DE10011877C2 - Collimator for computer tomographs - Google Patents

Description

The invention relates to a collimator for computer tomos graph, in which in two parallel side parts pages slots are provided for receiving collimator plates, the side slits on one outside the collimator X-ray source located are aligned.

Such a collimator is known from DE 197 50 935 A1 US 5 721 761 and US 5 099 134. There are packages mator plates in slots of two opposite one another parallel side parts added. For exact positioning tion of the collimator plates is also one of the two sides slotted positioning plate spanning parts, in which the collimator plates are inserted. - The her position of the positioning plate is due to the necessary pre tis incorporation of the slots complex. Furthermore, the Adjustment of the positioning plate is time-consuming and therefore expensive manoeuvrable.

It is additionally known from US Pat. No. 5,099,134, the pages parts to run as two half shells, the ge on each other is a collimator recording unit.

Furthermore, it is known from US Pat. No. 4,856,043, a collimator to build from two half shells, the collimator plates in are integral parts of the half-shells.

The object of the invention is to make it as simple and easy as possible Specify inexpensive collimator.

This object is solved by the features of claim 1. Appropriate configurations result from the features of claims 2 to 13.  

According to the invention it is provided that the pages parts part of a formed from two half-shells are receiving device, at least one upper or one lower half-shell two opposing upper or has lower side parts, and at least the upper or the lower half shell is the upper or lower one Tent parts connecting cover or base plate. - One such a recording device enables a simplified and thus inexpensive manufacture of a collimator. It ent falls in particular the need for provision and the Adjustment of a separate positioning plate. The collima goal sheets can be easily and safely in the two half-board len formed recording device are held.

Advantageous embodiments of the invention are as follows based on the embodiment shown in the drawing explained in more detail. Show it:

Fig. 1 is a schematic representation of a graph Computertomo,

Fig. 2 cup is a perspective view of an upper half,

Fig. 3 is a perspective view of a cup lower half,

Fig. 4 is a perspective view of the partially assembled lower half-shell,

Fig. 5 is a perspective view of a collimator,

Fig. 6 is a perspective cross-sectional view of FIG. 5, and

Fig. 7 is a perspective view of a Fotodiodenele element.

In Fig. 1, an X-ray source 1 forms a measuring arrangement with a detector 2. The detector 2 consists of a plurality of detector elements 3 arranged side by side, each of which is preceded by a collimator 4 in the beam path. The collimator 4 is firmly connected to the detector element 3 . The detector 2 is firmly connected to the X-ray source 1 via a rotating frame, not shown here. 5 is a couch on which a patient 6 is located. A fan-shaped X-ray beam 7 emitted by the X-ray source 1 radiates through a disk-shaped volume of the patient 6 , the X-ray source 1 and the detector 2 being rotated about an axis of rotation 8 . The X-ray intensity detected by the detector elements 3 at different angles of incidence is first stored in a computer 9 and then converted into image information. The image information can be made visible on a monitor 10 .

In FIGS. 2-6, a collimator 4 is shown in various perspective views on. Several such Kollimato ren 4 can be used to build the detector 2 shown in Fig. 1 in side by side.

The collimator 4 is formed from an upper 11 and a lower half shell 12 . The upper half-shell 11 has two mutually opposite upper side parts 13 a, 13 b, which are connected to one another by means of a cover plate 14 . First slots 15 are provided parallel to the longitudinal extent of the cover plate 14 .

In the lower half-shell 12 shown in FIG. 3, a base plate 16, with second slots 17 provided parallel to its longitudinal extent, connects two opposite lower side parts 18 a and 18 b. As can be seen in particular from FIG. 4, the first 15 and second slots 17 provided in the cover plate 14 and in the base plate 16 serve for inserting collimator plates 19 . At the upper 13a, 13b and the lower side parts 18 a, 18 b in a mutually opposite arrangement, a plurality of side by side arranged lower projections 20 and upper projections 21 are provided. Between the lower 20 and the upper projections 21 , lower side slots 22 and upper side slots 23 are formed. Both the lower protrusions 20 and the upper projections 21 have chamfers 24 a, 24 b on which the collimator plates 19 the insertion tern erleich. The first 15 and second slits 17 as well as the lower 22 and the upper side slits 23 are designed such that the collimator plates 19 inserted therein point in the direction of the X-ray source 1 .

On the upper half-shell 11 pins 25 and on the lower half-shell 12 corresponding recesses 26 are seen easily. The pins 25 and the recesses 26 are used to fit the half-shells 11 , 12 together with a precise fit. Instead of the pin 25 other suitable means of fitting the half-shells 11 , 12 , z. B. grooves and tongues or the like. Provided.

On the upper half-shell 11 locking hooks 27 and corresponding Rastvor jumps 28 are also provided on the lower half-shell 12 . In the fully assembled To stand the locking hook 27 snap behind the locking projections 28 . This enables a particularly simple assembly of the Kol limator.

As can be seen in particular from FIGS. 4-6, the collimator plates 19 can have insertion tongues 31 formed on their opposite longitudinal sides parallel to the edges. In the assembled state, the insertion tongues 31 in particular pass through the second slots 17 . When the collimator is mounted on a sensor element 32 ( FIG. 7), the insertion tongues 31 penetrating through the base plate 16 engage in further slots 33 of the sensor element 32 which correspond thereto.

