JP2017070933A - Coating device and coating method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a coating device and a coating method which can easily prevent coating material from infiltrating a pipe inner surface upon coating of a pipe end, with superior workability.SOLUTION: A coating device 1 includes: a nozzle 2 which sprays coating material to an outer surface of a pipe end of a cast iron pipe P and/or an end surface E; an air supply part 3 which supplies air toward the pipe end side of the side to which the coating material is sprayed from the pipe end of the side opposite to the pipe end of the side to which the coating material is sprayed; and a shielding member 4 which is arranged on the pipe end side of the side to which the coating material is sprayed so as to at least partially cover an opening of the pipe end side of the side to which the coating material is sprayed. Therein, the shielding member 4 is arranged such that a gap through which air supplied from the air supply part 3 is discharged is formed on an atomization portion by means of the nozzle 2.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a coating apparatus and a coating method for coating a pipe end of a cast iron pipe.

  Cast iron pipes widely used for water pipes and the like are painted with a paint to impart corrosion resistance to the inner and outer surfaces of the pipe. For example, in cast iron pipes used for water pipes, the inner surface of the pipe is subjected to, for example, an epoxy resin powder coating or mortar lining in consideration of corrosion resistance and hygiene, and the outer surface of the pipe is, for example, zinc-based Thermal spraying is performed, and a sealing agent or a synthetic resin paint is applied thereon.

  The coating of the outer surface of the straight pipe portion of the pipe is performed by, for example, spray painting in which paint is sprayed from a spray gun. On the other hand, when painting the outer surface of the pipe receptacle or the end face of the receptacle, spray painting can be used in the same way as the straight pipe section, but in the case of spray painting, mist of paint is scattered from the opening of the pipe receptacle. In some cases, the paint adheres to the inner surface of the pipe that has already been subjected to powder coating or mortar lining. In that case, repair in a later process such as repainting or cleaning of the inner surface of the pipe may be required.

  In order to prevent such scattering of the paint on the inner surface of the receiving port, for example, dipping coating is performed in the coating of the receiving port of the tube (see, for example, Patent Document 1). In the dipping coating, the end face of the receiving port is coated by immersing the flange portion of the receiving port of the pipe in a dipping tank.

Japanese Patent Laid-Open No. 06-79206

  However, with dipping, it is difficult to ensure a uniform paint film thickness, and it is often necessary to hold down the brush to prevent uneven coating after application and liquid dripping due to excess paint. There is a slight problem with sex.

  Therefore, in view of such a problem, the present invention has an object to provide a coating apparatus and a coating method that can easily prevent the coating material from entering the inner surface of the pipe at the time of painting the pipe end and have good workability.

  The coating apparatus of the present invention is a coating apparatus that coats the outer surface and / or end face of a pipe end of a cast iron pipe, and the coating apparatus sprays paint on the outer face and / or end face of the pipe end of the cast iron pipe. An air supply unit that supplies air from a pipe end opposite to the pipe end on which the paint is sprayed toward the pipe end on the paint spray side, and the paint is sprayed A shielding member arranged to cover at least partially the opening on the tube end side on which the paint is sprayed on the tube end side of the side, and the shielding member at the spraying portion by the nozzle, It arrange | positions so that the clearance gap in which the air supplied from the air supply part is discharged | emitted may be formed.

  Further, the shielding member is formed in a disc shape having a diameter smaller than the inner diameter of the tube end, and an annular flow path is formed between the disc-shaped shielding member and the tube end of the cast iron tube. It is preferable.

  Moreover, it is preferable that the said coating apparatus is provided with the support mechanism which supports the said cast iron pipe rotatably about an axis | shaft, and the pipe end of the said cast iron pipe is coated while rotating.

  The coating method of the present invention is a coating method for coating the outer surface and / or end surface of a pipe end of a cast iron pipe, and the coating method sprays paint on the outer surface and / or end face of the pipe end of the cast iron pipe. A step of supplying air from a tube end opposite to a tube end to which the paint is sprayed toward a tube end side on which the paint is sprayed, and the paint is sprayed Arranging a shielding member on the tube end side on the side so as to at least partially cover the opening on the tube end side on which the paint is sprayed, and the shielding member is at the spraying site by the nozzle, It is arrange | positioned so that the clearance gap in which the air supplied from the said air supply part is discharged | emitted may be formed.

  In the coating method, the shielding member is formed in a disc shape having a diameter smaller than the inner diameter of the tube end, and an annular shape is formed between the disc-shaped shielding member and the tube end of the cast iron tube. A flow path is preferably formed.

  The coating method preferably includes a rotating step in which the cast iron pipe is supported by a support mechanism that rotatably supports the cast iron pipe around an axis, and the method includes rotating the cast iron pipe around the axis. .

