JPH04114050U - shading device - Google Patents

Abstract

(57) [Summary] [Purpose] To provide a light shielding device that can reliably shield a photosensitive member from light without requiring strong clamping force. [Structure] Substrates 1 and 12 equipped with stimulable phosphor 11
and covers 10 and 13 attached to bases 1 and 12. A sponge rubber 21 is provided on one of the bases 1, 12 or the covers 10, 13 corresponding to the periphery of the stimulable phosphor 11, and a sponge rubber 21 is provided on either the covers 10, 13 or the bases 1, 12 opposite to the sponge rubber 21. The protrusion 22 provided on either side, the base 1, 12 and the cover 10, 1
3. A light shielding device having a connecting device consisting of a pressing tip 16 and a recess 17 that connects three to each other. When the covers 10, 13 and the bases 1, 12 are connected, the protrusions 22 are connected to the sponge rubber 21.
When pressed, the sponge rubber 21 is elastically deformed.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

The present invention is capable of exposing photosensitive materials such as photosensitive films, photosensitive plates, stimulable phosphors, etc. The present invention relates to a light shielding device that shields the light so that it does not occur.

0002

[Conventional technology]

The photosensitive member described above is widely used in X-ray photography and other fields. well-known feeling An optical film is a polymeric material coated with a photosensitive emulsion. What is a photosensitive plate? For example, a photosensitive emulsion is coated on a glass plate and then dried. Ru. A stimulable phosphor is also called a stimulable phosphor and has the following properties. It is a substance that has been prepared. In other words, when the stimulable phosphor is irradiated with radiation such as X-rays, , energy is accumulated as a latent image in the stimulable phosphor corresponding to the irradiated area. Furthermore, when the stimulable phosphor is irradiated with stimulated excitation light such as laser light, the latent image image is The energy becomes light and is emitted to the outside. Examples of such substances include, for example, BaF X: Fluorescent material represented by Eu (X is halogen) or JP-A-11392-1982 Various phosphors listed as visible or infrared stimulable phosphors in the publication It has been known.

0003 The following method is known as one of the X-ray imaging methods using the various photosensitive members mentioned above. It is. That is, the photosensitive member is covered with a cover equipped with a light shielding member such as black paper, and then The photosensitive member is stored in a light-shielded state. Then, when taking X-rays, put on the cover. The photosensitive member is irradiated with X-rays through the black paper while the photosensitive member is still attached, and an X-ray image is created on the photosensitive member. form. The photosensitive member that has formed an X-ray image must be kept in a dark box or other light-shielding atmosphere. The cover is removed and the X-ray image is read in that state. .

0004 Conventionally, in order to shield the photosensitive member from light, a fabric such as black felt was placed around the photosensitive member. A cover with fibrous inclusions and black paper etc. is placed on the entire surface of the black felt without any gaps. He was pushing me hard. In this case, it is quite strong to press the cover without any gaps. Tightening force is required, and strong fastening means consisting of leaf springs and bolts are usually used. It was used.

[0005]

[Problem that the idea aims to solve]

However, in the conventional light shielding device described above, the entire surface of black felt is Therefore, strong and large-scale fastening means must be attached. Naturally, the overall shape of the shading device becomes very large and the cost increases. There was a problem. The present invention was devised in view of the above-mentioned problems with conventional devices. Light shielding device that does not require strong tightening force when connecting the bar and photosensitive member The purpose is to provide a

[0006]

[Means to solve the problem]

In order to achieve the above object, the light shielding device according to the present invention uses a photosensitive member (stimulable fluorescent material). A substrate (phosphor base 12, dark box 1) equipped with It has a cover (phosphor cover 13, dark box cover 10) and faces the photosensitive member. A light shielding device that blocks light with a cover, and is compatible with the periphery of a photosensitive member. An elastic member (sponge rubber 21) provided on either the base or the cover and a protrusion (22) provided on either the cover or the base body facing the elastic member. and a connecting means (pressing tip 16, recess 17) for connecting the base body and the cover to each other. It is characterized by having the following. The connecting means is provided on either the base body or the cover and is elastically directed outward. A locking piece (ball 19) that is biased and a corresponding locking piece on the cover or base body. A locking recess (17) provided on either side and into which the locking piece fits. can be configured.

[0007]

[Effect]

The cover and the base body are connected to each other by a connecting means. At that time, the protrusion becomes an elastic part. The elastic member is pushed into the material and elastically deforms. The elastic member that has been elastically deformed is Fills the space between the bar and the base without any gaps, thereby allowing the photosensitive member installed on the base to is completely shielded from external light.

[0008]

【Example】

Figure 1 shows a phosphor unit and a phosphor reader using a light shielding device according to the present invention. An example of this is shown. In the figure, the phosphor reader R detects the stimulable phosphor (details will be described later). A dark box 1 as the first base to be equipped and various devices stored in the dark box 1 It is made up of. The equipment stored in the dark box 1 includes, for example, a phosphor A table 3 for placing the unit 2, a cover attaching/detaching device 4, and a reading device 5 can be mentioned. The table 3 is driven and guided by a table drive device 6. It is designed to allow reciprocating linear parallel movement in the direction of arrow A-A' along rod 7. .

