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WO2022270011A1 - Drive device - Google Patents

Drive device Download PDF

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Publication number
WO2022270011A1
WO2022270011A1 PCT/JP2022/008045 JP2022008045W WO2022270011A1 WO 2022270011 A1 WO2022270011 A1 WO 2022270011A1 JP 2022008045 W JP2022008045 W JP 2022008045W WO 2022270011 A1 WO2022270011 A1 WO 2022270011A1
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WO
WIPO (PCT)
Prior art keywords
touch panel
panel
front panel
housing
drive substrate
Prior art date
Application number
PCT/JP2022/008045
Other languages
French (fr)
Japanese (ja)
Inventor
喜一郎 澤田
洋人 中村
宏一郎 渡辺
宏治 木本
順久 山田
真倫 一方井
英人 吉嶺
健 藤崎
親芳 目黒
Original Assignee
オリンパス株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by オリンパス株式会社 filed Critical オリンパス株式会社
Priority to JP2023529519A priority Critical patent/JPWO2022270011A1/ja
Publication of WO2022270011A1 publication Critical patent/WO2022270011A1/en

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/32Surgical cutting instruments
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B18/00Surgical instruments, devices or methods for transferring non-mechanical forms of energy to or from the body

Definitions

  • the present invention relates to a driving device.
  • Patent Document 1 Conventionally, in a medical device that uses ultrasonic waves, etc., there is known a configuration in which a touch panel is provided in a state of being exposed to the outside of the housing (see Patent Document 1, for example).
  • the function or performance of the electronic parts such as the drive board that drives the touch panel provided inside the housing is fully ensured. The need to ensure is desired.
  • the present invention has been made in view of the above, and provides a driving device capable of realizing a structure in which sufficient countermeasures against water leakage from between the touch panel and the housing into the housing are taken.
  • the purpose is to
  • a drive device includes a housing that forms an exterior, a touch panel that displays images and accepts user operations, and a drive substrate that drives the touch panel. and a treatment instrument connector electrically connected to an external energy treatment instrument, wherein the touch panel and the treatment instrument connector are provided in a state of being exposed to the outside from a front surface portion constituting the front surface of the housing,
  • the front portion includes a front panel that supports the touch panel and the driving substrate, and a front panel cover that covers the front side of the front panel.
  • a frame-shaped waterproof film is provided between the front surface of the touch panel and the rear surface of the front panel cover, and is supported on the front panel with a gap provided therebetween. ing.
  • the driving device of the present invention it is possible to realize a structure that sufficiently prevents water leakage from between the touch panel and the housing to the inside of the housing.
  • FIG. 1 is a diagram showing a schematic configuration of a treatment system according to an embodiment.
  • FIG. 2 is a diagram showing an ultrasonic treatment instrument.
  • FIG. 3 is a diagram for explaining the configuration of the housing.
  • FIG. 4 is a diagram for explaining the configuration of the housing.
  • FIG. 5 is a diagram for explaining the support structure of the touch panel with respect to the front panel.
  • FIG. 6 is a diagram for explaining the support structure of the touch panel with respect to the front panel.
  • FIG. 1 is a diagram showing a schematic configuration of a treatment system 1 according to an embodiment.
  • the treatment system 1 treats a living tissue such as a bone by applying ultrasonic vibrations to the living tissue.
  • the treatment means, for example, removal or cutting of living tissue such as bone.
  • FIG. 1 illustrates a treatment system for performing anterior cruciate ligament reconstruction as the treatment system 1 .
  • This treatment system 1 includes an endoscope device 2, a treatment device 3, a guiding device 4, and a perfusion device 5, as shown in FIG.
  • the endoscope device 2 includes an endoscope 21 and a control device 22, as shown in FIG.
  • the endoscope 21 passes through a first portal P1 that communicates between the inside of the joint cavity C1 of the knee joint J1 and the outside of the skin, and the distal end portion of the insertion portion 211 is inserted into the joint cavity C1. is inserted.
  • the endoscope 21 irradiates the inside of the joint cavity C1, captures the illumination light (subject image) reflected inside the joint cavity C1, and captures the subject image.
  • the control device 22 performs various types of image processing on the captured image captured by the endoscope 21, and displays the captured image after the image processing on a display device (not shown).
  • the treatment device 3 includes an ultrasonic treatment device 31, a driving device 6, and a foot switch 32, as shown in FIG.
  • FIG. 2 is a diagram showing the ultrasonic treatment device 31.
  • the ultrasonic treatment tool 31 corresponds to the energy treatment tool according to the present invention.
  • the ultrasonic treatment instrument 31 includes a treatment instrument body 311, a blade 312 (FIG. 2), a sheath 313, a cable 314, and a connector 315 (FIG. 1).
  • the treatment instrument main body 311 is formed in a substantially cylindrical shape as a whole. Inside the treatment instrument main body 311, an ultrasonic transducer 3111 (Fig. 1, Fig. 2) are stored.
  • the driving device 6 inside the housing 60 (FIG. 1) forming the exterior of the driving device 6, corresponding to the ultrasonic transducer 3111 according to the operation of the foot switch 32 by the operator.
  • a drive circuit (not shown) for supplying drive power is provided.
  • the supply of the driving power is not limited to the operation of the foot switch 32, and may be performed according to the operation of an operation unit (not shown) provided in the ultrasonic treatment instrument 31, for example. Note that the configuration of the housing 60 will be described later in "Configuration of housing".
  • the blade 312 is made of, for example, a titanium alloy and has a substantially cylindrical shape.
  • the proximal end of this blade 312 is connected to an ultrasonic transducer 3111 inside the treatment instrument main body 311 .
  • the blade 312 transmits ultrasonic vibrations generated by the ultrasonic transducer 3111 from the proximal end to the distal end.
  • the ultrasonic vibration is longitudinal vibration along the longitudinal direction of blade 312 .
  • a distal treatment section 3121 is provided at the distal end of the blade 312 .
  • the sheath 313 is formed in a cylindrical shape that is longer and narrower than the treatment instrument main body 311 and covers part of the outer circumference of the blade 312 from the treatment instrument main body 311 to an arbitrary length.
  • a proximal end portion of the cable 314 is electrically connected to the driving energy input portion 3112 inside the treatment instrument main body 311 .
  • a connector 315 is connected to the tip of the cable 314 .
  • the distal end portion of the ultrasonic treatment instrument 31 described above is guided by the guiding device 4 inserted into the joint cavity C1 through the second portal P2 communicating between the inside of the joint cavity C1 and the outside of the skin. It is inserted inside the joint cavity C1. Then, when ultrasonic vibrations are generated in a state in which the distal end treatment section 3121, which is the distal end portion of the ultrasonic treatment instrument 31, is in contact with the treatment target site of the bone, the distal end treatment section 3121 and the mechanical vibration are generated by the hammering action. The portion of the bone that hits the target is pulverized into fine granules.
  • the distal treatment section 3121 advances into the treatment target site while crushing the bone.
  • a bone hole having a cross-sectional shape corresponding to the cross-sectional shape of the distal treatment portion 3121 is formed in the treatment target site.
  • the guiding device 4 is inserted through the second portal P2 into the joint cavity C1, and guides the insertion of the distal end portion of the ultrasonic treatment instrument 31 into the joint cavity C1.
  • the perfusion apparatus 5 includes a liquid source 51, a liquid feed tube 52, a liquid feed pump 53, a drain bottle 54, a drain tube 55, and a drain pump 56, as shown in FIG.
  • Liquid source 51 contains the perfusate.
  • the liquid supply tube 52 has one end connected to the liquid source 51 and the other end connected to the endoscope 21 .
  • the liquid-sending pump 53 sends the perfusate from the liquid source 51 toward the endoscope 21 through the liquid-sending tube 52 .
  • the perfusate delivered to the endoscope 21 is then delivered into the joint cavity C1 from a liquid delivery hole (not shown) formed in the distal end portion of the insertion section 211 .
  • the drainage bottle 54 contains the perfusate discharged to the outside of the joint cavity C1.
  • the drainage tube 55 has one end connected to the guiding device 4 and the other end connected to the drainage bottle 54 .
