US2881329A - X-ray cone - Google Patents

Description

April 7 1959 1 F. PEYSER l 2,881,329

x-RAY GONE 2 sheets-shee 1 Filed Jan. 26, 1956 L. F. PEYSER April 7, 195,9

X-RAYCONE 2 Sheets-sheet 2 Filed Jan. 26, 1956 WWA-w YIIIIIIIIIII IIA X-RAY CONE i Application January 26, 1956-Sel'al N0' 561400 A v- Claims. (Cl- 2505-105) 'lhis invention relates to improvements in X-ray cones, Vor devices for more sharply limiting the area exposed l toradiation whether for diagnostic or therapeutic purposes.

`Wright Patent No. l2,614,224'discloses an adjustable iris X-ray cone equipped with focusing attachment, and l the vpresent invention in one aspect thereof is an improve- #menton the device of this patent, one object being to synchronize the adjustment of upper and lower apertures af simple and reliable manner. 'A furtherobject is toimprove the mounting of the autdr'naticvswitch -mechanism associated with the pivoted bail' which carriesthefocusing or centering light.l-

A further object is to provide an improved cone having a rectangular` adjustable -aperture as `distinguished from a` substantially circular` aperture.

Still another/object lis to provide a cone in which cir- Unied. Se@ Par-m r2,881,329 n Patented 7, 1359 "ice v'upper and lower iris diaphragms in a synchronous manner with a single gear mechanism and to permit use of the same synchronizing and upper diaphragm operating mechanism with either iris diaphragms or rectangular diaphragms as before. The present invention makes provision for this type of operation.

A lower flange 10 in theelement 8 supports by means of bolts and studs 11, a loweriris diaphragm unit 12, which is also attached byconnections 13 to the station- -ary casing 4, so that turning of theshell 8 operates this lower diaphragm element synchronously with the;upper diaphragm element 5. The turning movement is accomplished by means ofaknob 15 carried in apinion 16 in mesh withgear teeth 17 formed on theupper plate 18 of" the lower iris diaphragm unit, which is secured to th'eshell 8. Asuitable scale 19 may be provided for reading the diaphragm settings.

f Abail 20 carrying a focusinglight 21 is mountedfor fmovement between the solid line-(out of operation) and cular aperture means and rectangular aperture means` "may befreadily interchanged.

"bnc )embodying the invention ina preferred form i 111 n'vv bedes'crib'edwith referen'ceto the accompanying drawing, and the features forming the invention will then be pointed out in the appended claims.

In the drawing:

Fig. 1 is a side elevation of the cone of the present invention;

Fig. 2 is a section on theline 2 2 of Fig. 1;

Fig. 3 is an enlarged section on theline 3 3 of Fig. 1;

Fig. 4 is an enlarged section on theline 4 4 of Fig. 3;

Fig. 5 is an enlarged section on the line 5 5 of Fig. 3;

Fig. 6 is a section similar to Fig. 2, but showing the unit adapted to rectangular aperture; and

Figs. 7 and 8 are sections on the respective lines 7 7 and 8 8 of Fig. 6.

Referring now tirst to Figs. 1-5, the cone comprises an upper casing structure 1 including aliange 2 for attachment to the X-ray machine and alower flange 3 to which thelower housing section 4 is secured. An upper iris diaphragm assembly 5 is secured to the casing 1 by means of screws 6, and the operating studs 7 for the leaves, typically six in this assembly, are received in slots formed in the upper part of arotatable air shell 8, so that the turning of thisshell 8 with relation to the casing 1 will contract and expand the aperture as desired. The structure of the leaves and the operation of this diaphragm may be subtantially the same as that disclosed in the prior Wright patent above referred to, or of any other convenient form, and will not be further described herein.

As is well known, the beam projected by an X-ray tube is not a simple conical beam emanating from a determined point but comprises substantial quantities of scattered radiation and particularly scattered and relatively soft radiation so that a single diaphragm or aperture can define the area of exposure only in a rather approximate way. Two or more diaphragms properly synchronized as to the adjustment of their apertures and ing ange or clip v26 on the lower casing or housing member. There is associated with the trunnion 23 a spring detent or catch means for yieldably holding the bail 20in either of the two` positions of Fig. l and also connection and switch means for thelight 21.

