Flame-proof radiation detector with wireless communication means

The invention claimed is: 1. A radiation detector module comprising a radiation detector, a power source and a wireless communication means all housed within a flame-proof enclosure, wherein said flame-proof enclosure comprises a housing comprising a body portion and at least one end cap, the body portion of said housing being made from metal and the end cap comprises a non-metallic material, and at least a portion of walls of the flame-proof enclosure is made from a non-metallic material that is more transmissive to wireless transmission than is steel, said non-metallic material being a static dissipative plastics material having a surface resistance ≦1 GΩ at 23° C.±2° C. and 50%±5% relative humidity, when measured in accordance with clause 26.13 of BS EN 60079-0:2004. 2. The radiation detector module according to claim 1 , wherein the non-metallic material forming an external surface of the flame-proof enclosure has a maximum surface area of 10,000 mm 2 . 3. The radiation detector module according to claim 1 , wherein the housing or the end cap includes an indicator configured for providing information about the status of the radiation detector or information concerning the radiation measured by the detector. 4. The radiation detector module according to claim 3 , wherein the indicator comprises a light source located inside the enclosure and optically connected to at least one light pipe comprising an optically transmissive material that passes through the enclosure wall to an external surface of the enclosure. 5. The radiation detector module according to claim 1 , wherein the wireless communication means comprises a radio-frequency transmitter, an aerial, and optionally a radio-frequency receiver. 6. The radiation detector module according to claim 1 , wherein an aerial or antenna associated with said wireless communication means is located within the flame-proof enclosure adjacent to a portion of the wall that is transmissive to said wireless communication. 7. The radiation detector module according to claim 1 , wherein the radiation detector is provided with a switching element to switch the power on and off, said switching element comprising an accelerometer located within the enclosure and which is arranged to switch on the power when a predetermined force is applied to the housing. 8. A method of monitoring, at a first location, gamma radiation incidence at a second location comprising the steps of: a) providing a radiation detector module at said second location, said radiation detector module being the radiation detector module according to claim 1 ; b) causing said radiation detector to detect and count gamma photons over a period of time; and c) transmitting a wireless signal from the wireless communication means to a wireless signal receiver at said first location, said signal encoding data concerning the gamma photons counted by the radiation detector, said first location being outside the flame-proof enclosure and remote from the second location. 9. A method of measuring a characteristic of a structure, comprising the steps of: a) providing a source of gamma radiation adjacent said structure; b) monitoring the gamma radiation incidence at a second location in proximity to said structure, said second location being selected such that gamma radiation from said source is transmitted along a path through a part of said structure towards said second location, wherein said monitoring is carried out according to the method of claim 8 ; and c) calculating, from the data encoded in said signal, a characteristic of the structure which is dependent upon the amount of gamma radiation emitted from the source that is received by the radiation detector. 10. The method according to claim 9 , wherein said structure is a process vessel, storage vessel or metallic apparatus. 11. A method of manufacturing a radiation detector, comprising the steps of: a) providing a radiation detector, power source and wireless communication means, b) providing a flame-proof enclosure comprising a housing body portion and at least one end cap, said body portion of said housing being made from metal and said end cap comprising a non-metallic material, c) installing said radiation detector, power source and wireless communication means in said enclosure in such a way that, when the housing and at least one end cap are connected so as to form a flame-proof enclosure meeting the standards set out in BS EN 60079-1:2007, the wireless communication means can transmit communications signals to and receive communications signals from a location outside the enclosure.