JPS585360Y2 - x-ray tube container - Google Patents

Description

【考案の詳細な説明】 現状Ｘ線管装置は透視台の移動を簡易にするため軽量化
を指向し、Ｘ線管容器の外筒部は従来のアルミニューム
合金鋳物に代り薄肉のアルミ合金板材を使用する方向を
考慮せねばならない。[Detailed explanation of the invention] Currently, X-ray tube devices are aimed at being lightweight in order to simplify the movement of the fluoroscopy table, and the outer cylinder of the X-ray tube container is made of thin aluminum alloy plate material instead of the conventional aluminum alloy casting. The direction of use must be considered.

又取付機構の一部である支持金具取付用環状体も従前の
アルミ合金鋳物を改良し軽量化ならびに加工費の低減に
併せて、強度のある安全なものを考えねばならない状況
にある。In addition, the annular body for attaching the support metal fitting, which is part of the attachment mechanism, must be improved from the conventional aluminum alloy casting to reduce weight and processing costs, as well as to create a strong and safe one.

この考案はＸ線放射窓をもつ中央部外筒・陽極部外筒お
よび陰極部外筒の３者で構成される容器と、前記陽極部
外筒ならびに前記陰極部外筒を前記中央部外筒の両端に
それぞれ結合する結合部材と、この結合部材の外周部に
係合し、それを回転可能に保持する環状部材とよりなり
、前記環状部材をＸ線管支持金具に取付けたことを特徴
とするＸ線管容器にかかるものである。This invention consists of a container consisting of three parts: a central outer cylinder having an X-ray emission window, an anode outer cylinder, and a cathode outer cylinder, and an anode outer cylinder and a cathode outer cylinder. and an annular member that engages with and rotatably holds the outer periphery of the coupling member, and the annular member is attached to an X-ray tube support fitting. This applies to the X-ray tube container.

ことを特徴とするＸ線管容器に関するものである。The present invention relates to an X-ray tube container characterized by the following.

第１図は在来のＸ線管容器の外形図で、又第２図はその
環状部材の側面図である。FIG. 1 is an external view of a conventional X-ray tube container, and FIG. 2 is a side view of its annular member.

図中、１は筒体でＸ線管を収納内蔵するための容器の主
要部で通常アルミニウム合金鋳物で一体形状に形作られ
る。In the figure, reference numeral 1 denotes a cylindrical body, which is the main part of a container for housing an X-ray tube, and is usually formed into an integral shape by casting an aluminum alloy.

２は半割形の環状体で３は締付ネジである。環状体は折
半されているので図のように一方から他方に締付ネジで
結合し、筒体を２個所で繁締する。2 is a half-shaped annular body, and 3 is a tightening screw. Since the annular body is split in half, connect one side to the other using tightening screws as shown in the figure, and tighten the cylindrical body in two places.

４は取付ネジでＸ線放射窓１１′の指向方向を支持金具
に対して回転させるために筒体を適当な角度だけ回転し
た上で固定するものである。Numeral 4 is a mounting screw that rotates the cylindrical body by an appropriate angle in order to rotate the orientation direction of the X-ray emission window 11' with respect to the support metal fitting, and then fixes the cylinder body.

５は支持金具で両側の環状体２と固定されて、両者１体
となって取付機構を構成している。Reference numeral 5 is fixed to the annular body 2 on both sides by supporting metal fittings, and the two together constitute a mounting mechanism.

この在来品の欠点は先ず筒体１が鋳物のため贅肉がつき
強度が比較的低い割に大形となり重量が付き過ぎること
と、後加工にかなり手数がかかることにある。The disadvantages of this conventional product are that the cylindrical body 1 is cast, so it is bulky and has relatively low strength, but is large and heavy, and that post-processing is quite time-consuming.

