JP2019093563A5 - - Google Patents

Claims (6)

A heating member that is movably provided along one surface of the composite material and heats the opposing regions of the one surface of the composite material and direct current toward the opposing regions of the one surface of the composite material. A head having a DC magnetic field member that generates a magnetic field, and
It is provided at a position facing the DC magnetic field member in a state of facing the head and the composite material in the thickness direction of the composite material, and responds to the DC magnetic field through the facing region of the composite material. A backing member having a magnetic field response member that generates an attractive force with respect to the DC magnetic field member and movably provided along the other surface of the composite material.
Including
The head and the backing member pressurize by sandwiching the facing regions of the composite material in the thickness direction of the composite material.
As the head moves along one surface, the backing member follows the head to the other of the composite material due to the attractive force acting between the DC magnetic field member and the magnetic field response member. Move along the surface ,
The heating member is provided in a central region of the head facing one surface of the composite material, and an alternating magnetic field is applied to the composite material to induce an eddy current inside the composite material. An alternating magnetic field application member that heats a composite material.
A composite material molding apparatus , wherein the DC magnetic field member is provided at an end region of a surface of the head facing one surface of the composite material. A head support that movably supports the head along one surface of the composite:
The composite material molding apparatus according to claim 1, further comprising. The composite material molding according to claim 1 or 2 , wherein the backing member is formed in a shape that is endless with respect to a moving direction that allows movement along the other surface of the composite material. apparatus. The composite material molding apparatus according to any one of claims 1 to 3 , further comprising a control unit that controls the heating temperature of the heating member and the DC magnetic field of the DC magnetic field member. .. Through a predetermined area of the composite material before molding faces of said an AC magnetic field application member for applying an alternating magnetic field in the central region of the opposite sides of one surface of the composite material, one surface of the composite material surface A magnetic field that generates an attractive force on the DC magnetic field member in response to the DC magnetic field through a head having a DC magnetic field member that generates a DC magnetic field toward the end region of the composite material and a region facing the composite material. An arrangement step of arranging the backing member having the response member so that the DC magnetic field member and the magnetic field response member face each other in the thickness direction of the composite material.
An alternating magnetic field is applied by the alternating magnetic field applying member to apply an alternating magnetic field to a region of the composite material that is pressurized by sandwiching the head and the backing member in the thickness direction of the composite material, and an eddy current is generated inside the composite material. A heating step that heats the composite material by inducing
The head, which is executed in parallel with the heating step and is arranged in the arrangement step, is moved along one surface of the composite material, and the attractive force between the DC magnetic field member and the magnetic field response member causes the head to move. A moving step of moving the backing member along the other surface of the composite material following the head.
A composite material molding method comprising. In the arrangement step, the head is provided along the open space side surface of the composite material, and the backing member is provided along the closed space side surface of the composite material.
The moving step is characterized in that the head is moved along the open space side surface of the composite material and the backing member is moved along the closed space side surface of the composite material. 5. The composite material molding method according to 5.