KR20090023898A - Manufacture method of spiral pipe and it's manufacture apparatus - Google Patents

Abstract

A method for manufacturing a spiral pipe is provided to improve intensity of the spiral pipe by embedding a steel plate in the pipe. A method for manufacturing a spiral pipe comprises the following steps of: hanging an inside diameter with a coil type on a transfer bar; wining up a steel plate from the transfer bar to an outer circumference of a plurality of straight shafts(9); controlling to distance of the steel plate with identical distance; forming the pipe made of the steel plate only by welding the steel plate with an edge of an wide outer band of a synthetic resin; and welding the synthetic resin in a melting state with the pipe.

Description

Manufacturing method of spiral wave tube and its manufacturing apparatus {manufacture method of spiral pipe and it's manufacture apparatus}

The present invention relates to a method for manufacturing a spiral wave tube for industrial use and a manufacturing apparatus thereof, and more particularly, to a method of manufacturing a spiral wave tube with improved strength by embedding a steel plate in a synthetic resin and forming a spiral structure on the outer surface thereof. Relates to a device.

In general, since spiral wave tubes are manufactured using only synthetic resin, conventional spiral wave tubes have a problem that they are weak in tensile strength, impact strength, and compressive strength (earth pressure when buried in the ground), and also have low corrosion resistance. .

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for manufacturing a spiral wave tube and an apparatus for manufacturing the spiral wave tube, which have improved durability and lengthened lifespan by improving the strength of the spiral wave tube.

The spiral wave tube manufacturing method of the present invention for achieving the above object is, by bending a bending machine to a predetermined form by coating the adhesive resin and coated with a general resin on the bending machine, and bent to a predetermined form Forming a coil having an inner diameter corresponding to the inner diameter of the spiral wave tube to be manufactured by an adjacent bending device and advancing toward an adjacently disposed transfer bar to be caught in the coil in the transfer bar; Winding the iron plate hanging on the bar to the outer circumferential surface of a plurality of linear shafts and a uniform space shaft, each of which is rotated in the same direction in the outer periphery of the inertial molding machine, and continuing to push it so as to proceed in a wound state; It is possible to prevent the matting of the coiled iron plate and to proceed smoothly. In order to connect the universal shaft to the straight shaft and the gear part, install an evenly spaced shaft on the adjacent upper end, connect the universal joint to the angular part of the shaft, and connect the U-shaped steel plate to the protruding roller fixed to the spaced uniform shaft. Making the rolled portion rolled and proceeding to adjust the distance between the iron plate and the iron plate to the same distance, and making the steel sheet adjusted to the same distance to pass through the hot thermocouple box to melt the synthetic resin coated on the iron plate And the step of connecting the straight shaft and the inertia pitch roller to the universal joint so as to incline the inertia pitch roller by the pitch angle of the spiral wave tube so that the rolled iron plate is moved forward, and supplied from the external dice of the first extruder. By attaching a wide synthetic resin outer band to the outer surface of the wound iron plate, The step of forming the iron plate alone pipe by making the edges of the wide synthetic resin outer band bonded to the iron plate mutually bonded to each other, and the resin channel pipe provided at the center of the molding machine is a synthetic resin inner band supplied from the inner dice of the second extruder The edges are bonded to each other while being wound on the outer circumferential surface of the inertia-pitch roller through to form a synthetic resin monolithic pipe, and when the iron plate monolithic pipe is continuously formed on the outer circumference of the synthetic resin monolithic pipe and rolled forward, the molten state Both synthetic resins are bonded to each other.

