JP2018175238A - Mammography apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To exchange easily a compression plate.SOLUTION: A mammography apparatus according to an embodiment comprises: a photography platform; a compression plate; and a holding mechanism. The photography platform has a photographing surface on which breasts of a subject are mounted. The compression plate compresses the breasts while sandwiching the breasts between it and the photographing surface. The holding mechanism detachably holds the compression plate. The compression plate comprises a first temporary fastening part on a held part which is held on the holding mechanism. The holding mechanism comprises a second temporary fastening part and a fixing mechanism. The second temporary fastening part is provided on a position facing the first temporary fastening part when the compression plate is held, and temporarily fastens the first temporary fastening part. The fixing mechanism fixes or releases the compression plate according to an operation performed by an operator in a state in which the first temporary fastening part is temporarily fastened.SELECTED DRAWING: Figure 2

Description

  Embodiments of the present invention relate to mammography devices.

  In mammography devices, a compression plate for close contact imaging is usually used. Also, for example, when it is desired to photograph a small calcification area, the compression plate is replaced, and a compression plate for magnified imaging is used. At this time, it is necessary to quickly replace the compression plate so as not to make the subject wait.

  After replacement of the compression plate, at the time of positioning, the breast of the subject is made thin and flat with a radiographer's hand and the mammary gland is in a spread state. The breast is fixed using a compression plate to keep the condition. During such positioning, if the compression plate falls off, the compression plate may be damaged or the compression plate may fall on the subject's foot and cause injury.

  Therefore, in the mammography device, it is necessary to be able to easily replace the compression plate and to fix the compression plate securely.

JP 2012-24166 A

  By the way, in the mammography apparatus, there is a case where a method of inserting and fixing the compression plate from substantially below is adopted as a holding mechanism for holding the compression plate. Here, some mammography devices can not attach and detach the compression plate with one hand, and it is necessary to replace the compression plate using both hands. Further, in some other mammography devices, although the compression plate can be replaced with one hand, it is necessary to hold the compression plate with three fingers and to operate the holding mechanism with the remaining fingers to fix the compression plate. That is, this type of mammography device can not easily replace the compression plate.

  The aim is to provide a mammography device in which the compression plate can be easily replaced.

The mammography apparatus according to the embodiment includes an imaging table, a compression plate, and a holding mechanism.
The imaging table has an imaging surface on which a breast of a subject is placed.
The compression plate squeezes by sandwiching the breast with the imaging plane. The holding mechanism detachably holds the compression plate.
Here, the compression plate has a first temporary fixing portion at a held portion held by the holding mechanism.
The holding mechanism includes a second temporary fixing portion and a fixing mechanism.
The second temporary tacking portion is provided at a position facing the first temporary tacking portion when the compression plate is held, and temporarily tacks the first temporary tacking portion.
The fixing mechanism fixes or releases the compression plate according to the operation of the operator in a state where the first temporary fixing portion is temporarily fixed.

It is a schematic diagram which shows the external appearance of the mammography apparatus which concerns on one Embodiment. It is a schematic diagram which shows the external appearance of the compression board in the embodiment. It is a top view which shows the external appearance of the compression board in the embodiment. FIG. 4 is a cross-sectional view taken along line 4A-4A in FIG. 3 in the same embodiment. FIG. 4B is a cross-sectional view taken along line 4B-4B in FIG. 3 in the embodiment. It is a schematic diagram which shows the external appearance of the holding | maintenance mechanism in the embodiment. It is a bottom view which shows the external appearance of the holding | maintenance mechanism in the embodiment. It is the 7-7 line arrow sectional view of Drawing 6 in the embodiment, and an enlarged drawing expanding and showing a part of it. FIG. 8 is a cross-sectional view showing a state in which a compression plate is temporarily fixed in the same cross section as FIG. 7 in the embodiment. It is the 9-9 line arrow directional cross-sectional view of FIG. 6 in the embodiment. It is sectional drawing which shows the state which fixed the compression board in the same cross section as FIG. 9 in the embodiment. It is a schematic diagram which shows the state which fixed the compression board in the embodiment from diagonally downward. It is a perspective view for demonstrating typically the structure of the holding | maintenance mechanism in the embodiment. It is a top view for demonstrating typically the structure of the holding | maintenance mechanism in the embodiment. It is a flowchart for demonstrating the operation | movement in the embodiment. It is a schematic diagram for demonstrating the operation | movement in the embodiment. It is a schematic diagram for demonstrating the operation | movement in the embodiment. It is sectional drawing for demonstrating the modification of the embodiment.