As best shown in Fig. 5, thetrunnion 23 has across bore 27 in which adetent arm 28 is mounted, the bore andsection 29 of the arm being correspondingly threaded so that the protrusion of thebar 28 from the axis of thetrunnion 23 may be regulated as desired.Member 28 cooperates with a spring presseddetent plate 30 which is urged toward thetrunnion 23 bysprings 31 and contains aconcentric surface 32 for engagement by theprojection 28 withnotches 33 to each side thereof. These notches are arranged apart for holding thebail 20 in either of the positions shown in Fig. 1 which are also 90 apart. Trunnion 23, as best shown in Fig. 4, also carries aknife switch blade 34 which cooperates with cooperating switch element 3S and establishes an electrical connection when thebail 20 is in the lowered or broken line position of Fig. l. This permits automatically switching on and oi the focusing light.

The same general housing and operating elements as just described with relation to theiris diaphragm unit 12 may be used with a rectangular adjustable aperture as shown in Figs. 7 and 8. In this case, there is substituted for theassembly 12, an assembly indicated generally by thereference character 12. This assembly includes a pair of cooperatingdiaphragm elements 50. Each of these elements may comprise an upper layer oflead 51 for opacity to the X-rays and a lower supportinglayer 52 of a different metal for mechanical strength. Anedge 53 of the lower layer is received in a groove formed in aguide member 54, secured to the dependinghousing element 4. There is associated with eachaperture plate 50 anoperating arm 55 of arcuate form, one end of which is pivotally attached tomember 54 by astud 56 and the other end of which is pivotally attached by stud orpin 57 to theupper plate 18 previously referred to and which element of the iris diaphragm assembly as well as all other upper elements may be retained. Intermediate its ends, thearm 55 has aslot 58 receiving apost 59 which is xed to theaperture plate 50. In consequence, as thegear wheel plate 18 is rotated, theVarms 55 are also rotated about theirpivotal attachments 56, but in opposite directions, and move theaperture plates 50 toward and away from each other so as to regulate the size of the rectangular aperture R, which is formed between theangular cut outs 60 of theplates 50. A true rectangular opening is thus provided, and one edge remains in fixed orientation and with its center fixed in any position of adjustment.Plates 50 may also be provided with upper guide members 61 andlower guide members 62 for abutting against the adjacent faces ofmember 54 and maintaining the plates in constant alignment during their adjusting movements.Rollers 63 may he provided to eliminate undue friction in this movement. It will be observed that the major part of the assembly for iris lower diaphragm and for rectangular aperture lower diaphragm may be identical and unchanged, which t`eaV ture is of considerableffadvantage in economy of manufacture and in permitting the alteration of the equipment to suit changing requirements by the user.

What is claimed is:

1. An attachment for X-ray machines comprising a casing having means for attachment to an X-ray machine in the path of the X-ray beam, upper and lower adjustable diaphragm assemblies in the said casing, operating mechanism for the said diaphragm assemblies comprising a rotatable shell carried within the casing, means connecting the said shell to both the upper and lower diaphragm assemblies, and externally operable means for rotatively adjusting the said shell.

2. An attachment for X-ray machines comprising a casing having means for attachment to an X-ray machine in the path of the X-ray beam, upper and lower adjustable diaphragm assemblies in the said casing, operating mechanism for the said diaphragm assemblies com-y prising a rotatable shell carried withinthe casing, means connecting the said shell to both the upper and lower diaphragm assemblies, and comprising for the lower diaphragm assembly an annular plate having peripheral gear teeth, and an externally operable pinion meshing with the said annular plate for rotatively adjusting the said shell.

3. An attachment according toclaim 2, in which the said casing has an inwardly facing lower ange, and comprising removable diaphragm assembly supports therein carrying the lower diaphragm assembly, whereby the said attachment is capacitated for use with different lower diaphragm assemblies.

4. An attachment according Vtoclaim 3, in which the diaphragm assembly comprises a pair of rectangularaperture plates relatively movable for forming an aperture of adjustable size, means formed in the said ksupports for guiding the said aperture plates for rectlinear movement, and means for moving the said plates con1- prising a pair of curved arms, each pivotally attached at one end to a said support and at the other to the said annular plate and having respectively pin and slot connections to the said aperture plates.

5. An attachment according toclaim 4, in which the said curved arms extend in slanted position upwardly from their attachments to the said supports to their attachments to the said plates, are positioned for overlapping each other at both ends and are curved concavely toward each other so as not to obstruct the rectangular aperture when in overlapped position.

References Cited in the le of this patent UNITED STATES yPATENTS 1,767,756 Hall June 24, H30 2,614,224 Wright Oct. 14, 1952 2,667,588 Oswald Jan. 26, 1954

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