JP2018122467A - Conductive coating tape - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a conductive coating tape which can easily be connected to a detection part formed by a conductive coating and, moreover, is coated with a conductive coating having a composition to make the coating hard to be ruptured.SOLUTION: Provided is a conductive coating tape 1 coated with a conductive coating continuously in a longitudinal direction, comprising: a tape body part 3 having elasticity formed in a belt-like shape; and a conductive coating layer 2 having elasticity formed on a surface of the tape body part. Furthermore, a surface of the conductive coating layer is coated with a coating layer 4. Further, there is interposed a base coating material 5 between the tape body part and a surface M1 of a concrete structure M.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a conductive paint tape to which a conductive paint is continuously applied in the longitudinal direction.

  As disclosed in Patent Documents 1 and 2, there is known a method for detecting the occurrence of deformation such as cracks by applying a conductive paint to the surface of a concrete structure made of reinforced concrete.

  That is, an electric circuit is formed by applying a conductive paint to the surface of a concrete structure, and is detected when the electric circuit breaks due to the occurrence or expansion of cracks.

JP 2016-24139 A JP 2016-24138 A

  However, the configuration for applying the conductive paint described in Patent Documents 1 and 2 is a configuration using a combination of a non-woven double-sided tape or a tape that is easily cut, such as a masking tape with cuts, and a conductive paint.

  In short, the conductive paint protective tape and the like disclosed in Patent Documents 1 and 2 are used as a detection unit, and it is an essential requirement to break due to the occurrence of a crack or the like.

  On the other hand, in order to detect the occurrence of a crack at a specific location, it is necessary to connect the detection unit and the detection device with a lead wire or the like. When the distance between the detection unit and the detection device is large, problems such as the presence of a place where it is difficult to wire the lead wire or a deterioration in aesthetics occur.

  In addition, there is a possibility that problems such as difficulty in joining different materials and corrosion of the electric wire may occur at the connection portion between the detection unit formed by the conductive paint and the lead wire as the electric wire.

  Therefore, an object of the present invention is to provide a conductive paint tape to which a conductive paint having a structure that is not easily broken can be easily connected to a detection unit formed of a conductive paint.

  In order to achieve the above object, the conductive paint tape of the present invention is a conductive paint tape to which a conductive paint is continuously applied in the longitudinal direction, and has a stretchable tape body portion formed in a strip shape, And a conductive paint layer having stretchability formed on the surface of the tape main body.

  Here, the conductive paint layer can be formulated to contain silver powder, a urethane resin, and an organic solvent. Preferably, the mixing ratio is such that the mixing ratio of the silver powder is 55 to 65% by weight, the mixing ratio of the urethane resin is 5 to 15% by weight, and the mixing ratio of the organic solvent is 25 to 35% by weight.

  The surface of the conductive paint layer may be covered with a coating layer. Further, the tape main body portion may be formed of polyolefin or nylon.

  In the conductive paint tape of the present invention configured as described above, a stretchable conductive paint layer is formed on the surface of the stretchable tape body. For this reason, even if a crack occurs at a place where detection is not scheduled, or even if the crack opens and closes, the energized state of the electric circuit can be maintained without breaking.

  Moreover, when the detection part is comprised by apply | coating a conductive paint, while being easy to connect to a detection part, an external appearance can be made homogeneous. Furthermore, by covering the surface of the conductive paint layer with the coating layer, the conductive paint layer can be made difficult to peel even if the conductive paint tape expands and contracts.

It is sectional drawing explaining the structure of the electrically conductive paint tape of this Embodiment. It is explanatory drawing which illustrated the application location of the conductive paint tape. It is sectional drawing explaining the structure of a conductive paint tape and a detection part.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a cross-sectional view illustrating a configuration of a conductive paint tape 1 according to the present embodiment, FIG. 2 is a schematic view illustrating an application portion of the conductive paint tape 1, and FIG. 3 illustrates a specific configuration of FIG. It is sectional drawing.