  • the drainage pump 56 follows a flow path from the guiding device 4 inserted inside the joint cavity C1 to the drainage tube 55 to discharge the perfusate inside the joint cavity C1 to the drainage bottle 54 .
  • FIGS. 3 and 4 are diagrams illustrating the configuration of the housing 60.
  • FIG. 3 is a perspective view of the driving device 6 viewed from the front side.
  • FIG. 4 is an exploded perspective view of the housing 60 shown in FIG.
  • the housing 60 has a front surface portion 61, a rear surface portion (not shown), a bottom surface portion 62, and a top cover 63, and is generally formed in a substantially rectangular parallelepiped shape.
  • the front surface portion 61 is a portion that constitutes the front surface of the housing 60 .
  • the rear portion (not shown) is a portion that constitutes the rear surface of the housing 60 .
  • the bottom surface portion 62 is a portion that constitutes the bottom surface of the housing 60 .
  • the top cover 63 is a U-shaped portion having an upper surface portion 64 that constitutes the upper surface of the housing 60 and a pair of side surface portions 65 that respectively constitute a pair of side surfaces of the housing 60. .
  • a treatment instrument connector 61A, a power switch 61B, a plurality of (two in the present embodiment) operation switches 61C, and a touch panel 61D are exposed to the outside.
  • a connector 315 of the ultrasonic treatment tool 31 is detachably connected to the treatment tool connector 61A.
  • the power switch 61B is a switch for turning on the power of the driving device 6 .
  • the two operation switches 61C are switches for receiving various operations by a user such as an operator.
  • the touch panel 61D is a panel in which a display panel (not shown) that displays various images and a position input device (not shown) such as a touch pad that is provided on the surface of the display panel and receives user operations are combined. .
  • the front portion 61 includes a front panel 611 (FIG. 4) and a front panel cover 612. As shown in FIGS.
  • the front panel 611 is made of a metal material and is a rectangular plate when viewed from the front side.
  • a gasket 6111 is attached to the upper end of the front panel 611 over the entire length of the upper end. This gasket 6111 contacts the inner surface of the upper surface portion 64 when the top cover 63 is assembled to the front panel 611 .
  • FIG. 5 and 6 are diagrams for explaining the support structure of the touch panel 61D with respect to the front panel 611.
  • FIG. 5 is a perspective view of the support structure of the touch panel 61D with respect to the front panel 611 as seen from the front side.
  • FIG. 6 is a side view of the support structure of the touch panel 61D with respect to the front panel 611. As shown in FIG. Specifically, as shown in FIG.
  • the driving board 61E is fixed to the front surface of the front panel 611 in such a manner that both surfaces of the driving board 61E are parallel to the front surface of the front panel 611.
  • the touch panel 61D is arranged on the front side of the driving substrate 61E while being supported by the supporting member 66 with a gap provided with respect to the driving substrate 61E.
  • the support member 66 is made of a metal material.
  • the support member 66 includes a first frame 661 and four legs 662, as shown in FIGS.
  • the first frame 661 is formed in a rectangular frame shape having a first opening 6611 (FIG. 5).
  • the touch panel 61 ⁇ /b>D is supported by the first frame 661 while being fitted in the first opening 6611 . 5 and 6, a second opening 6631 smaller than the first opening 6611 (smaller than the external size of the touch panel 61D) is provided on the front surface of the first frame 661. 5), and a second frame 663, which is a rectangular frame-shaped plate made of a metal material, is attached. That is, the second frame 663 is arranged on the front side of the touch panel 61D.
  • the left and right portions extending in the vertical direction respectively extend along the left and right edges of the touch panel 61D, forming a pair of blocking members 6632 (FIG. 5) according to the present invention. corresponds to the
  • the four leg portions 662 are portions that protrude from the four corners of the first frame 661 toward the rear side, and are fixed in contact with the front surface of the front panel 611 .
  • FIG. 11 only one of the two lower leg portions 662D among the four leg portions 662 is illustrated for convenience of explanation.
  • the upper two legs 662U have a shorter projection length than the lower two legs 662D. That is, when the support member 66 is fixed to the front surface of the front panel 611, the touch panel 61D assumes a posture inclined toward the front surface as it goes downward. Also, in this case, as shown in FIG. 6, the lower end position of the touch panel 61D is located below the lower end position of the drive substrate 61E by the height dimension D1.
  • the front panel cover 612 is made of a resin material, is a rectangular plate when viewed from the front, and covers the front of the front panel 611 . As shown in FIG. 4, the front panel cover 612 is provided with openings 6121 to 6124 for exposing the treatment instrument connector 61A, the power switch 61B, the plurality of operation switches 61C, and the touch panel 61D to the outside. ing. Rectangular frame-shaped first and second waterproof films (tapes) 6125 and 6126 (FIGS. 4 to 6) are provided between the rear surface of the front panel cover 612 and the front surface of the touch panel 61D, respectively. . These first and second waterproof films 6125 and 6126 correspond to waterproof films according to the present invention.
  • a first waterproof film 6125 is attached to the rear surface of the front panel cover 612 around an opening 6124 for exposing the touch panel 61D to the outside.
  • the first waterproof film 6125 contacts the front surface of the second frame 663 when the front panel cover 612 is attached to the front panel 611 .
  • the second waterproof film 6126 is attached around the second opening 6631 on the back surface of the second frame 663, and the second frame 663 is attached to the first frame 661. At that time, it abuts against the front surface of the touch panel 61D.
  • the front portion 61 constituting the front surface of the housing 60 of the driving device 6 includes a front panel 611 that supports a touch panel 61D and a driving substrate 61E, and a front side of the front panel 611. and a front panel cover 612 that covers the
  • the touch panel 61D and the drive substrate 61E are supported on the front panel 611 with the drive substrate 61E positioned on the back side of the touch panel 61D and a gap provided between them.
  • Frame-shaped first and second waterproof films 6125 and 6126 are provided between the front surface of the touch panel 61D and the rear surface of the front panel cover 612. As shown in FIG.
  • the first and second waterproof films 6125 and 6126 can eliminate the gap between the peripheral portion of the opening 6124 and the touch panel 61D, thereby improving waterproofness. Further, since a gap is provided between the touch panel 61D and the driving substrate 61E, even if a liquid such as a perfusate enters the inside of the housing 60 from the opening 6124, the function of the driving substrate 61E is maintained. Alternatively, the performance can be fully secured. Therefore, according to drive device 6 according to the present embodiment, a structure can be realized in which sufficient countermeasures against water leakage into housing 60 from between touch panel 61D and housing 60 are taken.
  • the front panel cover 612 made of resin material and the second frame body 663 made of metal material have different coefficients of thermal expansion.
  • the space between the front panel cover 612 and the second frame 663 is not completely sealed with an adhesive or a sealing material.
  • the film 6125 is configured to be in contact with the second frame 663 . Therefore, while maintaining the contact state between the first waterproof film 6125 attached to the front panel cover 612 and the second frame body 663, the front panel cover 612 is deformed due to the above-described difference in thermal expansion coefficient. can be prevented.
  • the front panel 611 and the support member 66 are each made of a metal material and are fixed in contact with each other. Therefore, even if the front panel 611 and the support member 66 thermally expand and contract due to temperature changes, the thermal expansion coefficients of the front panel 611 and the support member 66 are close to each other. The fixed state in which the support members 66 are in contact with each other can be stably maintained. Therefore, an unnecessary gap does not occur between the peripheral portion of the opening 6124 and the touch panel 61D, and a structure in which water leakage to the inside of the housing 60 is sufficiently prevented can be realized.
  • the support member 66 supports the touch panel 61D in a posture inclined toward the front as it goes downward. Therefore, it is possible to realize a structure in which a liquid such as perfusate flowing along the front surface of the touch panel 61D flows only in a certain direction (toward the bottom surface portion 62 of the housing 60). In other words, since the drive substrate 61E is arranged on the back side of the touch panel 61D, the drive substrate 61E is not installed at the flow destination of liquid such as perfusate flowing along the front surface of the touch panel 61D.
  • the drive substrate 61E will not malfunction due to the liquid. occurrence can be avoided.
