JP2016214723A - Ultrasound diagnostic device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To maintain a housed ultrasonic probe still in an ultrasound diagnostic device which allows a user to carry the ultrasound diagnostic device with the ultrasonic probe housed.SOLUTION: An ultrasound diagnostic device 10 comprises a device body and a probe housing case 14 for housing an ultrasonic probe 16. The probe housing case 14 includes a mounting plate 40 detachably attached on the device body and a tray 38 which can be opened and closed with respect to the mounting plate 40, forming a housing space for housing the ultrasonic probe with the mounting plate 40. The probe housing case 14 also has an inner lid 42 to hold the ultrasonic probe 14 in the tray 38 to be in the tray.SELECTED DRAWING: Figure 7

Description

  The present invention relates to an ultrasonic diagnostic apparatus, and more particularly to a portable ultrasonic diagnostic apparatus.

  An ultrasonic diagnostic apparatus is an apparatus that provides an ultrasonic image based on a received signal obtained by transmitting and receiving ultrasonic waves to and from a living body. This ultrasonic diagnostic apparatus includes an ultrasonic probe that includes an ultrasonic transducer and has a probe head that contacts the living body and transmits and receives ultrasonic waves to the living body, and a transmission / reception circuit that drives the ultrasonic transducer of the probe head. Including the main unit. The apparatus main body further includes a signal processing circuit for processing the obtained reception signal to form an ultrasonic image, a display unit for displaying the ultrasonic image, and an operation unit for operating the apparatus.

  In recent years, due to the downsizing of electronic components and the like, portable ultrasonic diagnostic apparatuses that can be carried by hand, that is, portable ultrasonic diagnostic apparatuses have been commercialized. Patent Document 1 below proposes a portable ultrasonic diagnostic apparatus having a storage body for storing a probe head in an apparatus main body.

JP 2010-240072 A

  When carrying the ultrasonic diagnostic apparatus in a state where the ultrasonic probe is accommodated, it is required to hold the accommodated ultrasonic probe so as not to move in the accommodation space. In addition, when the ultrasonic probe is put in and out of the accommodation space, the ultrasonic probe needs to be stably held even when the accommodation space is opened and closed.

  An object of the present invention is to provide an ultrasonic diagnostic apparatus that can stably hold an ultrasonic probe in a space in which the ultrasonic probe is accommodated.

  An ultrasonic diagnostic apparatus according to the present invention includes an apparatus main body and a probe housing case that houses an ultrasonic probe. The probe housing case can be attached to and detached from the apparatus main body. The probe housing case includes a mounting plate that is attached to and detached from the apparatus main body, a tray that is openable and closable with respect to the mounting plate and that forms a housing space for housing the ultrasonic probe together with the mounting plate, and an ultrasonic probe in the tray. Probe holding means for holding.

  The ultrasonic probe can be stably held in the probe housing case by the probe holding means. For example, when opening and closing the probe housing case by moving the tray, the probe holding means can suppress the movement of the ultrasonic probe from the tray.

  The probe holding means may be an inner lid made of a hard material that can be opened and closed with respect to the tray. The inner lid can be provided with a cushion that comes into contact with a predetermined part of the ultrasonic probe. The part to be contacted can be, for example, a probe head.

  A partition wall or holding wall for positioning or holding a predetermined portion of the ultrasonic probe can be provided on the inner surface of the bottom surface of the tray that faces the mounting plate when the tray is closed. For example, an outer partition wall that defines at least a part of an outer boundary of a position where the ultrasonic probe is accommodated is provided. The probe head is accommodated in the probe case while being held by the probe head holder, and a holder holding wall for accommodating and holding the probe head holder can be provided on the inner surface of the bottom surface of the tray. Further, an inner partition wall can be provided between the accommodated ultrasonic probe cable and the ultrasonic transmission / reception surface of the probe head. Moreover, the terminal part holding wall which accommodates and holds the terminal part of a probe connector can be provided.

