JP5226466B2 - Medical device - Google Patents

Description

  The present invention relates to a medical device, and more particularly to a medical device capable of both vertical and horizontal placement of a device body.

  Conventionally, medical devices such as ultrasonic endoscope devices have been widely used. The medical device manufactured by the manufacturer is transported to a medical site such as a hospital, and installed and used in an operating room or the like. In the case of an ultrasonic endoscope apparatus, since the weight of the apparatus itself exceeds 20 kg, for example, a heavy work load is imposed on an operator when a heavy medical apparatus is transported or installed.

In general, the medical device is designated in terms of installation state from the viewpoint of easy-to-read operation panel, operability, and the like. For this reason, the device is packed and transported in the designated vertical state.
In the case of an ultrasonic observation device, it is used in a so-called horizontal position in a cart together with other medical equipment. Therefore, an operator must lift or place the device during packing or installation. In order to make it easier, there are some devices that are provided with handles on the left and right sides of the horizontally placed device so that work such as installation becomes easy.

In addition, there is also a proposal of an electronic apparatus having a mechanism in which a stand is provided as a fall-preventing member on the bottom surface portion of the apparatus in order to prevent the vertical apparatus from falling, and the stand can protrude in the horizontal direction (for example, Patent Document 1). , 2).
Japanese Patent Application Laid-Open No. 07-336056 JP 2001-204810 A

By the way, when attention is paid only to the problems such as the visibility of the operation panel of the medical device, some medical devices do not cause such a problem. Both can be placed.
However, in the case of a device having handles on both sides of the device capable of both, the operator can hold both or one handle of the device to pack the device, etc. Therefore, it cannot be installed vertically with the side face with the two handles in the vertical direction.

  In addition, in order to improve the stability of the device when placed vertically, it is necessary to consider the installation area in consideration of the protruding range of the stand etc. However, there is a problem that the installation location is limited. Furthermore, such a fall prevention mechanism requires a member for that purpose, which is not preferable in terms of weight and cost.

  As described above, the conventional medical device can be placed in only one direction, even if it can be placed vertically or horizontally, and has a wide installation area to ensure stability when placed vertically. There was a problem of having to.

  Further, particularly in the case of vertical installation, there is a structural problem that the circuit board in the apparatus main body is easily distorted due to the influence of external force on the apparatus main body.

  Therefore, an object of the present invention is to provide a medical device that can be installed both vertically and horizontally, does not require a large installation area, and the internal circuit board is hardly affected by external force.

According to one aspect of the present invention, a device body having a plurality of circuit portions therein and having a substantially rectangular parallelepiped shape is provided on a bottom surface of the device body in a first state in which the device body is placed horizontally. A foot portion that is a support when the device main body is placed horizontally, a first handle portion provided on one side surface of the device main body when the device main body is in the first state, and the device A medical device having a second handle portion provided on the other side surface of the main body with respect to the one side surface, and a protrusion provided on the other side surface, wherein the second handle portion is formed on the other side surface. And the distance from the surface of the other side surface of the projection to the tip of the projection is rotated until the second handle portion is tilted with respect to the other side. Shaped on the second handle when moved The distance between the surface of the other side surface of the grip portion and the farthest portion of the grip portion is the same, and the apparatus main body is placed vertically so that the other side surface is the bottom surface. In the second state, the protrusion and the second handle portion function as a cradle for the apparatus main body, thereby enabling the apparatus main body to stand upright.

  According to the present invention, it is possible to realize a medical device that can be placed both vertically and horizontally, does not require a large installation area, and the internal circuit board is hardly affected by external force.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram for explaining a schematic configuration of an ultrasonic endoscope connected to an ultrasonic observation apparatus 1 as a medical apparatus according to the present embodiment.

  As shown in FIG. 1, an ultrasonic endoscope apparatus 1 that is an ultrasonic medical apparatus according to the present embodiment includes an ultrasonic endoscope 2, an ultrasonic observation apparatus 3, a camera control unit (hereinafter referred to as CCU). (Abbreviated) 4 and the light source device 5 are mainly configured. The ultrasonic observation device 3 and the CCU 4 are connected to a monitor (not shown) for displaying the ultrasonic observation image and the endoscopic image imaged by the ultrasonic endoscope 2.