  • the gap between the lower end position of the touch panel 61D and the lower end position of the drive substrate 61E can be increased, the liquid such as the perfusate remaining at the lower end position of the touch panel 61D can flow toward the inside of the housing 60 together with the air moving toward the inside of the housing 60. Even if the liquid splashes to the side, it is possible to prevent the liquid from falling on the drive substrate 61E.
  • the touch panel 61D and the drive substrate 61E are supported with respect to the front panel 611 in a state in which the lower end position of the touch panel 61D is located below the lower end position of the drive substrate 61E. It is Therefore, even if the waterproof film 6125 is damaged and the liquid such as the perfusate remaining at the lower end of the touch panel 61D scatters to the rear side together with the air flowing toward the inside of the housing 60, the liquid will not reach the drive substrate. 61E can be avoided.
  • the lower end position of the drive substrate 61E can be positioned above the bottom surface portion 62, even if a liquid such as a perfusate enters the interior of the housing 60 and accumulates in the bottom surface portion 62, Also, the driving substrate 61E can be prevented from entering the liquid.
  • a pair of blocking members 6632 extending along the left and right edges of the touch panel 61D are arranged on the front surface of the touch panel 61D. Therefore, it is possible to realize a structure in which a liquid such as perfusate flowing along the front surface of the touch panel 61D flows only in a certain direction (toward the bottom surface portion 62 of the housing 60).
  • the drive substrate 61E since the drive substrate 61E is arranged on the back side of the touch panel 61D, the drive substrate 61E is not installed at the flow destination of liquid such as perfusate flowing along the front surface of the touch panel 61D. Therefore, even if the waterproof film 6125 is damaged and a liquid such as an irrigation liquid flows along the front surface of the touch panel 61D and enters the housing 60, the drive substrate 61E will not malfunction due to the liquid. occurrence can be avoided.
  • a gasket 6111 is provided between the upper surface portion 64 and the front panel 611 in the driving device 6 according to the present embodiment. Therefore, the gap between the front panel 611 and the upper surface portion 64 can be eliminated, and the waterproof property can be further improved.
  • the ultrasonic treatment device 31 for removing or cutting a living tissue such as a bone was exemplified as an energy treatment device according to the present invention, but the present invention is not limited to this.
  • the energy treatment device according to the present invention includes an ultrasonic treatment device for sealing or incising a living tissue such as a blood vessel, an energy treatment device for treating a living tissue by applying high-frequency energy to the living tissue, and Alternatively, an energy treatment instrument that treats a living tissue by applying thermal energy to the living tissue may be employed.
  • applying high-frequency energy to a living tissue means applying a high-frequency current to the living tissue.
  • applying thermal energy to a living tissue means transferring heat generated by a heater or the like to the living tissue.

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  • Life Sciences & Earth Sciences (AREA)
  • Surgery (AREA)
  • Molecular Biology (AREA)
  • Engineering & Computer Science (AREA)
  • Biomedical Technology (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Medical Informatics (AREA)
  • Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
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  • Veterinary Medicine (AREA)
  • Otolaryngology (AREA)
  • Surgical Instruments (AREA)
  • Ultra Sonic Daignosis Equipment (AREA)

Abstract

A front surface part 61 that is a constituent of a housing 60 of this drive device 6 comprises: a front panel 611 that supports a touch panel 61D and a drive substrate 61E; and a front panel cover 612 that covers the front surface side of the front panel 611. The drive substrate is positioned on the rear surface side of the touch panel 61D, and the touch panel 61D and the drive substrate are supported by the front panel 611 in a state in which a gap is provided between the touch panel 61D and the drive substrate. Between the front surface of the touch panel 61D and the rear surface of the front panel cover 612, a frame-like waterproof film 6125 is provided.

Description

駆動装置drive
 本発明は、駆動装置に関する。 The present invention relates to a driving device.
 従来、超音波等を利用した医療機器において、筐体の外部に露出した状態でタッチパネルを設けた構成が知られている(例えば、特許文献1参照)。 Conventionally, in a medical device that uses ultrasonic waves, etc., there is known a configuration in which a touch panel is provided in a state of being exposed to the outside of the housing (see Patent Document 1, for example).
特開2010-142399号公報JP 2010-142399 A
 タッチパネルと筐体との間からの当該筐体の内部への不意の漏水に対して、当該筐体の内部に設けられた当該タッチパネルを駆動する駆動基板等の電子部品の機能若しくは性能を万全に確保することへの必要性が望まれる。 To prevent unexpected water leakage from between the touch panel and the housing to the inside of the housing, the function or performance of the electronic parts such as the drive board that drives the touch panel provided inside the housing is fully ensured. The need to ensure is desired.
 本発明は、上記に鑑みてなされたものであって、タッチパネルと筐体との間からの当該筐体の内部への漏水対策を十分に施した構造を実現することができる駆動装置を提供することを目的とする。 SUMMARY OF THE INVENTION The present invention has been made in view of the above, and provides a driving device capable of realizing a structure in which sufficient countermeasures against water leakage from between the touch panel and the housing into the housing are taken. The purpose is to
 上述した課題を解決し、目的を達成するために、本発明に係る駆動装置は、外装を形成する筐体と、画像を表示するとともにユーザ操作を受け付けるタッチパネルと、前記タッチパネルを駆動する駆動基板と、外部のエネルギ処置具と電気的に接続する処置具コネクタと、を備え、前記タッチパネル及び前記処置具コネクタは、前記筐体の前面を構成する前面部から外部に露出した状態でそれぞれ設けられ、前記前面部は、前記タッチパネル及び前記駆動基板を支持するフロントパネルと、前記フロントパネルの前面側を覆うフロントパネルカバーと、を備え、前記タッチパネル及び前記駆動基板は、前記駆動基板が前記タッチパネルの背面側に位置し、互いの間に隙間が設けられた状態で前記フロントパネルに対して支持され、前記タッチパネルの前面と前記フロントパネルカバーの背面との間には、枠状の防水フィルムが設けられている。 In order to solve the above-described problems and achieve the object, a drive device according to the present invention includes a housing that forms an exterior, a touch panel that displays images and accepts user operations, and a drive substrate that drives the touch panel. and a treatment instrument connector electrically connected to an external energy treatment instrument, wherein the touch panel and the treatment instrument connector are provided in a state of being exposed to the outside from a front surface portion constituting the front surface of the housing, The front portion includes a front panel that supports the touch panel and the driving substrate, and a front panel cover that covers the front side of the front panel. A frame-shaped waterproof film is provided between the front surface of the touch panel and the rear surface of the front panel cover, and is supported on the front panel with a gap provided therebetween. ing.
 本発明に係る駆動装置によれば、タッチパネルと筐体との間からの当該筐体の内部への漏水対策を十分に施した構造を実現することができる。 According to the driving device of the present invention, it is possible to realize a structure that sufficiently prevents water leakage from between the touch panel and the housing to the inside of the housing.
図1は、実施の形態に係る処置システムの概略構成を示す図である。FIG. 1 is a diagram showing a schematic configuration of a treatment system according to an embodiment. 図2は、超音波処置具を示す図である。FIG. 2 is a diagram showing an ultrasonic treatment instrument. 図3は、筐体の構成を説明する図である。FIG. 3 is a diagram for explaining the configuration of the housing. 図4は、筐体の構成を説明する図である。FIG. 4 is a diagram for explaining the configuration of the housing. 図5は、フロントパネルに対するタッチパネルの支持構造を説明する図である。FIG. 5 is a diagram for explaining the support structure of the touch panel with respect to the front panel. 図6は、フロントパネルに対するタッチパネルの支持構造を説明する図である。FIG. 6 is a diagram for explaining the support structure of the touch panel with respect to the front panel.
 以下に、図面を参照しつつ、本発明を実施するための形態(以下、実施の形態)について説明する。なお、以下に説明する実施の形態によって本発明が限定されるものではない。さらに、図面の記載において、同一の部分には同一の符号を付している。 A mode for carrying out the present invention (hereinafter referred to as an embodiment) will be described below with reference to the drawings. It should be noted that the present invention is not limited by the embodiments described below. Furthermore, in the description of the drawings, the same parts are given the same reference numerals.
