JP6447437B2 - Shooting stand - Google Patents

Description

  The present invention relates to an imaging table, and more particularly to an imaging table that can be loaded with a radiographic imaging device.

  For the purpose of disease diagnosis and the like, radiographic images taken using radiation typified by X-ray images are widely used. Conventionally, such medical radiographic images have been taken using a screen film. In order to digitize radiographic images, CR (Computed Radiography) devices using stimulable phosphor sheets have been developed recently. Has developed a radiographic imaging device (Flat Panel Detector) in which a plurality of radiation detection elements are arranged in a two-dimensional array, and the irradiated radiation is detected by the plurality of radiation detection elements and read as digital image data. .

 A radiographic imaging apparatus has been developed as a so-called dedicated machine that is integrally formed with a support stand or the like, but in recent years, a plurality of radiation detection elements arranged in a two-dimensional manner as described above are included in a casing. A portable (also referred to as a cassette type) radiographic imaging apparatus that is housed and transported has been developed and put into practical use (see, for example, Patent Document 1). Various imaging stands on which such portable radiographic imaging devices (hereinafter simply referred to as radiographic imaging devices) are loaded have been developed (see, for example, Patent Document 2).

  On the other hand, when the radiographic imaging device is mounted on the imaging stand and performs imaging, a cable is attached to the radiographic imaging device via a connector, and image data is transmitted from the radiographic imaging device to an external device via a cable. And the like, or exchange signals with an external device, or receive power from the external device (see Patent Document 3).

  In this case, for example, as shown in FIG. 14A, a connector having a plurality of pins p connected to wiring inside the housing f of the radiographic imaging apparatus F at the corners of the radiographic imaging apparatus F or the like. As shown in FIG. 14B, the radiographic imaging apparatus F is imaged by connecting the connector Bc provided on the imaging stand (not shown) to the connector Cf of the radiographic imaging apparatus F, as shown in FIG. Load the table.

  In this state, the radiographic imaging device F and an external device (not shown) are connected in a wired manner via the cable Ca via the connector portion Cf of the radiographic imaging device F and the connector Cb on the imaging stand side. Data and signals are transmitted / received via Ca or the like, or power is supplied to the radiographic imaging apparatus F from an external apparatus.

  Further, a magnet (not shown) is provided on the connector Cb on the imaging table side, and a metal plate mp (see FIG. 14A) is provided at a position corresponding to the magnet of the connector Cb in the connector portion Cf of the radiographic imaging device F. The magnet of the connector Cb on the imaging stand side may be configured to be magnetically attached to the metal plate mp of the connector portion Cf of the radiographic imaging apparatus F when the connectors are connected. And by comprising in this way, it becomes possible to connect reliably the connector part Cf of the radiographic imaging apparatus F, and the connector Cb by the imaging stand side.

JP-A-6-342099 JP 2000-37382 A JP 2012-110542 A

  By the way, when the connector part Cf of the radiographic imaging device F and the connector Cb of the imaging base are magnetized at the time of connection as described above, the radiographic imaging device F is compared with the case where the connectors are not magnetized. When the connection between the connectors is released for removal from the imaging table, the connector portion Cf of the radiographic imaging device F and the connector Cb of the imaging table are difficult to separate.

  That is, when removing the radiographic imaging apparatus F from the imaging platform, a force is applied to the radiographic imaging apparatus F and the connector Cb in a direction perpendicular to their connection surfaces as shown by arrows in FIG. However, they cannot be separated unless a relatively strong force is applied.

  As described above, when the connector Cf of the radiographic imaging device F and the connector Cb of the imaging stand are magnetically attached, the connector Cf and the connector Cb are surely connected to each other. There is a problem that it becomes difficult to remove the radiographic image capturing apparatus F from the imaging stand.

  The present invention has been made in view of the above points, and when removing the radiographic imaging apparatus from the imaging table, the connection between the connector portion of the radiographic imaging apparatus and the connector of the imaging table is accurately and easily released. An object of the present invention is to provide a photographing stand that can be used.

In order to solve the above-mentioned problem, the photographing stand of the present invention is
A plurality of radiation detection elements are two-dimensionally arranged in a housing, and is an imaging table including a cassette holder that can be loaded with a radiographic imaging device including a connector part,
The cassette holder is
A holder for holding the loaded radiographic imaging device;
A connector connectable to the connector portion of the radiographic imaging apparatus held by the holder;
With
The connector and the connector part are configured to be magnetically attached to each other when connected,
The connector is movable following the connector portion in a state of being magnetically attached to the moving connector portion when the radiographic imaging device is pulled out and removed from the cassette holder.
In addition, the movement of the connector is regulated so that the movement amount on one end side of the connector that moves following the movement is smaller than the movement amount on the other end side of the connector, so that the one end side of the connector is the other side. It is comprised so that it may space apart from the said connector part of the said radiographic imaging apparatus ahead of an end side.

  According to the imaging table of the present invention, when removing the radiographic imaging device from the imaging table, it is possible to accurately and easily release the connection between the connector unit of the radiographic imaging device and the connector of the imaging table. It becomes.

It is a perspective view which shows the external appearance of the imaging stand which concerns on this embodiment. It is a figure showing the state by which the drawer tray was pulled out from the cassette holder which concerns on this embodiment. (A) It is a figure explaining the position of the connector part provided in the radiographic imaging apparatus, (B) It is an enlarged view of a connector part. It is a figure showing the structure of the connector of the cassette holder of an imaging stand, (A) is a front view, (B) is a top view. It is a figure showing the structure of the connection part of the connector in the state by which the radiographic imaging apparatus was loaded in the holding part of the cassette holder, and the connector part of a radiographic imaging apparatus, (A) is a top view, (B) is a side view. It is. (A) It is a figure showing the state which the bending part and regulating member of the one end side of a holding member contact | abutted when removing a radiographic imaging apparatus, (B) One end side of a connector comes before the other end side of a connector It is a figure showing the state spaced apart from the connector part of a radiographic imaging apparatus. It is a top view showing the modification 1 of a connector or a holding member. It is a figure showing the modification 2 of a connector or a holding member, (A) is a top view, (B) is a side view. It is a figure showing the state which the connector protruded inside the holding part rather than the holder, when the radiographic imaging apparatus is not loaded in the cassette holder. It is a figure explaining that a connector can rock | fluctuate in the direction orthogonal to a slide base, (A) represents the case of the modification 2, (B) represents the case of this embodiment or the modification 1. (A) It is a figure showing the state which approached the connector to the radiographic imaging apparatus with which it loads, (B) It is a figure showing the state which the connector rock | fluctuated and was connected with the connector part of the radiographic imaging apparatus. It is a top view explaining the state with which the radiographic imaging device was loaded to the cassette holder of the imaging stand (A) vertically, and (B) loaded horizontally. (A) It is a figure showing the projection part provided in the slide base, and the latching member provided in the drawer tray, (B) The plane showing the state which the slide base opened and the projection part and the latching member engaged. FIG. (A) It is a figure showing an example of a structure of the connector part of the conventional radiographic imaging apparatus, (B) The direction perpendicular | vertical with respect to those connection surfaces of the connector and the connector part of the radiographic imaging apparatus which were magnetized It is a figure explaining the state which applies force to and pulls apart.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of an imaging stand according to the present invention will be described below with reference to the drawings.