  The ultrasonic endoscope 2 includes an elongated insertion portion 8 to be inserted into a body cavity, an operation portion 7 located at the proximal end of the insertion portion 8, and a universal cord 10 extending from a side portion of the operation portion 7. And mainly consists of.

An endoscope connector 9 connected to the light source device 5 is provided at the proximal end portion of the universal cord 10. From the endoscope connector 9, an electric cable 11 that is detachably connected to the CCU 4 via the electric connector 12, and an ultrasonic wave that is detachably connected to the ultrasonic observation device 3 via the ultrasonic connector portion 14. The cable 13 is extended.

The insertion portion 8 of the ultrasonic endoscope 2 includes a distal end rigid portion 21 formed of a hard resin member in order from the distal end side, a bendable bending portion 19 located at the rear end of the distal end rigid portion 21, and the bending portion 19. A flexible tube 18 having a small diameter, a long diameter, and a flexibility that is positioned at the rear end and reaching the tip of the operation unit 7 is provided. An ultrasonic transducer unit 22 in which a plurality of electronic scanning ultrasonic transducers for transmitting and receiving ultrasonic waves is arranged is provided on the distal end side of the distal rigid portion 21.

  Further, an angle knob 16 for controlling the bending portion 19 to bend in a desired direction, various buttons 15 for performing air supply, water supply, suction operation, and the like are introduced into the operation portion 7 of the ultrasonic endoscope 2 and into the body cavity. A treatment instrument insertion port 17 or the like serving as an entrance of the treatment instrument to be performed is provided.

  Although not shown, an illumination lens cover that constitutes the illumination optical system, an observation lens cover that constitutes the observation optical system, and a suction port are provided on the distal end surface of the distal rigid portion 21 provided with the ultrasonic transducer portion 22. A forceps port that doubles as well as an air / water supply nozzle are arranged. Further, the distal end rigid portion 21 incorporates an imaging unit (not shown) which is an image sensor such as a CCD or CMOS that collects and photoelectrically converts photographing light guided from the observation lens cover.

  In FIG. 1, the electronic scanning ultrasonic endoscope 2 connected to the ultrasonic observation device 3 is illustrated and described. However, the ultrasonic observation device 3 includes a mechanical scanning ultrasonic endoscope. A mirror can also be connected.

Next, the configuration of the ultrasonic observation apparatus 3 will be described.
2 to 5 are views showing the appearance of the ultrasonic observation apparatus. FIG. 2 is a perspective view seen from the upper right side toward the front panel of the ultrasonic observation apparatus in the horizontal position. FIG. 3 is a perspective view seen from the upper left side toward the front panel of the ultrasonic observation apparatus in the horizontal position. FIG. 4 is a front view of the ultrasonic observation apparatus 3. FIG. 5 is a plan view of the ultrasonic observation apparatus 3. FIG. 6 is a right side view of the ultrasonic observation apparatus 3. FIG. 7 is a left side view of the ultrasonic observation apparatus 3. FIG. 8 is a rear view of the ultrasonic observation apparatus 3. A bottom view of the ultrasonic observation apparatus 3 is omitted.

  The apparatus main body 3A of the ultrasonic observation apparatus 3 has a plurality of circuit portions therein and has a substantially rectangular parallelepiped shape. As shown in the front view of FIG. 52, and two different types of apparatus-side ultrasonic connector portions 53 and 54 arranged in parallel on the apparatus-side connector arrangement surface 55 formed on the front panel 51.

  The first apparatus-side ultrasonic connector portion 53 of the present embodiment, which is disposed on the left side of the apparatus-side connector arrangement surface 55 when viewed toward the paper surface, is an ultrasonic connector of a mechanical scanning ultrasonic medical device. For example, it is a 50-core type plug connector or socket.

