Gradient coil unit and magnetic resonance imaging apparatus

What is claimed is: 1. A gradient coil unit comprising: a tubular gradient coil configured to apply a gradient magnetic field to an imaging region of a magnetic resonance imaging system; and support structures, fixed to plural positions of said gradient coil, configured to hold said gradient coil on a tubular magnet by applying pressing forces on positions of an edge inside a wall forming the magnet, the pressing forces each having a component in a central axis direction of the magnet. 2. A gradient coil unit of claim 1 , wherein at least one of said support structures is configured to apply a pressing force in the central axis direction of the magnet. 3. A gradient coil unit of claim 1 , wherein at least one of said support structures is configured to apply a pressing force at an inclined angle from the central axis direction of the magnet. 4. A gradient coil unit of claim 1 , wherein at least one of said support structures is configured to apply a pressing force on an end part of at least one of an internal cylinder member and an end face which form the magnet. 5. A gradient coil unit of claim 1 , wherein at least one of said support structures is configured to apply a pulling force on said gradient coil, the pulling force having a component in the central axis direction. 6. A gradient coil unit of claim 1 , wherein said support structures are configured to adjust a position of said gradient coil. 7. A gradient coil unit of claim 1 , wherein at least one of said support structures is configured to include a vibration-proof material in at least a part thereof. 8. A gradient coil unit of claim 1 , wherein a member of at least one of said support structures includes a non-conductive material, contacting the magnet. 9. A gradient coil unit of claim 1 , wherein at least one of said support structures has: a first member fixed to a side of said gradient coil; a second member contacting with the edge or connected with the edge of the magnet; and a movable structure configured to adjust a position of said first member, with respect to said second member, at least in the central axis direction. 10. A gradient coil unit of claim 1 , wherein at least one of said support structures has: a first member fixed to a side of said gradient coil; a second member contacting with the edge or connected with the edge of the magnet; a female screw formed in said first member side; and a male screw fastened with said female screw and having a curved contact face at a tip, the contact face being contacting with said second member. 11. A gradient coil unit of claim 1 , wherein at least one of said support structures has: a first member fixed to said gradient coil side and having an elastically deformable portion; a second member contacting with the edge or connected with the edge; a female screw formed in said first member side; and a male screw fastened with said female screw and contacting with said second member. 12. A gradient coil unit of claim 1 , wherein at least one of said support structures has: a first member fixed to a side of said gradient coil; a second member contacting with the edge or connected with the edge of said magnet; a female screw formed in said first member; and a male screw fastened with said female screw and contacting said second member, wherein said first member has an elongated hole disposed to receive said male screw therethrough. 13. A magnetic resonance imaging apparatus comprising: a gradient coil unit of claim 1 , a static field magnet and at least one radio frequency coil configured to perform magnetic resonance imaging of an object.