又環状体は半割形の鋳物製でネジによって接続して環状
としているため、形状が大形となり、重量が大きくなる
こと、またネジ部分で断面積が小さくなり、繰返し応力
による材料疲労のため折損を起すこと、更に製作面にお
いて半割形のため加工手数がかかる上、塗装工程の加熱
処理により歪を生じ、真円度が出にくいので筒体との間
で円滑な回転動作をさせることが困難な点がある。In addition, the annular body is made of half-split cast metal and connected by screws to form an annular shape, resulting in a large shape and weight.Also, the cross-sectional area of the threaded portion is small, which may cause material fatigue due to repeated stress. In addition, since it is a half-split shape, it takes a lot of processing time, and the heat treatment during the painting process causes distortion, making it difficult to achieve roundness, so it is necessary to ensure smooth rotation between the cylinder and the cylinder. There are some difficulties.

この考案は以上の在来品の欠点を改善しようとしたもの
で、以下実施例について説明する。This invention is an attempt to improve the above-mentioned drawbacks of conventional products, and examples thereof will be described below.

なおこれら実施例においてはいずれも筒体を三分割し、
それらを結合部材を介してアルミハンダで接合し一体化
する方法をとっている。In each of these examples, the cylindrical body is divided into three parts,
The method is to integrate them by joining them with aluminum solder via a connecting member.

第３図及び第４図は実施例の第１のＸ線管容器の構造説
明図である。3 and 4 are structural explanatory diagrams of the first X-ray tube container of the embodiment.

図で１１は中央部外筒で中央部にＸ線放射窓１１′をも
つ。In the figure, reference numeral 11 denotes a central outer cylinder having an X-ray emission window 11' in the central part.

１２は陽極外筒、１３は陰極外筒である。12 is an anode outer cylinder, and 13 is a cathode outer cylinder.

また８はソケット部外筒で陽極外筒１２、陰極外筒１３
に接合溶接されている。8 is a socket outer cylinder, an anode outer cylinder 12 and a cathode outer cylinder 13.
are welded together.

以上の各外筒部はすべてアルミニューム合金板材料を用
いている。All of the above outer cylinder parts are made of aluminum alloy plate material.

６は結合部材で中央、陽極、陰極部外筒を挿入しアルミ
ハンダで接合する。6 is a connecting member into which the central, anode, and cathode outer cylinders are inserted and joined with aluminum solder.

２は環状体で内径部は段付に加工され結合部材６の外径
部に挿入して円滑に回動可能な程変に隙間を持たせて真
円に仕上げられている。Reference numeral 2 is an annular body whose inner diameter is stepped and finished into a perfect circle with a sufficient gap to allow smooth rotation when inserted into the outer diameter of the coupling member 6.

４は取付はネジである。4 is installed with screws.

５は支持金具で中央部に円筒状の把持部が一体に取付け
られており、又環状体２とネジ７によって結合される。Reference numeral 5 denotes a support metal fitting, which has a cylindrical grip part integrally attached to the center thereof, and is connected to the annular body 2 by screws 7.

なお９は鉛シールドで中央部外筒と陰極外筒の内面に施
こされる。Note that 9 is a lead shield, which is applied to the inner surface of the central outer cylinder and the cathode outer cylinder.

この第１のＸ線管容器の組立構成の順序は中央部外筒１
１の両端に結合部材をそれぞれ接合し、ついで環状体２
を左、右両側より各々嵌込み、次にあらかじめソケット
部外筒８をそれぞれ接合済の陽極外筒１２と陰極外筒１
３を結合部材６に接合することによって筒体を完成する
。The order of assembly of this first X-ray tube container is as follows:
Connecting members are respectively joined to both ends of the annular body 2.
from the left and right sides respectively, and then insert the anode outer cylinder 12 and the cathode outer cylinder 1 to which the socket outer cylinder 8 has been joined in advance, respectively.
3 to the connecting member 6 to complete the cylindrical body.

その後、鉛シールド９を内装し、Ｘ線管を封入した後、
絶縁油を充填し、最後に支持金具５を環状体２に橋架け
するようにネジ止固定し、取付はネジ４を取付ける。After that, after installing the lead shield 9 and enclosing the X-ray tube,
After filling with insulating oil, the support fitting 5 is fixed with screws so as to bridge the annular body 2, and the screws 4 are attached.

第４図は取付機構の結合部分の断面図である。FIG. 4 is a sectional view of the connecting portion of the attachment mechanism.