 〔処置システムの概略構成〕
 図1は、実施の形態に係る処置システム1の概略構成を示す図である。
 処置システム1は、骨等の生体組織に対して超音波振動を付与することによって、当該生体組織を処置する。ここで、当該処置とは、例えば、骨等の生体組織の除去や切削を意味する。なお、図1では、当該処置システム1として、前十字靭帯再建術を行う処置システムを例示している。
 この処置システム1は、図1に示すように、内視鏡装置2と、処置装置3と、ガイディングデバイス4と、灌流装置5とを備える。
[Schematic configuration of treatment system]
FIG. 1 is a diagram showing a schematic configuration of a treatment system 1 according to an embodiment.
The treatment system 1 treats a living tissue such as a bone by applying ultrasonic vibrations to the living tissue. Here, the treatment means, for example, removal or cutting of living tissue such as bone. Note that FIG. 1 illustrates a treatment system for performing anterior cruciate ligament reconstruction as the treatment system 1 .
This treatment system 1 includes an endoscope device 2, a treatment device 3, a guiding device 4, and a perfusion device 5, as shown in FIG.
 内視鏡装置2は、図1に示すように、内視鏡21と、制御装置22とを備える。
 内視鏡21は、図1に示すように、膝関節J1の関節腔C1の内部と皮膚外とを連通する第1のポータルP1を通して、挿入部211の先端部分が当該関節腔C1の内部に挿通される。そして、内視鏡21は、関節腔C1の内部に照射し、当該関節腔C1の内部で反射された照明光(被写体像)を取り込み、当該被写体像を撮像する。
 制御装置22は、内視鏡21によって撮像された撮像画像に対して種々の画像処理を実行するとともに、当該画像処理後の撮像画像を表示装置(図示略)に表示させる。
The endoscope device 2 includes an endoscope 21 and a control device 22, as shown in FIG.
As shown in FIG. 1, the endoscope 21 passes through a first portal P1 that communicates between the inside of the joint cavity C1 of the knee joint J1 and the outside of the skin, and the distal end portion of the insertion portion 211 is inserted into the joint cavity C1. is inserted. Then, the endoscope 21 irradiates the inside of the joint cavity C1, captures the illumination light (subject image) reflected inside the joint cavity C1, and captures the subject image.
The control device 22 performs various types of image processing on the captured image captured by the endoscope 21, and displays the captured image after the image processing on a display device (not shown).
 処置装置3は、図1に示すように、超音波処置具31と、駆動装置6と、フットスイッチ32とを備える。
 図2は、超音波処置具31を示す図である。
 超音波処置具31は、本発明に係るエネルギ処置具に相当する。この超音波処置具31は、図1及び図2に示すように、処置具本体311と、ブレード312(図2)と、シース313と、ケーブル314と、コネクタ315(図1)とを備える。
 処置具本体311は、全体略円筒状に形成されている。そして、処置具本体311の内部には、ボルト締めランジュバン型振動子(Bolt-clamped Langevin-type transducer)によって構成され、供給された駆動電力に応じて超音波振動を発生する超音波トランスデューサ3111(図1,図2)が収納されている。
The treatment device 3 includes an ultrasonic treatment device 31, a driving device 6, and a foot switch 32, as shown in FIG.
FIG. 2 is a diagram showing the ultrasonic treatment device 31. As shown in FIG.
The ultrasonic treatment tool 31 corresponds to the energy treatment tool according to the present invention. As shown in FIGS. 1 and 2, the ultrasonic treatment instrument 31 includes a treatment instrument body 311, a blade 312 (FIG. 2), a sheath 313, a cable 314, and a connector 315 (FIG. 1).
The treatment instrument main body 311 is formed in a substantially cylindrical shape as a whole. Inside the treatment instrument main body 311, an ultrasonic transducer 3111 (Fig. 1, Fig. 2) are stored.
 ここで、駆動装置6において、当該駆動装置6の外装を形成する筐体60(図1)の内部には、術者によるフットスイッチ32への操作に応じて、超音波トランスデューサ3111に対して当該駆動電力を供給する駆動回路(図示略)が設けられている。当該駆動電力の供給については、フットスイッチ32への操作に限らず、例えば、超音波処置具31に設けられた操作部(図示略)への操作に応じて行われても構わない。
 なお、筐体60の構成については、後述する「筐体の構成」において説明する。
Here, in the driving device 6, inside the housing 60 (FIG. 1) forming the exterior of the driving device 6, corresponding to the ultrasonic transducer 3111 according to the operation of the foot switch 32 by the operator. A drive circuit (not shown) for supplying drive power is provided. The supply of the driving power is not limited to the operation of the foot switch 32, and may be performed according to the operation of an operation unit (not shown) provided in the ultrasonic treatment instrument 31, for example.
Note that the configuration of the housing 60 will be described later in "Configuration of housing".
 ブレード312は、例えばチタン合金等によって構成され、略円柱形状を有する。このブレード312の基端部は、処置具本体311の内部において、超音波トランスデューサ3111に対して接続されている。そして、ブレード312は、超音波トランスデューサ3111が発生させた超音波振動を基端から先端まで伝達する。本実施の形態では、当該超音波振動は、ブレード312の長手方向に沿う縦振動である。また、ブレード312の先端部には、図2に示すように、先端処置部3121が設けられている。 The blade 312 is made of, for example, a titanium alloy and has a substantially cylindrical shape. The proximal end of this blade 312 is connected to an ultrasonic transducer 3111 inside the treatment instrument main body 311 . The blade 312 transmits ultrasonic vibrations generated by the ultrasonic transducer 3111 from the proximal end to the distal end. In the present embodiment, the ultrasonic vibration is longitudinal vibration along the longitudinal direction of blade 312 . In addition, as shown in FIG. 2, a distal treatment section 3121 is provided at the distal end of the blade 312 .
 シース313は、処置具本体311よりも細長い円筒状に形成され、当該処置具本体311から任意の長さまでブレード312の外周の一部を覆っている。
 ケーブル314の基端部は、処置具本体311の内部において、駆動エネルギ入力部3112と電気的に接続されている。また、ケーブル314の先端部には、コネクタ315が接続されている。
The sheath 313 is formed in a cylindrical shape that is longer and narrower than the treatment instrument main body 311 and covers part of the outer circumference of the blade 312 from the treatment instrument main body 311 to an arbitrary length.
A proximal end portion of the cable 314 is electrically connected to the driving energy input portion 3112 inside the treatment instrument main body 311 . A connector 315 is connected to the tip of the cable 314 .
 以上説明した超音波処置具31の先端部分は、関節腔C1の内部と皮膚外とを連通する第2のポータルP2を通して当該関節腔C1の内部に挿通されたガイディングデバイス4によって案内されつつ、当該関節腔C1の内部に挿通される。そして、骨の処置対象部位に対して超音波処置具31の先端部分である先端処置部3121を接触させた状態で超音波振動を発生させると、ハンマーリング作用によって、当該先端処置部3121と機械的に衝突した骨の部分が微細な粒状に粉砕される。また、術者によって先端処置部3121が処置対象部位に対して押し込まれると、当該先端処置部3121は、骨を粉砕しながら当該処置対象部位の内部に進入していく。これによって、処置対象部位には、当該先端処置部3121の断面形状に応じた断面形状の骨孔が形成される。 The distal end portion of the ultrasonic treatment instrument 31 described above is guided by the guiding device 4 inserted into the joint cavity C1 through the second portal P2 communicating between the inside of the joint cavity C1 and the outside of the skin. It is inserted inside the joint cavity C1. Then, when ultrasonic vibrations are generated in a state in which the distal end treatment section 3121, which is the distal end portion of the ultrasonic treatment instrument 31, is in contact with the treatment target site of the bone, the distal end treatment section 3121 and the mechanical vibration are generated by the hammering action. The portion of the bone that hits the target is pulverized into fine granules. Further, when the operator pushes the distal treatment section 3121 into the treatment target site, the distal treatment section 3121 advances into the treatment target site while crushing the bone. As a result, a bone hole having a cross-sectional shape corresponding to the cross-sectional shape of the distal treatment portion 3121 is formed in the treatment target site.
