DE2139051B2 - Protection arrangement for a radioactive radiation source arranged in the wall of a continuous casting mold - Google Patents

Description

to play below? Referring to the perforations "^ r ^ S with raised

3 shows a plan view of this radiation source, F \% 4 a radiation designed as a float

The invention relates to a protective arrangement for an in the wall of a continuous casting mold on · ordered radioactive radiation source during the casting break, in which in the mold wall parallel to Kokiilenachse a channel for the radiation source is provided.

As from the specialist literature (Berg- und Hüttenmännisehe Monthshefte, 107, 1962. p. 79) is known, radioactive isotopes are well suited for level measurement in Continuous casting mold ^ their use is associated with the possibility of a radiation hazard. In order to meet the radiation protection ordinances, the Ptäparat had to be used in the known arrangement Disuse, d. H. also during the break between two casts, on all sides by a 100 mm thick lead be surrounded by the jacket, so that the radiation source is not close in the working position during every pause in pouring the mold could remain, but had to be withdrawn into a rest position in which the preparation is additionally surrounded by a cage with a diameter of 1 m.

The invention is based on the object of a protective arrangement for a in the wall of a Continuous casting mold arranged to indicate radioactive radiation source, which makes it possible to use the radiation source to bring safely from their rest position in the casting pauses in the measuring position and vice versa.

In a protective arrangement of the type mentioned at the outset, this is achieved according to the invention in that the radiation source is designed as a float, which is buoyant or flowing in a fluid can be raised through the channel up to a stop up to the height of the metal bath level to be measured.

The channel is advantageously open on one side and has a shielding container to accommodate the Radiation source in connection during the casting breaks.

Since in most cases the mold height is about 1000 to 1200 mm and a gamma ray source »Co-60« is used when this radiation source is lowered along the vertical mold channel the radiation dose in the zone in which the preparatory work will be carried out by more less than 200 timesc, without taking into account the shielding effect of the cold strand, which is introduced into the mold before casting

15th

20 queue, F i g. 5 shows a protective arrangement with a shielding container for recording the radiation source during the casting breaks.

The mold of the continuous caster * consists of a housing 1 (Fig. I) and cooled wall 2 attached to the housing 2. A channel 3 is made in the mold wall 2, in which the ionizing radiation source 4 is housed, which is displaceable in the channel 3. The channel 3 is closed at the top and bottom by plugs 5 and 6. The radiation source 4 can, for example be displaced by a liquid or gas flow.

The radiation source can either be in a channel specially designed for this purpose or in a the channels of the mold cooling system are housed. From the drawing are channels 7 and 3 of this system can be seen which are closed by plugs 5 and 6 at the top and bottom. When the channel 3, in which the radiation source 4 is housed belongs to the cooling system, this has the consequence that the radiation source is moved in it by the coolant.

During the preparatory work carried out on the casting platform (not shown in the drawing) are, the radiation source 4 is in the lower part of the channel 3, assumes the position 4 'and lies with its lower end on the plug 6.

Before the start of casting and before liquid metal is introduced into the mold, the radiation source becomes 4 in the upper position, namely in the zone geso, which the position of the mirror 8 of the metal 9 in corresponds to the mold. Here, the upper end of the radiation source 4 rests on the plug 5. In this position of the radiation source 4, the position of the mirror 8 of the metal 9 can be monitored and regulated. After quitting the casting, the radiation source 4 is moved down along the channel 3 until it again the position 4 'occupies.

The radiation source consists of a housing, which in the form of a tube 10 (FIG. 2), in 6o the ampoule 11 with radioisotropic substance and insert pieces 12 are housed.

With the help of the latter, the location of the ampoules is determined 11 fixed in the tube 10. The source has a device to it by means of fluid in motion wedge along the channel 3 (Fi g. 1) to move. These The device is designed in the form of stars 13 (FIGS. 2 and 3) which are attached to the tube 10. The stars 13 ensure a centering of the radiation source

(Fig. 1) in channel 3 and also increase their resistance against the flow of liquid or gas.

The radiation source possesses to it in the desired To hold the position, stops 14 and 15, which are located at both ends of the tube 10.

The displacement of the radiation source takes place in the mold channel 3 (Fig. 1) proceed as follows.

When the liquid or gas in the channel 3 is not in motion, the radiation source 4 assumes the position 4 'in its lower part and is held in this _J0 position by the lower stop 15 (FIG. 2). In channel 3, when the radiation source 4 (Fig. 1) is to be brought into the zone which corresponds to the position of the mirror 8 of the metal 9, a liquid or gas flow is generated in the direction of this zone of the gas to act on the housing of the radiation source, under the influence of which the radiation source 4 is displaced along the channel 3 and held in the zone corresponding to the position of the mirror 8 of the metal 9 by means of the upper stop 14 (FIG. 3) . When the flow of liquid or gas is switched off, the radiation source 4 (FIG. 1) returns to position 4 'under the action of gravity.

In Figure 4, another embodiment is a Shown as a swimmer radiation source. This also consists of a in the form of a Tube 10 executed housing. The pipe itself is made of light metal or plastic and is airtight closed by cover 16 and contains ampoules 11 with radioisotropic substance as well as insert pieces 17. the for example made of foam.

Such, inserted into the channel of the mold wall Radiation source is in this when filling or draining liquid by buoyancy Moved up or down The channel is moved to the radiation source in the zone that is the location of the metal mirror corresponds to holding on, completely filled with liquid. Here the radiation source lies with its upper cover 16 on plug 5 (FIG. 1) of channel 3.

In Fig. 5 is another embodiment of a Protective arrangement according to the invention shown on the housing 1 and the wall 2 includes at the bottom Shielding container 18 for receiving the radiation source 4. A channel 19 executed in this stands with the mold channel 3 in connection.

The upper part of the channel 3 is also connected to a container 20, while the lower part of the channel 19 of the shielding container 18 is connected to a pump 2t when the mold 22 is removed from of the continuous casting plant, the pump 21 is switched off, and the radiation source 4 is located in the channel 19 of the shielding container 18. The channels 19 and 3 of the shielding container 18 and the mold 22 are in communication with one another when the mold is put on. Before metal is poured into the mold 22, the pump 21 and the radiation source are switched on 4 in the channels 19 and 3 up into the zone that corresponds to the position of the metal mirror 8, driven. After the casting has ended, the pump 21 is switched off and the radiation source 4 is lowered the channel 19 of the shielded container 18 from.

Such a protective arrangement facilitates maintenance, because when changing the mold of the continuous metal caster, the radiation source does not come out of the mold channel needs to be pulled out.

For this purpose 2 sheets of drawings

Claims (2)

Claims: will. How * decreased 1. Protection arrangement for one in the wall a continuous casting mold arranged radioactive radiation source during the casting break, in which in a channel for the radiation source is provided in the mold wall parallel to the mold axis, thereby characterized in that the radiation source (4) is designed as a float that passes through Drive or flow of a fluid through the channel (3) up to a stop (5) up to in The height of the metal bath level to be measured can be raised 2. Protection arrangement according to claim 1, characterized in that the channel (3) on one side is open and with a shielding container (18) for receiving the radiation source during the casting breaks in Connection. from