  In the following description, the case where the photographing stand is a photographing stand for supine photography will be described, but the present invention is not limited to this case, and is also applicable to the case where the photographing stand is a photographing stand for standing photography. Is done.

[Basic configuration of the camera stand]
FIG. 1 is a perspective view showing a photographing stand according to the present embodiment. In the present embodiment, the photographing table 1 includes a base 2 fixed to a floor surface (not shown), a support 3 supported from below by the base 2, and a top plate 4 supported from below by the support 3. ing. Although not shown, the patient lies on the top 4. The support unit 3 can be moved up and down with the top plate 4 with respect to the base 2 by an elevator mechanism (not shown) (that is, the z direction in the drawing). The mechanism is movable in the horizontal direction (that is, the x direction and the y direction in the figure) with respect to the support portion 3.

  An accommodation space 5 for accommodating a cassette halter 10 into which a radiographic imaging device F (not shown) can be loaded is provided above the support 3 and directly below the top plate 4. 5, the position in the x direction (that is, the extending direction of the top plate 4) in the figure can be changed. In addition, in the accommodation space 5, it is also possible to comprise so that the position of the cassette holder 10 in the y direction in the figure can also be changed.

[Composition of cassette holder]
Next, the configuration of the cassette holder 10 of the photographing stand 1 according to the present embodiment will be described. In the following description, when describing each part of the cassette holder 10, the front side in the y direction in the figure when the cassette holder 10 is arranged as shown in FIG. 1 is referred to as “front side” and the like. The back side may be described as “back side” or the like.

  In the present embodiment, as shown in FIG. 2, a drawer tray 12 is pulled out from the cover portion 11 along the rail (not shown) in the cover portion 11 of the cassette holder 10 of the photographing stand 1 or the back side. It is arranged in a state where it can be pushed into the cover part 11 and stored in the cover part 11. A handle 13 is attached to the drawer tray 12 for a radiologist to hold when the drawer tray 12 is pulled out and stored.

  2 shows a state in which the drawer tray 12 is pulled out from the cover portion 11 of the cassette holder 10, and FIG. 1 shows a state in which the drawer tray 12 is stored in the cassette holder 10. . Further, in FIG. 2 and the following drawings, the description of the parts other than the cassette holder 10 of the photographing stand 1 is omitted.

  On the upper surface side of the drawer tray 12, a holding unit 20 including a holding tool 23 and the like for holding the loaded radiographic imaging device F is provided. The holding unit 20 mainly includes a rotation base 21, slide bases 22 and 22, a holding tool 23, and a connector 24. In FIG. 2 and the following drawings, the description of the cable 25 of the connector 24 (see FIGS. 4A, 4B, etc.) is omitted or omitted from the middle. Is arranged so as to extend into the cassette holder 10 by being drawn around the back side of the drawer tray 12 (that is, the lower side in the present embodiment).

  The rotation base 21 is formed in a substantially flat plate shape and is attached to the upper surface side of the drawer tray 12. In this embodiment, as will be described later, the rotation base 21 is rotatably attached to the drawer tray 12, and the entire holding unit 20 is rotated by rotating the rotation base 21 with respect to the drawer tray 12. This point will be explained later.

  In addition, two slide bases 22 and 22 are attached to the upper surface side of the rotary base 21, and can be opened and closed by moving in parallel and opposite to the rotary base 21, respectively. Will be described later. In the following description, the rotation base 21 is not rotated and the slide bases 22 and 22 are closed until the above points are described. Further, the stopper 32 shown in FIG. 2 will be described later.

  Each holder 23 is formed by bending the ends of the slide bases 22 and 22 upward, or attached to the ends of the slide bases 22 and 22, respectively. And each holder 23 is each side of the loaded radiographic imaging device F, for example, when a 14 × 17 inch radiographic imaging device F (not shown) is loaded on the upper surface side of the slide bases 22 and 22. The radiation image capturing device F is held so that the position of the radiation image capturing device F does not shift in the horizontal direction (that is, the x direction or the y direction).

  In the present embodiment, as described above, the rotation base 21 and the slide base 22 of the cassette holder 10 hold the back side of the loaded radiographic imaging device F when the radiographic imaging device F is loaded. Is configured to function as

  The connector 24 is a position on the further back side of the slide base 22 on the back side, and when the radiation image capturing apparatus F is loaded on the upper surface side of the slide bases 22, 22, the connector 24 of the housing f of the radiation image capturing apparatus F It is disposed at a position where it is connected to a connector portion Cf (see FIG. 3A) provided on the side surface.

  As shown in FIGS. 3A and 3B, in the present embodiment, the connector portion Cf of the radiographic image capturing apparatus F is provided at the corner of the radiographic image capturing apparatus F. Similarly to the connector portion Cf shown in FIG. 14A, a plurality of flat pins p connected to the wiring inside the housing f of the radiographic imaging apparatus F and the connector 24 on the cassette holder 10 side are provided. Further, a magnet 24c described later (see FIGS. 4A and 4B described later) and a metal plate mp magnetically attached are provided.

  Further, in this embodiment, when the connector portion Cf and the connector 24 on the cassette holder 10 side are connected to the connector portion Cf of the radiographic imaging apparatus F, positioning pins 24d (described later) provided on the connector 24 are described. (See FIGS. 4A and 4B) in which holes h are inserted. And in this embodiment, when comprised in this way, when the connector part Cf of the radiographic imaging apparatus F and the connector 24 by the side of the cassette holder 10 are automatically connected so that it may mention later, it is in the hole h. By inserting the positioning pin 24d, the positioning between the connector portion Cf and the connector 24 is automatically and accurately performed.

[About the connector configuration]
Next, the configuration of the connector 24 on the cassette holder 10 side will be described. In this embodiment, as shown in FIGS. 4A and 4B, the connector 24 has a configuration in which a predetermined number of pins 24b protrude from the support 24a, and on both sides of each pin 24b, Magnets 24c are respectively fixed to the support 24a.