  The conductive paint tape 1 of the present embodiment is mainly composed of a stretchable tape body 3 formed in a belt shape and a stretchable conductive paint layer 2 formed on the surface of the tape body 3. Is done.

  The tape main body 3 is formed of a material having high stretchability. For example, a polyolefin resin material can be used as the tape body 3. Specifically, fine line tape with high heat resistance (product number 2800, manufactured by 3M Corporation) can be used. Further, the tape main body 3 can be formed of a stretchable material such as nylon.

  The tape body 3 formed of such a synthetic resin material having excellent stretchability can follow the deformation without breaking even if the stretch is repeated. In addition, the compatibility with the conductive coating layer 2 and the undercoat material 5 described later is good, and the adhesion can be enhanced and it is difficult to peel off.

  On the other hand, the conductive paint layer 2 is blended with excellent stretchability. In order to detect cracks with the conductive paint, it is necessary to reduce the tensile resistance to facilitate breakage. For example, the conductive paint used at the detection location is blended with polyester having poor stretchability.

  On the other hand, the conductive paint layer 2 is blended with a resin having excellent stretchability. For example, a silver powder serving as a filler, a highly stretchable urethane resin, and an organic solvent are blended. As the organic solvent, a diluent such as thinner is used.

  The conductive paint layer 2 can be blended, for example, with a silver powder mixing ratio of 55-65% by weight, a urethane resin mixing ratio of 5-15% by weight, and an organic solvent mixing ratio of 25-35% by weight.

  Furthermore, the surface of the conductive paint layer 2 can be covered with the coating layer 4 as necessary. By covering with the coating layer 4 such as acrylic resin, durability such as ultraviolet resistance and waterproofing can be improved.

  Further, by covering the surface of the conductive paint layer 2 with the coating layer 4, it is possible to make it difficult for the conductive paint layer 2 to peel off from the tape body 3 even if the conductive paint tape 1 repeatedly expands and contracts.

  An epoxy resin or the like can be used for the undercoat material 5 interposed between the tape body 3 and the surface M1. By interposing the undercoat material 5 as a primer, it is possible to adjust the unevenness with the detection target having the unevenness on the surface M1 such as the concrete structure M, and it is possible to prevent leakage to the concrete structure M side.

  The conductive paint tape 1 of the present embodiment is a strip-shaped conductive material capable of forming an electric circuit. For this reason, as shown in FIG. 1, if the ends of the lead wires 61, 61 of the detection device 6 are connected to both ends of the conductive paint layer 2 of the conductive paint tape 1, the energized state can be detected.

  FIG. 2 is an explanatory diagram illustrating the application location of the conductive paint tape 1 described above. The concrete structure M such as a PC girder (prestressed concrete girder) may be able to grasp the degree of damage depending on the location where the crack occurs. For example, when a prestressed force is introduced into a PC girder by a plurality of PC steel materials, it may be understood which position of the PC steel material is in a defective state or broken depending on the location where the crack C is generated.

  When such a crack C is detected, if the conductive paint applied along the surface M1 of the concrete structure M is configured to be easily broken and connected to the detection device 6, it is cracked in places other than the crack C to be focused. Even if this occurs, the conductive paint is broken and detected.

  Therefore, as shown in FIG. 2, the detection unit 7 is provided only at a location where it is desired to detect the occurrence of the crack C, and the rest is constituted by the conductive paint tapes 1, 1. For example, one end of the conductive paint tape 1 is connected to one of the lead wires 61 of the detection device 6 and is stretched to the point where the crack C to be noticed is generated.

  In the cracked C region of interest, the detection portion 7 that easily breaks from the end of the conductive paint tape 1 is wired in a U-shape. Then, an end of another conductive paint tape 1 is connected to the other end of the detection unit 7 and connected to the other lead wire 61 of the detection device 6 to form an electric circuit.

