JP2020169922A - Radiation imaging apparatus - Google Patents

Abstract

To increase the operability while allowing a stable handling.SOLUTION: A radiation imaging apparatus 100 includes: a radiation detection panel for detecting radiation; a housing 6 containing the radiation detection panel; and a switch 10, which can be operated by a user. The housing 6 includes: an entrance part in which radiation enters; a bottom part 62 located in the opposite side to the side where the entrance part is located, the bottom part having a recessed grasping part 7 to be grasped by a user; and a plurality of side parts 63. The switch is provided in a range in which the switch can be operated by fingers of a grasping hand while the user is grasping the grasping part 7.SELECTED DRAWING: Figure 3

Description

The present invention relates to a radiography apparatus.

Radiation imaging devices that detect the intensity distribution of radiation transmitted through an object and obtain a radiographic image are widely used in industrial non-destructive inspection and medical diagnosis. In order to enable such a photographing device to quickly photograph a wide range of parts, a photographing device has been developed in consideration of portability and operability.

Patent Document 1 discloses a detector for a medical imaging system in which a grip portion having a plurality of openings is provided and a switch is provided in the vicinity of the grip portion.
Patent Document 2 discloses a radiographing apparatus in which a deep concave grip portion is formed on the opposite side of the radiation incident surface of the radiographing portion instead of an opening in order to reduce the size of the photographing portion.

Japanese Unexamined Patent Publication No. 2011-50739 JP-A-2017-67564

When a grip portion having an opening is provided as in Patent Document 1, the apparatus needs to be located outside the radiography panel, which increases the size of the apparatus. On the other hand, as in Patent Document 2, the concave grip portion makes it easy to miniaturize the device, and further, there is an advantage that stability when gripping can be achieved at the same time.

Here, it is assumed that a device such as Patent Document 2 is provided with a switch for operation by a user. When a grip portion as in Patent Document 2 is formed, a grip force that suppresses the device from rotating in the thickness direction due to its own weight is maintained according to the depth of the grip portion and the place where the grip force is applied. There is a need to. In this case, depending on the position of the grip portion and the switch, it is not possible to operate the switch with one hand while gripping the device, or the orientation of the gripped hand becomes unnatural, resulting in stable handling and switch operability. It becomes difficult to achieve both.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to improve the operability of a switch while enabling stable handling.

The present invention is a radiography apparatus having a radiation detection panel for detecting radiation, a housing for accommodating the radiation detection panel, and a switch that can be operated by a user. The housing is an incident light incident on the radiation. The switch has a portion, a bottom portion located on the opposite side of the incident portion and provided with a concave grip portion to be gripped by the user, and a plurality of side portions, and the switch is in a state where the user grips the grip portion. It is characterized in that it is provided in a range that can be operated by the fingers of the grasped hand.

According to the present invention, the operability of the switch can be improved while stable handling is possible.

It is an external view which shows the radiological imaging apparatus of 1st Embodiment. It is sectional drawing which shows the radiographing apparatus. It is a bottom view which shows the radiographing apparatus. It is a figure which shows the state which held the grip part. It is a bottom view which shows the radiographing apparatus as a modification. It is a bottom view which shows the radiographing apparatus as a modification. It is a bottom view which shows the radiographing apparatus as a modification. It is an external view which shows the radiological imaging apparatus of 2nd Embodiment. It is a bottom view which shows the radiographing apparatus. It is an external view which shows the radiological imaging apparatus of 3rd Embodiment. It is a top view which shows the radiographing apparatus as a modification. It is a top view which shows the radiographing apparatus as a modification. It is an external view which shows the radiographing apparatus as a modification.

Embodiments of the present invention will be specifically described with reference to the accompanying drawings. However, the details of the dimensions and the structure shown in each embodiment are not limited to those shown in the text and the drawings. Further, the radiation described below is not limited to X-rays, but also includes α-rays, β-rays, γ-rays, particle beams, cosmic rays and the like.