 ガイディングデバイス4は、第2のポータルP2を通して関節腔C1の内部に挿通され、超音波処置具31における先端部分の当該関節腔C1の内部への挿通を案内する。 The guiding device 4 is inserted through the second portal P2 into the joint cavity C1, and guides the insertion of the distal end portion of the ultrasonic treatment instrument 31 into the joint cavity C1.
 ここで、関節腔C1の内部は、生理食塩水等の灌流液によって満たされている。そして、当該灌流液は、灌流装置5によって、関節腔C1の内部に送出されるとともに、当該関節腔C1の外部に排出される。この灌流装置5は、図1に示すように、液体源51と、送液チューブ52と、送液ポンプ53と、排液ボトル54と、排液チューブ55と、排液ポンプ56とを備える。
 液体源51は、灌流液を収容する。
 送液チューブ52は、一端が液体源51に対して接続され、他端が内視鏡21に対して接続されている。
 送液ポンプ53は、送液チューブ52を通して、液体源51から内視鏡21に向けて灌流液を送出する。そして、内視鏡21に送出された灌流液は、挿入部211の先端部分に形成された送液孔(図示略)から関節腔C1の内部に送出される。
Here, the interior of the joint cavity C1 is filled with a perfusate such as physiological saline. The perfusate is then delivered into the joint cavity C1 by the perfusion device 5 and discharged to the outside of the joint cavity C1. The perfusion apparatus 5 includes a liquid source 51, a liquid feed tube 52, a liquid feed pump 53, a drain bottle 54, a drain tube 55, and a drain pump 56, as shown in FIG.
Liquid source 51 contains the perfusate.
The liquid supply tube 52 has one end connected to the liquid source 51 and the other end connected to the endoscope 21 .
The liquid-sending pump 53 sends the perfusate from the liquid source 51 toward the endoscope 21 through the liquid-sending tube 52 . The perfusate delivered to the endoscope 21 is then delivered into the joint cavity C1 from a liquid delivery hole (not shown) formed in the distal end portion of the insertion section 211 .
 排液ボトル54は、関節腔C1の外部に排出された灌流液を収容する。
 排液チューブ55は、一端がガイディングデバイス4に対して接続され、他端が排液ボトル54に対して接続されている。
 排液ポンプ56は、関節腔C1の内部に挿通されたガイディングデバイス4から排液チューブ55に至る流路を辿って、当該関節腔C1の内部の灌流液を排液ボトル54に排出する。
The drainage bottle 54 contains the perfusate discharged to the outside of the joint cavity C1.
The drainage tube 55 has one end connected to the guiding device 4 and the other end connected to the drainage bottle 54 .
The drainage pump 56 follows a flow path from the guiding device 4 inserted inside the joint cavity C1 to the drainage tube 55 to discharge the perfusate inside the joint cavity C1 to the drainage bottle 54 .
 〔筐体の構成〕
 次に、筐体60の構成について説明する。
 図3及び図4は、筐体60の構成を説明する図である。具体的に、図3は、駆動装置6を前面側から見た斜視図である。図4は、図3に示した筐体60を分解した分解斜視図である。
 筐体60は、図3及び図4に示すように、前面部61と、背面部(図示略)と、底面部62と、トップカバー63とを有し、全体略直方体状に形成されている。具体的に、前面部61は、筐体60の前面を構成する部分である。また、背面部(図示略)は、筐体60の背面を構成する部分である。さらに、底面部62は、筐体60の底面を構成する部分である。また、トップカバー63は、筐体60の上面を構成する上面部64と、当該筐体60の一対の側面をそれぞれ構成する一対の側面部65とを有するU字状に形成された部分である。
[Construction of housing]
Next, the configuration of the housing 60 will be described.
3 and 4 are diagrams illustrating the configuration of the housing 60. FIG. Specifically, FIG. 3 is a perspective view of the driving device 6 viewed from the front side. FIG. 4 is an exploded perspective view of the housing 60 shown in FIG.
As shown in FIGS. 3 and 4, the housing 60 has a front surface portion 61, a rear surface portion (not shown), a bottom surface portion 62, and a top cover 63, and is generally formed in a substantially rectangular parallelepiped shape. . Specifically, the front surface portion 61 is a portion that constitutes the front surface of the housing 60 . Also, the rear portion (not shown) is a portion that constitutes the rear surface of the housing 60 . Further, the bottom surface portion 62 is a portion that constitutes the bottom surface of the housing 60 . The top cover 63 is a U-shaped portion having an upper surface portion 64 that constitutes the upper surface of the housing 60 and a pair of side surface portions 65 that respectively constitute a pair of side surfaces of the housing 60. .
 前面部61には、図3に示すように、処置具コネクタ61Aと、電源スイッチ61Bと、複数(本実施の形態では2つ)の操作スイッチ61Cと、タッチパネル61Dとが外部に露出した状態で設けられている。
 処置具コネクタ61Aには、超音波処置具31のコネクタ315が着脱可能に接続される。そして、超音波処置具31と駆動装置6との間では、コネクタ315と処置具コネクタ61Aとが接続すると、ケーブル314を経由することによって、駆動電力の供給、及び制御信号の通信等が行われる。
 電源スイッチ61Bは、駆動装置6の電源をオンするスイッチである。
 2つの操作スイッチ61Cは、術者等のユーザによる各種の操作を受け付けるスイッチである。
 タッチパネル61Dは、各種の画像を表示する表示パネル(図示略)と、当該表示パネルの表面に設けられ、ユーザ操作を受け付けるタッチパッド等の位置入力装置(図示略)とが組み合わされたパネルである。
As shown in FIG. 3, on the front surface portion 61, a treatment instrument connector 61A, a power switch 61B, a plurality of (two in the present embodiment) operation switches 61C, and a touch panel 61D are exposed to the outside. is provided.
A connector 315 of the ultrasonic treatment tool 31 is detachably connected to the treatment tool connector 61A. When the connector 315 and the treatment instrument connector 61A are connected between the ultrasonic treatment instrument 31 and the driving device 6, drive power is supplied and control signal communication is performed via the cable 314. .
The power switch 61B is a switch for turning on the power of the driving device 6 .
The two operation switches 61C are switches for receiving various operations by a user such as an operator.
The touch panel 61D is a panel in which a display panel (not shown) that displays various images and a position input device (not shown) such as a touch pad that is provided on the surface of the display panel and receives user operations are combined. .
 そして、前面部61は、図3及び図4に示すように、フロントパネル611(図4)と、フロントパネルカバー612とを備える。
 フロントパネル611は、金属材料によって構成され、前面側から見て矩形状の板体である。
 このフロントパネル611の上端部には、図4に示すように、当該上端部の全長に亘ってガスケット6111が取り付けられている。このガスケット6111は、フロントパネル611に対して、トップカバー63が組み付けられた際に、上面部64の内面に対して当接する。
3 and 4, the front portion 61 includes a front panel 611 (FIG. 4) and a front panel cover 612. As shown in FIGS.
The front panel 611 is made of a metal material and is a rectangular plate when viewed from the front side.
As shown in FIG. 4, a gasket 6111 is attached to the upper end of the front panel 611 over the entire length of the upper end. This gasket 6111 contacts the inner surface of the upper surface portion 64 when the top cover 63 is assembled to the front panel 611 .
 ここで、タッチパネル61Dと、当該タッチパネル61Dを駆動する駆動基板61E(図6参照)とは、フロントパネル611に対して支持される。
 図5及び図6は、フロントパネル611に対するタッチパネル61Dの支持構造を説明する図である。具体的に、図5は、フロントパネル611に対するタッチパネル61Dの支持構造を前面側から見た斜視図である。図6は、フロントパネル611に対するタッチパネル61Dの支持構造を側方から見た図である。
 具体的に、駆動基板61Eは、図6に示すように、当該駆動基板61Eの両面がフロントパネル611の前面と平行となる姿勢で当該フロントパネル611の前面に対して固定されている。また、タッチパネル61Dは、支持部材66によって支持された状態で、駆動基板61Eに対して隙間が設けられた状態で当該駆動基板61Eの前面側に配置されている。
Here, the touch panel 61D and the drive substrate 61E (see FIG. 6) that drives the touch panel 61D are supported by the front panel 611. As shown in FIG.