  On the other hand, the second apparatus-side ultrasonic connector portion 54 of the present embodiment, which is disposed on the right side of the apparatus-side connector arrangement surface 55 as viewed in the drawing, is an ultrasonic wave of an electronic scanning ultrasonic medical device. For example, a 150-core type plug connector or socket that forms a pair with the connector.

  As shown in FIG. 8, on the rear panel 32 of the apparatus main body 3A of the ultrasonic observation apparatus 3, a connection terminal group 31 to which a plurality of communication cables and the like are connected, a power connector 35 to which a power cable is connected, and a plurality of In the present embodiment, four cooling fans 33 are provided. These four cooling fans 33 constitute an exhaust fan for suppressing a temperature rise in the power supply unit 62 described later.

The connection terminal group 31 is disposed on the upper side of the rear panel 32 serving as a back plate. The power connector 35 is disposed on the lower right side of the rear panel 32.
Further, as shown in FIG. 8, the apparatus main body 3A of the ultrasonic observation apparatus 3 is provided with a cover unit 36 that constitutes a casing exterior portion that covers both side surfaces and the upper surface in a horizontal state. Each side surface portion of the cover unit 36 is provided with a plurality of vent holes 45 each constituting an air intake port, and a handle portion 39 that is gripped by the user when being carried. The cover unit 36 is fixed to the base plate on the bottom surface side of the apparatus main body 3A. On the outside of the base plate, four legs 3B are fixed which serve as a support when the apparatus main body 3A is placed horizontally. FIG. 6 is a partial cross-sectional view showing a state in which the foot 3B is fixed to the base plate with screws.

  Two handle portions 39 are provided on both side surfaces of the apparatus main body 3A. Each handle portion 39 includes a grip portion 39A and two base portions 39B for supporting the grip portion 39A at two points so as to be rotatable within a range of 90 degrees. The base 39B is fixed to the apparatus main body 3A of the ultrasonic observation apparatus 3.

  The grip portion 39A can be tilted only in one direction. Specifically, the grip portion 39A is U-shaped, and both end portions are pivotally supported by the base portion 39B. The grip portion 39A can be rotated within a range of 90 degrees around an axis connecting two points supported by the base portion 39B.

  When the ultrasonic observation apparatus 3 is placed horizontally, if the two grip portions 39A are raised, the operator holds the two grip portions 39A with both hands, as shown in FIG. It is possible to perform the mounting work. FIG. 9 is a diagram illustrating a state of the ultrasonic observation apparatus 3 when the apparatus main body 3A is conveyed in a horizontal state.

  The handle portion 39 has a lock mechanism that holds the grip portion 39A raised with respect to the side surface of the apparatus main body 3A. Therefore, when each grip part 39A is raised in the state shown in FIG. 9, the grip part 39A does not fall on the upper surface side of the apparatus main body 3A. The handle portion 39 also has a lock mechanism that holds the grip portion 39A in a state where the handle portion 39A is tilted with respect to the side surface of the apparatus body 3A. After the placing operation, each grip 39A is folded and tilted by 90 degrees toward the bottom surface of the apparatus body 3A as shown in FIGS.

  Further, as shown in FIG. 7, two projections 40 as receiving members are provided on one side surface of the apparatus main body 3A so that the ultrasonic observation apparatus 3 can be used vertically. Here, two protrusions 40 made of, for example, rubber are provided on the left side surface of the apparatus main body 3A. The distance da from the surface of the apparatus main body 3A to the tip of each protrusion 40 is a distance db from the surface of the apparatus main body 3A to the farthest part of the grip 39A when the grip 39A of the handle 39 is tilted. It becomes the same (refer FIG. 11). Therefore, as shown in FIG. 11, the handle portion 39 provided on the side surface serving as the lower surface of the apparatus main body 3 </ b> A constitutes the same protrusion as the two protrusions 40 in the vertically placed state.