  In addition, a cushion layer can be formed in a region of the tray that accommodates the ultrasonic probe.

  By providing the probe holding means for holding the ultrasonic probe in the tray in the tray, the ultrasonic probe can be stably held in the tray. The ultrasonic probe can be held in the tray even when the tray is opened and closed.

It is a perspective view which shows an external appearance when the ultrasonic diagnostic apparatus of this embodiment is laid flat. It is a side view which shows an external appearance when the ultrasonic diagnostic apparatus of this embodiment is laid flat. It is a perspective view which shows the external appearance when standing up the ultrasonic diagnostic apparatus of this embodiment. It is a figure which shows an example of the usage condition of the ultrasonic diagnosing device of this embodiment. It is an external view of the probe housing case, and particularly shows a state where the case is closed. It is an external view of the probe storage case, and particularly shows a state in which a mounting plate is opened. It is an external appearance of the probe storage case, and particularly shows a state where the inner lid is opened in addition to the mounting plate. It is an external appearance of the probe housing case, and particularly shows a state after the ultrasonic probe is taken out. It is a figure which shows the surface which opposes an apparatus main body of a probe storage case. It is a figure which shows the surface which opposes a probe storage case of an apparatus main body. It is a figure which shows the detail of an attachment hook and a lock piece. It is a figure which shows the detail of an attachment piece and an engagement hole. It is explanatory drawing of the operation | movement which attaches a probe storage case to an apparatus main body. It is a top view which shows the probe storage case of the state which accommodated the ultrasonic probe in the tray. It is a top view which shows the probe storage case of the state after taking out an ultrasonic probe. It is a figure which shows the probe head and the probe head holder holding the probe head. It is a top view which shows the state which accommodated the linear type ultrasonic probe. It is a top view which shows the state which accommodated the sector type ultrasonic probe. It is a perspective view which shows the state which removed the cushion sheet from the tray. It is sectional drawing which shows the structure for couple | bonding a cushion sheet | seat with a tray main body. It is sectional drawing of the probe storage case in the AA line of FIG. It is an enlarged view of the part shown by B of FIG.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1 to 4 are views showing the appearance of the ultrasonic diagnostic apparatus 10, FIG. 1 is a perspective view of the ultrasonic diagnostic apparatus 10 in a flat state, FIG. 2 is a side view of the flat state, and FIG. The perspective view in a state and FIG. 4 are figures which show an example of a use aspect. The ultrasonic diagnostic apparatus 10 includes a device main body 12 and a probe housing case 14 that houses the ultrasonic probe 16. The probe housing case 14 is detachable from the apparatus main body 12, and FIGS. 1 to 3 show a state in which the probe housing case 14 is attached to the apparatus main body 12. FIG. 4 shows the apparatus main body 12 with the probe housing case 14 removed and the ultrasonic probe 16 attached thereto.

  The ultrasonic probe 16 includes a probe head 18 that transmits and receives ultrasonic waves into a living body, a probe connector 20 that connects the ultrasonic probe 16 to the apparatus main body 12, and a cable that connects the probe head 18 and the probe connector 20. 22 is included. When the ultrasonic diagnostic apparatus 10 is used, as shown in FIG. 4, the probe head 18 is held by the probe head holder 24 attached to the apparatus main body 12, and when the probe head 18 is used while being applied to the target, the probe head holder 24 is used. Removed from.