  According to the coating apparatus and the coating method of the present invention, it is possible to easily prevent the paint from entering the inner surface of the pipe at the time of painting the pipe end, thereby improving workability.

1 is an overall view showing a coating apparatus according to an embodiment of the present invention. It is the schematic which looked at the coating device of one embodiment of the present invention from the mouth side of a cast iron pipe. It is the elements on larger scale which show the clearance gap formed between the opening of the cast iron pipe and the shielding member of the coating device of one Embodiment of this invention.

  Hereinafter, a coating apparatus and a coating method according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the embodiment described below, the description will be given by taking the coating of the receiving end face of the cast iron pipe as an example, but the present invention is not limited to the painting of the receiving end face, and may be applied to the painting of the insertion opening end face. it can. Further, the present invention can be applied not only to the coating of the end face of the pipe end, such as the receiving opening and the insertion opening, but also to the coating on the outer surface of the receiving end and the outer face of the insertion opening in the vicinity of the end face of the pipe end. .

  As shown in FIG. 1, the coating apparatus 1 according to this embodiment includes a nozzle 2 that sprays paint on a cast iron pipe P, an air supply unit 3 that supplies air into the cast iron pipe P, and a pipe end of the cast iron pipe P. And a shielding member 4 that partially covers the opening.

  In the present embodiment, as shown in FIG. 1, the coating apparatus 1 includes a support mechanism 5 that supports the cast iron pipe P so as to be rotatable about an axis, and is configured so that the cast iron pipe P is coated while rotating. ing. The support mechanism 5 includes a pair of roll portions 5a and 5b that are spaced apart from each other in the axial direction of the cast iron pipe P. Each of the roll parts 5a and 5b includes a pair of rotatable turning rolls that support the cast iron pipe P, and the cast iron pipe P is supported in a state where the cast iron pipe P is supported by being driven to rotate. Rotate around that axis.

  The nozzle 2 sprays paint on the outer surface and / or the end surface of the pipe end (receiving port P1 or insertion port P2) of the cast iron pipe P. In FIG. 1, the nozzle 2 sprays paint toward the end surface E of the receiving port P1 of the cast iron pipe P. The nozzle 2 can be a nozzle of a known spray gun. For example, the outer surface and the end surface of the cast iron pipe P can be painted by moving the spray gun along the axial direction of the cast iron pipe P. The paint sprayed from the nozzle 2 is not particularly limited as long as it can give the cast iron pipe P anticorrosive properties, and can be a water-based paint or a solvent-based paint. For example, JWWA K of Japan Water Works Association standard. It is preferable to use a water-based paint such as a synthetic resin paint defined in 139 “Ductile Iron Pipe Synthetic Resin Paint for Waterworks”.

  The air supply unit 3 supplies air from the tube end on the side opposite to the tube end on which the paint is sprayed toward the tube end on the side on which the paint is sprayed. In the present embodiment, as shown in FIG. 1, the air supply unit 3 supplies air from the insertion port P2 side opposite to the reception port P1 on the side where the paint is sprayed toward the reception port P1. doing. In addition, the arrangement position of the air supply part 3 is not limited to the position shown in the figure, and it is only necessary to generate an air flow toward the pipe end (that is, the receiving port P1) on the side where the paint is sprayed. In the present embodiment, the air supply unit 3 is configured to send out compressed air from an air nozzle 32 using a compressor 31, as shown in FIG. However, the type of the air supply unit 3 is not particularly limited as long as it can supply air, and may be a known blower or fan. Although the air pressure supplied from the air supply unit 3 will be described in detail later, it prevents the paint from entering from the opening of the pipe end on the side where the paint is sprayed, such as the receiving port P1, and the paint is sprayed. It is sufficient that the wind pressure allows the paint sprayed from the nozzle 2 to adhere to the end face of the pipe end on the other side. The air supply unit 3 may be movable in the axial direction of the cast iron pipe P (left and right direction in FIG. 1). Thereby, it becomes easy to process the coating of the some cast iron pipe P continuously, and workability | operativity improves.

  The shielding member 4 is arranged on the tube end side on which the paint is sprayed so as to at least partially cover the opening on the tube end side on which the paint is sprayed. In this embodiment, as shown in FIG. 1, the shielding member 4 is disposed on the receiving port P1 side and partially covers the opening on the receiving port P1 side. Moreover, the shielding member 4 is arrange | positioned so that the clearance gap S from which the air supplied from the air supply part 3 is discharged | emitted is formed in the spraying part by the nozzle 2, as FIG. 1-3 shows. .

  The shielding member 4 directly shields the paint sprayed from the nozzle 2 and, as shown in FIG. 3, the gap S formed between the shielding member 4 and the pipe end (receiving port P1) of the cast iron pipe P. The flow AF of the air coming out prevents the paint from entering the pipe inner surface.