  Each pin 24b of the connector 24 is in a state in which the tip portion protrudes outward from the magnet 24c. Further, each pin 24b is movable in the axial direction of each pin 24b with respect to the support 24a, and in addition, a protruding direction (that is, the front side in the drawing in FIG. In FIG. 4B, it is biased downward.

  In addition, positioning pins 24d are projected from the surface of the support 24a of the connector 24 where the pins 24b are provided. Then, when connecting the connector 24 and the connector part Cf of the radiographic imaging apparatus F, as described above, the positioning pin 24d is provided in the hole h (FIG. 3 (FIG. 3) provided in the connector part Cf of the radiographic imaging apparatus F. B), the relative positioning of the connector part Cf and the connector 24 of the radiographic imaging apparatus F can be automatically performed.

  In this embodiment, as shown in FIGS. 4A and 4B, the positioning pin 24d of the connector 24 is surely inserted into the hole h of the connector portion Cf of the radiographic apparatus F. Therefore, the corners are chamfered in a tapered shape. 4A and 4B, the support 24a of the connector 24 is connected with a cable 25 including a plurality of unillustrated conductors connected to the pins 24b of the connector 24. ing.

  In the present embodiment, since the connector 24 and the like are configured as described above, when the connector portion Cf of the radiographic imaging apparatus F and the connector 24 of the cassette holder 10 are connected, the positioning pins 24d of the connector 24 are The tip is inserted into the hole h of the connector part Cf of the radiographic imaging device F, and the tip of each pin 24b of the connector 24 comes into contact with each flat plate p of the connector part Cf of the radiographic imaging device F.

  When the connector part Cf and the connector 24 of the radiographic imaging apparatus F are further approached, the positioning pin 24d of the connector 24 is pushed into the hole h of the connector part Cf of the radiographic imaging apparatus F, and each of the connectors 24 The pin 24b comes into pressure contact with each pin p of the connector portion Cf of the radiographic imaging device F, and the magnet 24c of the connector 24 and the metal of the connector portion Cf of the radiographic imaging device F by the magnetic force of the magnet 24c. The plate mp is magnetically attached.

  Thus, when the connector part Cf of the radiographic imaging apparatus F and the connector 24 of the cassette holder 10 are connected, the relative positioning of the two is automatically and accurately performed by the positioning pin 24d. The pins 24b of the connector 24 and the pins p of the connector portion Cf of the radiographic imaging apparatus F can be reliably connected.

  It is also possible to provide a magnet on the connector part Cf side of the radiographic imaging apparatus F and a metal plate on the connector 24 side. Further, the connection between the connector part Cf of the radiographic imaging apparatus F and the connector 24 of the cassette holder 10 will be described later again.

[Configuration of connector holding member, etc.]
Next, the holding member 26 of the connector 24 according to this embodiment will be described. 5A and 5B show the connection between the connector 24 and the connector Cf of the radiographic imaging apparatus F in a state where the radiographic imaging apparatus F is loaded in the holding unit 20 of the cassette holder 10 according to the present embodiment. It is the top view and side view showing a part.

  In the present embodiment, the holding member 26 of the connector 24 is formed in a plate shape, and is screwed and fixed to the upper surface of the connector 24 with a screw 27. Further, the holding member 26 is formed in a state where two portions 26 a (hereinafter referred to as a bent portion 26 a) on the holding portion 20 side of the cassette holder 10 are bent downward. The portion of the connector 24 provided with a plurality of pins 24b (see FIGS. 4A and 4B) is between the two bent portions 26a and the holding portion 20 side of the cassette holder 10 (that is, the front side). It is in a state protruding. 5 and the following drawings (except for FIG. 9 described later), illustration of the plurality of pins 24b and the like of the connector 24 is omitted.

  On the other hand, the holder 20 of the cassette holder 10 is provided with the holder 23 as described above. However, as shown in FIGS. When the connector 24 is connected to the connector portion Cf of the radiographic imaging device F held by the head 23, the holders 23 are also provided at positions facing the two bent portions 26a of the holding member 26, respectively. ing. Hereinafter, this part of the holder 23 is referred to as a holder 23b.

  In the present embodiment, a rod-shaped guide member 28 protrudes from the two holders 23b on the rear side in the horizontal direction (the upper side in the drawing in FIG. 5A and the right side in the drawing in FIG. 5B). Yes. Each guide member 28 is inserted into a hole 26h provided in two bent portions 26a of the holding member 26 of the connector 24, and extends further to the far side of the bent portion 26a.

  A spring 29 is fitted in each guide member 28 on the back side of the bent portion 26a. The end of the front side of the spring 29 (the lower side in the drawing in FIG. 5A and the left side in the drawing in FIG. 5B) is fixed to the bent portion 26a. Is fixed to a spring stopper formed at the end of the guide member 28. Therefore, the connector 24 and the holding member 26 are urged by the springs 29 in the direction toward the holding portion 20 of the cassette holder 10 (that is, the front side).

  As shown in FIGS. 5A and 5B, when the radiographic imaging device F is loaded in the holding unit 20 of the cassette holder 10, the connector connected to the connector portion Cf of the radiographic imaging device F. 24 is pushed to the back side (that is, the direction away from the holding portion 20 of the cassette holder 10) in the direction opposite to the direction of urging by the springs 29, so that each spring 29 is contracted from its natural length. It is in the state.

  In the present embodiment, as described above, the connector 24 is formed so as to protrude from the two bent portions 26a of the holding member 26 to the holding portion 20 side of the cassette holder 10, so that FIG. As shown in A) and (B), in a state where the connector 24 is connected to the connector part Cf of the radiographic imaging device F loaded in the holding part 20, the bent parts 26a and the holding parts 20 of the holding member 26 are connected. A gap G is formed between each of the holders 23b.

  Since there are gaps G between the bent portions 26a of the holding member 26 and the holders 23b of the holders 20 in this way, for example, radiographic imaging in which a radiographer or the like is loaded in the cassette holder 10 When the apparatus F is removed from the cassette holder 10, the radiation imaging apparatus F is moved so as to be pulled out toward the front side (the lower side in the figure in FIG. 5A and the left side in the figure in FIG. 5B). The connector 24 and the holding member 26 that are magnetically attached to the connector portion Cf of the image capturing apparatus F move to the near side following the connector portion Cf while being connected to the moving connector portion Cf.

  In the present embodiment, the holding member 26 has the size W of the gap G formed between the bent portion 26a on the one end side of the holding member 26 (the left side in FIG. 5A in the drawing) and the holder 23b. The holding member 26 is a restricting member 30 for making the size smaller than the size W of the gap G formed between the bent portion 26a (the right side in FIG. 5A in FIG. 5A) and the holding tool 23b. Is provided between the bent portion 26a on one end side and the holder 23b.