Hereinafter, one embodiment will be described using the drawings. In the following description, the “mammography apparatus” may be referred to as an “x-ray diagnostic apparatus” or a “mammography apparatus”. Similarly, the names of circular holes, slots, protrusions, tips, etc. may be changed as appropriate. For example, the "round holes" may be called "square holes", "long holes" or "holes" depending on the change in shape. A "slot" may be referred to as a "slot", "slot" or "groove". The "protrusion" may be called "convex", "mesa", "peak" or "fit". The "tip" may be referred to as the "end" or the "insertion end". "Fixed" may be called "lock".
<One embodiment>
FIG. 1 shows an appearance of a mammography apparatus according to an embodiment. The mammography apparatus includes an imaging table 6 having an imaging surface on which the breast of the subject is placed, a compression plate 40 for compressing the breast between the imaging surface, and a compression plate as elements related to the positioning of the breast. And a holding mechanism 50 for holding it as possible. The mammography device also has a stand 4. The stand 4 supports the substantially L-shaped or I-shaped arm 21 by the horizontal post 12 so as to be rotatable about the central axis of the horizontal post 12. By rotating the arm 21, it is possible to perform imaging of the head-to-tail direction (Cranio Caudal projection: CC), the inside and the outside oblique direction (MedioLateral Oblique projection: MLO), and the like. At one end of the arm 21 an X-ray tube 2 is provided. In practice, the x-ray tube 2 is covered by a housing. A high voltage generator 3 is electrically connected to the stand 4. The high voltage generator 3 applies a high voltage (tube voltage) between the electrodes of the X-ray tube 2 and supplies a filament current to the filament. Thereby, X-rays are generated in the X-ray tube 2. An operation unit may be disposed on the high voltage generator 3.

  At the other end of the arm 21, a photographing table 6 having a photographing surface is attached. The X-ray detector 5 is accommodated in the imaging stand 6 so as to face the imaging plane. As the X-ray detector 5, a film cassette, a CR cassette or a flat X-ray detector (flat panel detector; FPD) is employed. The X-ray detector 5 is disposed to face the X-ray tube 2 and detects X-rays transmitted through the compressed breast of the subject. Here, the direction connecting the plane center of the detection surface of the X-ray detector 5 and the focal point of the X-ray tube 2 is taken as the Z direction, the direction of the central axis of the horizontal column 12 is taken as the X direction, and in the Z and X directions The orthogonal direction is defined as the Y direction.

  The arm 21 is equipped with a holding mechanism 50. The holding mechanism 50 has a motor for moving the pressing plate 40 in the vertical direction (Z direction) while holding the pressing plate 40. The compression plate 40 is formed of a thermoplastic resin, and moves in the vertical direction so as to separate / close to the imaging table 6 while maintaining the parallel state with the imaging table 6. The compression plate 40 squeezes the breast of the subject with the imaging surface of the imaging table 6 by the downward movement. As a thermoplastic resin of the compression board 40, for example, polycarbonate having high mechanical strength and transmitting X-rays can be used. The compression plate 40 compresses the thin and flat breast with a radiologist's hand between the imaging table 6 and fixes the breast in a thin and flat state. The movement of the compression plate 40 and the rotation of the arm 21 can be performed by the radiologist operating the operation button of the operation panel 35 provided on a part of the arm rest 31. The armrest 31 has a U-shape so as to surround the arm 21 between the imaging stand 6 and the horizontal post 12.

