DE3707586A1 - DEVICE FOR RADIATING LIQUIDS WITH RADIOACTIVE RAYS - Google Patents

Abstract

A system for irradiating liquids with radioactive beams in which a tube (1) with an inlet and outlet connection (4, 5) is surrounded by a jacket (2) composed of radiation-screening material. In the tube (1) is located a radioactive source (6) for producing the radiation. The tube (1) is designed to be essentially rectilinear. In the tube (1) are located, starting from the radiation source (6) in the direction towards the connections (4, 5), shaped elements (10, 12, 14, 15) made of radiation-screening material which prevent escape of radiation via the connections (4, 5). The shaped elements (10, 12, 14, 15) leave a labyrinth-like free passage for the liquid.

Description

The invention relates to a device for irradiating Liquids with radioactive rays according to the generic term of Claim 1.

Such devices are used, for example, for hygiene cooling lubricant emulsions from cutting tools machinery. An essential requirement for such furnishings gene is a shield for radiation protection reasons the radiation source in all directions. For this reason such devices surrounded by a coat made of a radioactive radiation shielding material. The coat a min. dependent on the strength of the radiation source have minimum thickness.

Such a device is known from the older German The patent application P 36 01 724.8. Is in this facility a U-shaped tube embedded in a lead jacket. The lead jacket surrounds the pipe with a present in all directions the minimum wall thickness. This arrangement results in a very large overall weight of the facility.

The invention has for its object a device for irradiating liquids with radioactive rays from the to create the kind mentioned above, which is a much smaller Total weight has known devices and yet adequate shielding is guaranteed.

This object is characterized by that in claim 1 Setup solved. By arranging a straight pipe for the liquid flowing through becomes the length of the shielding Flow path greatly shortened. By installing chicane like fittings in the tube, which conveniently one  leave the labyrinthine flow path free for the liquid, the radiation source is abge in the axial direction of the tube shields. Due to the same size cross sections of the flow opening of the molded parts and through the streamlined training a smooth flow with low pressure drops is possible.

In the following the invention based on a in a drawing tion illustrated embodiment explained in more detail. The only drawing shows a longitudinal section through the Invention appropriate facility.

A substantially rectilinear tube 1 is surrounded by a man tel 2 , which consists of radioactive shielding material, for example lead. To protect against external mechanical damage, the jacket 2 is from a housing 3 to give, which also serves to support and store the device. At the ends of the tube 1 , an inlet port 4 and an outlet port 5 is arranged.

In the interior of the tube 1 , expediently in the region of its longitudinal axis, a radiation source 6 is provided which contains, for example, a cobalt 60 emitter. In order to prevent that the radiation source reaches 6 in direct contact with the flowing through the tube 1 liquid, the radiation source 6 is surrounded by a suitably made of stainless steel tube piece. 7 The pipe section 7 extends in the radial direction through the wall of the pipe 1 and is continued in a pipe section 8 passing through the jacket 2 . The tube piece 8 is closed by a lead fitting 9 adapted to this ver. The pipe section 8 represents a loading opening for the radiation source 6 .

In the tube 1 , several fittings made of radiation-shielding material, expediently lead, are set in an alternating sequence, which prevent rays from escaping from the connections 4 and 5 . The fittings are, starting from the radiation source 6 , arranged symmetrically in the direction of the two connections 4 and 5 . Therefore, only half of the fittings are described below. An annular shaped piece 10 with a radially inner throughflow opening 11 is arranged adjacent to the radiation source 6 . The annular shaped piece 10 is followed by a second shaped piece 12 with radially outer through-flow openings 13 . This is followed by further annular shaped pieces 14 and shaped pieces 12 . The end forms at the respective inlet or outlet port 4 or 5, an annular fitting 15th

The shaped pieces 12 and 14 can be arranged one after the other in a multiple alternating sequence, but it is also possible to combine the shaped pieces into thicker units.

In order to enable a smooth flow of the liquid in the pipe 1 with only slight pressure losses, the radially inner throughflow openings 11 and the radially outer throughflow openings 13 have cross sections of the same size. For the same reason, the shaped pieces 10 , 12 , 14 and 15 are designed to be streamlined at their transitions.

The thickness of the jacket 2 and the moldings 10 , 12 , 14 and 15 is designed such that, starting from the radiation source 6 , in all directions, for example along several Raumrah len S 1 to S 5 , the minde for the activity of the radiation source 6 the necessary shielding is available.

• Reference number 1 tube
  2 coat
  3 housing
  4 inlet connection
  5 outlet connection
  6 radiation source
  7 pipe section
  8 pipe section
  9 lead molding
  10 annular shaped piece
  11 flow opening
  12 second fitting
  13 flow opening
  14 annular fitting
  15 ring-shaped fitting
  S 1 - S 15 spatial rays

Claims (6)

1. Device for irradiating liquids with radioactive rays, with the following features:

• - A tube ( 1 ) with an inlet and an outlet connection ( 4 , 5 ) is surrounded by a jacket ( 2 ) made of radioactive rays from shielding material,
• - In the tube ( 1 ) a radiation source ( 6 ) for the generation of the radioactive radiation is arranged, characterized in that
• - That the tube ( 1 ) is substantially rectilinear and
• - That in the tube ( 1 ) from the radiation source ( 6 ), starting in the direction of the connections ( 4 , 5 ), fittings ( 10 , 12 , 14 , 15 ) are used made of radiation shielding material, which exits rays prevent the connections ( 4 , 5 ).

2. Device according to claim 1, characterized in that the shaped pieces ( 10 , 12 , 14 , 15 ) leave a labyrinthine flow path for the liquid free. 3. Device according to claim 2, characterized in that in each case an annular shaped piece ( 10 , 14 ) with radially inner throughflow opening ( 11 ) and a second shaped piece ( 12 ) with radially outer throughflow opening ( 13 ) are arranged in succession. 4. Device according to claim 3, characterized in that in the direction of the connections ( 4 , 5 ), starting from the radiation source ( 6 ), an annular shaped piece ( 10 ) each followed by a second shaped piece ( 12 ) and on the connections ( 4 , 5 ) each have an annular shaped piece ( 15 ) is arranged. 5. Device according to claim 3, characterized in that the radially inner throughflow opening ( 11 ) of the annular shaped piece ( 10 , 14 ) and the radially outer throughflow opening ( 13 ) of the second shaped piece ( 12 ) have the same cross-sections. 6. Device according to claim 5, characterized in that the fittings ( 10 , 12 , 14 , 15 ) are aerodynamically formed at their transitions.