<First Embodiment>
The radiography apparatus 100 according to the first embodiment will be described with reference to FIGS. 1 to 4.
FIG. 1A is an external view showing an example of a radiographing apparatus 100 (in a plan view) viewed from the incident direction of radiation. FIG. 1B is an external view showing an example of a radiography apparatus 100 viewed from the opposite side of FIG. 1A. FIG. 2 is a cross-sectional view taken along the line I-I in FIG. 1 (b) as viewed from the direction of the arrow. FIG. 3 is a bottom view showing an example of the radiography apparatus 100.

The radiography apparatus 100 acquires a radiation image corresponding to the radiation emitted by the radiation generator and transmitted through the subject. The radiography imaging device 100 transfers the acquired radiographic image data to an external device or displays it on an external display device or the like.

The radiography apparatus 100 has a radiation detection panel 1. The radiation detection panel 1 converts the incident radiation into an electrical signal. In the radiation detection panel 1, the side on which radiation is incident is the detection surface. The radiation detection panel 1 includes a sensor substrate in which a plurality of photoelectric conversion elements are two-dimensionally arranged on a glass substrate, a phosphor layer arranged on the sensor substrate, and a phosphor protection arranged on the phosphor layer. Has a membrane. The fluorophore protective film protects the fluorophore layer. A material having a relatively high moisture resistance is used for the fluorescent material protective film.

In the radiation detection panel 1, the phosphor layer emits light due to the incident radiation, and the light emitted is converted into an electric signal by a photoelectric conversion element arranged on the sensor substrate. Further, the radiation detection panel 1 has a part or all of the photoelectric conversion element (sensor) as an effective photographing region. The effective imaging area is an area where radiography can be performed and an image is actually generated. The radiation detection panel 1 is not limited to the above-described configuration, and may have a plurality of phosphor layers, and is a direct conversion type conversion element that directly converts radiation into an electric signal instead of the phosphor layer and the photoelectric conversion element. May be used. Further, the material of the sensor substrate of the radiation detection panel 1 is not limited to glass.

The radiography apparatus 100 has a control board 2. The control board 2 reads out the electric signal converted by the radiation detection panel 1 and processes the read electric signal. The control board 2 converts the electric signal into a digital signal and acquires radiographic image data. The control board 2 is electrically connected to the radiation detection panel 1 via the flexible circuit board 3.

The radiography apparatus 100 has a secondary battery (not shown). The secondary battery supplies electric power used for operating the radiation detection panel 1 and the control board 2. As the secondary battery, for example, a lithium ion battery, an electric double layer capacitor, an all-solid-state battery and the like are used.

The radiography apparatus 100 has a support base 4. The support base 4 supports the components of the radiography apparatus 100. Specifically, the support base 4 supports the radiation detection panel 1 on the incident surface side of the radiation, and supports the control board 2 and the secondary battery on the opposite side thereof.
The radiography apparatus 100 has a cushioning material 5 between the radiation detection panel 1 and the housing 6 that protects the radiation detection panel 1 from an external force.

The housing 6 houses the components of the radiography apparatus 100.
The housing 6 is a substantially rectangular parallelepiped, and has a substantially rectangular shape having a long side and a short side in a plan view. The housing 6 has a plurality of (here, four) connecting the incident portion 61 on which radiation is incident, the bottom portion 62 located on the opposite side of the incident portion 61 with the radiation detection panel 1 interposed therebetween, and the incident portion 61 and the bottom portion 62. ) Has a side portion 63.

The incident portion 61 causes radiation to enter. The incident portion 61 has a substantially flat plate shape with a surface exposed to the outside. Since the incident portion 61 transmits radiation, it is preferable that the transmittance of the radiation is relatively high. Further, it is preferable that the incident portion 61 is light in weight and can secure a constant strength against impact. For the incident portion 61, for example, a resin material, CFRP (carbon fiber reinforced plastic), or the like is used.
On the surface of the incident portion 61, an index 611 for indicating the central portion of the effective photographing region and the range of the effective photographing region is indicated (see FIG. 1A). The index 611 is formed by painting, printing, or the like. By visually recognizing the index 611, the user can easily recognize the central portion of the effective photographing area and the effective photographing area. The index 611 may be, for example, a step recessed in the direction of the radiation detection panel 1 as long as the user can recognize the central portion of the effective imaging region and the range of the effective imaging region.