Next, the compression plate 40 used for the above mammography apparatus will be described in detail. The compression plate for close contact imaging and the compression plate for enlarged imaging have the same configuration except for the shape of the compression portion in contact with the breast, and they are respectively detachably held by the holding mechanism 50. Therefore, here, a compression plate for close contact imaging will be described as a representative example.
FIG. 2 is a schematic view showing the appearance of the compression plate 40 described above. The compression plate 40 generally has a compression portion 41 having a box shape without a lid, a connection portion 42 for connecting the compression portion 41 to the held portion 43, and a flat plate shape held by the holding mechanism 50. And the held portion 43 of the The holding portion 43 has a circular hole 44a, a rectangular slot 45a, and a substantially oval protrusion 46 along the longitudinal direction (Y direction) of the surface of the compression portion 41 facing the chest wall of the subject. A rectangular slot 45a and a circular hole 44a are disposed. For example, the respective circular holes 44a are formed at positions symmetrical with respect to the center line L43x of the held portion 43 along the direction (X direction) orthogonal to the longitudinal direction (Y direction) of the surface facing the chest wall, Similarly, the respective groove holes 45a are formed at positions symmetrical with respect to the center line L43x. Providing each of the circular holes 44a and each of the grooves 45a at symmetrical positions is preferable from the viewpoint of temporarily holding and holding the compression plate 40 without being biased. However, the arrangement of the circular holes 44a and the groove holes 45a is not limited to this, and can be arbitrarily changed. Further, a longitudinal center line (not shown) of the protrusion 46 is positioned so as to overlap the center line L43x of the held portion 43. The longitudinal direction of the surface of the compression unit 41 facing the chest wall of the subject corresponds to the Y direction when the holding mechanism 50 holds the compression plate 40. However, the longitudinal direction of the groove 45 a and the protrusion 46 is in the X direction which is orthogonal to the Y direction in the held portion 43.

  The number of the circular holes 44a and the grooves 45a is not limited to two, and can be changed as appropriate. Similarly, the number of protrusions 46 is not limited to one, and a plurality of protrusions may be provided. When a plurality of projecting portions 46 are provided, each projecting portion 46 contributes to the alignment between the holding mechanism 50 and the held portion 43, and does not support the weight of the compression plate 40. It may be symmetrical or asymmetrical with respect to the center line L43x of Similarly, even when there is only one protrusion 46, the protrusion 46 may not necessarily be located on the center line of the held portion 43.

  Further, the convex side on the opposite side to the connection portion 42 in the held portion 43 is called a tip 47. The tip end 47 is an end positioned at the front when the held portion 43 is inserted into the holding mechanism 50.

  3 is a plan view showing the appearance of the compression plate 40, and FIGS. 4A and 4B are a sectional view taken along line 4A-4A in FIG. 3 and a sectional view taken along line 4B-4B in FIG. Here, among the two surfaces of the flat-plate-like held portion 43, the surface facing the holding mechanism 50 when held by the holding mechanism 50 is called the first surface (upper surface), and is opposite to the first surface. The surface is referred to as a second surface (lower surface). In FIGS. 4A and 4B, the first surface of the held portion 43 is a surface on the upper side of the drawing, and the second surface of the held portion 43 is a surface on the lower side of the drawing.

  At this time, in the held portion 43, an iron plate 44b is provided on the second surface so as to close the circular hole 44a. Here, the iron plate 44 b closing the circular hole 44 a constitutes a first temporary fixing portion. That is, the held portion 43 has a first temporary fixing portion. In addition, in the compression plate 40, at least a portion different from the first temporary fixing portion is formed of resin. Such an iron plate 44b is an example of a ferromagnetic member that is not a permanent magnet, and may be changed to a ferromagnetic member other than iron. The iron plate 44 b is fixed to the held portion 43 by, for example, a fixing tool such as a bolt and a nut (not shown).

  Further, in the held portion 43, an iron plate 45b is provided on the second surface so as to be in contact with the short side of the groove hole 45a. Of the two short sides of the groove 45a, the short side in contact with the iron plate 45b is the short side located farther from the connection portion 42. The iron plate 45 b is fixed to the held portion 43 by, for example, a fixing tool such as a bolt and a nut (not shown).

  Further, the held portion 43 has a projecting portion 46 in a region different from the first temporary fixing portion. The protrusion 46 is a fixture such as a bolt and a nut (not shown), for example, a protrusion 46 a disposed on the first surface of the held portion 43 and a flat plate 46 b disposed on the second surface of the held portion 43. Thus, the held portion 43 is provided so as to be held. The convex portion 46 a and the flat plate 46 b may be either resin or metal. Alternatively, the flat plate 46 b may be omitted, and the protrusion 46 a fixed to the held portion 43 by a screw or the like may be used as the protrusion 46. Moreover, each iron plate 44b and 45b may be provided not only as separate iron plates but as each part of one iron plate.