In addition, the apparatus for producing a spiral wave tube of the present invention for achieving the above object is, by bending the iron plate adhered by coating a resin on both sides with an adhesive resin and bonded to the desired shape in a bending machine by a bending device disposed adjacent to A transfer bar for providing a coil-shaped iron plate formed to have an inner diameter substantially equal to the inner diameter of the spiral wave tube to be manufactured in a coil form so as to be supplied to an inertial forming machine of the spiral wave tube, and the iron plate hanging on the transfer bar. The linear shaft and the linear shaft rotating in the same direction and the coil-shaped iron plate rolled by the gap uniform shaft, respectively, which are installed to be wound around the outer circumferential surface of the molding machine, to prevent the matting and to proceed smoothly. Universal universal intro is connected to the evenly spaced shaft and the gear part. The upper part of the shaft is provided with a uniform gap between the shafts, and the angular part of the shaft is connected with a universal joint, and the curved part of the U-shaped iron sheet is rolled on the protruding roller fixed to the gap uniform shaft to roll the steel plate and the iron plate. Wrapping the outside of the linear shaft provided with a protrusion roller to make the synthetic resin on the outer surface of the iron plate to be rolled up at the same distance by the winding progress portion of the iron plate to adjust the distance of the same distance and the molten state The linear shaft and the inertia pitch of the heating part for heating the iron plate which is installed in the form of a shape, and the iron plate which is rolled up by the heating part and the synthetic resin of the outer surface of the iron plate is melted by the heating part as much as the pitch angle of the spiral wave tube. Inertial Pitch Roller by connecting roller with universal joint It is installed inclined and the wide synthetic resin outer band bonded to the iron plate by adhering the wide synthetic resin outer band to the outer surface of the iron plate to be wound to reach the inertial pitch roller, the outer side of the wide synthetic resin to form an iron plate only pipe The first extruder for extruding the strip and the inner die of the second extruder feed the synthetic resin inner band through the resin passage pipe installed at the center of the inertial molding machine so that the edges are mutually bonded while being wound on the outer circumferential surface of the inertial pitch roller. By forming the synthetic resin monolithic pipe, when the iron sheet monolithic pipe is continuously formed and rolled forward while being wound on the outer circumference of the synthetic resin monolithic pipe, both synthetic resins in the molten state are bonded to each other to form an uneven spiral wave tube in which the iron plate is embedded. It consists of a second extruder.

The present invention has a life extension effect of improving the strength of the spiral wave tube by using an iron plate embedded in the spiral wave tube and allowing it to be used for a long time, and also simplifying the manufacturing process, thereby reducing work time and workforce. There is an effect of improving productivity by improving sex.

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

1 is a view for explaining an apparatus for manufacturing a spiral wave tube according to the present invention, Figure 2 is a view for explaining a method for manufacturing a spiral wave tube by the apparatus for manufacturing a spiral wave tube according to the present invention, Figure 3 and Figure 4 is a view for explaining a method for forming a synthetic resin single pipe by an inertial pitch roller provided in the spiral wave tube manufacturing apparatus according to the present invention.

As shown in the drawing, the present invention bonds both sides of the iron plate (2) with an adhesive resin, and to apply a general resin on it to be bonded to the iron plate (2), and the iron plate (2) to which the common resin is bonded again to the molding machine ( Bending in a predetermined shape in 1) and at the same time to roll the coil in the form of a coil so as to have an inner diameter equal to the inner diameter of the spiral wave tube to be manufactured, the iron plate (2) hanging on the transfer bar (1a) pipe The spiral wave tube is manufactured while winding in the molding machine 3.

In this inertial molding machine (3), in order to be able to proceed by winding by continuously pushing while forming the diameter by the bending device (1 ') of the bending molding machine (1), the transfer bar (1a) is caught in a coil form The iron plate 2, which is installed to be wound around the outer circumferential surface of the inertial molding machine 3, is provided with a linear shaft 9 and an interval uniform shaft 10, each of which rotates in the same direction.

The linear shaft 9 and the evenly spaced shaft 10 are rotated in the same direction by the gear 8 portion which is rotated by the rotational force of the motor 6 by the belt 7. In addition, the inertial molding machine (3) is installed on the molding machine base (4) by the molding support (5).

In addition, in order to prevent the coil-shaped iron plate 2 wound by the linear shaft 9 and the uniform gap shaft 10 from being tangled, the linear shaft 9 and the uniform space are uniform. The shaft 10 is connected to the universal joint 12a at the gear 8 part, the gap uniform shaft 10 is installed at the adjacent upper end, and the universal joint 12b is connected to the angled part of the shaft. The gap uniform shaft 10 is provided with a protruding roller 11 to serve to bend the curved portion of the iron plate 2 bent into a U-shape and to be rolled in a state in which the distance between the iron plate and the iron plate is the same. Adjust

The present invention in order to make the synthetic resin of the outer surface of the iron plate (2) proceeding in the state wound by the protrusion roller 11 at the same distance, the inertial forming machine (3) is a straight line provided with a protrusion roller (11) A hot thermocouple box 18 is installed to surround the outside of the shaft 9 and applies heat to the iron plate 2 that is moved in a wound state. The thermocouple box 18 allows the synthetic resin bonded to the iron plate 2 to be melted in an adhesive state so that the thermocouple box 18 easily adheres to the wide synthetic resin outer band 24 supplied from the first extruder 22 described later. Do it.