  The two protrusions 40 may be one protrusion. That is, if one of the protrusions is a member having such a length that the apparatus main body 3A is stable along a line parallel to the line connecting the two protrusions 40, the two protrusions 40 may be one protrusion. For example, the one protrusion is a member in which the two protrusions 40 are combined into a rod shape.

  Further, the protrusion amount of the protrusion 40, that is, the distance da is an amount that does not decrease the exhaust efficiency by securing a space between the cooling fan 33 that exhausts the heat inside the apparatus main body 3A and the grounding surface of the cart mounting table. It is.

As a result, as shown in FIG. 11, when the ultrasonic observation apparatus 3 is used in a vertical state, the lower handle portion 39 functions as a cradle, so that the apparatus main body 3A can stand upright. 10 and 11 are diagrams showing a state in which the ultrasonic observation apparatus 3 is placed vertically.
Therefore, as described above, in the vertically placed state, the handle portion 39 on the lower surface side functions as a cradle when placed vertically and functions as a gripping portion when installed when placed horizontally.

Further, the handle portion 39 provided on the side surface that is the upper surface in the vertically placed state functions as a gripping portion during conveyance.
Therefore, since the operator can hold and carry the handle portion 39 on the upper surface of the apparatus main body 3A in the state shown in FIG. 10 as well as when installed vertically, the center of gravity of the apparatus main body 3A is It is close to the body and can reduce the load during transportation work.

  Note that, as will be described later, the internal structure of the apparatus main body 3A is such that heavy parts and the like are placed in a well-balanced state even in a vertically placed state, and the substrate included in the internal circuit section is distorted by an external force. It is a structure that does not easily occur.

  As a modification of the structure of the ultrasonic observation apparatus 3 described above, a configuration shown in FIGS. 12 to 16 may be used. FIG. 12 is a front view showing a state in which an ultrasonic observation apparatus having a configuration in which the handle portion on the lower surface is replaced with a protrusion in the vertical state of the apparatus main body 3A is vertically set.

  In FIG. 12, one or two protrusions 40A are provided so that stability is good when they are placed vertically. In one case, the protrusion 40A is connected to the two protrusions 40 at a stable position, for example, connecting the centers of the two protrusions 40 when viewed from the lower surface when the apparatus main body 3A is vertically placed. It is arranged on a line that is orthogonal to the line and that passes through a substantially middle position of the line connecting the centers of the two protrusions 40.

  FIGS. 13 to 15 show that when the apparatus main body 3A is vertically placed, the lower handle portion is placed on the outside of the grip portion 39, and when the main body is placed vertically on the plane, the grip portion is tilted in the storing direction. It is a front view for demonstrating the ultrasonic observation apparatus of the structure which provided the curved surface shape part.

As shown in FIG. 13, when the apparatus main body 3A is not in contact with a plane, both end portions of the grip portion 39A1 are pivotally supported by the support portion 39B, and the center portion of the grip portion 39A1 is under its own weight. It is in a state of hanging vertically.
The curved surface-shaped portion 39C outside the grip portion 39A1 is a curved surface that rotates around an axis that pivotally supports the grip portion 39A1 of the support portion 39B when it comes into contact with a flat surface such as a floor. Therefore, as shown in FIG. 14, when the main body is lowered onto a flat surface and the curved surface-shaped portion 39C outside the grip portion 39A1 comes into contact with the flat surface, the grip portion 39A1 is tilted in the folding direction. In the state in which the apparatus main body 3A is placed on a plane, as shown in FIG. 15, the grip portion 39A1 is completely tilted to be in the storage position state. In this storage position state, the main body is stably supported by the two protrusions 40 and the handle part 39. Therefore, the operator does not have to pay attention to how to place the apparatus main body 3A when the apparatus main body 3A is placed close to the floor surface or the like.

  Further, FIG. 16 is a front view showing a state in which an ultrasonic observation apparatus having a configuration in which the two protrusions 40 on one side surface of the main body are replaced with casters 40B is vertically placed. The operator can easily move the apparatus main body 3A while tilting the vertically placed main body to the caster 40B side and using the caster 40B while holding the upper handle portion 39.

