparatus to a high temperature, and then injecting high pressure air into the tube to expand the tube.

However, the bellows manufactured by the conventional manufacturing method has a disadvantage in that the thickness of the circumferential wall becomes thinner as the length of the tube becomes longer due to pressure, and the closer to the corrugated bone and acid. Due to this, there are disadvantages in that the wrinkles are easily broken by pressure and difficult to set the expected replacement time.

In addition, the conventional mold apparatus has a problem that only a single type (standard) of the product can be molded with a set of core molds, and when producing other products, there is a disadvantage that the entire mold must be replaced.

In order to form a bellows by inserting a tube into the inside of the mold apparatus to press the mold apparatus from the top.

However, the above technique also requires the heating of the mold apparatus is essential, the working time is prolonged, and the cooling after the molding of the bellows requires more working time, there is a disadvantage that leads to a decrease in production, The cooling caused the shrinkage of the bellows, making it difficult to produce a bellows of uniform thickness.

In addition, in order to increase the mechanical strength of the bellows to improve durability, the bellows may be formed with a metal tube to be integrally formed on the outside of the tube. Even when the metal tube is provided, the bellows may be inserted into a mold apparatus as described above. I'm doing it.

However, when manufactured by the above method, as the cooling process after the molding of the bellows must be made essentially, the Teflon tube shrinks due to cooling, which may fall from the inner circumferential surface of the metal tube, resulting in failure to increase the durability of the bellows. There was a downside.

Accordingly, when a metal tube is provided to improve durability, there is a need for the disclosure of a technology capable of integrally forming the Teflon tube without falling off after the bellows molding.

The present invention was devised to solve the above problems, and an object of the present invention is to form a bellows having a uniform thickness of the pleated part with a minimum part, and to manufacture a hydraulic molded teflon bellows capable of adjusting the length of the product. To provide a way.

In addition, another object of the present invention is to expand the Teflon tube by using water pressure to manufacture the product without the process of heating and cooling the mold, it is possible to mass production in a short time through the simplification of the manufacturing process The present invention provides a method for producing a hydraulic molded teflon bellows to improve productivity.

In addition, another object of the present invention is to provide a bellows reinforcement by having a metal tube on the outside of the Teflon tube to be integrally manufactured, and the shrinkage of the Teflon tube after molding by using water pressure does not occur integrally with the metal tube The present invention provides a method for manufacturing a hydraulically molded teflon bellows, which can be molded, thereby improving the durability of the bellows.

The construction of the present invention for achieving the above object, in the Teflon bellows manufacturing method for mounting the teflon tube flared at both ends in the pressurizing apparatus and then compressed to form a bellows, flaring operation of the Teflon tube 120 Before inserting the flange 115 to be provided on the outside of the Teflon tube 120, and then flaring both ends of the Teflon tube 120, after the flaring operation of the Teflon tube 120 Spacer member installation step of having a teflon tube 120 in the mold apparatus 105, and installing the spacer member 130 between the respective intermediate molds 107 located on the side wall of the teflon tube 120; ; A pre-expansion step of expanding the sidewall of the Teflon tube (120) outward while injecting water into the Teflon tube (120) and pressurizing it at low pressure after the step; After the preliminary expansion of the Teflon tube 120, the spacer 130 is removed, water is injected into the Teflon tube 120 to pressurize the upper portion of the mold apparatus 105 while pressing the high pressure device ( 100) to expand the teflon tube 120 is characterized in that it comprises an expansion step of expanding second.

Here, the method further includes a metal tube installation step of simultaneously forming a state in which the metal tube 135 is provided on the outer surface of the Teflon tube 120 before flaring at both ends so as to increase the mechanical properties of the Teflon tube 120. In addition, the metal tube 135 is preferably formed with an air hole 137 to discharge the air contained in the space between the Teflon tube 120 to the outside.

According to the present invention configured as described above, it is possible to form a bellows having a uniform thickness of the pleated portion with a minimum part, it is possible to adjust the length of the product by the number of intermediate molds, inflate the Teflon tube using water pressure As a result, the product can be manufactured without the process of heating the mold and the cooling process, so that the mass production can be performed in a short time through the simplification of the manufacturing process.

In addition, by manufacturing the bellows by completely attaching the metal tube to the outside of the Teflon tube without being spaced apart, it is possible to improve the durability by the reinforcement of the bellows by the metal tube.

Hereinafter, with reference to the accompanying drawings will be described in detail a method for producing a hydraulic molded teflon bellows of the present invention.

1 is a state diagram showing a state in which a teflon tube is inserted into the mold apparatus according to the present invention, Figures 2a to 2c is a process diagram showing the manufacturing process of the teflon bellows according to the present invention, Figure 3 is manufactured by the present invention It is a state diagram showing the bellows done.

As shown in the figure, the method of manufacturing a hydraulic molded teflon bellows of the present invention is to flare both ends of the Teflon tube 120, and to mount the flared Teflon tube 120 to the mold apparatus 105 And compressing the mounted Teflon tube 120 with the pressurizing device 100 to form a bellows.

At this time, the flange 115 is inserted into the outside of the Teflon tube 120 before the flaring operation of the Teflon tube 120.

That is, after forming the bellows, it is to go through the flange binding step having the flange 115 so that the flange 115 is integrally mounted to both ends of the Teflon tube 120.