Next, the holding mechanism 50 for holding the compression plate 40 as described above will be described in detail.
FIG. 5 is a schematic view showing the appearance of the holding mechanism 50 from diagonally below, and FIG. 6 is a bottom view showing the appearance of the holding mechanism from below. The holding mechanism 50 roughly positions the holding plate 53 facing the holding portion 43 and the holding plate 53 at the time of holding the held portion 43 of the compression plate 40, and the tip of the holding portion 43 And a housing portion 57 for housing a part including the part 47. In addition, the accommodating part 57 is arbitrary additional matters, and may be abbreviate | omitted.

  The holding plate 53 is a nonmagnetic plate-like member that is not attracted to the permanent magnet. The holding plate 53 is formed at a position facing the groove hole 45 a and a permanent magnet 54 a disposed at a position facing the iron plate 44 b in the circular hole 44 a of the held portion 43 when the compression plate 40 is held. And a hole 56 formed at a position facing the protrusion 46a. The permanent magnet 54a has a property of adsorbing a ferromagnetic member such as the iron plate 44b. The short hole on the tip end side of the substantially L-shaped wedge member 55c escapes from the inside of the holding mechanism 50 or is accommodated in the groove hole 55b in response to the operation of the operation portion 55a provided in the holding mechanism 50. In addition, as the operation unit 55a, any part that can be rotated can be applied, such as a knob, a lever or a handle. Further, the wedge member 55c is not limited to the substantially L shape, but may be a substantially C shape.

  Here, the permanent magnet 54a will be described. 7 is a sectional view taken along line 7-7 in FIG. 6 and an enlarged view showing a part of the same. As illustrated, for fixing the permanent magnet 54a, a cylindrical member 54b having a flange 54b1 at one end and on which a spring member 54c is wound is used. With the other end of the cylindrical member 54b passing through the through hole of the holding plate 53, the permanent magnet 54a is fixed to the other end with a screw 54d. Thereby, the permanent magnet 54a is movable in the direction orthogonal to the holding plate 53, and is provided in a state of being pulled toward the holding plate 53 by the elastic force of the spring member 54c. Therefore, as shown in FIG. 8, in a state where the tip end 47 of the compression plate 40 is housed in the housing portion 57 of the holding mechanism 50, the permanent magnet 54 a moves in the direction orthogonal to the holding plate 53 and the held portion 43 The iron plate 44 b is adsorbed through the circular hole 44 a of the second plate 44, and the iron plate 44 b is pulled toward the holding plate 53. Thereby, the permanent magnet 54a can temporarily fix the compression plate 40. The permanent magnet 54a, the cylindrical member 54b, the spring member 54c and the screw 54d are provided at a position facing the first temporary fixing portion (iron plate 44b closing the circular hole 44a) when the compression plate 40 is held. The second temporary fixing unit temporarily fixes the first temporary fixing unit. That is, the holding mechanism 50 includes the second temporary fixing portion. Here, the term "temporarily hold" means that "retains detachably". Further, the temporarily fixed strength is a strength that requires fixation by the fixing mechanism 50, although the compression plate 40 does not come off even if the hand is released. Specifically, for example, the temporarily fixed strength is such a strength that the compression plate 40 does not drop out even when the hand hits the operation of the fixing mechanism 50 and the compression plate 40 drops out if the compression plate 40 compresses the breast during positioning. It is. The temporary fixing mechanism by such a permanent magnet and the ferromagnetic member is not limited to this. For example, as the first temporary fixing portion, the circular hole 44a is omitted, and the iron plate 44b is the first surface of the held portion 43 It is also possible to use a modified arrangement placed on the (upper surface). In addition, as the temporary fixing mechanism, for example, a manual or automatic fixing device for closing the lid of the parcel may be used. In addition, the second temporary fixing unit may be configured to attract the first temporary fixing unit by an electromagnetic force, for example. For example, the first temporary fixing portion may have a permanent magnet, and the second temporary fixing portion may have a ferromagnetic member. Alternatively, both the first temporary fixing portion and the second temporary fixing portion may have permanent magnets. The first temporary fixing portion and the second temporary fixing portion may be opposed to each other with an object such as a resin member not exhibiting ferromagnetism interposed therebetween. Further, as the electromagnetic force, instead of the magnetic force, an electrostatic force may be used. For example, a capacitor is provided using the first temporary fixing unit and the second temporary fixing unit, and a voltage is applied to the capacitor to attract the second temporary fixing unit to the first temporary fixing unit by electrostatic force. It may be