  Here, the structure of the detection part 7 is demonstrated, referring FIG. The detection part 7 is mainly comprised by the tape part 72 which is easy to fracture | rupture formed in the strip | belt shape, and the detection coating layer 73 which is easy to fracture | rupture formed in the surface of the tape part 72. FIG.

  A non-woven tape, a polyester masking tape, or the like can be used for the tape portion 72. When the tape portion 72 is made of a material that is difficult to break, the tape portion 72 is cut when a desired force is applied by, for example, making a slit or the like.

  The detection paint layer 73 is blended with, for example, silver powder as a filler, a polyester resin having poor stretchability, and an organic solvent. As the organic solvent, a diluent such as thinner is used.

  On the other hand, for the undercoat material 71 and the coating layer 74 of the detection unit 7, the same material as that of the conductive paint tape 1 can be used. For example, an epoxy resin can be used for the undercoat material 71 and an acrylic resin can be used for the coating layer 74.

  Next, the usage method of the conductive paint tape 1 of this Embodiment and the effect | action of the conductive paint tape 1 are demonstrated.

  As shown in FIG. 2, the case where the conductive paint tape 1 is used in order to detect the crack C which generate | occur | produces in the location with the side surface (surface M1) of the PC girder used as the concrete structure M is demonstrated.

  The detection device 6 is installed at a location where the administrator can easily access, such as a girder end where a scaffold exists and a pier position. For this reason, the detection apparatus 6 and the location which wants to detect the crack C may be separated far away. A detection unit 7 is provided in a U-shape in a side view at a location where the crack C is desired to be detected.

  Then, the conductive paint tapes 1, 1 are extended from the folded ends of the detection unit 7 toward the installation location of the detection device 6. The lead wire 61 of the detection device 6 is connected to the conductive paint layer 2 of the conductive paint tape 1 as shown in FIG. Since the connection between the lead wire 61 and the conductive paint layer 2 is performed around the detection device 6, it can be found immediately if a problem such as corrosion or disconnection of the lead wire 61 occurs.

  In order to lay the conductive paint tape 1, as shown in FIG. 3, first, an epoxy resin is applied to the surface M <b> 1 of the concrete structure M as an undercoat material 5. Similarly, an epoxy resin is applied as an undercoat material 71 to the surface M <b> 1 where the detection unit 7 is provided.

  Then, a tape portion 72 having a width of about 5 mm is pasted on the undercoat material 71 at a location to be the detection portion 7. In addition, a tape main body 3 having a width of about 5 mm is pasted on the undercoat material 5 at a location to be the conductive paint tape 1.

  Subsequently, in order to form the conductive paint layer 2, a conductive paint in which silver powder, a urethane resin, and an organic solvent are blended is sprayed on the surface of the tape body 3 with a small-diameter spray gun. In addition, a conductive paint containing silver powder, a polyester resin, and an organic solvent is sprayed on the surface of the tape portion 72 to form a detection paint layer 73. The thickness (film thickness) of the detection paint layer 73 by spraying is about 0.05 mm. The film thickness of the conductive paint layer 2 can be made thicker than that of the detection paint layer 73.

  Here, since the conductive paint layer 2 and the detection paint layer 73 are formed by spraying the same quality conductive paint, although different in composition, continuity can be easily ensured. Although the connection location between the conductive paint layer 2 and the detection paint layer 73 may be difficult to approach after the installation work, the management burden can be reduced by making a highly integrated connection.

  Further, the coating layers 4 and 74 are formed on the surfaces of the conductive paint layer 2 and the detection paint layer 73 by spraying acrylic resin. By providing the coating layers 4 and 74, durability can be improved.

  In this way, the detection circuit 6 detects the crack C <b> 1 using the electric circuit formed by the conductive paint tape 1, the detection unit 7, and the detection device 6. Here, it is assumed that the crack C2 has occurred in the laying section of the conductive paint tape 1 before the crack C1 occurs.

