序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
1 | 中子束照射系统 | CN201180033730.6 | 2011-08-03 | CN103052425A | 2013-04-17 | 密本俊典 |
本发明提供一种向被照射体照射中子束的中子束照射系统,该系统具备:中子束产生部,被照射带电粒子束而产生中子束;容纳部,至少包括减速体,且容纳中子束产生部;中子束收敛部,使向被照射体照射的中子束收敛;载置台,载置被照射体;及相对移动机构,使载置台以相对于中子束产生部、容纳部及中子束收敛部靠近及分开的方式而相对移动。 | ||||||
2 | 一种防辐射靶心结构 | CN201710815587.5 | 2017-09-12 | CN107509300A | 2017-12-22 | 黄斌伟; 麦国文; 黄秋筠; 钟生; 单国威; 黄少鹏; 罗伟杭; 傅韬 |
本发明设计建筑施工技术领域,更具体的,涉及一种防辐射靶心结构,其特征在于,包括靶室、靶心基础和止水钢板,所述靶室位于靶心基础上方中心位置,所述止水钢板位于靶心基础内,所述止水钢板包括环形止水钢板,所述环形止水钢板的直径大于靶室的直径,所述靶室位于环形止水钢板上,且与环形止水钢板同心设置;所述止水钢板还包括水平止水钢板,所述水平止水钢板位于环形止水钢板下方,且与环形止水钢板下端密封连接。本发明提供的防辐射靶心结构有效避免通缝造成辐射贯通泄漏;很好的解决了一次性浇筑施工通缝造成辐射贯穿泄漏的问题。 | ||||||
3 | IRRADIATING SYSTEM INCLUDING A TARGET-HOLDER MOUNTING IN A RADIATION-PROTECTION ENCLOSURE AND A DEVICE FOR DEFLECTING AN IRRADIATION BEAM | US15557141 | 2016-03-24 | US20180047475A1 | 2018-02-15 | Nicolas MASSE; Nancy TANNOURY; Alain PEREZ DELAUME |
Disclosed is a system for irradiating a target, including a particle accelerator configured to at least emit an irradiation beam according to an axis, a target-holder mounting outside the accelerator, including at least one port configured to receive a target holder for a target to be irradiated, and a radiation-protection enclosure surrounding the target-holder mounting. The particle accelerator is positioned outside the enclosure. The target-holder mounting is stationary relative to the particle accelerator. The port is offset relative to the axis of the irradiation beam and the system includes a deflection device, positioned in the radiation-protection enclosure and configured to divert the irradiation beam towards the port of the target holder in which the target to be irradiated is inserted. | ||||||
4 | Neutron irradiation system | JP2010195835 | 2010-09-01 | JP5490651B2 | 2014-05-14 | 俊典 密本 |
5 | SYSTÈME D'IRRADIATION COMPORTANT UN SUPPORT DE CIBLERIES DANS UNE ENCEINTE DE RADIOPROTECTION ET UN DISPOSITIF DE DÉFLECTION DE FAISCEAU D'IRRADIATION | EP16718406.8 | 2016-03-24 | EP3274999A1 | 2018-01-31 | MASSE, Nicolas; TANNOURY, Nancy; PEREZ DELAUME, Alain |
The present application relates to a system for irradiating a target (1), including a particle accelerator (10) configured to at least emit an irradiation beam (11) according to an axis, a target-holder mounting (20) outside the accelerator, including at least one port (21) configured to receive a target holder (22) for a target to be irradiated, and a radiation-protection enclosure (30) surrounding the target-holder mounting (20). The particle accelerator (10) is positioned outside the enclosure (30). The target-holder mounting (20) is stationary relative to the particle accelerator (10). The port (21) is offset relative to the axis of the irradiation beam (11) and the system (1) includes a deflection device (40), positioned in the radiation-protection enclosure (30) and configured to divert the irradiation beam (11) towards the port (21) of the target holder (22) in which the target to be irradiated is inserted. | ||||||
6 | 放射線防護囲い内の標的ホルダー支持体及び照射ビーム偏向装置を含む照射システム | JP2017549453 | 2016-03-24 | JP2018513361A | 2018-05-24 | ニコラ マセ; ナンシー タンヌリー; アラン ペレ ドローム |
本出願は、1本の軸に沿って照射ビーム(11)を少なくとも発出するように構成された粒子加速器(10)と、照射すべき標的のための標的ホルダー(22)を収容するように構成された少なくとも1つのポート(21)を含む、加速器の外部の標的ホルダー台(20)と、標的ホルダー台を取り囲む放射線防護囲いと、を含む、標的照射システム(1)に関する。粒子加速器は、囲い(30)の外に位置付けされている。標的ホルダー台(20)は、粒子加速器(10)との関係において固定されている。ポート(21)は、照射ビーム(11)の軸との関係において偏心しており、システム(1)は、放射線防護囲い(30)内に位置付けされ、照射すべき標的が中に挿入される標的ホルダー(22)のポート(21)に向って照射ビーム(11)を曲げるように構成された偏向装置(40)を含んでいる。【選択図】図1 | ||||||
7 | Electron irradiation system | JP2010195835 | 2010-09-01 | JP2012050698A | 2012-03-15 | MITSUMOTO TOSHINORI |
PROBLEM TO BE SOLVED: To provide an electron irradiation system capable of raising operational efficiency.SOLUTION: The electron irradiation system 1 includes: a target T irradiated with a charged particle ray P to generate a neutron beam N; a storing part 102 including at least a moderator 108 and storing the target T; a converging part 104 for converging the neutron beam N with which a body to be irradiated is irradiated; and a treatment table 32 on which the body to be irradiated is placed. In addition, the electron irradiation system 1 includes: a rail 114; a sliding part 116; and a driving part 117 as relatively moving means for relatively moving the treatment table 32 so as to approach and separate from the target T, the storing part 102 and the converging part 104. Therefore, for example, even immediate after irradiation with the neutron beam N, by separating the treatment table 32 against radio-activated target T, storing part 102 and converging part 104, a doctor and the like can approach the treatment table 32 without receiving bad influences of radio-activation. | ||||||
8 | NEUTRON BEAM IRRADIATION SYSTEM | EP11821510 | 2011-08-03 | EP2612692A4 | 2016-05-04 | MITSUMOTO TOSHINORI |
A neutron beam irradiation system that irradiates an irradiated body with a neutron beam includes: a neutron beam generating section that is irradiated with a charged particle beam, thereby generating a neutron beam; an accommodation section that includes at least a moderator and accommodates the neutron beam generating section; a neutron beam converging section that converges the neutron beam which is irradiated to the irradiated body; a placement table on which the irradiated body is placed; and relative movement means that relatively moves the placement table so as to approach and be separated from the neutron beam generating section, the accommodation section, and the neutron beam converging section. | ||||||
9 | NEUTRON BEAM IRRADIATION SYSTEM | EP11821510.2 | 2011-08-03 | EP2612692A1 | 2013-07-10 | MITSUMOTO Toshinori |
A neutron beam irradiation system that irradiates an irradiated body with a neutron beam includes: a neutron beam generating section that is irradiated with a charged particle beam, thereby generating a neutron beam; an accommodation section that includes at least a moderator and accommodates the neutron beam generating section; a neutron beam converging section that converges the neutron beam which is irradiated to the irradiated body; a placement table on which the irradiated body is placed; and relative movement means that relatively moves the placement table so as to approach and be separated from the neutron beam generating section, the accommodation section, and the neutron beam converging section. |