  Subsequently, the wedge member 55c will be described. 9 is a cross-sectional view taken along line 9-9 in FIG. 6, where FIG. 9 (a) corresponds to the released state and FIG. 9 (b) corresponds to the fixed state. As illustrated, the proximal end side of the wedge member 55c is fixed to a rod-like member 55d having a longitudinal direction in the Y direction. The operation portion 55a described above is attached to both ends of the rod-like member 55d. As a result, in accordance with the rotation of the rod-like member 55d by the operation of the operation portion 55a, the short piece on the tip end side of the wedge member 55c is released or accommodated from the inside of the holding mechanism 50. As shown in FIGS. 5 and 9, when the operating portion 55a points to the fixed position "LOCK", when the wedge member 55c escapes from the groove 55b and the operating portion 55a points to the release position "UNLOCK", The member 55c is accommodated in the slot 55b. Therefore, when the operating portion 55a is operated from the release position to the fixed position in a state where the compression plate 40 is temporarily fixed, as shown in FIG. 10 and FIG. And hold the held portion 43. In addition, the code | symbol 48 has shown the several reinforcement board which reinforces the compression part 41, the connection part 42, and the to-be-held part 43 in FIG. The operation portion 55a, the groove 55b, the wedge member 55c and the rod-like member 55d constitute a fixing mechanism. That is, the holding mechanism 50 includes a fixing mechanism. The fixing mechanism is a mechanism that fixes or releases the compression plate 40 in accordance with the operation of the operator in a state where the first temporary fixing portion is temporarily fixed. Here, the term "fixed" is meant to hold more firmly than "temporarily fixed". Therefore, the fixing strength is, for example, a strength that prevents the compression plate 40 from dropping out of the holding mechanism 50 when the fixed compression plate 40 compresses the breast. For example, as shown in FIGS. 12 and 13, such a fixing mechanism is provided with a plurality of wedge members 55c along the rod-like member 55d from the viewpoint of stably holding the compression plate 40 by a simple operation. preferable. That is, by a simple operation of rotating one operation unit 55a, the plurality of wedge members 55c can be collectively rotated via the rod-like member 55d. Further, at least one operation portion 55a may be provided, but it is preferable to provide the operation portion 55a on both sides of the side surface of the holding mechanism 50 from the viewpoint of being able to cope with operations with either the right hand or the left hand. In addition to this, since there are a plurality of wedge members 55c, the compression plate 40 can be stably held. Here, it is preferable to provide each of the wedge members 55c in a symmetrical position with respect to the central portion of the rod-like member 55d equidistant from the operation portion 55a at both ends, from the viewpoint of holding the compression plate 40 without deviation. Further, for example, as the fixing mechanism, the first flat portion 55d1 and the second flat portion 55d2 orthogonal to each other are formed on the side surface of the rod-like member 55d, and one end of the metal plate 55e holds down one of the flat portions 55d1 and 55d2. It is also good. Specifically, the metal plate 55e holds the first flat portion 55d1 when the operation portion 55a points to the fixed position, and the metal plate 55e holds the second flat portion 55d2 when the operation portion 55a points the release position. It is also good. The other end of the metal plate 55 e is fixed to the holding plate 53. Thereby, in the fixing mechanism, the state in which the compression plate 40 is fixed and the state in which the compression plate 40 is released are clearly distinguished.

  Next, the operation of replacing the compression plate of the mammography apparatus configured as described above will be described using the flowchart of FIG. 14 and the schematic views of FIGS. 15 and 16. The following description mainly describes the operation of the radiologist as the operator attaching the compression plate 40.

  First, as shown in FIG. 14 and FIG. 15, the distal end 47 of the held portion 43 is inserted into the housing portion 57 of the holding mechanism 50 in a state where the compression portion 41 is held by the radiologist with one hand (Step ST1).

  Subsequently, the compression plate 40 is lifted with one hand with the tip end 47 being the insertion point as a fulcrum (step ST2). At this time, the convex portion 46a of the held portion 43 is inserted into the hole portion 56 of the holding mechanism 50, and the iron plate 44b closing the circular hole 44a of the held portion 43 approaches the permanent magnet 54a and is attracted. As a result, as shown in FIGS. 14 and 16, since the compression plate 40 is temporarily fixed to the holding mechanism 50 (step ST3), the compression plate 40 does not fall even if the radiologist releases the hand.