  In addition, since the ultrasonic observation apparatus 3 of the present embodiment can connect two types of ultrasonic endoscopes, each endoscope side connector, that is, a socket, and two main body side connectors. In the vicinity of each of the two connectors on the front panel 51, a picture imitating the shape of each endoscope connector is provided.

  In the present embodiment, as shown in FIG. 4, the left side of the front panel 51 is a mechanical scanning type ultrasonic endoscope connector 53, and the right side is an electronic scanning type ultrasonic endoscope. This is a connector 54. As shown in FIG. 4, a picture 53A of the appearance of the connector for a mechanical scanning type ultrasonic endoscope is provided on the surface of the front panel 51 near the connector 53 by printing or the like. On the surface of the front panel 51 in the vicinity of the connector 54, a picture 54A of the external shape of the connector for an electronic scanning ultrasonic endoscope is provided by printing or the like.

  The pictures 53A and 54A are pictures, that is, symbols indicating not only the types of connectors to be connected but also the insertion directions of the connectors.

  FIG. 17 is a diagram showing a picture 53A. FIG. 18 is a diagram showing a picture 54A. Therefore, the user can easily determine the connection destination and the insertion direction of each endoscope from the pictures 53A and 54A, so that there is no erroneous insertion.

Next, the internal configuration of the ultrasonic observation apparatus 3 of the present embodiment will be described below with reference to FIGS.
If only the ultrasonic observation apparatus 3 is placed horizontally, a plurality of circuit boards inside the apparatus main body 3A may be fixed by stacking them using a stud on the exterior of the casing, You may make it connect and fix to this connector.

However, when placed vertically or transported in a vertical state, there is a problem that distortion caused by an external force applied to the housing is directly applied to each circuit board. In addition, when placed in a vertical position, a force in a direction different from that in a horizontal state is applied to each circuit board and the connector to which each circuit board is connected due to gravity, or stress is applied to the solder portion of each component. Etc., there is a problem that poor contact occurs.
Therefore, the ultrasonic observation apparatus 3 of the present embodiment has a structure that can be placed vertically and does not cause the above-described problems when transported in a vertically placed state.

  FIG. 19 is a perspective view showing the internal structure of the apparatus main body 3A excluding the cover unit 36. As shown in FIG. The apparatus main body 3A has a plurality of circuit units therein. As shown in FIG. 19, the apparatus main body 3A mainly includes a rectangular base plate 37, a front panel 51, a rear panel 32, a power supply unit 62, and an internal chassis 63 on which various circuit boards are mounted.

The rear panel 32 is provided by being screwed to one side of the base plate 37 so that the surface of the rear panel 32 is orthogonal to the surface of the base plate 37.
The front panel 51 is provided by being screwed to the other side of the base plate 37 opposite to the one side on which the rear panel 32 is provided so that the surface of the front panel 51 is orthogonal to the surface of the base plate 37. It has been.

  A circuit unit portion 51A including circuits for the power switch 52, the connectors 53 and 54, the display LEDs and the like of the front panel 51 is disposed on the inner surface of the apparatus body 3A of the front panel 51. The front panel 51 and the circuit unit part 51 </ b> A constitute a front part 61.

  The power supply unit 62 is fixed to the base plate 37 with screws. As shown in FIG. 19, the power supply unit 62 has a rectangular parallelepiped shape, and is arranged between the rear panel 32 and the front portion 61 so that each side of the rectangular parallelepiped is parallel to each side of the base plate 37. Is done. The power supply unit 62 incorporates various circuit components and elements for power supply in a box-shaped exterior member 62A, and these various components are relatively heavy components compared to normal electronic components. Including.

The height of the power supply unit 62 from the base plate 37 is substantially half of the height of the apparatus main body 3A, specifically, a height slightly lower than half.
On the upper side of the power supply unit 62, an internal chassis portion 63 on which various circuit boards are mounted is disposed by being fixed to the exterior member 62A of the power supply unit 62 with screws.