  In the present embodiment, as shown in FIG. 5A, a metal washer fitted on the above-described guide member 28 is provided as the restricting member 30. However, the regulating member 30 is not limited to such a washer, and may be in any other form as long as it can adjust the size W of the gap G (that is, the amount of movement described later) as described above. For example, the restricting member 30 may be formed with a part of the guide member 28 itself having a large diameter.

[Action]
Next, the operation of the photographing stand 1 and the cassette holder 10 according to the present embodiment will be described. As described above, in this embodiment, the gap G formed between the bent portion 26a (the left side in FIG. 5A in FIG. 5A) on one end side of the holding member 26 and the holding tool 23b by the regulating member 30. The size W is made smaller than the size W of the gap G formed between the bent portion 26a on the other end side of the holding member 26 (the right side in FIG. 5A) and the holder 23b. The size W of the gap G is adjusted.

  As described above, when a radiographer or the like removes the radiographic imaging apparatus F loaded in the cassette holder 10 from the cassette holder 10, the radiographer or the like first shows the state shown in FIG. As shown in FIG. 2 (the illustration of the radiographic imaging device F is omitted), the drawer tray 12 is pulled out to the front side. Then, the front side of the radiation imaging apparatus F held by the holding unit 20 of the cassette holder 10 (the front side in FIG. 2, the lower side in FIG. 5A, the left side in FIG. 5B) Is lifted upward, and in this state, the radiographic imaging apparatus F is pulled to the near side.

  When the radiographic imaging device F is pulled to the near side, the connector 24 connected to the connector portion Cf of the radiographic imaging device F moves to the near side following the radiographic imaging device F together with the holding member 26. At this time, in this embodiment, as described above, the regulating member 30 is provided in the bent portion 26a portion on the one end side of the holding member 26, and the size W of the gap G in the bent portion 26a portion on the one end side is provided. However, it is smaller than the size W of the gap G in the bent portion 26a on the other end side.

  Therefore, as described above, when the connector 24 and the holding member 26 move following the movement of the radiographic imaging device F and the connector portion Cf, as shown in FIG. 6A, the one end side of the holding member 26 is bent. The restricting member 30 comes into contact with the portion 26a (the left side in FIG. 6A). Since the bent portion 26a on the one end side of the holding member 26 is restricted to the near side by the restricting member 30, the one end side of the connector 24 is prevented from further moving to the near side.

  However, the bent portion 26a (the right side in FIG. 6A) on the other end side of the holding member 26 can be further moved to the near side because the restriction member 30 is not provided. Therefore, when a radiographer or the like further pulls the radiographic image capturing apparatus F toward the front side, one end side of the connector 24 does not move toward the near side, but the other end side of the connector 24 follows the radiographic image capturing apparatus F and approaches the near side. 6B, one end side of the connector 24 is separated from the connector portion Cf of the radiographic imaging apparatus F before the other end side of the connector 24, as shown in FIG.

  In the present embodiment, as described above, since the restriction member 30 is provided only at the bent portion 26a on one end side among the bent portions 26a provided at the two positions of the holding member 26 fixed to the connector 24, the holding member The amount of movement of one end side of the holding member 26 (that is, the size W of the gap G formed between the bent portion 26a on one end side and the holder 23b) is the amount of movement of the holding member 26 on the other end side (that is, the other end side). Smaller than the size W) of the gap G formed between the bent portion 26a and the holder 23b.

  Therefore, when a radiographer or the like pulls out the radiographic imaging apparatus F from the cassette holder 10 and removes it, the connector 24 and the holding member 26 move to the near side following the connector portion Cf of the radiographic imaging apparatus F, and the holding member Even after one end side of the member 26 comes into contact with the restricting member 30 and the movement is restricted, the other end side of the holding member 26 can be moved further to the near side. Therefore, a radiographer or the like pulls the radiographic imaging device F further toward the front side, so that one end side of the connector 24 is taken before the other end side of the connector 24 as shown in FIG. 6B. It can be separated from the connector portion Cf of the device F.

  Then, since the movement of the other end side of the connector 24 is restricted by the holder 23b by the radiologist or the like pulling the radiographic imaging device F further from the state shown in FIG. The other end side of the radiographing device is also separated from the connector portion Cf of the radiographic imaging device F. Therefore, the connection between the connector part Cf of the radiographic imaging apparatus F and the connector 24 of the cassette holder 10 is released.

  In the present embodiment, in this way, the radiographer or the like accurately releases the connection between the connector part Cf of the radiographic image capturing apparatus F and the connector 24 of the cassette holder 10 only by pulling the radiographic image capturing apparatus F forward. It becomes possible to do.

  In addition, when the connection between the connector portion Cf of the radiographic imaging apparatus F and the connector 24 of the cassette holder 10 is released, as described above, since the restriction member 30 is provided in the present embodiment, one end of the connector 24 is provided. It is possible to automatically form a state in which the side is separated from the connector portion Cf of the radiographic imaging apparatus F before the other end side of the connector 24 (see FIG. 6B).

  Therefore, in the present embodiment, as shown in FIG. 6B, the connector Cb magnetically attached to the connector portion Cf of the radiographic imaging apparatus F is not pulled apart at a time as shown in FIG. Once the one end side of the connector 24 is separated from the connector part Cf of the radiographic image capturing apparatus F before the other end side of the connector 24, the other end side of the connector 24 is connected to the connector part of the radiographic image capturing apparatus F. Since it is in a state of being separated from Cf, the radiographic image is very easily compared with the case where the connection between the connector part Cf of the radiographic imaging apparatus F and the connector Cb of the radiographing base is released as shown in FIG. It is possible to release the connection between the connector portion Cf of the photographing apparatus F and the connector 24 of the photographing stand 1.

[effect]
As described above, according to the imaging stand 1 according to the present embodiment, when the radiographic imaging apparatus F is pulled out and removed from the cassette holder 10, the restriction member 30 causes the connector unit Cf of the moving radiographic imaging apparatus F to move to the connector portion Cf. The amount of movement W on one end side of the connector 24 that moves following the magnetized state (that is, the size W of the gap G; the same applies hereinafter) is smaller than the amount of movement W on the other end side of the connector 24. Since the movement of the connector 24 is restricted, one end side of the connector 24 is separated from the connector portion Cf of the radiographic imaging apparatus F before the other end side.

  Therefore, when a radiographer or the like removes the radiographic imaging apparatus F from the imaging table 1, the connection between the connector portion Cf of the radiographic imaging apparatus F and the connector 24 of the imaging table 1 can be accurately and easily released. It becomes.