  In this state, the compression plate 40 is fixed by the holding mechanism 50 according to the operation of the radiologist (step ST4). Specifically, in accordance with the rotation of the rod-like member 55d by the operation of the operation portion 55a, the short piece on the tip end side of the wedge member 55c comes out of the groove hole 45a and fixes the held portion 43.

  Thus, the compression plate 40 is held by the holding mechanism 50.

  Hereinafter, the mammography apparatus reads the input information inputted by the operation of the operation panel 35 by the radiographer by the operation of the radiographer, and adjusts the angle and the height of the arm 21 according to the imaging direction and the height of the breast. Do.

  Next, on the imaging stand 6, positioning of the breast of the subject is performed by a radiologist. In positioning of CC imaging, the compression plate 40 is lowered with the breast interposed between the compression plate 40 and the imaging plane (X-ray detector 5).

  After the lowering of the compression plate 40, if necessary, the radiologist's hand is positioned between the compression plate 40 and the breast, and the breast is flattened by the radiologist's hand to make the mammary gland open. In order to maintain the condition, the radiographer's hand is pulled out and the breast is fixed using the compression portion 41 of the compression plate 40. This completes the positioning of CC imaging.

  Subsequently, in a state in which the breast of the subject is fixed, preparation operations such as adjustment of the X-ray irradiation field and input of information indicating whether the breast to be imaged is the left or the right breast are performed.

  After that, the breast is photographed in the fixed state. Irradiation of the breast with X-rays is performed by the operation of a radiologist. At this time, X-rays corresponding to conditions such as the irradiation dose of X-rays set in advance are directed toward the breast. If the operating unit 55a of the holding mechanism 50 indicates the released state, the control circuit (not shown) prohibits the irradiation of X-rays.

  After the X-ray irradiation, the X-ray detector 5 on the imaging plane detects the X-rays transmitted through the breast. When the X-ray detector 5 is FPD, the detected X-ray is converted into an electrical signal in the X-ray detector 5. The electrical signal is converted into projection data by a data acquisition circuit (not shown). The projection data is converted into image data of a breast by an image processing circuit (not shown). Image data of the breast is displayed on the display. With regard to breast image data, information on the left and right of the breast is stored as incidental information.

  When the X-ray irradiation to the breast of the subject is completed, the holding mechanism 50 raises the compression plate 40 from the imaging table 6.

  When imaging of the breast of the subject is continued, for example, when imaging different imaging directions or the other breast, the series of processing is repeated again, and imaging is terminated when all imaging is completed.

  Here, it is assumed that the image data displayed on the display indicates, for example, a region of small calcification. As a result, it is necessary to replace the compression plate for close contact imaging with the compression plate for enlargement imaging and to image the area of the small calcification.

  In this case, the compression plate 40 for close contact imaging can be removed from the holding mechanism 50 by performing the steps ST1 to ST4 described above in reverse. That is, in a state where the compression plate 40 is fixed to the holding mechanism 50, the compression plate 40 is released from the fixing mechanism according to the operation of the radiologist. In detail, in accordance with the rotation of the rod-like member 55d by the operation of the operation portion 55a, the short piece on the tip end side of the wedge member 55c is pulled back into the groove hole 45a, and the held portion 43 is released from the fixing mechanism. In addition, even if the held portion 43 is released from the fixing mechanism, since the compression plate 40 is temporarily fixed to the holding mechanism 50, it does not fall.

  Subsequently, in a state where the compression section 41 is held by the radiologist with one hand, the compression plate 40 is pulled down with the tip end 47 of the held section 43 as a fulcrum. As a result, the permanent magnet 54a of the holding mechanism 50 is disengaged from the iron plate 44b of the held portion 43, so that the temporary fixation of the compression plate 40 is released.

  After that, the compression plate 40 is pulled out of the storage portion 57 of the holding mechanism 50 in a state where the compression portion 41 is held by the radiologist with one hand. Thus, the compression plate 40 is removed from the holding mechanism 50.