  If the shielding member 4 can shield the paint sprayed from the nozzle 2 and can be arranged so that the gap S is formed between the pipe ends of the cast iron pipe P, the shape thereof is particularly It is not limited, A plate shape may be sufficient like this embodiment, and other shapes, such as columnar shape other than plate shape, and weight shape, may be sufficient. In the present embodiment, as shown in FIG. 2, it is formed in a disc shape having a diameter smaller than the inner diameter of the tube end, and between the disc-shaped shielding member 4 and the pipe end of the cast iron pipe P, an annular shape is formed. A flow path is formed. Since air is discharged from all directions in the circumferential direction of the pipe end by the annular flow path in which the gap S is formed in an annular shape, in addition to the paint sprayed from the nozzle 2, a mist-like paint floating in the air is used. Intrusion into the inner surface of the tube can also be prevented.

  In the present embodiment, as shown in FIG. 1, the shielding member 4 is disposed on the outer side (left side in FIG. 1) in the axial direction of the cast iron pipe P from the end surface E of the receiving port P1 of the cast iron pipe P. However, the shielding member 4 may be disposed at a position that coincides with the end surface E of the cast iron pipe P in the axial direction of the cast iron pipe P, or slightly from the end surface E in the axial direction of the cast iron pipe P. It may be arranged on the inner side (slightly to the right of the end face E in FIG. 1). As described above, the position of the shielding member 4 in the axial direction prevents the paint from entering the receiving port P1, and allows the paint sprayed from the nozzle 2 to adhere to the end face E. The air pressure is determined so that air is discharged from the gap S. By forming such a gap S, the total area of the gap S is smaller than the opening area of the opening on the receiving port P1 side, and the flow path of the air flow AF is narrowed at the position of the gap S. For this reason, the air flow rate is increased at the position of the gap S. Accordingly, it is possible to reduce the amount of air supplied from the air supply unit 3 necessary to prevent the infiltration of the paint, and it is possible to prevent the paint from entering the pipe even with a small air supply amount. Further, as shown in FIG. 3, since the air flow AF discharged from the receiving port P1 is directed by the gap S, the direction of the air discharged from the air nozzle 32 of the air supply unit 3 (air flow) The discharge angle and the like are not necessary, and it is not necessary to use an air nozzle having a complicated structure, and the air supply unit 3 having a simple configuration can be used. The opening area formed by the gap S is not particularly limited. For example, the total area of the openings formed by the gap S is 1 to 1 of the opening area at the end surface E (the opening area at the end of the cast iron pipe P). The shielding member 4 can be arranged so as to be 20%, more preferably 5 to 15%.

  Moreover, since the shielding member 4 is disposed so that the gap S is formed, it is not in contact with the end surface E and the inner surface of the cast iron pipe P. For this reason, the paint adhering to the shielding member 4 does not adhere to the inner surface of the cast iron pipe P, and the cast iron pipe P is not damaged. Further, since the shielding member 4 does not completely seal the cast iron pipe P, the dimensional accuracy of the shielding member 4 with respect to the inner diameter of the cast iron pipe P is not necessary.

  In addition, although the shielding member 4 may be manually arranged, the moving member that moves the shielding member 4 can be moved forward and backward with respect to the pipe end along the axial direction of the cast iron pipe P. it can. Thereby, when coating the cast iron pipe P continuously, the shielding member 4 can be moved and arranged automatically, and workability is improved. In addition, by adjusting the position of the shielding member 4, the gap S can be changed.

  Below, the coating method using the coating apparatus 1 of this embodiment is demonstrated. In addition, the following description is an example to the last and the coating method is not limited to the following examples. Moreover, the order of each process of a coating method can be suitably changed, if the objective of this invention can be achieved.

  First, the cast iron pipe P on which the inner surface of the pipe has been coated, such as epoxy resin powder coating, is moved to the support mechanism 5 of the coating apparatus 1 and supported by the support mechanism 5. Next, as shown in FIG. 1, the shielding member 4 is arranged so that a gap S is formed on the receiving port P1 side of the cast iron pipe P, and air is supplied to the insertion port P2 side of the cast iron pipe P. The air supply unit 3 is arranged to complete the preparation for painting. When the shielding member 4 is moved along the axial direction of the cast iron pipe P by the moving mechanism, the preparation for painting can be easily completed, and the workability when continuously processing the plurality of cast iron pipes P is improved. improves. Further, at this time, the shielding member 4 is formed to move forward and backward with respect to the receiving port P1 according to the injection pressure from the nozzle 2, the supply amount of air, the size and shape of the cast iron pipe P, and the like. The size of the gap S may be adjusted.