The bottom portion 62 covers the components of the radiography apparatus 100 from the opposite side of the incident portion 61. The bottom portion 62 has a substantially flat plate shape with a surface (outer surface) exposed to the outside. The bottom portion 62 is substantially parallel to the incident portion 61.
The side portion 63 covers the components of the radiography apparatus 100 from the side. The side portion 63 has a substantially plate shape in which the surface (outer surface) exposed to the outside is flat, curved, or inclined. The side portion 63 is continuous with respect to the incident portion 61 and the bottom portion 62.
It is preferable that the bottom portion 62 and the side portion 63 are ensured in strength against dropping, impact, etc., weight reduction for the purpose of reducing the burden during transportation, and high operability. For the bottom portion 62 and the side portion 63, for example, a metal alloy such as magnesium or aluminum, CFRP, a fiber reinforced resin, or the like is used. Further, the bottom portion 62 and the side portion 63 may be made of a material having a relatively high magnetic permeability such as SUS430 in order to effectively reduce the electrical noise received from the outside of the housing 6.

The bottom portion 62 is provided with a concave grip portion 7 that is gripped by the user. The grip portion 7 is formed by being recessed from the surface of the bottom portion 62 toward the radiation detection panel 1. Since the grip portion 7 is not open, it is possible for the user to smoothly handle the grip portion 7 while suppressing the increase in size of the radiography imaging device 100.
The bottom 62 of the present embodiment has four grips 7a to 7d, each close to the side 63. The grip portions 7a and 7b are close to the side portion 63 corresponding to the long side of the housing 6, and the grip portions 7c and 7d are close to the side portion 63 corresponding to the short side of the housing 6. As shown in FIG. 3, in bottom view, the grip portions 7a to 7d have a substantially rectangular shape that is long along the longitudinal direction of the side portions 63 that are close to each other. The lengths of the grip portions 7a and 7b are shorter than the lengths of the grip portions 7c and 7d. The length of the grip portions 7a to 7d means the distance between the grip portions 7a to 7d in the direction parallel to the longitudinal direction of the side portions 63 adjacent to each other of the grip portions 7a to 7d. On the other hand, the width of the grip portions 7a to 7d means the distance between the grip portions 7a to 7d in the direction orthogonal to the length of the grip portions 7a to 7d. The grip portions 7a to 7d are not limited to a substantially rectangular shape, and may be a substantially oval shape, a substantially elliptical shape, or a substantially wavy shape according to the shape of the finger.

The grip portions 7a and 7b are provided at positions where they pass through the center of gravity G of the radiography apparatus 100 and overlap with a straight line AA orthogonal to the adjacent side portions 63 in bottom view. Further, the grip portions 7c and 7d are provided at positions where they pass through the center of gravity G of the radiography apparatus 100 and overlap with a straight line BB orthogonal to the adjacent side portion 63 in bottom view. In addition, it is assumed that the center of gravity G and the outer center of the housing 6 coincide with each other in the bottom view or the plan view in other embodiments including this embodiment. However, the center of gravity G and the outer center of the housing 6 are not limited to the same, and may be different.
Here, the gripping portions 7a to 7d are provided within 60 mm as a distance Dh from the adjacent side portions 63 so that the radiography apparatus 100 can be gripped stably.

The radiography apparatus 100 has a switch 10 that can be operated by the user. The switch 10 is for controlling the radiography apparatus 100. The switch 10 is, for example, a switch for activating the radiography apparatus 100 (power on / off switch), a switch for transitioning the state of the radiography apparatus 100, and the like.