[Modification 1 of connector and holding member]
In the above embodiment, as shown in FIG. 5A, when the radiographic imaging device F is loaded in the holding unit 20 of the cassette holder 10, the bent portions 26a and the holding tools 23b at both ends of the holding member 26 are used. Are formed in parallel with each other, and the restriction member 30 is provided in a portion of the bent portion 26a on one end side of the holding member 26, so that the bent portion 26a on one end side of the holding member 26 and the holding tool are provided. The size W (that is, the movement amount W) of the gap G formed between the holding member 26 and the holding member 26 is set to the size W of the gap G formed between the bent portion 26a and the holding tool 23b. The cassette holder 10 and the imaging stand 1 configured to be smaller than (that is, the movement amount W) have been described.

  However, instead of configuring the holding member 26 in this manner, for example, as shown in FIG. 7, the holding member 26 is held in a state where the radiographic imaging apparatus F is loaded in the holding unit 20 of the cassette holder 10 in advance. The size W1 (that is, the movement amount W1) of the gap G formed between the bent portion 26a on one end side of the member 26 and the holder 23b is between the bent portion 26a on the other end side of the holding member 26 and the holder 23b. It is also possible to form the gap G so as to be smaller than the size W2 of the gap G (that is, the movement amount W2).

  If comprised in this way, like the case of said embodiment (refer FIG. 6 (A), (B)), when removing the loaded radiographic imaging apparatus F from the cassette holder 10, a radiographic imaging apparatus When F is pulled out to the near side, one end side of the connector 24 can be separated from the connector portion Cf of the radiographic imaging apparatus F before the other end side of the connector 24. Therefore, when the radiographic imaging apparatus F is removed from the imaging table 1, the connection between the connector portion Cf of the radiographic imaging apparatus F and the connector 24 of the imaging table 1 can be accurately and easily released.

  Further, unlike the above-described embodiment, it is possible to obtain the above-described effect without changing the shape of the holding member 26 without using the regulating member 30. That is, the first modification has an advantage that the regulating member 30 is not necessary.

[Modification 2 of connector and holding member]
On the other hand, in the above-described embodiment and modification example 1, when the regulating member 30 is provided (embodiment) or the shape of the holding member 26 is devised (modification example 1), the radiation imaging apparatus F is pulled out to the front side. The case where the one end side of the connector 24 is separated from the connector portion Cf of the radiographic imaging apparatus F before the other end side of the connector 24 has been described. However, the structure of the connector 24 itself can be devised so that the above effect can be obtained.

  Specifically, for example, as shown in FIGS. 8A and 8B, a plurality of pins 24b (in FIGS. 8A and 8B) are provided on one end side and the other end side of the support 24a of the connector 24. The long holes 24e1 and 24e2 extending in the direction (y direction) orthogonal to the surface on which the illustration is omitted (see FIGS. 4A and 4B) are provided. At that time, the long hole 24e1 on one end side of the support 24a is provided at a position close to the surface, and the long hole 24e2 on the other end side of the support 24a is provided at a position farther from the surface.

  In addition, on the cassette holder 10 side, a lower holding member 26 </ b> A is extended below the connector 24 from the slide base 22 of the cassette holder 10 described above. Then, the rod-shaped restrictors 31, 31 are erected upward from positions where the distance from the end of the slide base 22 is equal on one end side and the other end side of the lower holding member 26A. The holes 24e1 and 24e2 are respectively inserted.

  Then, a flat upper holding member 26 </ b> B is attached to the upper end of each restricting tool 31. Therefore, in the above-described embodiment and Modification 1, the connector 24 and the holding member 26 are integrally moved following the movement of the extracted radiographic imaging device F. In Modification 2, the lower holding member is used. 26A, each restricting tool 31, and the upper holding member 26B are fixed to the slide base 22 of the cassette holder 10. Therefore, even if the radiographic image capturing apparatus F moves to the near side, it does not follow the connector 24 and moves. Only moves following the movement of the radiographic imaging apparatus F to be pulled out.

  In the second modification, as shown in FIGS. 8A and 8B, a certain amount of gap is formed between the connector 24 and the lower holding member 26A or the upper holding member 26B. This point will be described later.

  And in the modification 2, as shown in FIG. 8 (A), the radiographic imaging device F is loaded in the cassette holder 10 and the connector portion Cf of the radiographic imaging device F is configured as described above. In a state where the connector 24 of the cassette holder 10 is connected, the inner edge of the long hole 24e1 provided on one end side of the connector 24 (the upper edge in FIG. 8A) and the regulating tool 31 Is longer than the distance between the rear edge portion of the long hole 24e2 provided on the other end side of the connector 24 and the restricting tool 31.

  Therefore, when the radiographic imaging device F is pulled out from the cassette holder 10 and removed, only the connector 24 moves to the near side following the connector portion Cf of the moving radiographic imaging device F. At one end side of the connector 24, when the connector 24 moves to the near side (lower side in the figure in FIG. 8A), the edge portion on the back side of the long hole 24e1 immediately comes into contact with the restricting tool 31. The amount of movement on one end side of 24 is reduced.

  However, on the other end side of the connector 24, since the distance between the edge portion on the back side of the long hole 24e2 and the restricting tool 31 is long as described above, the distance that can be moved is longer than the one end side of the connector 24 (that is, The amount of movement increases), and moves further toward the front side following the radiographic imaging apparatus F than the one end side of the connector 24.

  Therefore, also in this modification 2, when the radiographic imaging device F is pulled out to the near side when removing the loaded radiographic imaging device F from the cassette holder 10 with the above configuration, the connector 24 One end side can be separated from the connector portion Cf of the radiographic imaging apparatus F before the other end side of the connector 24. Therefore, when the radiographic imaging apparatus F is removed from the imaging table 1, the connection between the connector portion Cf of the radiographic imaging apparatus F and the connector 24 of the imaging table 1 can be accurately and easily released.

[About biasing the connector toward the cassette holder]
In this embodiment and Modification 1, the guide member 28 is inserted into the hole 26h (see FIGS. 5A and 5B) provided in the bent portion 26a as described above, and the above-described Thus, when the one end side or the other end side of the connector 24 or the holding member 26 moves to the near side or the far side (that is, the y direction), the connector 24 and the holding member 26 have a function of guiding them so that they can move in that direction. Further, the guide member 28 has a function of locking the connector 24 and the holding member 26 so that the connector 24 and the holding member 26 are not dropped from the holding portion 20 of the cassette holder 10 when the radiographic imaging device F is not loaded in the cassette holder 10. Also have.