5 and 6 are diagrams for explaining the support structure of the touch panel 61D with respect to the front panel 611. FIG. Specifically, FIG. 5 is a perspective view of the support structure of the touch panel 61D with respect to the front panel 611 as seen from the front side. FIG. 6 is a side view of the support structure of the touch panel 61D with respect to the front panel 611. As shown in FIG.
Specifically, as shown in FIG. 6, the driving board 61E is fixed to the front surface of the front panel 611 in such a manner that both surfaces of the driving board 61E are parallel to the front surface of the front panel 611. As shown in FIG. Further, the touch panel 61D is arranged on the front side of the driving substrate 61E while being supported by the supporting member 66 with a gap provided with respect to the driving substrate 61E.
 支持部材66は、金属材料によって構成されている。この支持部材66は、図5及び図6に示すように、第1の枠体661と、4つの脚部662とを備える。
 第1の枠体661は、第1の開口部6611(図5)を有する矩形枠状に形成されている。そして、タッチパネル61Dは、第1の開口部6611に嵌め込まれた状態で、第1の枠体661に対して支持される。
 また、第1の枠体661の前面には、図5及び図6に示すように、第1の開口部6611よりも小さい(タッチパネル61Dの外形サイズよりも小さい)第2の開口部6631(図5)を有し、金属材料によって構成された矩形枠状の板体である第2の枠体663が取り付けられている。すなわち、第2の枠体663は、タッチパネル61Dの前面側に配置されている。
 なお、第2の枠体663において、上下方向にそれぞれ延在する左右の部分は、タッチパネル61Dの左右端縁に沿ってそれぞれ延在し、本発明に係る一対の堰止部材6632(図5)に相当する。
The support member 66 is made of a metal material. The support member 66 includes a first frame 661 and four legs 662, as shown in FIGS.
The first frame 661 is formed in a rectangular frame shape having a first opening 6611 (FIG. 5). The touch panel 61</b>D is supported by the first frame 661 while being fitted in the first opening 6611 .
5 and 6, a second opening 6631 smaller than the first opening 6611 (smaller than the external size of the touch panel 61D) is provided on the front surface of the first frame 661. 5), and a second frame 663, which is a rectangular frame-shaped plate made of a metal material, is attached. That is, the second frame 663 is arranged on the front side of the touch panel 61D.
In addition, in the second frame 663, the left and right portions extending in the vertical direction respectively extend along the left and right edges of the touch panel 61D, forming a pair of blocking members 6632 (FIG. 5) according to the present invention. corresponds to
 4つの脚部662は、第1の枠体661の四隅から背面側に向けてそれぞれ突出し、フロントパネル611の前面に対して当接した状態で固定される部分である。なお、図11では、説明の便宜上、4つの脚部662のうち、下方に位置する2つの脚部662Dについては、1つのみを図示している。 The four leg portions 662 are portions that protrude from the four corners of the first frame 661 toward the rear side, and are fixed in contact with the front surface of the front panel 611 . In addition, in FIG. 11, only one of the two lower leg portions 662D among the four leg portions 662 is illustrated for convenience of explanation.
 ここで、4つの脚部662のうち、上方に位置する2つの脚部662Uは、下方に位置する2つの脚部662Dよりも突出長さが短い。すなわち、支持部材66をフロントパネル611の前面に対して固定した場合には、タッチパネル61Dは、下方に向かうにしたがって前面に向けて傾斜した姿勢となる。また、当該場合には、図6に示すように、タッチパネル61Dの下端位置は、駆動基板61Eの下端位置よりも高さ寸法D1だけ下方に位置する。 Here, of the four legs 662, the upper two legs 662U have a shorter projection length than the lower two legs 662D. That is, when the support member 66 is fixed to the front surface of the front panel 611, the touch panel 61D assumes a posture inclined toward the front surface as it goes downward. Also, in this case, as shown in FIG. 6, the lower end position of the touch panel 61D is located below the lower end position of the drive substrate 61E by the height dimension D1.
 フロントパネルカバー612は、樹脂材料によって構成され、前面から見て矩形状の板体であり、フロントパネル611の前面を覆う。そして、フロントパネルカバー612には、図4に示すように、処置具コネクタ61A、電源スイッチ61B、複数の操作スイッチ61C、及びタッチパネル61Dを外部にそれぞれ露出するための開口部6121~6124が設けられている。
 そして、フロントパネルカバー612の背面とタッチパネル61Dの前面との間には、それぞれ矩形枠状の第1,第2の防水フィルム(テープ)6125,6126(図4~図6)が設けられている。これら第1,第2の防水フィルム6125,6126は、本発明に係る防水フィルムに相当する。
The front panel cover 612 is made of a resin material, is a rectangular plate when viewed from the front, and covers the front of the front panel 611 . As shown in FIG. 4, the front panel cover 612 is provided with openings 6121 to 6124 for exposing the treatment instrument connector 61A, the power switch 61B, the plurality of operation switches 61C, and the touch panel 61D to the outside. ing.
Rectangular frame-shaped first and second waterproof films (tapes) 6125 and 6126 (FIGS. 4 to 6) are provided between the rear surface of the front panel cover 612 and the front surface of the touch panel 61D, respectively. . These first and second waterproof films 6125 and 6126 correspond to waterproof films according to the present invention.
 第1の防水フィルム6125は、フロントパネルカバー612の背面において、タッチパネル61Dを外部に露出するための開口部6124の周囲に取り付けられている。この第1の防水フィルム6125は、フロントパネル611に対してフロントパネルカバー612が組み付けられた際に、第2の枠体663の前面に対して当接する。
 第2の防水フィルム6126は、第2の枠体663の背面において、第2の開口部6631の周囲に取り付けられ、第1の枠体661に対して当該第2の枠体663が組み付けられた際に、タッチパネル61Dの前面に対して当接する。
A first waterproof film 6125 is attached to the rear surface of the front panel cover 612 around an opening 6124 for exposing the touch panel 61D to the outside. The first waterproof film 6125 contacts the front surface of the second frame 663 when the front panel cover 612 is attached to the front panel 611 .
The second waterproof film 6126 is attached around the second opening 6631 on the back surface of the second frame 663, and the second frame 663 is attached to the first frame 661. At that time, it abuts against the front surface of the touch panel 61D.
 以上説明した本実施の形態によれば、以下の効果を奏する。
 本実施の形態に係る駆動装置6では、当該駆動装置6の筐体60の前面を構成する前面部61は、タッチパネル61D及び駆動基板61Eを支持するフロントパネル611と、当該フロントパネル611の前面側を覆うフロントパネルカバー612とを備える。ここで、タッチパネル61D及び駆動基板61Eは、当該駆動基板61Eが当該タッチパネル61Dの背面側に位置し、互いの間に隙間が設けられた状態でフロントパネル611に対して支持される。また、タッチパネル61Dの前面とフロントパネルカバー612の背面との間には、枠状の第1,第2の防水フィルム6125,6126が設けられている。
 このため、当該第1,第2の防水フィルム6125,6126によって、開口部6124の周縁部とタッチパネル61Dとの間の隙間をなくし、防水性を向上させることができる。また、タッチパネル61Dと駆動基板61Eとの間に隙間が設けられているため、仮に開口部6124から筐体60の内部に灌流液等の液体が浸入した場合であっても、駆動基板61Eの機能若しくは性能を万全に確保することができる。
 したがって、本実施の形態に係る駆動装置6によれば、タッチパネル61Dと筐体60との間からの当該筐体60の内部への漏水対策を十分に施した構造を実現することができる。
According to this embodiment described above, the following effects are obtained.
In the driving device 6 according to the present embodiment, the front portion 61 constituting the front surface of the housing 60 of the driving device 6 includes a front panel 611 that supports a touch panel 61D and a driving substrate 61E, and a front side of the front panel 611. and a front panel cover 612 that covers the Here, the touch panel 61D and the drive substrate 61E are supported on the front panel 611 with the drive substrate 61E positioned on the back side of the touch panel 61D and a gap provided between them. Frame-shaped first and second waterproof films 6125 and 6126 are provided between the front surface of the touch panel 61D and the rear surface of the front panel cover 612. As shown in FIG.