In the case of the concave grip portion 7 as described above, in many situations, in order to prevent the radiography apparatus 100 from rotating in the thickness direction of the housing 6 due to a moment due to its own weight, the user may refer to the radiography apparatus 100. It is necessary to maintain the gripping force. Therefore, in order for the user to operate the switch 10 while gripping the radiography apparatus 100, it is necessary to operate the switch 10 with a non-grasping hand or while maintaining a gripping force with the gripped hand. For smooth shooting, it is preferable to be able to hold and operate the switch with one hand. However, the radiation photographing apparatus 100 is not large enough to fit in a hand for photographing a subject. Therefore, unless the position of the grip portion 7 and the position of the switch 10 with respect to the grip portion 7 are appropriately selected, it becomes difficult to realize a smooth series of operations with one hand.

In the present embodiment, in order to improve the stable handling of the radiography apparatus 100 and the operability of the switch 10, the switch 10 has a bottom portion 62, and the user holds the grip portion 7 while holding the hand. Provide within the range that can be operated with fingers.
Specifically, the position where the switch 10 is provided will be described with reference to FIG.
The radiography apparatus 100 of the present embodiment has a plurality of switches 10a to 10d.
Of the switches 10a to 10d, the switches 10a and 10b are arranged close to the grip portion 7a, and the switches 10c and 10d are arranged close to the grip portion 7b. Here, the switches 10a and 10b and the switches 10c and 10d are arranged substantially symmetrically with respect to the straight line BB.

Hereinafter, the switches 10a and 10b will be mainly described.
The switches 10a and 10b are arranged unevenly from the grip portion 7a toward the center of gravity G side of the radiography apparatus 100. In the present embodiment, the switches 10a and 10b are arranged within approximately 60 mm to 110 mm as the distance Ds from the adjacent side portions 63, which is larger than the distance Dh of the grip portions 7a to 7d from the adjacent side portions 63.
Further, the switches 10a and 10b are located within approximately 130 mm as a distance S from the straight line AA. Further, the switches 10a and 10b are located within the range of the movement locus Lg when the outer line of the grip portion 7a is virtually moved toward the center of gravity G.

FIG. 4 is a diagram showing an example of a state in which the user is operating the switch 10a with the index finger or the like while gripping the grip portion 7a. The user operates the switch 10a while gripping the vicinity of the straight line AA in the grip portion 7a. In this way, the user grips the vicinity of the straight line AA in order to suppress the radiography apparatus 100 from rotating in the direction along the detection surface. The operation of gripping the grip portion 7a by the user suppresses the rotation of the radiography apparatus 100 in the thickness direction, and the switch 10a can be operated while maintaining the operation. Therefore, stable handling and one-handed operation of the switch 10a can be performed. The operation can be compatible.

Further, the switch 10a and the switch 10b are arranged substantially symmetrically with respect to the straight line AA. Therefore, as shown in FIG. 4, it is easy to operate the switch 10b not only when it is gripped with the right hand but also when it is gripped with the left hand, and the switch 10b can be operated without being limited to the user's dominant hand or the operating situation. is there.
The surface layers of the switches 10a and 10b may be subjected to unevenness, embossing, or the like so that the switch can be easily recognized by the tactile sensation of a finger. According to these embodiments, one-handed gripping operation and switch operation are possible regardless of the left and right sides of the gripping hand.

Although the switches 10a and 10b have been described here, the switches 10c and 10d are also substantially symmetrical with respect to the straight line BB, and like the switches 10a and 10b, the gripping operation with one hand and the operation of the switch are performed. Is possible.
Further, the switch may be arranged close to the grip portions 7c and 7d. In this case, the plurality of switches can be arranged at positions substantially symmetrical with respect to the straight line BB.
Further, as shown in FIG. 3, the state is configured so that the state cannot be changed unless at least two switches arranged at positions symmetrical with respect to the straight line BB (or the straight line AA) are operated at the same time. May be good. With this configuration, it is possible to suppress unintended transitions by the user.

According to the present embodiment, the switches 10a to 10d are provided at the bottom portion 62 at a position deviated from the grip portions 7a and 7b toward the center of gravity. Therefore, since the user can operate the switches 10a to 10d with, for example, the index finger of the gripped hands while gripping the gripping portions 7a and 7b, the gripping operation and the switch operation can be performed with one hand.

