JP2020018973A - Pipe manufacturing system - Google Patents

Abstract

To quickly manufacture a pipe having a layer which has at least one of visible light reflectivity and near infrared ray reflectivity and has uniform thickness formed thereon.SOLUTION: A pipe manufacturing system includes a cylindrical body formation device 10, a cylindrical body partial heating device 12, a cylindrical body partial coating device 14, a coating material drying device 16, a cylindrical body cutting device 18, a pre-coating cylindrical body support roller 30, a pre-cutting cylindrical body support roller 32, a post-cutting pipe support roller 34, and a trestle 36. The cylindrical body partial heating device 12 heats a part of a cylindrical body 100. The cylindrical body partial coating device 14 coats a part of the cylindrical body 100 with a coating material. The coating material drying device 16 dries the coating material on the surface of the cylindrical body 100 in a suspended state before cutting of the cylindrical body 100.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a pipe manufacturing system.

  Patent Document 1 discloses a frame material. This frame material is used for agricultural houses. This frame material has a base material and a reflection sheet. This reflection sheet covers the base material. This reflective sheet has visible light reflectivity and near-infrared reflectivity.

  The frame material disclosed in Patent Document 1 can suppress a temperature rise due to light absorption.

JP 2018-19656 A

  However, the frame material disclosed in Patent Document 1 has a problem that it takes a long time to manufacture. The reason why the production takes a long time is that it takes a long time to wind the reflection sheet around the base material. Further, the frame material disclosed in Patent Document 1 has a problem that the thickness of a layer that reflects visible light and near-infrared light is not uniform. The reason why the thickness is not uniform is that irregularities occur when the reflection sheet is wound around the base material.

  The present invention solves such a problem. An object of the present invention is to provide a tube manufacturing system for quickly manufacturing a tube having a uniform layer having a thickness having at least one of visible light reflectivity and near-infrared reflectivity formed on a surface.

  The pipe manufacturing system of the present invention will be described with reference to the drawings. Note that the use of reference numerals in the figures in this section is for the purpose of helping to understand the content of the invention, and is not intended to limit the content to the illustrated range.

  According to one aspect of the present invention, a pipe manufacturing system includes a tubular body forming device 10 and a tubular body cutting device 18. The tubular body forming apparatus 10 processes the material of the tube 120. Thereby, the cylindrical body 100 is continuously formed. The tubular body forming device 10 supports the tubular body 100. The tubular body cutting device 18 supports the tubular body 100. The tubular body cutting device 18 cuts the tubular body 100. Thereby, the pipe 120 is cut out from the tubular body 100. The pipe manufacturing system includes a tubular body partial heating device 12, a tubular body partial coating device 14, and a paint drying device 16. The tubular body partial heating device 12 heats a part of the tubular body 100. A part of the tubular body 100 is supported by the tubular body forming device 10 and the tubular body cutting device 18. The tubular body partial coating device 14 paints a part of the tubular body 100 described below with a paint. A part of the tubular body 100 is supported in a suspended state by the tubular body forming device 10 and the tubular body cutting device 18 and has a higher temperature than before heating by heating the tubular body heating device 12. is there. The paint drying device 16 dries the paint described below in a suspended state before cutting the tubular body 100. The paint is a paint for a part of the surface of the cylindrical body 100 described below. A part of the tubular body 100 is painted in a suspended state by the tubular body partial coating device 14. The paint contains a component having at least one property of visible light reflectivity and near-infrared reflectivity. Visible light reflectivity means the property of reflecting visible light. Near-infrared reflectivity means a property of reflecting near-infrared rays. The tubular body partial coating device 14 has a non-contact coating section 40. The non-contact application unit 40 applies a paint to a part of the tubular body 100 described below in a non-contact state. A part of the tubular body 100 is after being heated by the tubular body partial heating device 12. A part of the tubular body 100 is in a state of being supported in a suspended state by the tubular body forming device 10 and the tubular body cutting device 18. A paint drying device 16 dries the paint described below. The paint is a paint on a part of the surface of the tubular body 100 painted by the tubular body partial coating device 14. The paint is dried while the tubular body 100 is supported in a suspended state by the tubular body forming device 10 and the tubular body cutting device 18. The tubular body cutting device 18 cuts the tubular body 100 so as to cut out a section described below as a tube 120. The section is a section where the paint is applied by the non-contact application section 40 of the tubular body 100 and the paint is dried by the paint drying device 16.