  The internal chassis portion 63 includes an internal chassis 63A to which various circuit boards are fixed. FIG. 20 is a perspective view of the internal chassis 63A.

  The internal chassis 63A is a plate member having a U-shaped cross-section that is bent along one side of a rectangle and the other side opposite to the one side. As shown in FIG. 20, the internal chassis 63 </ b> A has side portions 71 on both sides and a bottom portion 72 between the two side portions 71.

  Further, the internal chassis 63A is four bent portions of the two side portions 71, and has four screw hole portions 63B for fixing to the power supply unit 62 with screws at the four corners of the bottom portion 72.

  The internal chassis 63A is fixed to the power supply unit 62 by fastening the four screw hole portions 63B with screws. At this time, the bottom surface of the bottom portion 72 on the bottom surface side of the internal chassis 63 </ b> A faces the top surface of the power supply unit 62.

  In addition, when the internal chassis 63A is fixed to the power supply unit 62, the screw hole portion 62B is bent so as to have a step so that a gap is formed between the lower surface of the bottom portion 72 and the upper surface of the power supply unit 62. Alternatively, a spacer may be provided between the lower surface of the bottom portion 71 and the upper surface of the power supply unit 62.

  A plurality of holes 73 are formed in the side portion 71 and the bottom portion 72 of the internal chassis 63A to insert cable connectors for electrical connection between various circuit boards or to dissipate heat generated inside. Yes.

A plurality of screw hole portions 74 for fixing various circuit boards are provided inside the two opposing side portions 71. Some of the plurality of screw hole portions 74 are provided in a reinforcing member 75 for reinforcing the rigidity of the side portion 71 screwed and fixed to the inner side surface of the side portion 71. Therefore, the various circuit boards are fixed to the internal chassis 63A and supported by the internal chassis 63A.
A side plate 76 is further provided on one end side of the two side portions 71 of the internal chassis 63A.

  Accordingly, as shown in FIGS. 19 and 21, a plurality of circuit boards 77 are fixed to the internal chassis 63 </ b> A on the upper side of the bottom portion 72.

  Further, a beam former circuit unit 78 is fixed on the upper side of the plurality of substrates 77 inside the internal chassis 63A. The beam former circuit unit 78 is a heavier unit than other circuit boards and the like. The reason why the beamformer circuit unit 78 is heavier than the other circuit units is that some of the included circuit components are as many as the number of ultrasonic transducers, and the mounting density is high.

FIG. 21 is a diagram showing an internal structure of the apparatus main body 3A as viewed from the front panel side. FIG. 21 is a view of the apparatus main body 3A viewed from the front panel 51 side, excluding the front portion 61. FIG.
As shown in FIG. 21, when the apparatus main body 3A is placed vertically, when viewed from the front panel side, a half portion 81 on the right side (that is, the bottom surface side of the apparatus main body 3A) faces the paper surface. Is arranged, and a beam former circuit unit 78 and a plurality of circuit boards 77 are arranged in a half portion 82 on the left side (that is, the upper surface side of the apparatus main body 3A).

  Therefore, in the vertically placed state, the relatively heavy circuit portion, here, the power supply unit 62 and the beamformer circuit unit 78 are symmetrically arranged with respect to the vertical plane passing through the central portion of the apparatus main body 3A. Therefore, the stability of the apparatus main body 3A is high. That is, since two circuit parts having a relatively heavy weight are dispersed and disposed in the apparatus main body 3A, the stability of the apparatus main body 3A is high.

  Further, since each circuit board 77 is fixed to the internal chassis 63A, even if an external force is applied to the apparatus main body 3A, the external force is not directly applied to each circuit board 77, so that each circuit board 77 is hardly distorted. .

  Furthermore, since the apparatus main body 3A is formed as an internal chassis, if the internal chassis 63A is taken out, access to the circuit elements on each circuit board is facilitated, and maintenance is improved.

  Note that the apparatus main body 3A can have a so-called harness-less structure in which the circuit boards are not connected to each other on the premise of the internal chassis as described above.