(First modification)
Next, the radiography apparatus 200 of the first modification will be described with reference to FIG. FIG. 5 is a bottom view showing an example of the radiography apparatus 200. The same configuration as that of the radiography apparatus 100 is designated by the same reference numerals, and the description thereof will be omitted as appropriate.
The radiography apparatus 200 has a plurality of switches 11a and 11b.
The switch 11a is arranged close to the grip portion 7c, and the switch 11b is arranged close to the grip portion 7d. Here, one switch 11 is arranged close to one grip portion 7. Further, the switch 11a and the switch 11b are arranged at positions substantially symmetrical with respect to the center of gravity G. The number of switches and the position to be arranged can be appropriately selected.

(Second modification)
Next, the radiography apparatus 300 of the second modification will be described with reference to FIG. FIG. 6 is a bottom view showing an example of the radiography apparatus 300. The same configuration as that of the radiography apparatus 100 is designated by the same reference numerals, and the description thereof will be omitted as appropriate.
The radiography apparatus 300 has a plurality of switches 12a and 12b.
The switch 12a is arranged close to the grip portion 7a, and the switch 12b is arranged close to the grip portion 7b. Here, the switches 12a and 12b are arranged so as to straddle the straight lines AA, that is, intersect the straight lines AA. In other words, the switches 12a and 12b are arranged so as to overlap the straight lines AA. Further, the switches 12a and 12b have a long shape along the longitudinal direction of the adjacent side portions 63. By arranging the switches 12a and 12b so as to intersect the straight lines AA in this way, the switch 12 can be operated even when the grip portion 7 is gripped by either the left or right hand. Further, since the switch 12 can be configured by one, the number of parts can be reduced.

(Third modification example)
Next, the radiography apparatus 400 of the third modification will be described with reference to FIG. 7. FIG. 7 is a bottom view showing an example of the radiography apparatus 400. The same configuration as that of the radiography apparatus 100 is designated by the same reference numerals, and the description thereof will be omitted as appropriate.
The radiography apparatus 400 has a plurality of switches 13a and 13b.
The switches 13a and 13b are located unevenly in the longitudinal direction of the side portion 63 adjacent to the grip portion 7a. Further, the switches 13a and 13b are located within the range of the movement locus Le when the outer line of the grip portion 7a is virtually moved toward the longitudinal direction of the adjacent side portion 63. Therefore, since the user can operate the switches 13a and 13b with, for example, the thumb of the gripped hands while gripping the grip portion 7a, the gripping operation and the switch operation can be performed with one hand.

Further, as the switches 13a and 13b, a long slide switch parallel to the longitudinal direction of the grip portion 7a is used. The directions in which the switches 13a and 13b can be slid are parallel to the longitudinal direction of the grip portion 7a. This direction coincides with the direction in which the fingers of the grasped hand can move. Specifically, when the user holds the grip portion 7a and moves the thumb along the surface of the bottom portion 62, for example, the direction parallel to the longitudinal direction of the grip portion 7a can be naturally moved without a load. Therefore, by matching the direction of the slide operation of the switches 13a and 13b with the direction in which the fingers of the gripped hand can move, the gripping operation with one hand and the operation of the switch can be performed.

Further, the switches 13a and 13b are not limited to mechanical switches, and capacitive switches can be used. In a capacitance type switch, a change in electrical capacitance is detected when the user touches the switch. Since it is not necessary for the user to apply a force other than the gripping force to the capacitance type switch, the burden when the user operates the switch can be reduced.
The switches 13a and 13b are not limited to the case where they can slide in the direction parallel to the longitudinal direction of the grip portion 7a. That is, the switches 13a and 13b can slide in an oblique direction with respect to the grip portion 7a or the adjacent side portion 63 as long as the user can move naturally without a load while gripping the grip portion 7a. Good.

As described above, according to the present embodiment and the modified example, the switch is provided at a position biased toward the center of gravity from the grip portion or at a position biased toward the longitudinal direction of the side portion close to the grip portion. Therefore, the user can improve the operability of the switch with less stress while maintaining the gripping force.
The switch may be provided inside the grip portion, not limited to the above-described embodiment and modification.