Therefore, the first and second waterproof films 6125 and 6126 can eliminate the gap between the peripheral portion of the opening 6124 and the touch panel 61D, thereby improving waterproofness. Further, since a gap is provided between the touch panel 61D and the driving substrate 61E, even if a liquid such as a perfusate enters the inside of the housing 60 from the opening 6124, the function of the driving substrate 61E is maintained. Alternatively, the performance can be fully secured.
Therefore, according to drive device 6 according to the present embodiment, a structure can be realized in which sufficient countermeasures against water leakage into housing 60 from between touch panel 61D and housing 60 are taken.
 特に、樹脂材料によって構成されたフロントパネルカバー612と、金属材料によって構成された第2の枠体663とは、熱膨張係数が異なる。ここで、フロントパネルカバー612と第2の枠体663との間は、接着剤や封止材で完全に封止しているわけではなく、当該フロントパネルカバー612に取り付けられた第1の防水フィルム6125を当該第2の枠体663に当接させた構成としている。このため、フロントパネルカバー612に取り付けられた第1の防水フィルム6125と第2の枠体663との当接状態を維持しつつ、上述した熱膨張係数の差によって、当該フロントパネルカバー612が変形することを防止することができる。 In particular, the front panel cover 612 made of resin material and the second frame body 663 made of metal material have different coefficients of thermal expansion. Here, the space between the front panel cover 612 and the second frame 663 is not completely sealed with an adhesive or a sealing material. The film 6125 is configured to be in contact with the second frame 663 . Therefore, while maintaining the contact state between the first waterproof film 6125 attached to the front panel cover 612 and the second frame body 663, the front panel cover 612 is deformed due to the above-described difference in thermal expansion coefficient. can be prevented.
 また、本実施の形態に係る駆動装置6では、フロントパネル611及び支持部材66は、金属材料によってそれぞれ構成され、互いに当接した状態で固定される。
 このため、温度変化の影響によりフロントパネル611及び支持部材66がそれぞれ熱膨張及び熱収縮したとしても、当該フロントパネル611及び当該支持部材66の熱膨脹係数が近い構成となるため、当該フロントパネル611及び当該支持部材66間を互いに当接した固定状態を安定に維持することができる。したがって、開口部6124の周縁部とタッチパネル61Dとの間に不要に隙間が生じることがなく、筐体60の内部への漏水対策をさらに十分に施した構造を実現することができる。
In addition, in the drive device 6 according to the present embodiment, the front panel 611 and the support member 66 are each made of a metal material and are fixed in contact with each other.
Therefore, even if the front panel 611 and the support member 66 thermally expand and contract due to temperature changes, the thermal expansion coefficients of the front panel 611 and the support member 66 are close to each other. The fixed state in which the support members 66 are in contact with each other can be stably maintained. Therefore, an unnecessary gap does not occur between the peripheral portion of the opening 6124 and the touch panel 61D, and a structure in which water leakage to the inside of the housing 60 is sufficiently prevented can be realized.
 また、本実施の形態に係る駆動装置6では、支持部材66は、下方に向かうにしたがって前面に向けて傾斜した姿勢でタッチパネル61Dを支持する。
 このため、タッチパネル61Dの前面に沿って流れる灌流液等の液体を一定の方向(筐体60の底面部62側)にのみ流す構造を実現することができる。すなわち、駆動基板61Eがタッチパネル61Dの背面側に配置しているため、タッチパネル61Dの前面に沿って流れる灌流液等の液体の流れる先には、駆動基板61Eが設置されていない。このため、仮に防水フィルム6125が破損し、タッチパネル61Dの前面に沿って灌流液等の液体が流れることによって筐体60の内部に浸入した場合であっても、当該液体による駆動基板61Eの不具合の発生を回避することができる。また、タッチパネル61Dの下端位置と駆動基板61Eの下端位置との隙間を大きくすることができるため、当該タッチパネル61Dの下端位置に留まった灌流液等の液体が筐体60の内部に向かう空気とともに背面側に飛び散った場合であっても、当該液体が駆動基板61Eに降り掛かることを回避することができる。
Further, in the drive device 6 according to the present embodiment, the support member 66 supports the touch panel 61D in a posture inclined toward the front as it goes downward.
Therefore, it is possible to realize a structure in which a liquid such as perfusate flowing along the front surface of the touch panel 61D flows only in a certain direction (toward the bottom surface portion 62 of the housing 60). In other words, since the drive substrate 61E is arranged on the back side of the touch panel 61D, the drive substrate 61E is not installed at the flow destination of liquid such as perfusate flowing along the front surface of the touch panel 61D. Therefore, even if the waterproof film 6125 is damaged and a liquid such as an irrigation liquid flows along the front surface of the touch panel 61D and enters the housing 60, the drive substrate 61E will not malfunction due to the liquid. occurrence can be avoided. In addition, since the gap between the lower end position of the touch panel 61D and the lower end position of the drive substrate 61E can be increased, the liquid such as the perfusate remaining at the lower end position of the touch panel 61D can flow toward the inside of the housing 60 together with the air moving toward the inside of the housing 60. Even if the liquid splashes to the side, it is possible to prevent the liquid from falling on the drive substrate 61E.
 また、本実施の形態に係る駆動装置6では、タッチパネル61D及び駆動基板61Eは、当該タッチパネル61Dの下端位置が当該駆動基板61Eの下端位置よりも下方に位置する状態でフロントパネル611に対して支持されている。
 このため、仮に防水フィルム6125が破損し、タッチパネル61Dの下端位置に留まった灌流液等の液体が筐体60の内部に向かう空気とともに背面側に飛び散った場合であっても、当該液体が駆動基板61Eに降り掛かることを回避することができる。また、駆動基板61Eの下端位置を底面部62の上方に位置付けることができるため、仮に筐体60の内部に灌流液等の液体が浸入し、当該液体が底面部62に溜まった場合であっても、駆動基板61Eが当該液体中に入り込むことを回避することができる。
Further, in the drive device 6 according to the present embodiment, the touch panel 61D and the drive substrate 61E are supported with respect to the front panel 611 in a state in which the lower end position of the touch panel 61D is located below the lower end position of the drive substrate 61E. It is
Therefore, even if the waterproof film 6125 is damaged and the liquid such as the perfusate remaining at the lower end of the touch panel 61D scatters to the rear side together with the air flowing toward the inside of the housing 60, the liquid will not reach the drive substrate. 61E can be avoided. Further, since the lower end position of the drive substrate 61E can be positioned above the bottom surface portion 62, even if a liquid such as a perfusate enters the interior of the housing 60 and accumulates in the bottom surface portion 62, Also, the driving substrate 61E can be prevented from entering the liquid.
 また、本実施の形態に係る駆動装置6では、タッチパネル61Dの前面には、当該タッチパネル61Dの左右端縁に沿ってそれぞれ延在する一対の堰止部材6632が配置されている。
 このため、タッチパネル61Dの前面に沿って流れる灌流液等の液体を一定の方向(筐体60の底面部62側)にのみ流す構造を実現することができる。すなわち、駆動基板61Eがタッチパネル61Dの背面側に配置しているため、タッチパネル61Dの前面に沿って流れる灌流液等の液体の流れる先には、駆動基板61Eが設置されていない。このため、仮に防水フィルム6125が破損し、タッチパネル61Dの前面に沿って灌流液等の液体が流れることによって筐体60の内部に浸入した場合であっても、当該液体による駆動基板61Eの不具合の発生を回避することができる。
Further, in the driving device 6 according to the present embodiment, a pair of blocking members 6632 extending along the left and right edges of the touch panel 61D are arranged on the front surface of the touch panel 61D.
Therefore, it is possible to realize a structure in which a liquid such as perfusate flowing along the front surface of the touch panel 61D flows only in a certain direction (toward the bottom surface portion 62 of the housing 60). In other words, since the drive substrate 61E is arranged on the back side of the touch panel 61D, the drive substrate 61E is not installed at the flow destination of liquid such as perfusate flowing along the front surface of the touch panel 61D. Therefore, even if the waterproof film 6125 is damaged and a liquid such as an irrigation liquid flows along the front surface of the touch panel 61D and enters the housing 60, the drive substrate 61E will not malfunction due to the liquid. occurrence can be avoided.