  The non-contact application unit 40 applies a coating to a part of the tubular body 100 in a non-contact state. The paint drying device 16 dries the paint on a part of the surface of the tubular body 100 in a state of being supported in a suspended state before cutting the tubular body 100. This makes it possible to apply the paint in a state where the occurrence of uneven coating due to contact with something can be suppressed. A portion of the tubular body 100 to which the paint is applied is supported in a suspended state by the tubular body forming device 10 and the tubular body cutting device 18. Thereby, it is possible to suppress the occurrence of uneven coating due to the fact that the paint is not applied to the position where the tubular body 100 is supported. Since the occurrence of uneven coating can be suppressed, the thickness of the layer formed by the paint can be made uniform as compared with a case where the occurrence of unevenness cannot be suppressed. Before the application of the paint, a part of the tubular body 100 to which the paint is applied is heated. As a result, the paint adheres better to a part of the surface of the tubular body 100 as compared to a case in which the paint is not heated. Since the paint adheres well to a portion of the surface of the tubular body 100, the likelihood that the thickness of the layer formed by the paint will not be uniform due to the falling off of the dried paint is reduced. Since a part of the tubular body 100 is supported by the tubular body forming device 10 and the tubular body cutting device 18, the formed tubular body 100 is immediately coated with paint and dried. The shape 100 is immediately cut out to become a tube 120. As a result, the tube 120 having a uniform layer having a thickness having at least one of visible light reflectivity and near-infrared reflectivity formed on the surface can be rapidly manufactured.

  ADVANTAGE OF THE INVENTION According to the pipe | tube manufacturing system concerning this invention, the pipe | tube with the uniform layer of the thickness which has at least one of visible light reflectivity and near-infrared reflectivity can be manufactured promptly.

It is a key map showing the composition of the pipe manufacturing system concerning one embodiment of the present invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same components are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

[Description of configuration]
Hereinafter, an embodiment of the present invention will be described. FIG. 1 is a conceptual diagram illustrating a configuration of a pipe manufacturing system according to the present embodiment. The configuration of the pipe manufacturing system according to the present embodiment will be described based on FIG.

  The pipe manufacturing system according to the present embodiment includes a tubular body forming device 10, a tubular body partial heating device 12, a tubular body partial coating device 14, a paint drying device 16, a tubular body cutting device 18, The apparatus includes a tubular support roller 30 before coating, a tubular support roller 32 before cutting, a tube supporting roller 34 after cutting, and a gantry 36.

  The tubular body forming apparatus 10 processes a steel plate. In the case of the present embodiment, the steel plate is a material of the pipe 120. In the case of the present embodiment, the tubular body forming apparatus 10 rolls a steel plate into a tubular shape and opposes both ends thereof. In the case of the present embodiment, the tubular body forming apparatus 10 welds opposite ends of a steel plate. Thereby, the cylindrical body 100 is formed. Since the tubular body 100 is formed in this manner, the tubular body 100 is in a state of being supported by the tubular body forming device 10. The specific configuration of the tubular body forming device 10 itself is well known. Therefore, the detailed description will not be repeated here.

  The tubular part heating device 12 forms a tunnel-shaped through passage. The tubular body 100 passes through the through passage. The tubular body heating device 12 has a heater (not shown). The heater heats a portion of the tubular body 100 that is passing through the through passage. As a result, the tubular body partial heating device 12 heats a part of the tubular body 100. At this time, a part of the heated tubular body 100 is supported by the tubular body forming device 10 and the tubular body cutting device 18. As a result, a part of the cylindrical body 100 to be heated is suspended in the through passage. The specific configuration of the tubular body partial heating device 12 itself is well known. Therefore, the detailed description will not be repeated here.

  The tubular body partial coating device 14 also forms a tunnel-shaped through passage. The tubular body partial coating device 14 paints, in the through-passage, a portion of the tubular body 100 whose temperature is higher than before heating by the heating of the tubular body partial heating device 12. In the present embodiment, the paint used for the coating contains a component having at least one of visible light reflectivity and near-infrared reflectivity. Since the components themselves are well known, their detailed description will not be repeated here.

  In the case of the present embodiment, the tubular body partial coating device 14 has a non-contact coating section 40. The non-contact coating section 40 is supported by a support member (not shown) in a through passage of the cylindrical body partial coating apparatus 14. The non-contact application section 40 injects paint. As a result, the non-contact coating unit 40 is in non-contact with a portion of the tubular body 100 in the through passage (that is, a portion whose temperature is higher than before heating by the heating of the tubular body heating device 12). It is possible to apply the paint in a state. At this time, the tubular body 100 is in a state of being supported by the formation of the tubular body 100 by the tubular body forming device 10 and the support of the tubular body cutting device 18. As a result, the portion of the tubular body 100 to be painted is suspended in the tubular body partial coating device 14. Since the structure itself of the non-contact coating unit 40 is well known, the detailed description thereof will not be repeated here.

  The paint drying device 16 dries the paint applied by the tubular body partial coating device 14, that is, the paint on the surface of the tubular body 100. At the time of the drying, a portion of the tubular body 100 where the paint is dried is supported in a suspended state by the support of the tubular body 100 by the tubular body forming device 10 and the support of the tubular body cutting device 18. . The paint drying device 16 dries the paint before cutting the tubular body 100. The specific configuration of the paint drying device 16 itself is well known. Therefore, the detailed description will not be repeated here.