<Second embodiment>
The radiography apparatus 500 according to the second embodiment will be described with reference to FIGS. 8 to 9.
FIG. 8A is an external view showing an example of the radiographing apparatus 500 viewed from the incident direction of radiation. FIG. 8B is an external view showing an example of the radiographing apparatus 500 viewed from the opposite side of FIG. 8A. FIG. 9 is a bottom view showing an example of the radiography apparatus 500. The same configurations as those in the first embodiment are designated by the same reference numerals, and the description thereof will be omitted as appropriate.

The bottom 62 of the present embodiment has four grips 7a, 7b, 7e, 7f that are close to the side 63, respectively. Here, the grip portions 7a and 7b are the same as those in the first embodiment. On the other hand, the grip portions 7e and 7f are shorter in length than the grip portions 7c and 7d of the first embodiment.

The radiography apparatus 500 of the present embodiment has a plurality of switches 14a to 14d and a status display unit 15.
The switches 14a to 14d are provided in a range that can be operated by the fingers of the gripped hands while the user grips the gripped portions 7a and 7b.
Of the switches 14a to 14d, the switches 14a and 14b are arranged on the side portion 63 close to the grip portion 7a, and the switches 14c and 14d are arranged on the side portion 63 close to the grip portion 7b. In this way, the switches 14a to 14d are provided on each of the opposing side portions 63 of the plurality of side portions 63. Here, the switches 14a and 14b and the switches 14c and 14d are arranged substantially symmetrically with respect to the straight line BB.

Hereinafter, the switches 14a and 14b will be mainly described.
The switches 14a and 14b are located within approximately 30 mm to 90 mm as a distance S from the straight line AA. Further, the switches 14a and 14b are located outside the range of the movement locus Lo when the outer line of the grip portion 7a is virtually moved toward the opposite side of the center of gravity G. This position is a position where the switches 14a and 14b are not hidden by the gripped hand when the user grips the grip portion 7a. Therefore, since the user can operate the switches 14a and 14b with, for example, the thumb of the gripped hands while gripping the grip portion 7a, the gripping operation and the switch operation can be performed with one hand.

The status display unit 15 is provided on the side unit 63 on which the switches 14a and 14b are arranged. The status display unit 15 displays the status of the radiography apparatus 500 as necessary. An LED, a display (liquid crystal display, organic EL display), or the like can be used for the status display unit 15.

According to the present embodiment, by providing the switches 14a to 14d on the side portion 63, even when the radiography apparatus 500 is placed on a table, a gantry for imaging, or the like, the switches 14a to 14a to 14d are provided. The operation of 14d is possible. Further, since the switches 14a and 14b and the switches 14c and 14d are provided on the opposite side portions 63, the user can install the switches 14a and 14b on a pedestal or the like without worrying about the orientation of the radiography apparatus 500.

Further, according to the present embodiment, the status display unit 15 is provided on the side unit 63. By providing the status display unit 15 on the side portion 63 in this way, even when the radiography imaging device 500 is placed on a table, a stand for imaging, or the like, the user can use the status display unit 15 Can be confirmed.

<Third embodiment>
The radiography apparatus 600 according to the third embodiment will be described with reference to FIGS. 10 to 13.
FIG. 10A is an external view showing an example of the radiography apparatus 600 viewed from the incident direction of radiation. FIG. 10B is an external view showing an example of the radiological imaging apparatus 600 viewed from the opposite side of FIG. 10A. FIG. 10 (c) is a side view showing an example of the radiography apparatus 600 viewed from the direction of arrow C shown in FIG. 10 (a). FIG. 11 is a plan view showing an example of the radiography apparatus 600. The same configurations as those of the second embodiment are designated by the same reference numerals, and the description thereof will be omitted as appropriate.