  The apparatus main body 12 includes a first device 26 and a second device 28. The second device 28 can be rotated from the parallel arrangement shown in FIG. 1 with respect to the first device 26 to the raised state shown in FIG. 4. The second device 28 can be held at an arbitrary angular position with respect to the first device 26. Further, the second device 28 may be detachable from the first device 26. In this case, the first device 26 and the second device 28 are wirelessly connected. The first device 26 has a receptacle to which the probe connector 20 is connected. Although the receptacle is exposed when the probe connector 20 is not connected, it may be covered with a receptacle cover 30 that protects the terminals and the like as shown in the figure. The first device 26 is a device that supplies a transmission signal to the ultrasonic probe 16 when transmitting an ultrasonic wave and generates reception beam data based on the reception signal when receiving the ultrasonic wave. The second device 28 is a device that generates an ultrasonic image based on the received beam data generated by the first device 26. The second device 28 further includes a touch panel display 32 that doubles as a display device for displaying an ultrasonic image and an operation device for operation.

  As shown in FIGS. 1 and 2, the device main body 12 has a thin box shape when the second device 28 is disposed along the first device 26. A state in which the thickness of the box shape is placed in the vertical direction is referred to as a flat state, and the bottom surface at this time is referred to as a bottom surface 34 of the apparatus body. The apparatus main body bottom surface 34 is a surface of the first device 26 opposite to the side where the second device 28 is disposed. As shown in FIGS. 1 and 2, the apparatus main body 12 can be placed on the probe housing case 14. The surface of the probe housing case 14 facing the apparatus main body bottom surface 34 is substantially the same size as the apparatus main body bottom surface 34, and the thickness (the vertical dimension in FIG. 2) is slightly thinner than the apparatus main body 12. . The planar shape of the probe housing case 14, that is, the shape projected onto the horizontal plane in the flat state is equal to or slightly smaller than that of the apparatus main body 12. Thereby, a space is not taken compared with the case of the apparatus main body 12 alone.

  The ultrasonic diagnostic apparatus 10 can be used in a state where the apparatus main body 12 and the probe housing case 14 are stacked. As shown in FIG. 1, since the touch panel display 32 is exposed, the operation of the ultrasonic diagnostic apparatus 10 and an ultrasonic image can be presented. When the ultrasonic diagnostic apparatus 10 is in use, the ultrasonic probe 16 is in a state of being mounted on the apparatus main body 12 as shown in FIG. The probe head 18 can be removed from the probe head holder 24 and brought into contact with an object, ultrasonic waves can be transmitted and received, and an ultrasonic image can be provided by the touch panel display 32. Further, the second device 28 can be used by being raised as shown in FIG. In a state where the apparatus main body 12 and the probe storage case 14 are stacked, the probe storage case 14 becomes a base, and the apparatus main body 12 can be placed at a high position by the thickness. By stacking the apparatus main body 12 on the probe housing case 14, the operability when the ultrasonic diagnostic apparatus 10 must be placed on a low surface such as the floor or the ground is improved. Of course, the probe housing case 14 can be detached from the apparatus main body 12 and used in the state of the apparatus main body 12 alone. The ultrasonic diagnostic apparatus 10 can be placed at a relatively high position such as a desk or table, and when the raising is unnecessary, the probe housing case 14 can be removed and used.

  The ultrasonic diagnostic apparatus 10 is erected from the flat position shown in FIG. 1 with the apparatus main body 12 and the probe housing case 14 assembled, and is erected as shown in FIG. 3 and placed on a flat surface such as a desk or a floor. be able to. This state is referred to as an upright state. When carrying the ultrasonic diagnostic apparatus 10, the main body handle 36 provided on the upper surface can be used in the standing state of the apparatus main body 12. The main body handle 36 is normally stored in the apparatus main body 12, and can be pulled up during use to hold the ultrasonic diagnostic apparatus 10.

  5 to 7 are explanatory diagrams of the opening / closing operation of the probe housing case 14. FIG. 5 is a diagram illustrating a state in which the apparatus main body 12 is removed from the state in which the apparatus main body 12 and the probe housing case 14 of FIG. 1 are stacked. In FIG. 5, a space for accommodating the ultrasonic probe 16 is defined by the tray 38 that is open at the top and the mounting plate 40 that serves as a lid that covers the open surface of the tray 38. FIG. 6 is a view showing a state in which the attachment plate 40 is rotated upward and opened. As shown in FIG. 6, an inner lid 42 is disposed inside the mounting plate 40. FIG. 7 is a view showing a state where the inner lid 42 is further rotated upward and opened. FIG. 8 is a view showing a state after the accommodated ultrasonic probe 16 is taken out.