[0009] A rectangular opening 8 is formed on the top surface of the dark box 1, and one side of the opening 8 A dark box cover 10 is provided along. This dark box cover 10 has hinges 9, 9 is installed on the top surface of the dark box 1, with a position covering the opening 8 and a position opening the opening 8. It can be opened and closed as shown by arrow B between the positions shown in the figure.

0010 As shown in FIG. 2, the phosphor unit 2 includes a phosphor base 1 as a second substrate. 2 and the accumulation of a rectangular and thin plate adhered to the front side of the phosphor base 12. A size that can cover the outer peripheral side of the fluorescent phosphor 11 and the phosphor base 12. phosphor cover 13. The phosphor cover 13 contains the stimulable phosphor 11. An opening 14 having approximately the same area as the area of the A piece of black paper 15 is adhered to the periphery of the opening of the phosphor cover 13. Four circumferential edges of the phosphor cover 13 (two of them 13a and 13 in the figure) b), a mounting press tip 16 is fixedly arranged. In addition, four peripheral sides of the phosphor base 12 (two of them 12a and 12a in the figure) 12b is shown), a cross section is provided at a position corresponding to each of the pressing tips 16 described above. A triangular recess 17 is provided. As shown in FIG. 3, each pressing tip 16 has a housing 18 and a The ball 19 provided at the inner tip of the housing 18 and the ball 19 are energized. It is constructed by a compression spring 20.

[0011] Further, around the stimulable phosphor 12, there is contact along the outer periphery of the phosphor base 12. An elastic member such as sponge rubber 21 is provided. And phosphor A protrusion with a triangular cross section is provided on the cover 13 at a position corresponding to the sponge rubber 21. 22 is provided in an annular shape.

0012 The operation of the phosphor reader R having the above configuration and the phosphor unit 2 will be explained below. Explain the handling. The phosphor unit 2 includes a phosphor base 12 to which a stimulable phosphor 11 is adhered. It is stored with a phosphor cover 13 to which a black paper 15 is adhered. When placing the phosphor cover 13 on the phosphor base 12, as shown by arrow C in FIG. In this case, the phosphor is transferred from the direction in which the stimulable phosphor 11 is adhered to the outside of the phosphor base 12. Attach the cover 13. During this installation, the ball 19 inside the pressing tip 16 (Fig. 3) First, the spring 20 (Fig. 3) is pushed into the housing 18 against the spring force. The phosphor cover 13 When pushed to a predetermined mounting position on the light body base 12, the pressing tip 16 moves to a position facing the recess 17 of the phosphor base 12. The pressing tip 16 When moved to that position, the phosphor bases 12a, 12b, etc. The ball 19 that had been pushed into the ring 18 is pushed into the recess 17 by the spring force of the spring 20. It moves inward and fits into the recess 17. As a result, the phosphor cover 13 is attached to the phosphor base. 12.

[0013] At this time, the projections 22 provided on the phosphor cover 13 are attached to the phosphor base as shown in FIG. It enters into the sponge rubber 21 provided around the periphery of the base 12, and the sponge rubber 21 is Deform elastically. The elastically deformed sponge rubber 21 is coated with fluorescent material over its entire area. The space between the bar 13 and the phosphor base 12 is completely filled without any gaps, thereby making the phosphor base The stimulable phosphor 11 bonded to the base 12 is completely shielded from external light.

[0014] When performing X-ray photography on the stimulable phosphor 11 in the phosphor unit 2, X-rays are irradiated onto a sample (not shown) that is a shadow target, and the X-rays diffracted or scattered by the sample are The stimulable phosphor 11 is irradiated with a line through the black paper 15. This allows the stimulable phosphor to An X-ray latent image is formed within 11.

[0015] The phosphor unit 2 containing the stimulable phosphor 11 that has an X-ray latent image is As shown by arrow D in FIG. 1, the dark box is inserted into the dark box 1 through the dark box opening 8. It is attached to the table 3 inside the box 1. Thereafter, the dark box cover 10 is closed as shown by arrow B. Details are not shown However, the dark box cover 10 has the press chip 16 provided on the phosphor cover 13 in FIG. Similar pressure chips are provided at appropriate locations, and the dark box cover around the opening 8 is -1 is provided with a recess similar to the recess 17 provided in the phosphor base 12 in FIG. Ru. Therefore, when the pressing tips and the recesses fit together, the dark box cover is closed. -10 is firmly connected to the dark box 1 with the dark box opening 8 covered.

[0016] In addition, sponge rubber 21 is glued around the dark box opening 8, and the corresponding An annular protrusion 22 having a triangular cross section is formed on the dark box cover 10 in the area where the dark box cover 10 is located. dark When the box cover 10 is connected to the dark box 1 as described above, the cover protrusion 22 is attached to the sponge rubber. 21 from its surface. This allows the The ponzi rubber 21 is elastically deformed and completely fills the space between the cover 10 and the dark box 1 without any gaps. As a result, the phosphor unit 2 and the stimulable phosphor 11 stored therein are The interior of the existing dark box 1 is completely shielded from external light.