  When a train passes through a PC girder (concrete structure M) of a railway bridge, the crack C2 may be opened and closed by the train traveling load. If the conductive paint fails to follow the opening and closing of the crack C2, the crack C1 cannot be detected.

  On the other hand, since the conductive paint tape 1 arranged over the crack C2 is excellent in stretchability, even if the crack C2 repeatedly opens and closes or widens, it continues to be energized without being broken. be able to. For example, even if the crack C2 spreads by about 1 mm, the conductive paint tape 1 can maintain an energized state without breaking.

  On the other hand, when the crack C <b> 1 is generated or spreads, the detection unit 7 is broken and the energization is cut off and can be immediately detected by the detection device 6. That is, since the tape part 72 and the detection paint layer 73 of the detection part 7 have poor stretchability, they cannot resist the tensile force acting due to the generation or expansion of the crack C1, and cause breakage. For example, when a crack C1 of about 0.3 mm occurs, the detection unit 7 is broken. However, it is said that there is a detection error of about 25%.

  In the conductive paint tape 1 of the present embodiment configured as described above, the conductive paint layer 2 having stretchability is formed on the surface of the tape body portion 3 having stretchability. For this reason, even if a crack is generated at a location where detection is not scheduled or the crack C2 is opened and closed, the energized state of the electric circuit can be maintained without breaking.

  Moreover, when the detection part 7 is comprised by apply | coating a conductive paint, it is familiar with the conductive paint layer 2, and can be made to continue to the detection paint layer 73 of the detection part 7 easily.

  Furthermore, since the conductive paint layer 2 and the detection paint layer 73 are conductive paints using the same silver powder as a filler, the appearance is the same, and the appearance is impaired even if exposed on the surface M1 of the concrete structure M. Can be suppressed.

  Further, by covering the surfaces of the conductive paint layer 2 and the detection paint layer 73 with the coating layers 4 and 74, it is possible to suppress deterioration due to ultraviolet rays and improve durability.

  Further, since the surface of the conductive paint layer 2 is covered with the coating layer 4, even if the conductive paint tape 1 repeatedly expands and contracts due to opening and closing of the crack C2, the conductive paint layer 2 is peeled off from the tape main body 3. Can be suppressed.

  Further, by limiting the range in which the detection unit 7 is arranged in combination with the conductive paint tape 1, it becomes possible to quickly identify the location where the crack is generated, and the partial reinforcement by the steel plate reinforcement or the like is rational and economical. Can be done automatically.

  The embodiment of the present invention has been described in detail above with reference to the drawings. However, the specific configuration is not limited to this embodiment, and design changes that do not depart from the gist of the present invention are not limited to this embodiment. Included in the invention.

  For example, in the above embodiment, the case where the conductive paint tape 1 is laid on the surface M1 of the concrete structure M has been described. However, the present invention is not limited to this. The conductive paint tape 1 can also be used as a conductor or the like when detecting damage to plastic.

1 Conductive paint tape 2 Conductive paint layer 3 Tape body 4 Coating layer

Claims (5)

A conductive paint tape in which a conductive paint is continuously applied in the longitudinal direction,
A tape body portion having stretchability formed in a belt shape;
A conductive paint tape comprising: a conductive paint layer having stretchability formed on a surface of the tape main body.   The conductive paint tape according to claim 1, wherein the conductive paint layer includes silver powder, a urethane resin, and an organic solvent.   The mixing ratio of the silver powder is 55-65% by weight, the mixing ratio of the urethane resin is 5-15% by weight, and the mixing ratio of the organic solvent is 25-35% by weight. Conductive paint tape.   The surface of the said electrically conductive paint layer is coat | covered with the coating layer, The electrically conductive paint tape as described in any one of the Claims 1 thru | or 3 characterized by the above-mentioned.   5. The conductive paint tape according to claim 1, wherein the tape body is made of polyolefin or nylon.