  Further, as described above, when removing the radiographic imaging apparatus F from the cassette holder 10, the connector of the radiographic imaging apparatus F can be used without urging the connector 24 in the direction toward the holding portion 20 of the cassette holder 10. The connector 24 magnetically attached to the part Cf automatically moves together with the holding member 26 following the movement of the extracted radiographic apparatus F. Therefore, as described above, one end side of the connector 24 is separated from the connector portion Cf of the radiographic imaging apparatus F before the other end side of the connector 24, and the connector 24 is easily detached from the connector section Cf of the radiographic imaging apparatus F. From the viewpoint of the purpose and effect, the connector 24 and the holding member 26 do not necessarily have to be urged in the direction toward the holding portion 20 of the cassette holder 10.

  However, when the connector 24 is configured to be biased in the direction toward the holding portion 20 of the cassette holder 10 by providing the spring 29 as described above, the state where the radiographic imaging device F is not loaded in the cassette holder 10 Then, as shown in FIG. 9, the connector 24 is in a state where the surface on which the plurality of pins 24 b and the like are provided protrudes to the inside of the holding portion 20 rather than the holder 23 b.

  Although the illustration of the spring and the like is omitted in the second modification shown in FIG. 8, the spring and the like are also provided in the second modification so as to bias the connector 24 in the direction toward the holding portion 20 of the cassette holder 10. 9, as in the case of FIG. 9, when the radiographic imaging device F is not loaded in the cassette holder 10, the connector 24 holds the surface on which the plurality of pins 24 b and the like are provided rather than the holder 23. It will be in the state which protruded inside the part 20. FIG.

[About swinging of the connector]
In the second modification, as shown in FIGS. 8A and 8B, the connector 24 is held in a state where a certain gap is formed between the lower holding member 26A and the upper holding member 26B. Has been. Therefore, when the radiographic imaging device F is not loaded in the cassette holder 10, the connector 24 is a slide base that constitutes the above-described base surface of the holding portion 20 of the cassette holder 10 as shown in FIG. It can be swung within a predetermined angle range in a direction orthogonal to the direction 22 (that is, the z direction).

  Also in the above-described embodiment and Modification 1, the diameter of the hole 26h provided in the bent portion 26a of the holding member 26 is formed to be larger than the diameter of the guide member 28 inserted therethrough, as shown in FIG. As shown in B), when the radiographic imaging device F is not loaded in the cassette holder 10, the connector 24 and the holding member 26 are placed in a direction perpendicular to the slide base 22 of the holding unit 20 of the cassette holder 10 (that is, z It is possible to make it possible to oscillate within a predetermined angle range in the direction).

[About the operation of the connector when the radiographic equipment is loaded]
If the connector 24 (and the holding member 26) is configured to be swingable in a direction orthogonal to the slide base 22 in a state where the radiographic imaging device F is not loaded in the cassette holder 10 in this way, the cassette holder 10 When the radiographic imaging device F is loaded into the connector 24, the connector 24 operates as follows.

  That is, as shown in FIG. 11A, when the radiographic imaging device F is loaded in a state inclined with respect to the slide base 22 of the cassette holder 10 and approaches the connector 24, as shown in FIG. The connector 24 swings in a direction perpendicular to the slide base 22 and is inclined with respect to the slide base 22 at the same inclination angle as that of the radiographic image capturing apparatus F. Cf is automatically connected (that is, naturally even if a radiologist or the like does not connect the connector 24 and the connector Cf of the radiographic imaging apparatus F).

  The radiographic imaging apparatus F with the connector 24 connected thereto is held in parallel with the slide base 22 of the cassette holder 10 by each holding tool 23 of the holding unit 20, so that the radiographic imaging apparatus F is At the same time that the holder 10 is loaded, the connector 24 of the cassette holder 10 can be accurately and automatically connected to the connector portion Cf of the radiographic apparatus F (FIGS. 5A, 5B, 7). FIG. 8 (A) and FIG. 8 (B)).

  11A and 11B, the state in which the connector 24 is connected to the connector portion Cf of the radiographic imaging device F to be loaded is illustrated conceptually, such as the holder 23 of the cassette holder 10 and the like. Is omitted.

  As described above, in the present embodiment and the first and second modifications, the radiographic imaging apparatus F is provided by providing the connector 24 so as to be swingable in a direction orthogonal to the slide base 22 constituting the base surface of the cassette holder 10. When the cassette holder 10 is loaded, even if the radiographic imaging device F is loaded while being tilted with respect to the slide base 22, the connector 24 swings in a direction perpendicular to the slide base 22, and the connector 24 And the connector portion Cf of the radiographic imaging apparatus F are accurately and automatically connected (that is, easily).

  Further, when removing the radiographic imaging apparatus F from the cassette holder 10, as described above, one end of the connector 24 is separated from the connector portion Cf of the radiographic imaging apparatus F before the other end of the connector 24. Thus, the connection between the connector portion Cf of the radiographic imaging apparatus F and the connector 24 of the imaging table 1 can be accurately and easily released.

  Therefore, in the present embodiment and the first and second modifications, if the connector 24 is provided so as to be swingable in a direction orthogonal to the slide base 22 that constitutes the base surface of the cassette holder 10, the radiographic imaging device F is provided. When attaching to or detaching from the cassette holder 10, the connector part Cf of the radiographic imaging apparatus F and the connector 24 of the imaging stand 1 can be accurately and easily connected, and the connection can be released.

[About the slide base being openable]
Incidentally, as described above, in the present embodiment, the two slide bases 22 and 22 are attached to the upper surface side of the rotation base 21 (see FIG. 2) of the cassette holder 10, and the two slide bases 22, 22 can be opened and closed by moving in parallel and in opposite directions with respect to the rotation base 21, respectively.

  In a state where the two slide bases 22 and 22 are closed, for example, a 14 × 17 inch radiographic imaging device F can be loaded into the holding portion 20 of the cassette holder 10, and the two slide bases 22 and 22 can be mounted. In the opened state, for example, a radiographic imaging device F of 17 × 17 inches can be loaded.

  As described above, in this embodiment, the cassette holder 10 opens and closes the two slide bases 22 and 22 so that one side of the rectangular casing has the same length (for example, 17 inches), The length of the other side orthogonal to one side is different (for example, 14 inches and 17 inches), and the radiographic imaging device F having a different size can be loaded.

  With this configuration, it is not necessary to provide the cassette holder 10 for each radiographic imaging device F having a different size, and the size is different by opening and closing the two slide bases 22 and 22 with one cassette holder 10. A plurality of types of radiographic imaging apparatuses F can be loaded.