  The tray 38 has a rectangular tray bottom surface 44 and four side surfaces 46, 48, 50, 52 arranged so as to surround the periphery, and a space for accommodating the ultrasonic probe 16 is formed on these surfaces. A right side surface is referred to as a right side surface 46, a left side surface is referred to as a left side surface 48, a front side surface is referred to as a front side surface 50, and a back side surface is referred to as a rear side surface 52. A case handle 54 may be provided on the front side surface 50. The attachment plate 40 is provided with five attachment hooks 56, and the attachment plate 40 is attached to the apparatus main body bottom surface 34 using this. The probe housing case 14 is attached to the apparatus main body 12 by attaching the attachment plate 40. The tray 38 and the mounting plate 40 are provided with a locking mechanism that locks each other when they are closed.

  Case inner legs 60 are provided along the left and right sides of the mounting plate 40. When the mounting plate 40 is closed, the case inner leg portion 60 abuts on the tray bottom surface 44, and the case inner leg portion 60 receives the weight of the device main body 12 stacked thereon to support the device main body 12. The inner lid 42 can be rotated independently of the mounting plate 40 with respect to the tray 38 and functions as a holding unit that holds the ultrasonic probe 16 in the tray 38 so as not to move in the closed state. The inner lid 42 and the tray 38 are provided with a locking mechanism for locking each other when they are closed. When the locking mechanism is released, the inner lid 42 can be opened. On the inner side surface of the inner lid 42, a flexible cushion 62 that comes into contact with a predetermined portion of the ultrasonic probe 16 is provided. In particular, since the probe head 18 incorporating the ultrasonic transducer is vulnerable to impact, in this ultrasonic diagnostic apparatus 10, the cushion 62 is disposed at a position corresponding to the probe head 18. Further, a cushion 64 may be disposed at a position facing the probe connector 20.

  As shown in FIG. 7, the probe head 18 is housed in the probe housing case 14 while being held by the probe head holder 24. The ultrasonic probe 16 is accommodated in a state where the cable 22 is wound around the probe head 18 and the probe connector 20. The tray bottom surface 44 is provided with an outer partition wall 66 that defines at least a part of the outer boundary of the position where the ultrasonic probe 16 is accommodated. The partition wall 66 restricts the movement of the cable 22 in particular. Further, a holder holding wall 68 for receiving and holding the probe head holder 24 is provided on the tray bottom surface 44. Furthermore, an inner partition wall 70 positioned between the ultrasonic transmission / reception surface 78 (see FIG. 16) of the probe head 18 and the cable 22 and a terminal portion holding wall 72 for receiving and holding the terminal portion of the probe connector 20 are provided. .

  9 and 10 show surfaces that face each other when the probe housing case 14 and the apparatus main body 12 are mounted. A mounting plate 40 is disposed on the surface of the probe housing case 14 facing the apparatus main body 12, and the mounting plate 40 is provided with five mounting hooks 56 and a lock piece 58. On the bottom surface 34 of the apparatus main body, an attachment piece 74 is provided at a position facing the attachment hook 56, and an engagement hole 76 is provided at a position facing the lock piece 58.