Furthermore, since the ultrasonic observation apparatus 3 has a structure in which distortion due to gravity or external force does not occur in the internal circuit board even in a vertical state, the load on the operator is light and the efficiency at the time of transfer is also high. good.
FIG. 22 is a diagram for explaining an example of a transport mode when the ultrasonic observation apparatus 3 is transported. Since the ultrasonic observation apparatus 3 according to the present embodiment has a structure that can also be installed vertically, when stored in a packaging cardboard box 91, a plurality of cardboard boxes 91 are arranged with ultrasonic waves inside. In such a state that the observation device 3 is in a vertically placed state, the observation device 3 can be placed on a transport pallet 92 such as a pallet for overseas transportation.

  As shown in FIG. 22, more cardboard boxes 91 can be placed on the pallet 92 than when placed horizontally. Therefore, since the so-called physical distribution efficiency of the ultrasonic observation apparatus 3 of the present embodiment described above is high, it is possible to reduce the physical distribution cost.

  As described above, the ultrasonic observation apparatus 3 according to the present embodiment has at least one handle portion so that it can be easily transported and installed in a vertically placed state so as to correspond to both a vertically placed and a horizontally placed state. A fixing receiving portion is provided on the bottom surface portion so as to be provided on the side surface portion of the apparatus main body 3A and to maintain the horizontality of the apparatus main body 3A when the apparatus is vertically placed. Furthermore, when the apparatus main body 3A is placed in a balanced manner such as relatively heavy parts in the apparatus main body 3A so that the stability of the apparatus main body 3A is good when placed vertically, when an external force is applied to the apparatus main body 3A, It has a double structure using an internal chassis so that external force is not directly applied to the internal circuit board.

  Therefore, according to the present embodiment described above, it is possible to realize a medical device that can be placed vertically and placed horizontally and does not need to secure a wide installation area, and has good stability when placed vertically. . In addition, since it can be handled in a vertical state during transportation and installation, the work load on the operator is reduced when the medical device is heavy.

  The present invention is not limited to the above-described embodiments, and various changes and modifications can be made without departing from the scope of the present invention.