取付はネジ４を緩めて、結合部材６の外周部で回転摺動
させ所要位置でネジを締める。For installation, loosen the screw 4, rotate and slide it around the outer periphery of the coupling member 6, and tighten the screw at the required position.

つぎに第５図は第２の実施例のＸ線管容器の構造説明図
である。Next, FIG. 5 is a structural explanatory diagram of the X-ray tube container of the second embodiment.

図中使用した番号は第３図をそのまま使用する。The numbers used in the figure are the same as in Figure 3.

この実施例ではソケット部外筒８の接合を後回しにして
、先に中央部外筒１１に結合部材６を介して陽極外筒１
２と陰極外筒１３を接合して了った後、環状体２を左、
右の結合部材６に挿入しておき、その後ソケット部外筒
８をそれぞれ陽極外筒１２と陰極外筒１３に接合し、最
後に支持金具５をネジ７によって左、右の環状体２に結
合したものである。In this embodiment, the socket outer cylinder 8 is joined later, and the anode outer cylinder 1 is first connected to the central outer cylinder 11 via the coupling member 6.
2 and the cathode outer cylinder 13, place the annular body 2 on the left side,
Insert it into the right coupling member 6, then connect the socket outer cylinder 8 to the anode outer cylinder 12 and the cathode outer cylinder 13, respectively, and finally connect the support fitting 5 to the left and right annular bodies 2 with screws 7. This is what I did.

ついで第６図は第３図の実施例のＸ線管容器の構造説明
図であるが、図中使用した番号は前同様第３図のものを
使用する。Next, FIG. 6 is a structural explanatory diagram of the X-ray tube container of the embodiment shown in FIG. 3, and the numbers used in the figure are the same as those in FIG. 3 as before.

この実施例においてはあらかじめ片方の環状体２′のみ
支持金具５の一端に溶接して一体にしておき、図のよう
に結合部材６に挿入してから中央部外筒１１、他方の結
合部材６をアルミハンダ接により接合する。In this embodiment, only one annular body 2' is welded to one end of the support metal fitting 5 in advance and integrated, and after inserting it into the connecting member 6 as shown in the figure, the central outer cylinder 11 and the other connecting member 6 are inserted. are joined by aluminum soldering.

その後陽極外筒１２、陰極外筒１３を結合部材６にそれ
ぞれ接合すれば筒体は完成する。Thereafter, the anode outer cylinder 12 and the cathode outer cylinder 13 are respectively joined to the coupling member 6 to complete the cylinder.

この場合ソケット外筒８は、陽極、陰極外筒にあらかじ
め溶接接合しておいてもよいし、後で接合してもよい。In this case, the socket outer cylinder 8 may be welded to the anode and cathode outer cylinders in advance, or may be joined later.

この後引続いてネジ７により支持金具５と環状体２を結
合すれば容器は完成するわけである。After this, the support fitting 5 and the annular body 2 are connected with the screws 7 to complete the container.

最後に第７図は第４の実施例のＸ線管容器の構造説明図
である。Finally, FIG. 7 is a structural explanatory diagram of the X-ray tube container of the fourth embodiment.

この実施例では既述した実施例３つの中の支持金具５を
中心線で左、右に二分割しそれぞれの部分５′および５
“を図のように左、右の環状体２と溶接接合して予め準
備しておく。In this embodiment, the support fitting 5 of the three embodiments described above is divided into two parts 5' and 5 on the left and right sides along the center line.
Prepare in advance by welding and joining the left and right annular bodies 2 as shown in the figure.

中央外筒１１に支持接手６を左、右より接合し、上に準
備した支持金具５′と環状体２の接合部品および支持金
具５“と環状体２の接合部品（（図のように挿入してア
ルミハンダ付して接合する。The support joint 6 is joined to the central outer cylinder 11 from the left and right, and the joint parts of the support metal fitting 5' and the annular body 2 prepared above and the joint parts of the support metal fitting 5'' and the annular body 2 ((inserted as shown in the figure) Then solder the aluminum to join.

この後陽極外筒１２および陰極外筒１３を結合部材６を
介して接合する。Thereafter, the anode outer cylinder 12 and the cathode outer cylinder 13 are joined via the connecting member 6.