  Thereafter, the compression plate for enlargement imaging is attached to the holding mechanism 50 in the same manner as in steps ST1 to ST4 described above, and the replacement of the compression plate is completed.

  Thereafter, in order to execute the enlarged imaging of the breast of the subject, the above-described series of processes are repeated again. The shooting ends when all shooting is completed.

As described above, according to the present embodiment, the holding plate in which the compression plate is held by the holding mechanism has the first temporary fixing portion, and in the holding mechanism, the second temporary fixing portion is the first temporary holding portion. The locking portion is temporarily fixed, and the fixing mechanism fixes or releases the compression plate in response to the operation of the operator.
As described above, by the configuration in which the compression plate is held in two steps of the temporary fixing step and the fixing step, the operator can perform the fixing operation in a state where the hand is released from the compression plate by the temporary fixing. Can be easily replaced.

  Supplementally, in the prior art, the compression plate can not be easily replaced because the compression plate is replaced using both hands. In the other conventional example, although the compression plate can be replaced with one hand, the compression plate can be fixed by operating the holding mechanism with the remaining fingers while holding the compression plate with three fingers. It can not be easily replaced.

  On the other hand, in the present embodiment, the holding of the compression plate for temporarily fixing and the operation of the fixing mechanism for fixing can be performed with one hand. At this time, in the present embodiment, the five fingers of one hand are used for the same application, and the holding of the compression plate before temporary fixing and the operation of the fixing mechanism after temporary fixing can be respectively performed, unlike the conventional case. The compression plate can be easily replaced. In addition, if the operation of attaching the compression plate is reversed, the same function and effect can be obtained for the operation of removing the compression plate.

  In addition, since the compression paddle can be easily replaced, the throughput of the examination can be improved.

  Further, according to the present embodiment, the second temporary fixing unit may be configured to attract the first temporary fixing unit by an electromagnetic force. In this case, as compared with the case where the second temporary fixing unit mechanically fixes the first temporary fixing unit, the mechanical movable portion can be reduced, so that the reliability can be improved.

  Further, according to the present embodiment, the first temporary fixing portion of the compression plate includes a ferromagnetic member that is not a permanent magnet, and the second temporary fixing portion of the holding mechanism includes a permanent magnet that adsorbs the ferromagnetic member. May be In this case, it is possible to easily realize a configuration that attracts by electromagnetic force. Further, since the ferromagnetic member is less expensive than the permanent magnet, it is possible to suppress the replacement cost of the compression plate which is a consumable item at a low price.

  Further, according to the present embodiment, as the compression plate, a portion different from at least the first temporary fixing portion may be formed of resin. In this case, since the compression plate made of resin is light, the possibility of the drop of the compression plate in the temporarily fixed state can be reduced.

  Further, according to the present embodiment, the held portion has the protruding portion in a region different from the first temporary fixing portion, and the holding mechanism is at a position facing the protruding portion when holding the held portion. A hole may be provided for inserting the protrusion. In this case, the positioning of the compression plate with respect to the holding mechanism can be performed by inserting the protrusion of the compression plate into the hole of the holding mechanism before temporarily fixing. Therefore, the second temporary fixing portion of the holding mechanism can temporarily fix the first temporary fixing portion of the compression plate smoothly.

(Modification)
Next, a modification of the embodiment will be described.
In this modification, instead of the second temporary fixing unit attracting the first temporary fixing unit by the electromagnetic force, the first temporary fixing unit of the compression plate is snap fit to the second temporary fixing of the holding mechanism 50. It has the structure engaged with a part. The number and arrangement of the first temporary fixing portion and the second temporary fixing portion can be arbitrarily changed as described above.

  Here, as the first temporary fixing portion of the compression plate 40, as shown in FIG. 17 (a), a portion different from FIG. 4B is replaced with an iron plate 44b, and a snap fit 44c made of a resin is elastically deformed. It is provided so as to pass through the circular hole 44a. Here, the convex portion 44c1 at the tip of the snap fit 44c is disposed on the first surface (upper surface) side of the held portion 43, and the elastic deformation of the snap fit 44c causes displacement along the Y direction indicated by the broken arrow. It is possible. The proximal end of the snap fit 44c is attached to the second surface (lower surface) via the bending portion 44c2.