  FIG. 11 is a diagram showing details of the attachment hook 56 and the lock piece 58. The attachment hook 56 has a portion extending vertically from the surface of the attachment plate 40 and a portion extending parallel to the attachment plate 40 from the tip of the vertically extending portion. The two attachment hooks 56 not shown in FIG. 11 have the same configuration. The lock piece 58 protrudes from the mounting plate 40 by biasing means such as a spring and can be pushed into the mounting plate 40 against the biasing force of the biasing means. FIG. 12 is a diagram showing details of the attachment piece 74 and the engagement hole 76. The attachment piece 74 is formed as a projecting piece extending on the edge of the hole provided in the apparatus main body bottom surface 34 so as to cover the hole. The attachment hook 56 is inserted into the hole in which the attachment piece 74 is formed, and then slides along the bottom surface 34 of the apparatus main body to engage with the attachment piece 74. When the attachment hook 56 and the attachment piece 74 are engaged, the lock piece 58 is positioned to face the engagement hole 76 and protrudes into the engagement hole 76. When the lock piece 58 and the engagement hole 76 are engaged, the probe housing case 14 cannot slide with respect to the apparatus main body 12 and cannot be removed. When removing the probe housing case 14 from the apparatus main body 12, an operation of retracting the lock piece 58 is performed, and the engagement with the engagement hole 76 is released. As a result, the probe housing case 14 can be slid, and the engagement between the attachment hook 56 and the attachment piece 74 can be released. Since the mounting hook 56 protruding from the mounting plate 40 is provided in the probe housing case 14 and no protruding portion is provided on the bottom surface 34 of the apparatus main body, the apparatus main body 12 can be laid flat alone.

  FIG. 13 is an explanatory view of the attachment of the probe housing case 14. As shown by the arrows in the figure, the probe housing case 14 is slid along the bottom surface 34 of the apparatus main body, whereby the attachment hook 56 is hooked on the attachment piece 74 and the lock piece 58 enters the engagement hole 76 and slides. Is prohibited. As a result, the probe housing case 14 is mounted on the apparatus main body 12 and locked so as not to be released. When the probe housing case 14 is removed, the lock piece 58 is retracted by performing a predetermined operation, and the probe housing case 14 is slid in the direction opposite to the arrow in the figure. Thereby, the engagement between the attachment hook and the attachment piece 74 is released, and the probe housing case 14 is removed.

  As shown in FIG. 3, the probe housing case 14 can be opened by rotating the tray 38 of the probe housing case 14 toward the front as indicated by the arrow in the drawing from the state where the ultrasonic diagnostic apparatus 10 is erected. The tray 38 can be rotated to a horizontal position. At this position, the tray bottom surface 44 is placed on the plane on which the apparatus main body 12 is placed. That is, the rotation axis of the tray 38 is provided at a position where the tray 38 can be opened and closed as described above. The state in which the tray 38 is opened is shown in FIG. 6. At this time, the inner lid 42 is integrated with the tray 38. That is, while the tray 38 is rotating, the inner lid 42 rotates together with the tray 38 and holds the accommodated ultrasonic probe 16 at a predetermined position in the tray 38. The same applies to the closing of the tray 38, and the inner lid 42 holds the ultrasonic probe 16 in the tray 38 and prevents the ultrasonic probe 16 from dropping off when the tray 38 is tilted by rotation. The inner lid 42 is a plate-like rigid member (for example, made of resin), but it is also possible to adopt a holding means constituted by a flexible member such as a belt or cloth.

  FIGS. 14 and 15 are views showing the probe housing case 14 in a state in which the mounting plate 40 and the inner lid 42 are opened with respect to the tray 38. FIG. 14 shows a state where the ultrasonic probe 16 is housed in the tray 38, and FIG. 15 shows a state after the ultrasonic probe 16 is removed from the tray 38. The ultrasonic probe 16 is stored in the tray 38 with the probe head 18 held by the probe head holder 24.