In addition, after fastening the Teflon tube 120 to the mold apparatus 105 after the above process, water pressure is injected into the inside of the Teflon tube 120, and a pressurizing apparatus (top) of the mold apparatus 105 is provided. It is subjected to the step of forming the wrinkle portion 122 while compressing to 100).

Here, the mold apparatus 105 includes an upper mold 105a and a lower mold 105b provided at upper and lower sides of the Teflon tube 120, and an intermediate mold 107 provided at sidewalls of the Teflon tube 120. )

In the forming step of the pleats 122, after the spacer 130 is installed between the flange 115 and the intermediate mold 107, water is injected into the Teflon tube 120 and pressurized to low pressure. The pre-expansion step of primarily expanding the side wall of the Teflon tube 120 slightly outward.

After the preliminary expansion of the Teflon tube 120, the spacer 130 is removed, the water is injected into the Teflon tube 120, and the pressurizing device 100 is compressed to pressurize to a high pressure. The bellows is completed through an expansion step of expanding the Teflon tube 120 secondarily.

Here, the pressurizing device 100 is to compress the Teflon tube 120 while pressing as in a normal press working, the spacer 130 is formed by a pipe or a support to form each intermediate mold 107 with each other. It may be provided to be spaced apart or may form a semi-circular ring to form a circular band when combined.

On the other hand, in the present invention, flaring at the same time in the state provided with a metal tube 135 on the outside of the Teflon tube 120 before the flaring operation of the Teflon tube 120 to increase the mechanical properties of the Teflon tube 120. Afterwards, the method may further include installing a metal tube to mold the wrinkles 122 described above.

Therefore, the bellows having a uniform thickness can be manufactured while the metal tube 135 is provided on the outside, thereby increasing durability.

In this case, it is preferable that the air hole 137 is formed in the metal tube 135 to discharge the air embedded in the space between the Teflon tube 120 to the outside.

Referring to Figure 2a to 2c manufacturing process of the present invention as described above, first, by inserting the flange 115 to the Teflon tube 120, and then flaring both ends of the Teflon tube 120 After bending, both ends and sidewalls are fixed to the mold apparatus 105 to bind each other, and a spacer 130 is installed between the flange 115 and the intermediate mold 107 and between each of the intermediate molds 107. 2a)

Then, water is injected through the pressurized nozzle 110 installed in the lower mold 105b and introduced into the Teflon tube 120 to remove the leg portion of the intermediate mold 107 of the Teflon tube 120. The side wall is inflated outwardly (FIG. 2B). Then, the spacer 130 is removed and then further pressurized by the pressing device 100 at the upper side of the upper mold 105a to compress the Teflon tube 120 to the side wall. The wrinkle part 122 is formed (FIG. 2C).

After the formation of the pleats 122, the pressurizing device 100 is raised, and then the upper mold 105a is separated to take out the bellows to check whether there is any defect.

On the other hand, in order to improve the durability of the bellows mechanical properties to improve the durability of the teflon tube 120 before the flaring work with the metal tube 135 provided with a flaring work and then mounted on the mold device 105 to wrinkle What is necessary is just to perform the shaping | molding operation of the part 122.

As such, the present invention only uses the mold apparatus for fixing the Teflon tube 120, and thus, the heating and cooling processes of the mold apparatus are not required at all, and the flanges are integrally mounted when molding the bellows. As it is manufactured in a state, it is not necessary to fasten the flange separately as before.

1 is a state showing the state in which the teflon tube is inserted into the mold apparatus according to the present invention,

Figure 2a to 2c is a process diagram showing the manufacturing process of the teflon bellows according to the present invention,

Figure 3 is a state diagram showing the bellows produced by the present invention.

<Description of Symbols for Main Parts of Drawings>

100: pressurizer 105: mold apparatus

107: intermediate mold 110: pressure nozzle

115: flange 120: Teflon tube

122: wrinkle portion 130: spacer

135: metal tube 137: air hole

Claims (2)

delete In the Teflon bellows manufacturing method of mounting the teflon tube flared at both ends in the pressurizing device and then compressed into a bellows, Before the flaring of the Teflon tube 120 is inserted into the flange 115 to be provided on the outside of the Teflon tube 120, and then flaring both ends of the Teflon tube 120, After the flaring operation of the Teflon tube 120 is provided with a Teflon tube 120 in the inside of the mold apparatus 105, spaced between each intermediate mold 107 located on the side wall of the Teflon tube 120. Spacer member installation step of installing the member 130; A pre-expansion step of expanding the sidewall of the Teflon tube (120) outward while injecting water into the Teflon tube (120) and pressurizing it at low pressure after the step; After the preliminary expansion of the Teflon tube 120, the spacer 130 is removed, water is injected into the Teflon tube 120 to pressurize the upper portion of the mold apparatus 105 while pressing the high pressure device ( Compression to 100) to expand the teflon tube 120 secondly; It further comprises a metal tube installation step of simultaneously molding in the state having a metal tube 135 on the outside of the Teflon tube 120 before the flaring of both ends to increase the mechanical properties of the Teflon tube 120 and , The metal tube 135 is a method of manufacturing a hydraulic molded Teflon bellows, characterized in that the air hole (137) is formed to discharge the air contained in the space between the Teflon tube 120 to the outside.

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