DE4023414A1 - Security arrangement passing fan-shaped beam through objects - has two sources passing beams through object from different directions to associated L=shaped receivers - Google Patents

Abstract

An arrangement for passing fan-shaped beams through objects has two L-shaped receivers (8,9) receiving the beams from two sources (1,2). Each source emits a fan shaped beam which fully covers a measurement field (3) through which it passes. The fan shaped beams (6,7) pass through the measurement field from different directions to be received by their associated L-shaped receivers which are offset perpendicularly w.r.t. the beams. USE/ADVANTAGE - Pref. for use with containers and/or vehicles, e.g. at airports, to search for objects such as bombs, weapons, and smuggled goods. Improved identification of items inside objects.

Description

The invention relates to a device for screening Objects, preferably containers and / or vehicles with fan-shaped radiation, for example at airports is set to the contents of items on bombs, weapons and to search contraband.

From E-PS 00 77 939 is a device for screening known from bodies in which two spaced apart X-ray radiation sources each have a flat fan of rays send. Each beam fan penetrates a sub-area a measuring volume in which the body to be examined is located located. The fan angle of each beam fan is so measure that each beam fan has a partial cross section of a Layer penetrates the body, but both rays fan the cross section of the layer of the body completely penetrate. The part produced by each fan beam Radiation silhouette of the body is of a radiance receive receiver. The radiation receiver is the x-ray radiation sources arranged opposite and is something larger than the vertical projection of the body when one viewed from the X-ray sources.

The object of the invention is a device of the entry ge mentioned type so that the identifiability of Sharing in items is improved.

The object is achieved by a device for X-raying objects with fan-shaped radiation, with a first L-shaped radiation receiver, which the Receives radiation from a first radiation source, with a  second L-shaped radiation receiver that emits radiation receives second radiation source, each radiation source sends a fan of rays, the cross section of a measurement field penetrates completely, with the fan of rays Penetrate the measuring field from different directions, whereby each beam fan afterwards from the assigned L-shaped one Radiation receiver is received and being the L-shaped Radiation receiver in a direction perpendicular to the rays subjects are offset from one another.

The advantage of the invention is that the beam fan of each beam lenquelle completely penetrates a layer of the object and that the radiation thereafter from any radiation source assigned L-shaped radiation receiver is received. The Radiation receivers receive a radiation silhouette a layer of the object from different viewing directions. If one carries over the signals of the radiation receivers a calculator for calculating a radiation silhouette one monitor each, so on the screen of the Monitor the parts in the object from different Projection directions visible, making it more identifiable the parts are raised.

Further advantages and details of the invention emerge from the following description of an embodiment based on the drawing in conjunction with the subclaims.

The figure shows a first and a second radiation source 1 , 2 , which are adjacent to each other. An object 4 to be examined, for example a piece of luggage, preferably a container and / or vehicle, is arranged in a measuring field 3 . After activation by a voltage supply 5, the radiation sources 1 , 2 emit a plane radiation fan 6 , 7 , each radiation fan 6 , 7 completely penetrating the measuring field 3 and thus the cross section of the object 4 . The radiation silhouette of the cross section generated by the first radiation fan 6 is received by a first L-shaped radiation receiver 8 and the radiation silhouette of the cross section generated by the second radiation fan 7 is received by a second radiation receiver 9 . It should be noted that the beam fans 6 , 7 penetrate the cross section of the object 4 from different directions, that the opening of the beam fans 6 , 7 is dimensioned such that an edge beam 10 , 11 of the respective beam fan 6 , 7 parallel to a first leg 12 , 13 of the respectively assigned L-shaped beam receiver 8 , 9 and that another edge beam 14 , 15 strikes the end region of the leg 12 or 13 and that the L-shaped beam receiver 8 , 9 in a plane perpendicular to the beam fan 6 , 7 are offset from each other and the measuring field 3 surrounded on three sides. The figure shows that the object was 4 from above, that is irradiated from the fourth free side of the measuring field 3 .

The signals obtained from the L-shaped radiation receivers 8 , 9 during the transmission are fed to a computer 16 for calculating a radiation silhouette of the cross section. At the output of the computer 16 , a first and second monitor 17 , 18 are connected, of which the first monitor 17 shows the calculated radiation silhouette of the L-shaped radiation receiver 9 and the second monitor 18 shows the calculated radiation silhouette of the radiation receiver 8 .

Particularly advantageously, the legs of the L-shaped beam lenempfänger 8 , 9 form a U, the legs 19 , 20 adjacent to each other and the legs 12 , 13 opposite each other.

Such a device can be advantageous Containers and / or vehicles with a small space requirement  Device will be examined. The identifiability of Sharing is by radiographing the cross section of the Containers and / or vehicles from different directions improved over the prior art.

Claims (5)

1. device for illuminating objects with fan-shaped radiation,

• - With a first L-shaped radiation receiver ( 8 ) which receives the radiation from a first radiation source ( 1 ),
• - With a second L-shaped radiation receiver ( 9 ) which receives the radiation from a second radiation source ( 2 ),
• - Each radiation source ( 1 , 2 ) sends a radiation fan ( 6 , 7 ) which completely penetrates the cross section of a measuring field ( 3 ),
• - The radiation fan ( 6 , 7 ) penetrate the measuring field ( 3 ) from under different directions,
• - Wherein each beam fan ( 6 , 7 ) is then received by the associated L-shaped beam receiver ( 8 , 9 ) and
• - The L-shaped radiation receivers ( 8 , 9 ) are offset from one another in a direction perpendicular to the radiation fans ( 6 , 7 ).

2. Device according to claim 1,

• - Wherein one leg ( 12 ) of one and one leg ( 13 ) of the other L-shaped radiation receiver ( 8 , 9 ) are arranged opposite one another and
• - wherein the other leg (19, 20) of the L-shaped radiation receiver (8, 9) are adjacent, such that both L-shaped radiation receiver (8, 9) form a U.

3. Device according to claim 1 or 2,

• - The L-shaped radiation receiver ( 8 , 9 ) surround the measuring field ( 3 ) on three sides and
• - The radiation source ( 1 , 2 ) of the fourth free side of the measuring field ( 3 ) opposite and adjacent to each other is arranged.

4. Device according to one of claims 1 to 3, wherein in each beam fan ( 6 , 7 ) the one edge beam ( 10 , 11 ) approximately parallel to the one leg ( 12 , 13 ) and the other edge beam ( 14 , 15 ) for The upper end of this leg ( 12 , 13 ) of the associated radiation receiver ( 8 , 9 ) runs. 5. Device according to one of claims 1 to 4, wherein the Device for irradiating containers and / or vehicles witness is trained.