  FIG. 16 is a view showing the probe head 18 held by the probe head holder 24. The probe head 18 is a so-called convex type head having an ultrasonic transmission / reception surface 78 curved in a convex shape. The probe head 18 has a head portion incorporating an ultrasonic transducer and a grip portion gripped by an operator. The probe head holder 24 includes a main body portion 80 that holds the grip portion of the probe head 18 from the periphery, and a belt 82 that restrains the probe head 18 so as to be wound around the grip portion directly or from above the main body portion 80. The inside of the main body portion 80 has a flexible structure, deforms in accordance with the shape of the grip portion, and contributes to stable holding of the probe head 18. The flexible structure is formed of a flexible resin having a hollow structure, for example. The belt 82 restrains the probe head 18 and prevents the probe head 18 from falling off. Even when the ultrasonic probe 16 is housed in the probe housing case 14, the probe head 18 is restrained by the belt 82. A holder support portion 84 is provided on the side of the main body portion 80. The holder support portion 84 is inserted into a holder receiver 86 provided at the front end of the side surface of the apparatus main body 12, whereby the probe head holder 24 is attached to the apparatus main body 12.

  Returning to FIGS. The ultrasonic probe 16 is accommodated with the cable 22 wound around the probe head 18 and the probe connector 20. An outer partition wall 66 is provided on the tray bottom surface 44 so as to surround the ultrasonic probe 16. The outer partition wall 66 can be provided on the entire circumference around the ultrasonic probe 16, but may be provided on a part of the circumference. In the ultrasonic diagnostic apparatus 10, the ultrasonic probe 16 is provided on the left and right and the back. The outer partition wall 66 defines a range for accommodating the ultrasonic probe 16, particularly the cable 22, and prevents the cable 22 from being located in an unintended portion.

  A holder holding wall 68 and an inner partition wall 70 are further provided on the tray bottom surface 44. The holder holding wall 68 includes a first portion 68 a that is independent from the inner partition wall 70, and a second portion 68 b that is connected to the inner partition wall 70. The holder holding wall 68 prevents the accommodated probe head holder 24 from moving in the direction along the tray bottom surface 44. The inner partition wall 70 is configured to accommodate the largest probe head that is assumed to be used in the ultrasonic diagnostic apparatus. In this ultrasonic diagnostic apparatus 10, the convex type probe head 18 has the largest size, and an inner partition wall 70 is formed along the head portion of the probe head 18. The inner partition wall 70 covers the ultrasonic transmission / reception surface 78 and protects the ultrasonic transmission / reception surface 78 from the cable 22 outside the probe head 18.

  By holding and holding the probe head holder 24 by the holder holding wall 68 and indirectly holding the probe head 18, even probe heads 18 of different sizes and shapes can be stably held. 17 and 18 are views showing a state in which ultrasonic probes 16A and 16B having probe heads 18A and 18B having different shapes are housed in a tray 38. FIG. FIG. 17 shows an ultrasonic probe 16A having a linear type probe head 18A in which ultrasonic transducers are linearly arranged, and FIG. 18 shows an ultrasonic probe 16B having a sector type probe head 18B having a small ultrasonic transmission / reception surface. The state which accommodated is shown. In either case, a space is opened between the probe heads 18A and 18B and the inner partition wall 70, but the probe head holder 24 is pressed by the holder holding wall 68 and the probe heads 18A and 18B do not move. So that it is held. The probe heads 18 </ b> A and 18 </ b> B are restrained by the probe head holder 24 by the belt 82 when housed in the probe housing case 14.

  The tray bottom surface 44 is further provided with a terminal portion holding wall 72 for holding a terminal portion (hereinafter referred to as a connector terminal portion) 88 of the probe connector 20. The terminal portion holding wall 72 prevents the connector terminal portion 88 to be accommodated from moving in the direction along the tray bottom surface 44. The shape of the connector terminal portion 88 of the ultrasonic probe 16 used in the ultrasonic diagnostic apparatus 10 is the same, and the terminal portion holding wall 72 is stable regardless of the connector terminal portion 88 of any ultrasonic probe. Can be held in.

  In addition, walls can be added as needed. For example, a cable guide 90 can be provided to suppress movement of the cable 22.