In addition, the present invention is to enable the iron plate (2) to proceed in a wound state while forming a molten state in the adhesive state of the outer surface of the iron plate by the thermocouple box 18, to advance the pitch angle of the spiral wave tube, the tube The molding machine 3 is connected to the straight shaft 9 and the inertial pitch roller 14 by the universal joint 12, and the inertial pitch roller 14 is inclined by the pitch angle of the spiral wave tube. The inertial pitch roller 14 is installed to be supported by the intermediate circular support 13 and the end circular support 17. The inertial pitch roller 14 is welded and blocked at both ends of the iron pipe, and in order to prevent the synthetic resin in the molten state from sticking well, the inertial pitch roller 14 is coated on the surface with a cooling hose 26 to the inertial pitch roller 14. Put the cooling water to cool.

In addition, the present invention in order to be able to adhere a wide synthetic resin outer band 24 to the outer surface of the iron plate (2) to be rolled to reach the inertial pitch roller 14, the wide synthetic resin outer band 24 to the iron plate ( The 1st extruder 22 provided with the outer dice 23 for supplying to the outer surface of 2) is provided. The wide synthetic resin outer band 24 supplied to the outer surface of the iron plate 2 from the outer die 23 of the first extruder 22 and bonded to form the iron plate only pipe 25 by the edges thereof bonded to each other. do. That is, the iron plate single pipe 25 refers to an outer tube formed by covering the outside of the iron plate 2 by a wide synthetic resin outer band 24.

In addition, the present invention is to supply the synthetic resin inner strip 20 to the inertial molding machine 3 through the resin passage pipe 15 installed in the center of the inertial molding machine 3 to mold the synthetic resin single pipe 21. The second extruder 19 with the inner dice 16 is provided.

The inner die 16 of the second extruder 19 is positioned at the end of the resin passage pipe 15 installed at the center of the inertial pitch roller 14 to supply the synthetic resin inner band 20. That is, by supplying the synthetic resin inner band 20 through the resin passage pipe 15 installed in the center of the inertial pitch roller 14 to be wound on the outer circumferential surface of the inertial pitch roller 14 so that the edges are bonded to each other The synthetic resin single pipe 21 is formed.

Figure 4 is a view for explaining another method of forming a synthetic resin single pipe in the spiral wave tube manufacturing apparatus according to the present invention.

As shown in FIG. 4, another method of forming the synthetic resin single pipe 21 may be performed by separating the resin passage pipe 15 ′ of the second extruder 19 ′ between the uniform gap shaft 10 and the linear shaft 9. And pass underneath to be installed under the inertial pitch roller 14, and the inner die 16 'is installed at the end thereof so that the synthetic resin inner band 20' can be supplied. . The synthetic resin inner band 20 ′ thus supplied is wound around the outer circumferential surface of the inertial pitch roller 14 and the edges are bonded to each other to form a synthetic resin single pipe 21.

5 is a view showing a part of the cross-sectional structure of the spiral wave tube manufactured by the apparatus for manufacturing spiral wave tube according to the present invention.

As described above with reference to FIGS. 2 and 5, the spiral wave tube manufactured by the manufacturing apparatus of the present invention is formed of the synthetic resin single pipe 21 while the iron plate single pipe 25 is continuously molded and moved forward. When wound on the outer circumference, the curved portions of the iron plate 2 bent into a U shape are wound on the outer circumferential surface of the synthetic resin single pipe 21, and both synthetic resins in the molten state are bonded to each other, so that the iron plate 2 has an uneven shape It forms the structure of spiral wave tube.

Although the detailed description of the manufacturing method and the manufacturing apparatus of the spiral wave tube according to the present invention as described in the accompanying drawings, which is described as an example only the most preferred embodiment of the present invention, the technical details that limit the present invention It is not. In addition, it can be easily understood that one of ordinary skill in the art that the manufacturing method and the manufacturing method of the spiral wave tube according to the present invention can be variously modified and imitated without departing from the scope of the claims of the present invention. will be.

1 is a view for explaining an apparatus for manufacturing a spiral wave tube according to the present invention,

2 is a view for explaining a method for manufacturing a spiral wave tube by the apparatus for manufacturing a spiral wave tube according to the present invention,

Figure 3 is a perspective view for explaining a method for forming a synthetic resin single pipe by the inertia pitch roller provided in the apparatus for producing a spiral wave tube according to the present invention,

4 is a view for explaining another method of forming a synthetic resin single pipe in the spiral wave tube manufacturing apparatus according to the present invention,

5 is a view showing only a part of the cross-sectional structure of the spiral wave tube manufactured by the apparatus for manufacturing a spiral wave tube according to the present invention.