As can be seen from Fig. 6, on the lower half shell 12 on the underside facing away in the assembled state of the upper half shell 11 further pin 29 see easily. The further pins 29 correspond to further recesses 30 , which are provided on the sensor element 32 equipped with photo diodes. The further pins 29 and the corresponding further recesses 30 serve for a fitting or fitting of the collimator with the sensor element 32 .

The half-shells 11 , 12 are preferably made of injection molded plastic. Such manufacture is particularly inexpensive. At a the space for receiving the Kollimatorble surface 19 outside of the half-shells 11 facing away from 12 can be injection molded in one-piece design also spring tongues. They serve an automatic exact alignment of the collimator in a (not shown) detector housing.

To assemble the collimator, the collimator plates 19 are first inserted into the second slots 17 and the lower side slots 22. Then the upper 11 is placed on the lower half-shell 12 . The Kolli matorbleche 19 adjust automatically by the bevels provided on the upper projections 21 21 bevels 24 b. The insertion tongues 31 provided on the collimator sheets 19 pass through the first slots 15 provided on the cover plate 14 . In the fully assembled state, the upper half-shell 11 snaps with the lower half-shell 12 by means of the locking hook 27 or the locking projections 28th The collimator plates 19 are then fixed to the half-shells 11 , 12 by means of a tough elastic adhesive. The collimator is finally placed on the sensor element 32 . The fitting together of the collimator with the sensor element 32 is supported by the further pins 29 or further recesses 30 . To further support the fitting together, a web 34 is also molded onto the lower half-shell, which engages in one of the further slots 33 when being joined. The collimator is also fixed on the sensor element 32 by means of a tough-elastic curing adhesive.

To build a detector 2 for computer tomographs, several of the sensor devices formed from the above-described collimator and a sensor element 32 can be arranged side by side in a detector housing (not shown here). Spring tongues molded onto the outside of the collimator make it easier. (not shown here) the correct positioning in the detector housing.

Claims (13)

1. Collimator for computer tomographs, in which side slots ( 22 , 23 ) are provided in two parallel side parts ( 13 a, 13 b, 18 a, 18 b) for receiving collimator plates ( 19 ), the side slots ( 22 , 23 ) on an outside of the Kol limators ( 4 ) located X-ray source ( 1 ) are aligned, the side parts ( 13 a, 13 b, 18 a, 18 b) are components of a recording device formed from two half-shells ( 11 , 12 ), at least one Upper half-shell ( 11 ) or a lower half-shell ( 12 ) has two opposite upper and lower side parts ( 13 a, 13 b and 18 a, 18 b), and at least the upper half-shell ( 11 ) or the lower half-shell ( 12 ) has a cover plate ( 14 ) or base plate ( 16 ) connecting the upper or lower side parts ( 13 a, 13 b or 18 a, 18 b). 2. Collimator according to claim 1, wherein in the base ( 12 ) and / or cover plate ( 14 ) first and second slots ( 15 , 17 ) are provided for inserting the collimator plates ( 19 ). 3. Collimator according to claim 1 or 2, wherein the on the upper ( 13 a, 13 b) and / or lower side parts ( 18 a, 18 b) provided side slots ( 22 , 23 ) by a plurality of side by side the arranged projections ( 20 , 21 ) are formed. 4. Collimator according to one of the preceding claims, wherein the projections ( 20 , 21 ) have bevels for introducing the Kol limatorbleche ( 19 ). 5. Collimator according to one of the preceding claims, wherein on the upper ( 11 ) and lower half-shell ( 12 ) corresponding means ( 25 , 26 ) for fitting the half-shells ( 11 , 12 ) are provided. 6. Collimator according to one of the preceding claims, wherein on the upper ( 11 ) and lower half-shell ( 12 ) means ( 27 , 28 ) for locking the half-shells ( 11 , 12 ) are provided in the assembled state. 7. Collimator according to one of the preceding claims, wherein on the lower half-shell ( 12 ) on the assembled to stand the upper half-shell ( 11 ) facing away from the underside white tere means ( 29 ) for fitting the lower half-shell ( 12 ) with a sensor device ( 32 ) are provided. 8. Collimator according to one of the preceding claims, wherein the half-shells ( 11 , 12 ) are each made in one piece from injection-molded plastic. 9. Collimator according to one of the preceding claims, spring tongues for aligning the collimator in a detector housing are provided on a space for receiving the collimator plates ( 19 ) from the outside of the half-shells ( 11 , 12 ). 10. Collimator according to one of the preceding claims, wherein the collimator plates ( 19 ) on erroneous opposite longitudinal sides have parallel-formed insertion tongues ( 31 ). 11. Collimator according to one of the preceding claims, wherein the insertion tongues ( 31 ) pass through the cover ( 14 ) and / or base plate ( 16 ) in the assembled state. 12. Collimator according to one of the preceding claims, wherein the collimator plates ( 19 ) on the half-shells ( 11 , 12 ) are fixed by means of a preferably tough-elastic curing adhesive. 13. Detector for computed tomography with a collimator according to one of the preceding claims.