  The tray 38 may include a flexible cushion sheet 92 disposed inside the tray bottom surface 44. A portion excluding the cushion sheet 92 from the tray 38 is referred to as a tray body 94. With the cushion sheet 92, a cushion layer can be formed on the surface of the tray bottom surface 44. FIG. 19 is a view showing a state in which the cushion sheet 92 is removed from the probe housing case 14. As shown in FIG. 19, an outer partition wall core material 96 is formed integrally with the tray 38 on the bottom surface of the tray body 94. An outer partition wall 66 is formed by covering the outer partition wall core material 96 with a cushion sheet 92. (The state in which the cushion sheet 92 covers the outer partition wall core 96 is shown in FIG. 22 to be described later.) The core material is not provided on the wall other than the outer partition wall 66 such as the holder holding wall 68, and the cushion sheet. These walls are formed by 92 alone. The cushion sheet 92 is made of a flexible material, but the walls other than the outer partition wall 66 have such rigidity that the probe head holder 24, the connector terminal portion 88, and the like can be held. A core material can also be provided as necessary for other walls such as the holder holding wall 68.

  The cushion sheet 92 and the tray main body 94 are provided with a cushion coupling structure 98 for coupling them. As shown in FIG. 15, the cushion coupling structure 98 is provided at six locations.

  FIG. 20 is a cross-sectional view showing details of the cushion coupling structure 98. The cushion coupling structure 98 includes a cylindrical protrusion 100 provided on the tray body 94 and a receiving ridge 102 provided on the cushion sheet 92 and receiving the cylindrical protrusion 100. The receiving ridge 102 is disposed so as to cover the cylindrical protrusion 100, and has a cylindrical portion 104 provided with a top surface, and enters the cylindrical protrusion 100 inward from the top surface of the cylindrical portion 104. It has an engaging protrusion 106. The engagement protrusion 106 is engaged with the cylindrical protrusion 100, whereby the cushion sheet 92 is coupled to the tray body 94. Further, the engagement of the portion constituting the outer partition wall 66 of the cushion sheet 92 and the outer partition wall core material 96 of the tray body 94 also contributes to the coupling of the cushion sheet 92 and the tray body 94.

  21 is a cross-sectional view of the probe housing case 14 taken along line AA shown in FIG. FIG. 22 is an enlarged view of a range indicated by B in FIG. A case inner leg 60 is provided on the mounting plate 40 along two lateral sides. The case inner leg portion 60 extends from the mounting plate 40 until it contacts the tray bottom surface 44. When the probe storage case 14 and the apparatus main body 12 are stacked, the weight of the apparatus main body 12 is transmitted to the tray bottom surface 44 via the case inner leg portion 60. Since the case inner leg portion 60 is provided on the mounting plate 40 directly attached to the apparatus main body 12, the apparatus main body 12 can be reliably and stably supported. A cushion sheet 92 is disposed at a portion of the tray bottom surface 44 where the case inner leg portion 60 abuts, and the contact between the tray bottom surface 44 and the case inner leg portion 60 is prevented from being biased. Thereby, the load applied to the tray bottom 44 is dispersed.

  The case inner legs 60 abut on the tray bottom surface 44 between the tray right side 46 and the tray left side 48 and the outer partition wall 66. Since the range in which the cable 22 is accommodated by the outer partition wall 66 is restricted, it is possible to prevent the cable 22 from being sandwiched between the tray 38 and the case inner leg 60 when the probe accommodating case 14 is closed. Further, in the ultrasonic diagnostic apparatus 10, a lid partition wall 108 is provided in a portion of the inner lid 42 that faces the outer partition wall 66. The outer partition wall 66 provided on the tray 38 and the lid partition wall 108 provided on the inner lid 42 prevent the cable 22 from being caught. The movement of the cable may be restricted only by the outer partition wall 66 by making the outer partition wall 66 of the tray 38 higher.

