TWI320058B - - Google Patents

Description

1320058 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a separation device for a radioisotope 铊-201, and more particularly to a lead-201 liquid which can be quickly separated and has a higher purity, and the vessel-201 The radioactive isotope 铊_2〇1 can be obtained by decay and ion exchange of the liquid. [Previous technique #f] Press, Ming-201 chlorinated sub-saturated can be quickly absorbed by the myocardium and concentrated on the myocardium, so it can be used as a myocardial contrast to diagnose heart disease. Sheep can be used for other medical diagnosis such as tumor imaging.铊-201 — is the most widely used radioisotope in the nuclear medicine family at home and abroad. The general method of making 铊-201 is as follows: Qaim SM, Weinreich R. and Ollig H.production of Tl-201 and Pb203 via Proton Induced Nuclear Reaction on Natural Thallium, International Journal of Applied Radiation and Isotopes, 30 (1979) pp. 85-95." states that 'they are smashed out of 铊-201' by direct cleaning but washed out 铊-201 by washing At the same time, it will bring out the impurities in the 铊-201, so that the purity of the 铊-201 produced is poor, and it is less suitable for the actual use. 1320058 to lead-201 collection bottle 7. The three-way control valve 41 and the third control valve 23' connected to the co-sinking tank 4 are sucked by the vacuum tank 2 to the liquid of the second glass tank 8' The third control valve 23 is closed and the seventh control valve 81' is opened to allow the snake jog liquid in the third glass tank 8 to drip into the crucible-203 collection bottle 9. Then, the lead _201 liquid in the lead-201 collection bottle 7 is taken out and decayed, so that the lead 〇1 〇1 liquid decays into the 铊-201 liquid, and the radioactive isotope 铊_2〇1 is obtained by ion exchange. In summary, the separation device of the radioisotope 铊_2〇1 of the present invention can effectively improve various disadvantages of the conventional use, and can quickly separate the lead-201 liquid from the solid target of the _2 2 solid, and then the lead 〇 1 The liquid undergoes decay and ion exchange to obtain the radioactive isotope 铊_2〇1, thereby making the invention more progressive, more practical, more in line with the user's needs, and indeed meets the requirements of the invention patent application. Poor patent application. However, the above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto; therefore, the simple equivalent changes made according to the scope of the present invention and the contents of the description of the invention are Modifications shall remain within the scope of the patent of the present invention. 1320058 [Simplified description of the drawings] Fig. 1 is a schematic view showing the basic structure of the present invention. Fig. 2 is a schematic view showing the state of fabrication of the embodiment of the present invention. [Description of main component symbols] Dissolution tank 1 • Vacuum tank 2 First control valve 21: 丨 second control valve 22 Third control valve 23 First glass tank 3 Fourth control valve 31 Co-sinking tank 4 Three-way control 阙 41 Eight control valve 42 Second glass tank 5 Fifth control valve 51 Ion exchange column 6 Sixth control valve 61 Lead-201 collection bottle 7 Third glass tank 8 Seventh control valve 81 铊_201 Collection bottle 9

Claims (1)

1320058 Μ(ύ Patent application: A separation device for a radioactive isotope 铊-201, which comprises at least: a dissolution tank for disposing a target and dissolving it into a lead _2 solution and a 铊-203 solution; a vacuum chamber is respectively connected to a first control valve, a second control valve and a third control valve; a first glass slot, one side of the first glass slot is connected to a fourth control valve, and the other The first control valve is connected to the first control valve for sucking all the lead-201 solution and the cesium-203 solution from the dissolution tank by the first control valve of the first step; a co-sinking tank a three-way control valve is connected to receive the mixed solution that the first glass tank drops through the fourth control valve; a second glass tank, one side of the second glass tank is connected to a fifth control valve, and the other - the side is connected to the second control valve for drawing the vacuum tank from the co-sinking tank through the second control valve to draw all the lead-201 liquid therein; an ion exchange column, one side of the ion exchange column Is connected to the fifth control valve. The other side is tied to the first The control valve is connected; a second glass tank, one side of the third glass tank is connected to a seventh control valve and the other side is connected to the third control valve; a lead-201 collecting bottle is used to receive the ion The exchange pipe is dripped out of the pure ship _2〇1 liquid through the sixth control valve; and a 铊-203 collection bottle is used to receive the sputum of the third glass tank which is dripped by the seventh control valve through 1320058- 203 liquid. 2. The apparatus for separating a radioisotope 铊-201 according to claim 1, wherein the three-way control valve is connectable to an eighth control valve.