Radiation heating device

What is claimed is: 1 . A radiation heating device that radiates radiant heat, the radiation heating device comprising: a heat generation layer having a planar shape; a heat generation portion arranged in the heat generation layer to generate heat by energization; a plurality of heat radiation portions disposed in the heat generation layer to radiate heat transferred from the heat generation portion; a low heat conduction portion arranged around each of the heat radiation portions and having a heat conductivity lower than that of the heat radiation portions; a contact detection unit that detects contact of an object with the heat generation layer; and an energization amount decrease unit that decreases an energization amount of the heat generation portion when the contact detection unit detects the contact of the object with the heat generation layer. 2 . The radiation heating device according to claim 1 , further comprising: a temperature detection unit that detects a temperature change of the heat generation layer, wherein the contact detection unit detects a temperature drop of the heat generation layer, the temperature drop being detected by the temperature detection unit, as the contact of the object with the heat generation layer. 3 . The radiation heating device according to claim 2 , wherein the temperature detection unit is arranged in a layered member that covers a predetermined area of the heat generation layer having the planar shape, and detects a temperature change in the area. 4 . The radiation heating device according to claim 2 , wherein: the temperature detection unit is arranged in a layered member that covers a predetermined area of the heat generation layer having the planar shape, and detects local abnormal heat generation in the area; and the radiation heating device further comprises an energization suspension unit that suspends energization of the heat generation portion when the temperature detection unit detects local abnormal heat generation in at least a portion of the heat generation layer. 5 . The radiation heating device according to claim 1 , wherein: the contact detection unit detects contact of the object with the heat generation layer for a certain time period or more; and the energization amount decrease unit further decreases the energization amount of the heat generation portion when the contact detection unit detects the contact of the object with the heat generation layer for the certain time period or more. 6 . The radiation heating device according to claim 2 , wherein the temperature detection unit comprises a positive temperature characteristic member having a positive temperature characteristic. 7 . The radiation heating device according to claim 6 , wherein: the positive temperature characteristic member has a thin plate shape; and the temperature detection unit has two electrode plates that sandwich the positive temperature characteristic member from both sides of the positive temperature characteristic member. 8 . The radiation heating device according to claim 6 , wherein: the positive temperature characteristic member comprises a PTC characteristic member passing through an insulating layer and divided into a plurality of areas; and the temperature detection unit includes: a first electrode layer disposed on one face side of the insulating layer, the first electrode layer having a linear electrode that is in contact with the PTC characteristic member on the one face side of the insulating layer; and a second electrode layer disposed on the other face side of the insulating layer, the second electrode layer having a linear electrode that is in contact with the positive temperature characteristic member on the other face side of the insulating layer. 9 . The radiation heating device according to claim 6 , wherein: the positive temperature characteristic member comprises a PTC characteristic member formed on one face side of an insulating layer to be divided into a plurality of areas; and the temperature detection unit includes an electrode layer stacked on the insulating layer, the electrode layer having two electrodes that are formed on a face on the insulating layer side and that are connected to each other via the PTC characteristic member formed on the insulating layer. 10 . The radiation heating device according to claim 2 , wherein the temperature detection unit comprises a negative temperature characteristic member having a negative temperature characteristic. 11 . The radiation heating device according to claim 10 , wherein the negative temperature characteristic member is a CTR characteristic member having a CTR characteristic. 12 . The radiation heating device according to claim 1 , further comprising: a heat generation layer temperature detection unit arranged in the heat generation layer to detect a temperature of the heat generation layer, wherein the contact detection unit determines that the contact of the object with the heat generation layer is absent, until temperature detected by the heat generation layer temperature detection unit becomes predetermined temperature or more, from start of the energization. 13 . The radiation heating device according to claim 1 , wherein the contact detection unit determines that the contact of the object with the heat generation layer is absent until a certain time elapses from start of the energization. 14 . The radiation heating device according to claim 1 , further comprising: an energization amount increase unit that increases the energization amount of the heat generation portion after an elapse of a predetermined time, when the energization amount decrease unit decreases the energization amount of the heat generation portion; and a contact redetermination unit that re-determines the contact of the object with the heat generation layer, after the energization amount increase unit increases the energization amount of the heat generation portion, wherein the energization amount decrease unit decreases the energization amount of the heat generation portion, when the contact redetermination unit determines the contact of the object with the heat generation layer is present. 15 . The radiation heating device according to claim 14 , further comprising: an energization amount return unit that returns the energization amount of the heat generation portion to an original energization amount, when the contact redetermination unit determines that no object contacts the heat generation layer.