  Accordingly, as shown in FIG. 17B, the second temporary fixing portion of the holding mechanism 50 is replaced by the permanent magnet 54a, the cylindrical member 54b, the spring member 54c and the screw 54d, as shown in FIG. A hole 54 e is formed at a position facing the circular hole 44 a of the held portion 43. Thereby, when the holding mechanism 50 temporarily fixes the held portion 43, the snap fit 44c is deformed along the Y direction indicated by the arrow, and the convex portion 44c1 passes through the hole 54e. Thereafter, as shown in FIG. 17C, the holding mechanism 50 temporarily fixes the held portion 43 by the projection 44c1 of the snap fit 44c engaging with the hole 54e.

  According to the above-described modification, even if the structure is engaged by snap fitting instead of the structure attracting by electromagnetic force, the same function and effect as those of the embodiment can be obtained. Instead of this modification, the second temporary fixing portion of the holding mechanism 50 has a snap fit, and the first temporary fixing portion of the compression plate 40 has a hole engaged with the snap fit. It is also good. Alternatively, the first tacking portion and the second tacking portion may each have a snap fit that is detachably engaged with each other. However, unlike a hole, since a snap fit is elastically deformed with each use, it is preferable to provide the compression plate 40 which is easy to replace when broken. Moreover, not only these but the mechanism to temporarily fix and the mechanism to fix are changeable suitably.

  The iron plate 44 b closing the circular hole 44 a in one embodiment is an example of the first temporary fixing portion in the claims. The permanent magnet 54a, the cylindrical member 54b, the spring member 54c, and the screw 54d in one embodiment are an example of a second temporary fixing portion in the claims. The operation portion 55a, the groove hole 55b, the wedge member 55c, and the rod-like member 55d in one embodiment are an example of the fixing mechanism in the claims. The snap fit 44c passing through the circular hole 44a in the modification of one embodiment is another example of the first temporary fixing portion in the claims. The hole 54e in the modification of one embodiment is another example of the second temporary fixing portion in the claims.

  While certain embodiments of the present invention have been described, these embodiments have been presented by way of example only, and are not intended to limit the scope of the invention. These embodiments can be implemented in other various forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the invention described in the claims and the equivalents thereof as well as included in the scope and the gist of the invention.

  DESCRIPTION OF SYMBOLS 2 ... X-ray tube, 3 ... High voltage generator, 4 ... Stand, 5 ... X-ray detector, 6 ... Photography stand, 12 ... Horizontal pillar, 21 ... Arm, 40 ... Compression board, 41 ... Compression part, 42 ... Connection part 43: holding part 44a: circular hole 44b, 45b: iron plate 45a, 55b: groove hole 46: protrusion 46a: convex part 46b: flat plate 47: tip: 50: holding mechanism, 53: holding plate, 54a: permanent magnet, 54b: cylindrical member, 54c: spring member, 54d: screw, 55c: wedge member, 55d: rod member, 55e: metal plate, 56: hole portion, 57: housing portion, L43x ... center line.

Claims (6)

An imaging table having an imaging surface on which a subject's breast is placed;
A compression plate sandwiching and compressing the breast with the imaging surface;
And a holding mechanism for detachably holding the compression plate,
The compression plate has a first temporary fixing portion at a held portion held by the holding mechanism,
The holding mechanism is
A second temporary fixing unit provided at a position facing the first temporary fixing unit when the compression plate is held, and temporarily holding the first temporary fixing unit;
And a fixing mechanism configured to fix or release the compression plate in accordance with the operation of the operator in a state in which the first temporary fixing unit is temporarily fixed.   The mammography apparatus according to claim 1, wherein the second temporary fixing unit attracts the first temporary fixing unit by an electromagnetic force. The first temporary fixing portion includes a ferromagnetic member that is not a permanent magnet,
The mammography device according to claim 2, wherein the second temporary fixing portion includes a permanent magnet that adsorbs the ferromagnetic member.   The mammography device according to claim 1, wherein the first temporary fixing part engages with the second temporary fixing part by a snap fit.   The mammography apparatus according to any one of claims 1 to 4, wherein at least a portion of the compression plate different from the first temporary fixing portion is formed of a resin. The held portion has a protrusion in a region different from the first temporary fixing portion,
6. The holding mechanism according to claim 1, wherein a hole for inserting the protrusion is provided at a position facing the protrusion when holding the held portion. The mammography apparatus as described in a term.