  In the present embodiment, the slide bases 22 and 22 are configured to move the same distance in the opposite directions with respect to the rotation base 21. In the present embodiment, as shown in FIG. 2, the rotation base 21 of the cassette holder 10 is provided with a stopper 32, and the stopper 32 can be moved up and down with respect to the rotation base 21. Yes.

  When the cassette holder 10 is loaded with, for example, a 14 × 17 inch radiographic imaging apparatus F, the stopper 32 is raised, the stopper 32 is engaged with one slide base 22, and the slide bases 22, 22 are moved. The radiographic imaging device F of 14 × 17 inches is loaded without opening.

  Further, when the radiographic imaging device F of, for example, 17 × 17 inches is loaded in the cassette holder 10, the stopper 32 is pushed down to release the engagement with one slide base 22, and the slide bases 22 and 22 are opened. In the state, a radiographic imaging device F of 17 × 17 inches is loaded.

  In the present embodiment, as described above, the slide bases 22 and 22 are configured to move the same distance in the opposite directions with respect to the rotation base 21, so the slide bases 22 and 22 are closed. The center position of the slide bases 22 and 22 as a whole (that is, the center position in the x and y directions) does not change regardless of the state or the open state.

  Therefore, in the present embodiment, even when the slide bases 22 and 22 are opened and closed and the radiographic imaging devices F of different sizes are loaded, the central position of the radiographic imaging devices F loaded in the cassette holder 10 is kept at the same position. The radiographic imaging apparatus F can be loaded in a leaned state (see the center position O of the radiographic imaging apparatus F in FIGS. 12A and 12B described later).

  In the present embodiment, since it is assumed that the cassette holder 10 is loaded with two types of radiographic imaging devices F, for example, 14 × 17 inches and 17 × 17 inches, as described above, The two slide bases 22 and 22 are configured to open and close only in the y direction.

  However, in order to allow the cassette holder 10 to be loaded with more radiographic imaging devices F of different sizes, for example, the slide base 22 is divided into four parts so as to be orthogonal to the y direction. It can also be configured to open and close in the x direction.

  Further, as described above, in the present embodiment and Modifications 1 and 2, the connector 24 is provided with the guide member 28 protruding from the holder 23b attached to the slide base 22 (FIGS. 5A and 5B). And the like, or a restricting tool 31 (see FIGS. 8A and 8B) erected from a lower holding member 26A extending from the slide base 22. ing. Therefore, even if the slide bases 22 and 22 are configured to be openable and closable with respect to the rotary base 21, the connector 24 moves together with the slide base 22. Therefore, the relative positional relationship between the connector 24 and the slide base 22 or the holder 23b. Will not change.

  Therefore, even if the slide bases 22 and 22 are configured to be openable and closable with respect to the rotary base 21 as described above, the above-described operation when the radiographic imaging apparatus F is detached from the cassette holder 10 or loaded into the cassette holder 10 is described above. The action and effect peculiar to the present invention is not inhibited, and the excellent action and effect are accurately exhibited.

[About the entire holding part being rotatable]
Moreover, in this embodiment, as mentioned above, the rotation base 21 which comprises the base surface of the holding | maintenance part 20 of the cassette holder 10 is rotatably attached with respect to the drawer tray 12 (refer FIG. 2), and rotation is carried out. By rotating the base 21 with respect to the drawer tray 12, the entire holding portion 20 of the cassette holder 10 can be rotated.

  With this configuration, for example, a 14 × 17 inch radiographic imaging device F is loaded in the cassette holder 10 vertically as shown in FIG. 12A (that is, the radiographic imaging device F). Or the side of the radiographic imaging device F is extended in the y direction (see FIG. 12B). Or the orientation of the radiation imaging apparatus F can be changed.

  Since the radiographic image capturing apparatus F is normally loaded at either the vertical position (see FIG. 12A) or the horizontal position (see FIG. 12B) with respect to the photographing stand 1, illustration is omitted. However, the rotation base 21 of the cassette holder 10 can be configured to rotate by 90 ° with respect to the drawer tray 12.

  On the other hand, in the case of the radiographic imaging apparatus F having the same length on one side and the other side as in the 17 × 17 inch radiographic imaging apparatus F, the radiographic imaging apparatus F is vertically Whether you shoot in the direction or in the landscape direction, the captured image will remain the same. However, in the subsequent image processing, an image captured with the radiographic image capturing device F in the landscape orientation may have to be rotated 90 degrees to have the portrait orientation, and an extra step is required for the image processing.

  Therefore, when the radiographic imaging apparatus F having the same length on one side and the other side as in the 17 × 17 inch radiographic imaging apparatus F is loaded in the cassette holder 10, it is rotated. It is possible to prevent the base 21 from rotating with respect to the drawer tray 12 and prohibit the rotation.

  That is, like a 14 × 17 inch radiographic imaging apparatus F, a radiographic imaging apparatus F (hereinafter simply referred to as a rectangular radiographic imaging apparatus F having a length different from that of the other side). Is loaded into the cassette holder 10, the rotation base 21 is allowed to rotate with respect to the drawer tray 12, and the radiographic image capturing apparatus F is placed in a plane where the radiographic image capturing apparatus F exists. (That is, in a plane parallel to the drawer tray 12).

  However, like the 17 × 17 inch radiographic image capturing device F, the radiographic image capturing device F having the same length on one side and the other side (hereinafter simply referred to as a square radiographic image capturing device F). In the cassette holder 10, the rotation base 21 cannot be rotated with respect to the drawer tray 12, and the rotation of the radiographic imaging apparatus F can be prohibited. is there.

  According to this configuration, when the rectangular radiographic image capturing device F is loaded in the cassette holder 10, the radiographic image capturing device F is loaded vertically or horizontally so that an image of a portrait or landscape orientation is accurately captured. It becomes possible to do. At the same time, when the square radiographic imaging device F is loaded in the cassette holder 10, the radiographic imaging device F is prohibited from rotating so that an image captured by the radiographic imaging device F can be displayed later. It becomes possible to accurately prevent the necessity of performing extra steps such as 90 ° rotation in image processing.

  When the rectangular radiographic imaging device F is loaded in the cassette holder 10 as described above, the rotation base 21 is allowed to rotate with respect to the drawer tray 12, and the square radiographic imaging device F is loaded. In this case, a specific configuration for prohibiting rotation of the rotation base 21 with respect to the drawer tray 12 can be configured as follows, for example.

  That is, for example, as shown in FIG. 13A, a protrusion 22a that protrudes toward the drawer tray 12 on the back side is provided on the lower surface of one slide base 22 (or both slide bases 22, 22). Then, when the slide base 22 is opened in the vertical state (that is, moved in the y direction in the state shown in FIG. 2), when the projection 22a moves in the y direction, the slide base 22 is engaged with the projection 22a. A locking member 12 a for locking is provided on the upper surface of the drawer tray 12.