  The tubular body cutting device 18 supports the tubular body 100. The tubular body cutting device 18 cuts the tubular body 100. Thereby, the pipe 120 is cut out from the tubular body 100. The tubular body cutting device 18 cuts the tubular body 100 so as to cut out a section described below as a tube 120. The section is a section in the tubular body 100 where the paint is applied by the non-contact application section 40 and the paint is dried by the paint drying device 16. The specific configuration of the tubular body cutting device 18 itself is well known. Therefore, the detailed description will not be repeated here.

  The pre-painting cylinder support roller 30 is disposed beside the cylinder partial heating device 12. The pre-painting cylinder support roller 30 supports the cylinder 100 together with the cylinder forming device 10 and the cylinder cutting device 18.

  The pre-cutting tubular support roller 32 is disposed between the paint drying device 16 and the tubular cutting device 18. The pre-cut cylinder support roller 32 supports the cylinder 100 together with the cylinder forming device 10, the cylinder cutting device 18, and the pre-painting cylinder support roller 30.

  The post-cutting tube support roller 34 is disposed on the opposite side of the pre-cutting tubular support roller 32 when viewed from the tubular cutting device 18. After the cutting, the tube support roller 34 supports the tube 120.

  The gantry 36 includes a tubular body forming device 10, a tubular body partial heating device 12, a tubular body partial coating device 14, a paint drying device 16, a tubular body cutting device 18, and a tubular body before painting. The support roller 30, the tubular body support roller 32 before cutting, and the tube support roller 34 after cutting are fixed. Thereby, the tubular body forming device 10, the tubular body partial heating device 12, the tubular body partial coating device 14, the paint drying device 16, and the tubular body cutting device 18 are arranged in a line. As a result, the passage of the cylindrical body 100 is formed to be straight.

[Description of operation]
The operation of the pipe manufacturing system according to the present embodiment will be described based on FIG. First, the tubular body forming apparatus 10 processes a steel plate. Thereby, the cylindrical body 100 is formed. The heater of the tubular body partial heating device 12 heats a portion of the tubular body 100 that is passing through the through passage of the tubular body forming device 10. The non-contact coating section 40 of the tubular body partial coating device 14 is a portion of the tubular body 100 that is passing through the through passage of the tubular body partial coating device 14 (before heating by the heating of the tubular body partial heating device 12). The part where the temperature is higher than the above) is applied in a non-contact state. The paint drying device 16 dries the paint applied by the tubular body partial coating device 14, that is, the paint on the surface of the tubular body 100. The tubular body cutting device 18 cuts the tubular body 100. Thereby, the pipe 120 is cut out from the tubular body 100.

[Explanation of effects]
The tube manufacturing system according to the present embodiment can rapidly manufacture a tube having a uniform layer having a thickness having at least one of visible light reflectivity and near-infrared reflectivity formed on the surface.

  The embodiment disclosed this time is an example in all respects. The scope of the present invention is not limited based on the embodiments described above. Of course, various design changes may be made without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 10 ... Cylindrical body forming apparatus 12 ... Cylindrical body partial heating apparatus 14 ... Cylindrical body partial coating apparatus 16 ... Paint drying apparatus 18 ... Cylindrical body cutting apparatus 40 ... Non-contact application part 100 ... Cylindrical body 120 ... Tube

Claims (1)

A tubular body forming apparatus that continuously forms a tubular body by processing the material of the pipe to support the tubular body,
A pipe manufacturing system comprising: a tubular body cutting device configured to cut the pipe from the tubular body by supporting the tubular body and cutting the tubular body,
The pipe manufacturing system comprises:
A tubular body partial heating device that heats a part of the tubular body supported by the tubular body forming device and the tubular body cutting device,
A part of the tubular body which is supported in a suspended state by the tubular body forming device and the tubular body cutting device and has a higher temperature than before the heating by the heating of the tubular body partial heating device is coated with a paint. A cylindrical body coating device for coating with
A paint for drying the paint on a part of the surface of the tubular body, which is painted in a suspended state by the tubular body partial coating apparatus, before hanging the tubular body by the tubular body cutting device in a suspended state. With a drying device,
The paint contains a component having at least one property of near-infrared reflectivity that is a property of reflecting visible light and near-infrared light that is a property of reflecting visible light,
The tubular body after being heated by the tubular body heating device while the tubular body partial coating device is supported in a suspended state by the tubular body forming device and the tubular body cutting device. It has a non-contact application portion for applying the paint in a non-contact state on a part of the body,
The paint drying device is configured to apply the paint on the surface of a portion of the tubular body coated by the tubular body partial coating device to the tubular body by the tubular body forming device and the tubular body cutting device. Dry while supported in a suspended state,
The tubular body cutting device cuts the tubular body so as to cut out, as the pipe, a section of the tubular body where the paint is applied by the non-contact application unit and the paint is dried by the paint drying device. A pipe manufacturing system characterized by:

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