JP2007325609A - Waterproof cap of ultrasonic signal connector of ultrasonic endoscope - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a waterproof cap of an ultrasonic signal connector of an ultrasonic endoscope which allows a user to remove an O-ring easily by the fingertip from an O-ring mounting groove formed on an outer peripheral surface of a part near an open end and to exchange it. <P>SOLUTION: The waterproof cap 20 of an ultrasonic signal connector of an ultrasonic endoscope covers a plurality of electric contacts in a water-tight fashion when the ultrasonic signal connector is not connected to an ultrasonic signal controller. The O-ring mounting groove 24 for receiving the elastic O-ring 23 detachably is formed in an annular fashion and extends around the outer peripheral surface near the open end 20a. A part of the side wall of the O-ring mounting groove 24 is cut to the open end 20a to form a notch 29. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a waterproof cap for an ultrasonic signal connector of an ultrasonic endoscope.

  In an ultrasonic endoscope, an ultrasonic probe is generally arranged at the distal end of an insertion portion, and a plurality of electrical contacts for transmitting and receiving an electric signal input / output to / from the ultrasonic probe are provided in the ultrasonic signal connector. .

An ultrasonic endoscope that is inserted into a patient's body needs to be cleaned and disinfected each time an ultrasonic diagnosis is performed, so a waterproof cap is provided to cover all of the plurality of electrical contacts. Thus, by fitting the edge of the connector into the groove formed in the outer peripheral end of the waterproof cap, water is not applied to the electrical contacts during cleaning and disinfection (for example, Patent Document 1).
JP-A-5-285133

  However, in a seal structure where the edge of the connector is fitted in the groove formed on the outer peripheral edge of the waterproof cap, if the ultrasonic signal connector is immersed in cleaning fluid, the liquid will enter the electrical contact area and cause electrical leakage. May occur.

  Therefore, it is conceivable to install a sealing O-ring made of a resilient rubber material near the opening end of the waterproof cap to make a reliable sealing structure. When exposed, it has a consumable character that deteriorates in a short period of time and needs to be replaced relatively frequently.

  Accordingly, the O-ring replacement operation is performed by the user as needed. As illustrated in FIG. 8, the O-ring mounting groove formed on the outer peripheral surface in the vicinity of the opening end of the waterproof cap 90 is illustrated. The O-ring 92 fitted in 91 cannot be easily picked by the fingertip, and does not come out of the O-ring mounting groove 91 even if it is tried to be removed with the fingertip.

  However, if the O-ring 92 is pulled out of the O-ring mounting groove 91 with tweezers or the like, the plastic waterproof cap 90 side may be damaged at the tip of the tweezers, which may cause seal leakage.

  Accordingly, the present invention provides a waterproof cap for an ultrasonic signal connector of an ultrasonic endoscope that allows a user to easily remove and replace the O-ring with a fingertip from an O-ring mounting groove formed on the outer peripheral surface near the opening end. The purpose is to provide.

  In order to achieve the above object, the waterproof cap of the ultrasonic signal connector of the ultrasonic endoscope according to the present invention transmits an electric signal input / output to / from the ultrasonic probe disposed at the distal end of the insertion portion of the ultrasonic endoscope. When the ultrasonic signal connector that is provided with a plurality of electrical contacts for transmission and reception and is detachably connected to an external ultrasonic signal controller is not connected to the ultrasonic signal controller, the plurality of electrical contacts In the waterproof cap of the ultrasonic signal connector of the ultrasonic endoscope for covering all of the water tightly, the O-ring mounting groove for detachably mounting the elastic sealing O-ring is the outer periphery near the opening end A notch having a shape formed by cutting a part of the side wall of the O-ring mounting groove to the open end is formed on the entire surface.

  In addition, it is good for the notch to be formed in the width | variety which the finger of a person's hand passes at least. Further, the depth of the notch may be set at a position not higher than the radial dimension of the O-ring from the bottom surface of the O-ring mounting groove, and the depth of the notch substantially matches the bottom surface of the O-ring mounting groove. May be.

  According to the present invention, since the notch having a shape in which a part of the side wall of the O-ring mounting groove is cut to the open end is formed, the user puts the fingertip into the notch, and the O-ring is mounted. It can be easily removed from the groove with a fingertip and replaced.