Explanation of symbols on the main parts of the drawings

1-Bending Machine 1 '-Bending Machine

1a-transfer bar 2-steel plate

3-inertial molding machine 4-molding machine

5-molding machine support 6-motor

7-belt 8-gear

9-straight shaft 10-evenly spaced shaft

11-protrusion roller 12,12a, 12b-universal joint

13-Intermediate Circular Support 14-Inertial Pitch Roller

15,15 '-Resin channel pipe 16,16'-Internal dice

17-End Supports 18-Thermocouple Boxes

19,19 '-2nd Extruder 20,20'-Synthetic resin inner band

21-Synthetic resin alone pipe 22-First extruder

23-Outer dice 24-Plastic outer belt

25-Iron plate single pipe 26-Cooling hose

Claims (2)

Both sides are coated with adhesive resin and coated with ordinary resin on them to form a coiled sheet with a bending diameter that is bent into a predetermined shape by a bending molding machine and has an inner diameter corresponding to the inner diameter of the spiral wave tube to be manufactured by the bending device. To take the transfer bar in the form of a coil; Winding the iron plate hung on the transfer bar on the outer circumferential surface of the plurality of linear shafts that rotate in the same direction, respectively, in the inertia molding machine, and continuing to push it so as to proceed in a wound state; In order to proceed smoothly while preventing the coiled iron plate to be rolled up, a uniform gap between the linear shaft is installed, and a angular part of the shaft is connected with a universal joint to the gap uniform shaft. Adjusting the distance between the iron plate and the iron plate to the same distance by acting to roll the curved portion of the iron plate bent in a U-shape to the fixed protruding roller; Passing the wound iron plate through a hot thermocouple box to make the synthetic resin bonded to the iron plate into a molten state having adhesiveness; Connecting the straight shaft and the inertia pitch roller with a universal joint to incline the inertia pitch roller so that the winding progresses to a predetermined pitch; Bonding the wide synthetic resin outer band supplied from the outer die of the first extruder to the outer surface of the wound iron plate and simultaneously bonding the edges of the wide synthetic resin outer band bonded to the iron plate to form an iron plate only pipe; And By forming the synthetic resin sole pipe by winding the synthetic resin inner band supplied from the inner die through the resin passage pipe of the second extruder to the outer circumferential surface of the inertial pitch roller and forming the synthetic resin sole pipe, the iron sheet single pipe is continuously molded and A spiral wave tube manufacturing method comprising the step of allowing both synthetic resins in the molten state to be bonded to each other when wound around the synthetic resin single pipe while proceeding to. Coiled iron plate formed by coating both sides with adhesive resin and applying general resin on it to be bent into bending shape in bending machine to have inner diameter almost identical to inner diameter of spiral wave tube to be manufactured by bending device A transfer bar providing a transfer path to facilitate supply to the inertial machine; In order to proceed smoothly while preventing the coil-shaped iron plate going in a wound state by a plurality of linear shafts rotated in the same direction, each of which is installed to turn the iron plate hanging on the transfer bar to the outer peripheral surface of the inertia machine, An evenly spaced shaft is installed at an upper portion of the linear shaft and connected to a universal joint at an angular portion of the shaft, and wound around a curved portion of a steel plate bent in a U shape to a protrusion roller fixed to the spaced shaft. A winding progress unit of the iron plate, which serves to make the progress in a state, and adjusts the distance between the iron plate and the iron plate to the same distance; A heating unit for applying heat to the iron plate which is installed by wrapping the outer side of the straight shaft so as to make the synthetic resin of the outer surface of the rolled steel sheet in a molten state; Integral to the linear shaft and the inertial pitch roller with universal joints so that the iron plate heated by the heating unit and then proceeded to the wound state in which the synthetic resin on the outer surface of the iron plate is made in a molten state can be wound at a predetermined pitch. By installing the roller at an inclined angle and adhering a wide synthetic resin outer band to the outer surface of the iron plate being rolled up to reach the inertial pitch roller, the edges of the wide synthetic resin outer band bonded to the iron plate can be bonded to each other to form an iron plate independent pipe. A first extruder for extruding the wide synthetic resin outer belt so as to extrude; And The iron sheet insulation pipe is continuously formed by supplying a synthetic resin inner band from a resin passage pipe installed at the center of the inertial molding machine to be wound on the outer circumferential surface of the inertial pitch roller so that the edges are bonded to each other to form a synthetic resin alone pipe. An apparatus for manufacturing a spiral wave tube including a second extruder for forming an uneven spiral wave tube in which an iron plate is embedded when both synthetic resins in a molten state are bonded together while being rolled around the synthetic resin single pipe while advancing forward.

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