この場合、ソケット外筒８はあらかじめ陽極。陰極部外
筒に溶接しておいてもよいし、後で溶接してもよい。In this case, the socket outer cylinder 8 is an anode in advance. It may be welded to the cathode outer cylinder or may be welded later.

最後に１０のボルトによって支持金具５′、５“を結合
すれば取付機構を備えたＸ線管容器は組立が完了する。Finally, by connecting the support fittings 5' and 5'' with ten bolts, the assembly of the X-ray tube container equipped with the mounting mechanism is completed.

以上４つの実施例を示したが、いずれも重量の軽減が実
現でき、軽量化指向を図れることのほか、環状体は在来
のような半割形でない完全なリング形状のため、加工が
簡単となり、精度上も真円度が得易く力の不平衡による
破損のおそれなく、又外筒との相対運動が円滑となる。The above four examples have been shown, and in addition to being able to reduce weight and aim for weight reduction, the annular body has a complete ring shape instead of the conventional half-split shape, so it is easy to process. Therefore, it is easy to obtain roundness in terms of accuracy, there is no risk of damage due to unbalanced force, and relative movement with the outer cylinder is smooth.

以上を総合して軽量にしてしかも強変あり、操作も円滑
なものが在来品より廉価で提供できたものである。Taking all of the above into consideration, we were able to provide a product that is lightweight, durable, and easy to operate at a lower price than conventional products.

【図面の簡単な説明】[Brief explanation of the drawing]

第１図従来のＸ線管容器外形図、第２図従来のＸ線管容
器の取付機構側面図、第３図この考案の実施例第１のＸ
線管容器構造説明図、第４図実施例第１のＸ線管容器の
取付機構部断面図、第５図この考案の実施例第２のＸ線
管容器の構造説明図、第６図この考案の実施例第３のＸ
線管容器の構造説明図、第７図この考案の実施例第４の
Ｘ線管容器の構造説明図。 図中使用した各番号は次の部品を示す。 １：筒体、２ 、２’ ；環状体、３；締付ネジ、４；
取付ネジ、５；支持金具、６；結合部材、Ｔ；ネジ、８
；ソケット外筒、９；鉛シールド、１０；ボルト、１１
；中央部外筒、１１’；Ｘ線放射窓、１２；陽極部外筒
、１３；陰極部外筒。Fig. 1 External view of conventional X-ray tube container, Fig. 2 Side view of mounting mechanism of conventional X-ray tube container, Fig. 3 Embodiment of this invention.
Fig. 4 is a sectional view of the mounting mechanism of the first X-ray tube container according to the present invention; Fig. 6 is a structural illustration of the second X-ray tube container according to the invention; Embodiment of the invention Third X
FIG. 7 is an explanatory diagram of the structure of the X-ray tube container according to the fourth embodiment of the invention. Each number used in the figure indicates the following parts. 1: Cylindrical body, 2, 2'; Annular body, 3; Tightening screw, 4;
Mounting screw, 5; Support metal fitting, 6; Connecting member, T; Screw, 8
; Socket outer cylinder, 9; Lead shield, 10; Bolt, 11
; central outer cylinder; 11'; X-ray emission window; 12; anode outer cylinder; 13; cathode outer cylinder.

Claims (1)

【実用新案登録請求の範囲】[Scope of utility model registration request] Ｘ線放射窓１１′をもつ中央部外筒１１・陽極部外筒１
２および陰極部外筒１３の３者で構成される容器と、前
記陽極部外筒１２ならびに前記陰極部外筒１３を前記中
央部外筒１１の両端にそれぞれ結合する結合部材６と、
この結合部材６の外周部に係合し、それを回転可能に保
持する環状部材２とよりなり、前記環状部材２をＸ線管
支持金具５に取付けたことを特徴とするＸ線管容器。Central outer cylinder 11 and anode outer cylinder 1 with X-ray emission window 11'
2 and a cathode outer cylinder 13; a coupling member 6 that connects the anode outer cylinder 12 and the cathode outer cylinder 13 to both ends of the central outer cylinder 11;
An X-ray tube container comprising an annular member 2 that engages with the outer periphery of the coupling member 6 and rotatably holds it, the annular member 2 being attached to an X-ray tube support fitting 5.