 また、本実施の形態に係る駆動装置6では、上面部64とフロントパネル611との間には、ガスケット6111が設けられている。
 このため、フロントパネル611と上面部64との間の隙間をなくし、防水性をさらに向上させることができる。
In addition, a gasket 6111 is provided between the upper surface portion 64 and the front panel 611 in the driving device 6 according to the present embodiment.
Therefore, the gap between the front panel 611 and the upper surface portion 64 can be eliminated, and the waterproof property can be further improved.
(その他の実施形態)
 ここまで、本発明を実施するための形態を説明してきたが、本発明は上述した実施の形態によってのみ限定されるべきものではない。
 上述した実施の形態では、本発明に係るエネルギ処置具として、骨等の生体組織の除去や切削を行う超音波処置具31を例示したが、これに限らない。本発明に係るエネルギ処置具としては、血管等の生体組織の封止や切開を行う超音波処置具、高周波エネルギを生体組織に対して付与することによって当該生体組織を処置するエネルギ処置具、また、熱エネルギを生体組織に対して付与することによって当該生体組織を処置するエネルギ処置具を採用しても構わない。ここで、「高周波エネルギを生体組織に対して付与する」とは、高周波電流を生体組織に対して流すことを意味する。また、「熱エネルギを生体組織に対して付与する」とは、ヒータ等が発生した熱を生体組織に対して伝達することを意味する。
(Other embodiments)
Although the embodiments for carrying out the present invention have been described so far, the present invention should not be limited only to the above-described embodiments.
In the embodiment described above, the ultrasonic treatment device 31 for removing or cutting a living tissue such as a bone was exemplified as an energy treatment device according to the present invention, but the present invention is not limited to this. The energy treatment device according to the present invention includes an ultrasonic treatment device for sealing or incising a living tissue such as a blood vessel, an energy treatment device for treating a living tissue by applying high-frequency energy to the living tissue, and Alternatively, an energy treatment instrument that treats a living tissue by applying thermal energy to the living tissue may be employed. Here, "applying high-frequency energy to a living tissue" means applying a high-frequency current to the living tissue. Further, "applying thermal energy to a living tissue" means transferring heat generated by a heater or the like to the living tissue.
 1 処置システム
 2 内視鏡装置
 3 処置装置
 4 ガイディングデバイス
 5 灌流装置
 6 駆動装置
 21 内視鏡
 22 制御装置
 31 超音波処置具
 32 フットスイッチ
 51 液体源
 52 送液チューブ
 53 送液ポンプ
 54 排液ボトル
 55 排液チューブ
 56 排液ポンプ
 60 筐体
 61 前面部
 61A 処置具コネクタ
 61B 電源スイッチ
 61C 操作スイッチ
 61D タッチパネル
 61E 駆動基板
 62 底面部
 63 トップカバー
 64 上面部
 65 側面部
 211 挿入部
 311 処置具本体
 312 ブレード
 313 シース
 314 ケーブル
 315 コネクタ
 611 フロントパネル
 612 フロントパネルカバー
 661 第1の枠体
 662,662D,662U 脚部
 663 第2の枠体
 3111 超音波トランスデューサ
 3121 先端処置部
 6111 ガスケット
 6121~6124 開口部
 6125 第1の防水フィルム
 6126 第2の防水フィルム
 6611 第1の開口部
 6631 第2の開口部
 6632 堰止部材
 C1 関節腔
 D1 高さ寸法
 J1 膝関節
 P1 第1のポータル
 P2 第2のポータル
1 Treatment System 2 Endoscope Device 3 Treatment Device 4 Guiding Device 5 Perfusion Device 6 Driving Device 21 Endoscope 22 Control Device 31 Ultrasonic Treatment Tool 32 Foot Switch 51 Liquid Source 52 Liquid Feed Tube 53 Liquid Feed Pump 54 Drainage Bottle 55 Drainage tube 56 Drainage pump 60 Housing 61 Front section 61A Treatment instrument connector 61B Power switch 61C Operation switch 61D Touch panel 61E Drive board 62 Bottom section 63 Top cover 64 Top section 65 Side section 211 Insertion section 311 Treatment instrument body 312 Blade 313 Sheath 314 Cable 315 Connector 611 Front panel 612 Front panel cover 661 First frame 662, 662D, 662U Leg 663 Second frame 3111 Ultrasonic transducer 3121 Distal treatment section 6111 Gasket 6121-6124 Opening 6125 First waterproof film 6126 Second waterproof film 6611 First opening 6631 Second opening 6632 Damping member C1 Joint cavity D1 Height dimension J1 Knee joint P1 First portal P2 Second portal

Claims (6)

  1.  外装を形成する筐体と、
     画像を表示するとともにユーザ操作を受け付けるタッチパネルと、
     前記タッチパネルを駆動する駆動基板と、
     外部のエネルギ処置具と電気的に接続する処置具コネクタと、を備え、
     前記タッチパネル及び前記処置具コネクタは、
     前記筐体の前面を構成する前面部から外部に露出した状態でそれぞれ設けられ、
     前記前面部は、
     前記タッチパネル及び前記駆動基板を支持するフロントパネルと、
     前記フロントパネルの前面側を覆うフロントパネルカバーと、を備え、
     前記タッチパネル及び前記駆動基板は、
     前記駆動基板が前記タッチパネルの背面側に位置し、互いの間に隙間が設けられた状態で前記フロントパネルに対して支持され、
     前記タッチパネルの前面と前記フロントパネルカバーの背面との間には、
     枠状の防水フィルムが設けられている駆動装置。
    a housing forming an exterior;
    a touch panel that displays images and accepts user operations;
    a driving substrate for driving the touch panel;
    a treatment instrument connector electrically connected to an external energy treatment instrument,
    The touch panel and the treatment instrument connector are
    each provided in a state exposed to the outside from the front part constituting the front surface of the housing,
    The front part is
    a front panel supporting the touch panel and the drive substrate;
    a front panel cover that covers the front side of the front panel,
    The touch panel and the drive substrate are
    The drive substrate is positioned on the back side of the touch panel and supported with respect to the front panel with a gap provided therebetween,
    Between the front surface of the touch panel and the rear surface of the front panel cover,
    A driving device provided with a frame-shaped waterproof film.
  2.  前記タッチパネルを支持しつつ、前記フロントパネルに対して固定される支持部材をさらに備え、
     前記フロントパネル及び前記支持部材は、
     金属材料によってそれぞれ構成され、互いに当接した状態で固定される請求項1に記載の駆動装置。
    Further comprising a support member fixed to the front panel while supporting the touch panel,
    The front panel and the support member are
    2. The driving device according to claim 1, wherein the driving devices are made of a metallic material and are fixed in contact with each other.
  3.  前記タッチパネルを支持しつつ、前記フロントパネルに対して固定される支持部材をさらに備え、
     前記支持部材は、
     下方に向かうにしたがって前面に向けて傾斜した姿勢で前記タッチパネルを支持する請求項1に記載の駆動装置。
    Further comprising a support member fixed to the front panel while supporting the touch panel,
    The support member is
    2. The driving device according to claim 1, wherein the touch panel is supported in a posture inclined toward the front as it goes downward.
  4.  前記タッチパネル及び前記駆動基板は、
     前記タッチパネルの下端位置が前記駆動基板の下端位置よりも下方に位置する状態で前記フロントパネルに対して支持される請求項1に記載の駆動装置。
    The touch panel and the drive substrate are
    2. The driving device according to claim 1, wherein the touch panel is supported with respect to the front panel in such a manner that a lower end position of the touch panel is located below a lower end position of the drive substrate.
  5.  前記タッチパネルの前面には、
     前記タッチパネルの左右端縁に沿ってそれぞれ延在する一対の堰止部材が配置されている請求項1に記載の駆動装置。
    On the front surface of the touch panel,
    2. The driving device according to claim 1, further comprising a pair of blocking members extending along left and right edges of said touch panel.
  6.  前記筐体の上面を構成する上面部と前記フロントパネルとの間には、
     ガスケットが設けられている請求項1に記載の駆動装置。
    Between the upper surface portion constituting the upper surface of the housing and the front panel,
    2. A drive system according to claim 1, wherein a gasket is provided.
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