Device for capturing an imprint of a body part

The invention claimed is: 1. A device for capturing an imprint of a body part comprising a plurality of optically coupled elements comprising: a first transparent plate comprising a top face on which the body part bearing the imprint to be imaged can rest; a light source; a screen opaque to light situated below the first transparent plate; a second transparent plate situated below the opaque screen; a sensor comprising light-sensitive photoreceptors situated below the second transparent plate supplying information allowing generation of an image of the imprint; the faces of the transparent plates, the opaque screen and the sensor being parallel, wherein: the light source generates light beams passing through at least the first transparent plate towards the top face having an incident angle relative to a normal to said top face of a value less than a critical angle dependent on the refractive indices of the first plate and of air and beyond which a light ray is totally reflected by said top face in the presence of air above said top face; the opaque screen comprises a network of holes such that each light ray directed towards the sensor which reaches the opaque screen at a hole passes through the opaque screen and reaches the sensor; all light-sensitive photoreceptors of the sensor are positioned outside of any position of the sensor that can be struck by a light ray from the body part having an incidence angle relative to said normal less than the critical angle; and each point of the body part in contact with the top face is imaged by at least one photoreceptor of said sensor. 2. The device according to claim 1 , wherein at least some of the holes, called imaging holes, serve to image the body part, and in that a distance between an imaging hole and the imaging hole or holes which are its closest neighbours, taken from centre to centre, is greater than the diameter of an image of the body part seen by a hole when the body part is placed on the top face. 3. The device according to claim 1 , wherein the light source is composed of at least one light-emitting diode, called LED, and when the light source comprises a plurality of LEDs, the LEDs are configured such that each LED producing light and the LED or LEDs producing light which are the closest neighbours of said LED generate, on the body part, parts illuminated directly by said LEDs that are distant by a distance less than a predefined distance characteristic of a depth of penetration of the light into the body part. 4. The device according to claim 3 , wherein the light source is incorporated on a bottom face of the first plate or incorporated on a top face of the second plate and generates a light beam above the opaque screen. 5. The device according to claim 3 , wherein the light source is incorporated on the surface of the sensor or incorporated in the sensor and generates a light beam below the opaque screen passing through the opaque screen via holes towards the top face and each LED of the light source is positioned facing a hole of the opaque screen, at least some of the holes being associated with a LED. 6. The device according to claim 5 , wherein the LEDs are grouped in sets of LEDs, each set of LEDs being intended to be switched on independently of the other sets of LEDs, at least one of the sets of LEDs being switched on to acquire an intermediate image, each intermediate image acquired being used to form the image of the imprint. 7. The device according to claim 6 , wherein each photoreceptor used to form an image is situated outside a predefined vicinity of each LED switched on. 8. The device according to claim 5 , wherein the holes of the opaque screen form a rectangular matrix of holes, one hole out of two per row of the rectangular matrix of holes and one hole out of two per column of the rectangular matrix of holes are associated with a LED in which the holes of the opaque screen form a first and a second interleaved rectangular matrices of holes, the holes of the first rectangular matrix of holes are associated with a LED and the holes of the second rectangular matrix of holes are not associated with a LED, each hole associated with a LED of the first rectangular matrix of holes being positioned at an equal distance from the centre of the four holes of the second matrix of holes in its closest vicinity. 9. The device according to claim 8 , wherein the holes which are associated with a LED have a diameter greater than the holes which are not associated with an LED. 10. The device according to claim 6 , wherein the holes of the opaque screen form a rectangular matrix of holes, each hole being associated with a LED, the device is adapted for one LED out of two for each row and one LED out of two for each column of the matrix of LEDs to be switched on to allow a capture of a first intermediate image and only the LEDs not switched on for the first intermediate image are switched on to capture a second intermediate image, an imprint image being formed from the first and the second intermediate images. 11. The device according to claim 1 , wherein when a point of the body part is imaged by several photoreceptors of the sensor, the information items from each sensor having imaged said point are mutually rebalanced by taking into account, for each photoreceptor, an information item representative of a distance between said photoreceptor and the point which has been imaged, a representation of this point in an imprint image is computed following the rebalancing in the form of an average of the information items from each photoreceptor having imaged this point or in the form of a weighted average of the information items from each photoreceptor having imaged this point or in the form of a median value of the information items from each photoreceptor having imaged this point or in the form of a minimum value of the information items from each photoreceptor having imaged this point. 12. The device according to claim 1 , wherein each photoreceptor of the sensor corresponding to a position that can be struck by a light ray from the body part having an incidence angle relative to the normal to the top face less than the critical angle is masked by an opaque metallic layer. 13. The device according to claim 1 , wherein the first plate has a thickness three to ten times greater than a thickness of the second plate. 14. The device according to claim 4 when the light source is incorporated on the bottom face of the first plate, wherein each light-emitting diode comprises, in a first layer, a first transparent electrode, in a second layer situated immediately below the first, a stack of layers forming an LED and in a third layer common to each LED of the light source, a metal layer forming a second electrode, each layer being produced by deposition and etching on the bottom face of the first plate, the screen being implemented by said metal layer and comprising holes. 15. A method for detecting fraud in a use of a device for capturing an imprint of a body part according to claim 1 , wherein the method comprises: determining if the sensor is struck by light rays having an incident angle relative to the normal to the top face greater than a maximum value that can be taken by a limit angle dependent on the refractive indices of the first plate and of the body part and beyond which a light ray is totally reflected by said top face when said light ray strikes the top face at a point of contact between the top face and a finger or, if, in at least one predetermined zone of the sensor, the sensor is struck exclusively by light rays having an incident angle relative to the normal