The radiography apparatus 600 of the present embodiment has an inclined portion 64 on the side portion 63. The inclined portion 64 is located on the incident portion 61 side of the side portion 63, and is continuous with the incident portion 61. The inclined portion 64 has a substantially flat plate shape in which the surface (outer surface) exposed to the outside is inclined with respect to the surface of the incident portion 61. Therefore, the inclined portion 64 cannot be visually recognized in the bottom view, but can be visually recognized in the plan view as shown in FIG.

The radiography apparatus 600 of the present embodiment has a plurality of switches 16a and 16b.
The switches 16a and 16b are provided in a range that can be operated by the fingers of the gripped hand while the user grips the grip portion 7b.
The switches 16a and 16b are arranged on the inclined portion 64 of the side portion 63 close to the grip portion 7b. Further, in a plan view, the switches 16a and 16b are arranged so as not to overlap with the effective photographing region of the radiation detection panel 1. Therefore, it is possible to prevent the switches 16a and 16b from appearing in the radiation image.
Further, the switch 16a and the switch 16b are arranged substantially symmetrically with respect to the straight line AA. Therefore, the switches 16a and 16b can be easily operated regardless of whether the switches 16a and 16b are gripped by either the left or right hand, and the switches 16a and 16b can be operated regardless of the user's dominant hand or the operating situation.

According to the present embodiment, by providing the switches 16a and 16b on the inclined portion 64, even when the radiography apparatus 600 is placed on a table, a pedestal for imaging, or the like, the switches 16a, The operation of 16b is possible. Further, it is possible to reduce the risk that the palm holding the grip portion 7b unintentionally operates the switches 16a and 16b. Further, it is possible to reduce the risk of unintentionally operating the switches 16a and 16b when the patient or the like touches the incident portion 61 when photographing with the radiography imaging device 600.
The inclined portion 64 is not limited to one side portion 63, and may be provided on the opposing side portions 63, the three side portions 63, or all the side portions 63. In this case, the switches 16a and 16b may be arranged on the inclined portions 64 of the opposite side portions 63, respectively, or may be arranged on the inclined portions 64 of the three side portions 63, respectively, and the inclined portions 63 of all the side portions 63 may be arranged. It may be arranged in each unit 64.

(Fourth modification)
Next, the radiography apparatus 700 of the fourth modification will be described with reference to FIG. FIG. 12 is a plan view showing an example of the radiography apparatus 700. The same configuration as that of the radiography apparatus 600 is designated by the same reference numerals, and the description thereof will be omitted as appropriate.
The radiography apparatus 700 has a switch 17.
The switch 17 is arranged on the inclined portion 64 of the side portion 63 close to the grip portion 7b. Here, the switch 17 is arranged so as to straddle the straight line AA, that is, to intersect the straight line AA. In other words, the switch 17 is arranged so as to overlap the straight line AA. Further, the switch 17 has a long shape along the longitudinal direction of the adjacent side portions 63. By arranging the switch 17 so as to intersect the straight line AA in this way, the switch 17 can be operated even when the grip portion 7b is gripped by either the left or right hand. Further, since the switch 17 can be configured by one, the number of parts can be reduced.

(Fifth modification)
Next, the radiography apparatus 800 of the fifth modification will be described with reference to FIG. FIG. 13A is an external view showing an example of the radiography apparatus 800 viewed from the incident direction of radiation. FIG. 13B is an external view showing an example of the radiological imaging apparatus 800 viewed from the opposite side of FIG. 13A. The same configuration as that of the radiography apparatus 600 is designated by the same reference numerals, and the description thereof will be omitted as appropriate.
The radiography apparatus 800 of the present embodiment has an inclined portion 65 as a part of the side portion 63. Here, it has a plurality of inclined portions 65 with respect to one side portion 63.
The radiography apparatus 800 of the present embodiment has a plurality of switches 18a and 18b.
The switches 18a and 18b are arranged on the inclined portions 65 of the side portions 63 close to the grip portion 7b. Even when such a wide inclined portion 65 cannot be formed, the switches 18a and 18b can be arranged on the inclined portion 65 formed in a part of the side portion 63.