It is a figure for demonstrating schematic structure of the ultrasonic endoscope connected to the ultrasonic observation apparatus as a medical device which concerns on embodiment of this invention. It is the perspective view seen from the diagonally upper right toward the front panel of the ultrasonic observation apparatus in the horizontal state according to the embodiment of the present invention. It is the perspective view seen from the diagonally upper left toward the front panel of the ultrasonic observation apparatus in the horizontal state according to the embodiment of the present invention. 1 is a front view of an ultrasonic observation apparatus according to an embodiment of the present invention. 1 is a plan view of an ultrasonic observation apparatus according to an embodiment of the present invention. 1 is a right side view of an ultrasonic observation apparatus according to an embodiment of the present invention. 1 is a left side view of an ultrasonic observation apparatus according to an embodiment of the present invention. 1 is a rear view of an ultrasonic observation apparatus according to an embodiment of the present invention. It is a figure which shows the state of an ultrasonic observation apparatus when conveying an apparatus main body in the horizontal state based on embodiment of this invention. It is a figure showing the state where the ultrasonic observation device concerning an embodiment of the invention was installed vertically. It is a figure showing the state where the ultrasonic observation device concerning an embodiment of the invention was installed vertically. It is a front view which shows the state which mounted vertically the ultrasonic observation apparatus of the structure which replaced the handle | steering-wheel part used as a lower surface with the protrusion part in the vertical installation state of the apparatus main body based on the modification of embodiment of this invention. According to another modification of the embodiment of the present invention, when the apparatus main body is vertically placed, when the lower handle portion is placed outside the grip portion and the main body is placed vertically on the plane, the grip portion is in the storage direction. It is a front view for demonstrating the ultrasonic observation apparatus of the structure which provided the curved surface shape part so that it might incline. According to another modification of the embodiment of the present invention, when the apparatus main body is vertically placed, when the lower handle portion is placed outside the grip portion and the main body is placed vertically on the plane, the grip portion is in the storage direction. It is a front view for demonstrating the ultrasonic observation apparatus of the structure which provided the curved surface shape part so that it might incline. According to another modification of the embodiment of the present invention, when the apparatus main body is vertically placed, when the lower handle portion is placed outside the grip portion and the main body is placed vertically on the plane, the grip portion is in the storage direction. It is a front view for demonstrating the ultrasonic observation apparatus of the structure which provided the curved surface shape part so that it might incline. It is a front view which shows the state which placed vertically the ultrasonic observation apparatus of the structure which replaced the two projection parts of the one side surface of the main body with the caster based on the further another modification of embodiment of this invention. It is a figure which shows the picture 53A which concerns on embodiment of this invention. It is a figure which shows the picture 54A which concerns on embodiment of this invention. It is a perspective view which shows the internal structure of an apparatus main body except the cover unit based on embodiment of this invention. It is a perspective view of the internal chassis which concerns on embodiment of this invention. It is a figure which shows the internal structure of the apparatus main body seen from the front panel side based on embodiment of this invention. It is a figure for demonstrating the example of the conveyance form at the time of conveyance of the ultrasonic observation apparatus based on embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Ultrasonic endoscope apparatus, 2 Ultrasonic endoscope, 3 Ultrasonic observation apparatus, 3A apparatus main body, 3B foot part, 4 Camera control unit, 5 Light source apparatus, 7 Operation part, 8 Insertion part, 9 Endoscope Connector, 10 Universal cord, 11 Electrical cable, 12 Electrical connector, 13 Ultrasonic cable, 21 Hard end, 22 Ultrasonic transducer, 31 Connection terminal group, 32 Rear panel, 33 Cooling fan, 35 Power connector, 39 Handle 39A, 39A1 grip part, 39B base part, 39C curved surface shape part, 40, 40A projection part, 40B caster, 45 vent hole, 51 front panel, 51A circuit unit part, 52 power switch, 53, 54 device side ultrasonic connector, 53A, 54A Picture, 55 Device side connector arrangement surface, 61 Front part, 62 Power supply unit, 63 Part chassis part, 63A interior of the chassis, 63B, 74 screw hole, 71 side, 72 the bottom, 73-holes, 75 reinforcing member, 76 side plates, 77 circuit board, 78 beam former unit

Claims (4)

A device body having a plurality of circuit portions inside and having an outer shape of a substantially rectangular parallelepiped,
A foot that is provided on the bottom surface of the apparatus main body in the first state in which the apparatus main body is placed horizontally and serves as a support when the apparatus main body is placed horizontally;
A first handle portion provided on one side surface of the apparatus main body when the apparatus main body is in the first state;
A second handle portion provided on the other side surface of the device main body with respect to the one side surface;
A protrusion provided on the other side surface;
A medical device comprising:
The second handle portion is rotatably supported with respect to the other side surface, and the distance from the surface of the other side surface to the tip end portion of the projection portion of the projection portion is greater than that of the second handle portion. To be the same as the distance from the surface of the other side surface to the farthest portion of the grip portion in the grip portion formed on the second handle portion when the second handle portion is rotated to the state of being tilted with respect to the other side surface. Configured,
In the second state in which the apparatus main body is placed vertically so that the other side surface is the bottom surface, the projection and the second handle part function as a cradle for the apparatus main body to stand the apparatus main body upright. Make it possible to
A medical device characterized by that . The grip portion has a curved surface portion on the outside of the grip portion when the second handle portion rotates,
When the apparatus body is lowered in a flat state in the second state, which is in a vertically placed state, and the curved surface shape part of the grip part comes into contact with the flat surface, the grip part in a state where it hangs down in its vertical direction by its own weight is folded. The medical device according to claim 1, wherein the medical device is tilted in a direction . The medical device according to claim 1, wherein the protrusion is a caster.   The medical apparatus according to claim 1, wherein the apparatus main body is an ultrasonic observation apparatus.

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