  When preparation for coating is completed, the air supply unit 3 is operated so that air is supplied from the air supply unit 3 on the insertion port P2 side toward the reception port P1 side. In a state where air from the air supply unit 3 is discharged from the gap S, the rolls 5a and 5b of the support mechanism 5 are driven to rotate the cast iron pipe P around its axis, and the paint is applied to the cast iron pipe P by the nozzle 2. Spray onto end face E. As shown in FIGS. 1 and 3, the paint sprayed by the nozzle 2 is sprayed on the end surface E of the cast iron pipe P, and the end surface E is painted. On the other hand, the paint sprayed toward other than the end face E is prevented from entering the inside of the cast iron pipe P by the air discharged from the gap S, and the adhesion of the paint to the inner surface of the cast iron pipe P is prevented. The Other coating materials also prevent the shielding member 4 from entering the inside of the cast iron pipe P because it becomes a physical wall. Thus, according to the present embodiment, the shielding member 4 is arranged so as to cover the opening, and the shielding member 4 is arranged so that a gap S through which air is discharged is formed at the sprayed portion of the nozzle 2. This makes it possible to easily prevent the paint from entering the inner surface of the pipe when painting the pipe ends such as the receiving port P1 of the cast iron pipe P. As a result, work such as brush holding after dipping is not required as in the prior art, and workability is improved. In addition, when coating the end face E, the paint can be sprayed by the nozzle 2 instead of dipping, so that the film thickness of the paint becomes uniform and the end face E has a casting mark, etc. It is also possible to cope with the complicated uneven shape formed.

  Further, a paint mist floating in the air, such as a paint mist floating in a direction different from the injection direction from the nozzle 2 (for example, a paint mist floating around the lower side of the shielding member 4 in FIG. 1) The clearance S formed in all directions in the circumferential direction as the flow path is prevented from entering the inside of the cast iron pipe P, and the adhesion of the paint to the inner surface of the cast iron pipe P is reliably prevented.

  In addition, in embodiment mentioned above, although the opening by the side of the insertion port P2 in which the air supply part 3 is provided is shown in the open state, the pipe end in which the air supply part 3 is provided may be closed. By closing the pipe end on the side where the air supply unit 3 is provided, the supplied air can be discharged from the gap S more efficiently without leaking from the insertion port P2. Further, in the present embodiment, the shielding member 4 is sized to partially cover the opening on the receiving port P1 side, but if a gap S is formed between the shielding member 4 and the receiving port P1, The shielding member 4 may have a diameter that is approximately the same as or slightly larger than the opening diameter of the opening P1.

DESCRIPTION OF SYMBOLS 1 Coating apparatus 2 Nozzle 3 Air supply part 31 Compressor 32 Air nozzle 4 Shielding member 5 Support mechanism 5a, 5b Roll part AF Air flow P Cast iron pipe P1 Receiving port P2 Insertion E End face of cast iron pipe S Gap

Claims (6)

A coating apparatus for coating an outer surface and / or an end surface of a pipe end of a cast iron pipe, the coating apparatus comprising:
A nozzle for spraying paint on the outer surface and / or end surface of the pipe end of the cast iron pipe;
An air supply section for supplying air from a pipe end opposite to a pipe end on which the paint is sprayed toward a pipe end on which the paint is sprayed;
A shielding member disposed on the tube end side on which the paint is sprayed, and disposed so as to at least partially cover the opening on the tube end side on which the paint is sprayed;
The coating apparatus with which the said shielding member is arrange | positioned so that the clearance gap in which the air supplied from the said air supply part is discharged | emitted is formed in the spraying part by the said nozzle. The shield member is formed in a disc shape having a diameter smaller than the inner diameter of the tube end, and an annular flow path is formed between the disc-shaped shield member and the tube end of the cast iron tube. Item 1. A coating apparatus according to item 1. The coating apparatus according to claim 1, wherein the coating apparatus includes a support mechanism that rotatably supports the cast iron pipe around an axis, and the pipe end of the cast iron pipe is coated while rotating. A coating method for coating an outer surface and / or an end surface of a pipe end of a cast iron pipe, the coating method comprising:
Spraying paint on the outer surface and / or end surface of the pipe end of the cast iron pipe;
Supplying air from the tube end opposite to the tube end to which the paint is sprayed toward the tube end to which the paint is sprayed;
Disposing a shielding member on the tube end side on which the paint is sprayed so as to at least partially cover the opening on the tube end side on which the paint is sprayed,
The coating method by which the said shielding member is arrange | positioned so that the clearance gap in which the air supplied from the said air supply part is discharged | emitted is formed in the spraying part by the said nozzle. The shield member is formed in a disc shape having a diameter smaller than the inner diameter of the tube end, and an annular flow path is formed between the disc-shaped shield member and the tube end of the cast iron tube. Item 5. The coating method according to item 4. The coating method according to claim 4 or 5, wherein the cast iron pipe is supported by a support mechanism that rotatably supports the cast iron pipe around an axis, and the method includes a rotating step of rotating the cast iron pipe around the axis.

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