  In the ultrasonic diagnostic apparatus 10 of this embodiment, when the second apparatus 28 is placed along the first apparatus 26, the touch panel display 32 faces upward, but faces downward, that is, faces the first apparatus 26. Also good. At this time, an operation device such as a keyboard may be provided on the upper surface of the first device 26.

  DESCRIPTION OF SYMBOLS 10 Ultrasonic diagnostic apparatus, 12 Apparatus main body, 14 Probe accommodation case, 16, 16A, 16B Ultrasonic probe, 18, 18A, 18B Probe head, 20 Probe connector, 22 Cable, 24 Probe head holder, 26 1st apparatus, 28 2nd device, 30 receptacle cover, 32 touch panel display, 34 bottom surface of device body, 36 body handle, 38 tray, 40 mounting plate, 42 inner lid, 44 tray bottom surface, 46 tray right side surface, 48 tray left side surface, 50 tray front side surface, 52 Tray rear side, 54 Case handle, 56 Mounting hook, 58 Lock piece, 60 Case inner leg, 62, 64 Cushion, 66 Outer partition wall, 68 Holder holding wall, 70 Inner partition wall, 72 Terminal holding wall, 74 Mounting piece, 76 engagement hole, 7 Ultrasonic transmission / reception surface, 80 body part, 82 belt, 84 holder support part, 86 holder receiver, 88 connector terminal part, 90 cable guide, 92 cushion sheet, 94 tray body, 96 outer partition wall core material, 98 cushion coupling structure, 100 Cylindrical projection, 102 receiving ridge, 104 cylindrical portion, 106 engaging projection, 108 lid partition wall.

Claims (8)

A portable ultrasonic diagnostic apparatus,
The device body;
A probe housing case that houses an ultrasonic probe and is detachable from the apparatus body;
Have
The probe housing case includes a mounting plate that is attached to and detached from the apparatus main body, a tray that can be opened and closed with respect to the mounting plate, and that forms a housing space for housing an ultrasonic probe together with the mounting plate, and an ultrasonic probe in the tray. Probe holding means for holding the
Including an ultrasonic diagnostic apparatus.   The ultrasonic diagnostic apparatus according to claim 1, wherein the probe holding means is a rigid inner lid that can be opened and closed with respect to the tray.   3. The ultrasonic diagnostic apparatus according to claim 2, wherein a cushion is provided on the inner surface of the inner lid so as to come into contact with the probe head of the stored ultrasonic probe when the inner lid is closed. .   The ultrasonic diagnostic apparatus according to any one of claims 1 to 3, wherein an inner boundary of the bottom surface of the tray that faces the mounting plate when the tray is closed has an outer boundary of a position where the ultrasonic probe is accommodated. An ultrasonic diagnostic apparatus in which an outer partition wall that defines at least a part of the outer partition wall is provided. The ultrasonic diagnostic apparatus according to any one of claims 1 to 3,
A probe head holder that is mounted on the apparatus body and holds the probe head of the ultrasonic probe,
On the inner surface of the bottom surface of the tray corresponding to the mounting plate, a holder holding wall is provided that accommodates and holds the probe holder that is removed from the apparatus main body and holds the probe head.
Ultrasound diagnostic device.   The ultrasonic diagnostic apparatus according to any one of claims 1 to 3, wherein an ultrasonic probe cable and an ultrasonic transmission / reception surface of a probe head accommodated on an inner surface of a tray bottom surface facing the mounting plate are provided. An ultrasonic diagnostic apparatus in which an inner partition wall located between the two is provided.   The ultrasonic diagnostic apparatus according to any one of claims 1 to 3, wherein an end for accommodating and holding the terminal portion of the probe connector of the accommodated ultrasonic probe is provided on the inner surface of the bottom surface of the tray facing the mounting plate. An ultrasonic diagnostic apparatus provided with a branch holding wall.   The ultrasonic diagnostic apparatus according to any one of claims 1 to 7, wherein a cushion layer is formed on a surface of the tray facing a region for accommodating the ultrasonic probe.

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