As described above, according to the present embodiment and the modified example, the risk of unintentional operation can be reduced by providing the switch on the inclined portion of the side portion. Further, the switch can be operated even when the radiography apparatus is placed on a table or a pedestal for imaging.

Although the present invention has been described in detail based on the embodiments, the present invention is not limited to the above-described embodiments, and various forms within the scope of the present invention are also included in the scope of the present invention. Further, each of the above-described embodiments is merely an embodiment of the present invention, and each embodiment and modifications of each embodiment can be appropriately combined.

In the above-described embodiment and modification, the case where a plurality of switches are arranged substantially symmetrically on the straight lines AA and BB passing through the center of gravity G has been described, but the switches pass through the outer center and are located on the adjacent side portions 63. It may be arranged substantially symmetrically with a straight line orthogonal to the straight line.

1: Radiation detection panel 7: Housing 61: Incident part 62: Bottom 63: Side part 64, 65: Inclined part 7 (7a to 7f): Grip part 10 (10a to 10d): Switch 11 (11a, 11b): Switch 12 (12a, 12b): Switch 13 (13a, 13b): Switch 14 (14a-14d): Switch 16 (16a, 16b): Switch 17: Switch 18a, 18b: Switch 100-800: Radiation imaging device

Claims (16)

A radiation detection panel that detects radiation and
A housing that houses the radiation detection panel and
A radiography apparatus having a switch that can be operated by the user.
The housing is
It has an incident portion on which radiation is incident, a bottom portion located on the opposite side of the incident portion and provided with a concave grip portion to be gripped by the user, and a plurality of side portions.
The switch
A radiography apparatus provided in a range in which a user can operate the gripped portion with the fingers of the gripped hand while gripping the gripped portion. The grip portion
The radiographic apparatus according to claim 1, wherein the radiological imaging apparatus is provided at a position where it passes through the center of gravity of the radiographic imaging apparatus and overlaps with a straight line orthogonal to one of the plurality of side portions. The switch
The radiography apparatus according to claim 2, wherein the bottom portion is provided at a position deviated from the grip portion toward the center of gravity of the radiography imaging apparatus. The switch
The radiography apparatus according to claim 3, wherein the outer line of the grip portion is provided within a range of a movement locus in which the outline of the grip portion is moved toward the center of gravity of the radiography imaging apparatus. The switch
The radiographing apparatus according to claim 2, wherein the bottom portion is provided at a position deviated in the longitudinal direction of a side portion close to the grip portion from the grip portion. The switch
The radiographing apparatus according to claim 5, wherein the outer line of the grip portion is provided within a range of a movement locus in which the outer line of the grip portion is moved toward the longitudinal direction of the side portion close to the grip portion. The side portion has an inclined portion and has an inclined portion.
The switch
The radiography apparatus according to claim 2, wherein the radiography apparatus is provided on the inclined portion. The radiography apparatus according to claim 7, wherein the inclined portion is formed continuously with the incident portion. The switch
The radiography apparatus according to claim 2, wherein the radiography apparatus is provided on each of the plurality of side portions facing each other. The switch
The second or ninth aspect of the present invention, wherein the side portion is provided outside the range of a movement locus in which the outer line of the grip portion is moved to the opposite side of the center of gravity of the radiography apparatus. Radiation imaging device. The switch
The radiography apparatus according to any one of claims 2 to 10, wherein the radiography apparatus is provided substantially symmetrically with respect to the straight line. The switch
The radiography apparatus according to any one of claims 2 to 4, 7 to 10, which is provided so as to intersect the straight line. The switch
The radiography apparatus according to any one of claims 2 to 12, wherein the radiography apparatus is provided between the straight line and a side portion close to the grip portion in the longitudinal direction up to 130 mm. The switch
The radiography apparatus according to any one of claims 1 to 13, wherein the slide switch is operated by a slide operation. The direction of slide operation of the slide switch is
The radiography apparatus according to claim 14, wherein the user holds the grip portion in a movable direction of the fingers of the gripped hand. The switch
The radiography apparatus according to any one of claims 1 to 15, characterized in that it is a capacitance type.

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