[0017] The phosphor unit 2 is attached and the dark box cover 10 is closed. When the inside of the dark box 1 is shielded from external light, the cover attaching/detaching device 4 installed inside the dark box 1 When activated, the phosphor cover 13 of the phosphor unit 2 on the table 3 is attached to the phosphor base. automatically removed from 12. As is clear from the above explanation, the phosphor cover 13 and The phosphor base 12 is formed only by fitting the pressing tip 16 and the base recess 17. Since they are connected to each other, the phosphor cover 13 is attached to the phosphor base with a slightly strong force. 12, the phosphor cover 13 can be easily removed from the phosphor base 12. be able to.

[0018] When the phosphor cover 13 is removed, it is glued to the phosphor base 12 and exposed to X-rays. The stimulable phosphor 11 carrying a latent image is exposed to the outside in a dark box 1 shielded from light. Ru. In this state, the table drive device 6 operates to move the table 3 and the top thereof. The placed phosphor base 12 is moved in parallel in the direction of arrow A', and the reading device It is transported to the reading stage No. 5. The reading device 5 includes, for example, a laser light source, a laser beam scanning device, and a photomask. A light detection device such as a light detector is provided. stored in the reading stage of the reading device 5. When the multilayer phosphor 11 is set, the laser light generated by the laser light source is The scanning device works to scan the entire surface of the stimulable phosphor 11, and during this laser scanning, X-rays are emitted. The latent image becomes light and emanates to the outside. The divergent light is detected by a photodetector . Through the above operations, the X-ray information formed within the stimulable phosphor 11 is measured.

[0019] When the above reading process is completed, the X-ray latent image is erased and table 3 is The phosphor base 12 (FIG. 2) moves back in the A direction and returns to the position below the dark box opening 8. It will be returned. Next, the phosphor cover 13 is reattached to the phosphor by the cover attaching/detaching device 4. It is placed over the base 12. After that, the dark box cover 10 is opened and the dark box opening 8 is opened. Then, the phosphor unit 2 is taken out of the dark box 1 by the person performing the measurement. fluorescence Post-processing of the body unit 2, for example, removing the X-ray latent image remaining in the stimulable phosphor 11 For erasing processing, etc., after taking unit 2 outside, store it in a different location other than dark box 1. You can also execute it.

[0020] The above is an example of the case where the present invention is implemented for the phosphor unit 2 and the dark box 1. Although described, the present invention is not limited to these embodiments. For example, the present invention is applicable not only to phosphor units and dark boxes, but also to devices where it is difficult for light to enter. Applicable to all. As a photosensitive member, in addition to the stimulable phosphor 11, a photosensitive film or a photosensitive dry plate may be used. Applicable. The elastic member has the property of being elastically deformed when pressed by the protrusion 22. Any other material other than sponge rubber 21 may be used as long as be able to. Further, the shape of the protrusion 22 may be any shape other than a triangular cross section, that is, a chevron shape. can do.

[0021]

[Effect of the idea]

According to the present invention, by pushing the protrusion into the elastic member, the elastic member is locally elasticized. The light shielding between the cover and the base body is completely achieved. Traditional Do not press the entire area of fibrous inclusions such as black felt. Therefore, strong tightening force is not required. Therefore, it is necessary to install a large-scale tightening device. There is no need to place it. According to the invention of claim 2, the cover and the base can be connected to each other by a simple and small structure. Can be linked. Moreover, complicated operations such as screw tightening are not required. Therefore, it is very suitable when you want to automatically attach and detach the cover and the base. Ru.

[Brief explanation of drawings]

FIG. 1 is a partially cutaway perspective view showing an example of a phosphor unit and a phosphor reader using a light shielding device according to the present invention.

FIG. 2 is a partially cutaway exploded perspective view of the phosphor unit.

FIG. 3 is a side sectional view of a press chip used in a phosphor unit.

FIG. 4 is a side sectional view showing a part of the phosphor unit.

[Explanation of symbols]

1 Dark box 10 Dark box cover 11 stimulable phosphor 12 phosphor base 13 Phosphor cover 16 Pressing tip 17 recess 19 ball 21 Sponge rubber 22 Protrusion

Claims (2)

[Scope of utility model registration request] Claim 1: A light shielding device comprising a base on which a photosensitive member is mounted and a cover attached to the base, the cover blocking light directed toward the photosensitive member, wherein a light shielding device is provided that corresponds to the periphery of the photosensitive member. an elastic member provided on either the base or the cover, a projection provided on either the cover or the base opposite the elastic member, and a connecting means for connecting the base and the cover to each other. A shading device featuring: 2. The connecting means includes a locking piece provided on either the base body or the cover and elastically biased outward, and a locking piece provided on either the cover or the base body corresponding to the locking piece. 2. The light shielding device according to claim 1, further comprising a locking recess provided on one of the sides and into which the locking piece fits.