  With this configuration, in the state where the slide base 22 is closed (see FIG. 13A, that is, the state where the rectangular radiographic imaging device F is loaded), the protrusion 22a of the slide base 22 is engaged with the drawer tray 12. Since it is not engaged with the stop member 12a, the slide base 22 can rotate.

  However, in a state where the slide base 22 is opened (see FIG. 13B, that is, a state where the square radiographic imaging device F is loaded), the protruding portion 22a moves with the opening operation of the slide base 22, and the drawer tray is moved. Since the 12 locking members 12a are engaged and locked, the slide base 22 cannot rotate, and the rotation of the slide base 22 is prohibited.

  Therefore, for example, by configuring as described above, when the rectangular radiographic imaging apparatus F is loaded in the cassette holder 10, the rotation base 21 is allowed to rotate with respect to the drawer tray 12, and a square radiographic image is obtained. When the photographing apparatus F is loaded, the rotation base 21 can be configured to be prohibited from rotating with respect to the drawer tray 12.

  Note that, as described above, the rotary base 21 and the slide bases 22 and 22 can be rotated with respect to the drawer tray 12 when the rectangular radiographic image capturing apparatus F is loaded in the cassette holder 10. Since the connector 24 moves together with the slide base 22, the relative positional relationship between the connector 24, the slide base 22, and the holder 23b does not change.

  Therefore, even if the rotary base 21 and the slide bases 22 and 22 are configured to be rotatable with respect to the drawer tray 12 as described above, when the radiographic imaging apparatus F is detached from the cassette holder 10 or loaded into the cassette holder 10. At this time, the above-mentioned operational effects peculiar to the present invention are not inhibited, and the excellent operational effects can be exhibited accurately.

  Needless to say, the present invention is not limited to the above-described embodiments and modifications, and can be appropriately changed without departing from the gist of the present invention.

  In the above description, the case where the photographing stand 1 is a photographing stand for standing-up photographing has been described. However, when the photographing stand 1 is a photographing stand for standing photographing, the holder 23 is, for example, a flat plate. Instead, measures are taken as appropriate such that the radiographic imaging device F is not dropped from the cassette holder 10 by changing to a U-shaped cross section.

1 Shooting base 10 Cassette holder 22 Slide base (base surface)
23 holder 24 connector 26 holding member 30 regulating member Cf connector portion F radiographic imaging device G gap W, W1, W2 movement amount, gap size (movement amount)

Claims (10)

A plurality of radiation detection elements are two-dimensionally arranged in a housing, and is an imaging table including a cassette holder that can be loaded with a radiographic imaging device including a connector part,
The cassette holder is
A holder for holding the loaded radiographic imaging device;
A connector connectable to the connector portion of the radiographic imaging apparatus held by the holder;
With
The connector and the connector part are configured to be magnetically attached to each other when connected,
The connector is movable following the connector portion in a state of being magnetically attached to the moving connector portion when the radiographic imaging device is pulled out and removed from the cassette holder.
In addition, the movement of the connector is regulated so that the movement amount on one end side of the connector that moves following the movement is smaller than the movement amount on the other end side of the connector, so that the one end side of the connector is the other side. An imaging stand configured to be separated from the connector portion of the radiographic imaging apparatus before an end side. The connector is fixed to a holding member;
When the radiographic imaging apparatus is pulled out and removed from the cassette holder, the movement amount on one end side of the holding member that moves together with the connector that moves following the connector portion is the movement amount on the other end side of the holding member. By restricting the movement of the holding member and the connector so as to be smaller than each other, the one end side of the connector is separated from the connector portion of the radiographic apparatus before the other end side of the connector. The imaging stand according to claim 1, configured as described above. In a state where the radiographic imaging apparatus is loaded in the cassette holder, a gap is formed between the holding member of the connector and the holder, and the radiographic imaging apparatus is removed from the cassette holder. The connector is configured to move following the connector portion and the holding member abuts on the holding tool, so that the holding member restricts movement of the holding member and the connector.
The size of the gap formed between one end side of the holding member and the holding tool in a state in which the radiographic imaging device is loaded in the cassette holder is set so that the other end side of the holding member and the holding portion are held. The photographing stand according to claim 2, further comprising a restricting member for making the gap smaller than a size of the gap formed between the tool and the tool. In a state where the radiographic imaging apparatus is loaded in the cassette holder, a gap is formed between the holding member of the connector and the holder, and the radiographic imaging apparatus is removed from the cassette holder. The connector is configured to move following the connector portion and the holding member abuts on the holding tool, so that the holding member restricts movement of the holding member and the connector.
In a state where the radiographic imaging device is loaded in the cassette holder, the size of the gap formed between one end side of the holding member and the holder is such that the other end side of the holding member and the holding portion are The photographing stand according to claim 2, wherein the holding member is formed so as to be smaller than a size of the gap formed between the tool and the tool.   The connector is movably held by a holding member, and is attached to one end of the connector that moves following the connector portion that moves when the radiographic imaging apparatus is pulled out and removed from the cassette holder. The photographing stand according to claim 1, wherein the movement of the connector is regulated by the holding member so that the movement amount is smaller than the movement amount on the other end side of the connector. The cassette holder includes a base surface that holds a back side of the loaded radiographic apparatus,
The connector is provided so as to be swingable in a direction perpendicular to the base surface of the cassette holder,
When the radiographic image capturing apparatus is loaded in the cassette holder, the connector swings in a direction perpendicular to the base surface even if the radiographic image capturing apparatus is loaded in an inclined state with respect to the base surface. The imaging table according to any one of claims 1 to 5, wherein the connector and the connector portion of the radiographic image capturing apparatus are connected to each other.   The photographing stand according to any one of claims 1 to 6, wherein the connector is biased in a direction toward the cassette holder.   The photographing stand according to any one of claims 1 to 7, wherein the photographing stand is a photographing stand for supine photography.   The cassette holder has the same length of one side of the rectangular casing, the length of the other side orthogonal to the one side is different, and the radiographic imaging device having a different size can be loaded. The imaging stand according to any one of claims 1 to 8, wherein the imaging stand is formed. The cassette holder is
When the radiographic imaging device having a length different from the length of the one side and the length of the other side is loaded, the radiographic imaging device is placed in a plane where the radiographic imaging device exists. Can rotate,
When the radiographic imaging device having the same length as the one side and the length of the other side is loaded, the radiographic imaging device is configured to be prohibited from rotating. The photography stand according to claim 9 characterized by things.

Images