  A plurality of electrical contacts for transmitting / receiving electrical signals to / from the ultrasound probe disposed at the distal end of the insertion portion of the ultrasound endoscope are provided and detachably connected to an external ultrasound signal controller. When the ultrasonic signal connector is not connected to the ultrasonic signal controller, the waterproof cap of the ultrasonic signal connector of the ultrasonic endoscope for watertightly covering all of the plurality of electrical contacts is elastic. An O-ring mounting groove for detachably mounting an O-ring for sealing is formed on the outer peripheral surface in the vicinity of the opening end in a continuous manner, and a part of the side wall of the O-ring mounting groove extends to the opening end. A cutout having a cut shape is formed, and the cutout is formed at least in a width through which a finger of a human hand passes.

Embodiments of the present invention will be described with reference to the drawings.
FIG. 2 shows an ultrasonic endoscope, and an ultrasonic probe 2 is arranged at the tip of a flexible insertion portion 1 to be inserted into a body cavity. Reference numeral 50 denotes an ultrasonic signal controller arranged outside the ultrasonic endoscope.

  The operation unit 3 is connected to the proximal end of the insertion unit 1, and the ultrasonic signal connector 6 detachably connected to the connector receiver 51 provided in the ultrasonic signal controller 50 extends from the operation unit 3. It is attached to the tip of the sex cord 4. Reference numeral 5 denotes a connector of an optical observation system connected to a video processor (also a light source device) not shown.

  FIG. 3 shows the ultrasonic signal connector 6. A plurality of electrical signals that can be connected / separated with respect to the electrical contacts of the connector receiver 51 of the ultrasonic signal controller 50 are provided on the front side of the ultrasonic signal connector 6. The contacts 11 are arranged side by side.

  Each electrical contact 11 is connected to the ultrasonic probe 2 through a signal line, and an electrical signal inputted to and outputted from the ultrasonic probe 2 can be exchanged with the connector receiver 51 of the ultrasonic signal controller 50.

  At the center position of the front surface of the ultrasonic signal connector 6 on which the plurality of electrical contacts 11 are disposed (that is, the surface on the side where the electrical contacts 11 are disposed), a connecting rod 12 is disposed so as to be rotatable around the axis. A projecting member 13 made of, for example, a pin is provided on the side surface of the connecting rod 12.

  This protruding member 13 is for engaging and disengaging with a cam groove of a connector receiver 51 (not shown) so as to maintain a connected state with the connector receiver 51. The protruding member 13 is provided in a protruding manner. An operation lever 14 for rotating the connecting rod 12 around the axis from the other end side to rotate the protruding member 13 is disposed on the back side of the ultrasonic signal connector 6.

  Such an ultrasonic signal connector 6 is formed in a substantially rectangular parallelepiped (hexahedron) shape, and the five surfaces other than the surface on which the electrical contacts 11 are arranged are watertightly surrounded by the housing 10. ing.

  The housing 10 is formed in a shape in which the surface (front surface) on which the electrical contacts 11 are arranged is opened completely, and the front wall 15 on which the electrical contacts 11 and the like are disposed is the entire front surface. It is attached in a state of closing.

  Then, an O-ring 17 made of a resilient rubber material or the like that is crushed by the inner peripheral surface portion of the opening edge of the housing 10 and seals the outer peripheral portion of the front wall 15 surrounds the outer periphery. It is installed. Further, an annular waterproof cap engaging groove 16 is formed on the front wall surface of the front wall 15 so as to surround all the electrical contacts 11 around the entire circumference.

  Reference numeral 20 denotes a waterproof cap that is detachably attached to the waterproof cap engaging groove 16, and covers all the electrical contacts 11 when the ultrasonic signal connector 6 is cleaned and disinfected without being connected to the connector receiver 51. It is attached to the ultrasonic signal connector 6.

  The waterproof cap 20 is formed in a substantially rectangular parallelepiped shape having an opening on one side, and the opening end 20a portion is formed in an annular shape that is fitted into the waterproof cap engaging groove 16 of the ultrasonic signal connector 6, and is in the vicinity of the opening end 20a. A sealing O-ring 23 made of a resilient rubber material or the like is detachably fitted in an O-ring mounting groove 24 that is formed in a continuous manner on the outer periphery. Reference numeral 22 denotes a cam groove in which the protruding member 13 on the ultrasonic signal connector 6 side is detachably engaged.

  Reference numeral 26 denotes a pair of pressing plates that are pressed against the side surface of the housing 10 from the outside when the waterproof cap 20 is attached to the ultrasonic signal connector 6. The holding plate 26 is attached to the tip end portion of the leaf spring member 25 protruding from the waterproof cap 20, and presses the side wall surface of the housing 10 in a state of sandwiching the housing 10 from the side so that the side of the housing 10 is pressed. A pressing member that restricts the bulging in the direction includes a leaf spring material 25 and a pressing plate 26.

  As shown in FIG. 1 which is a perspective view of the waterproof cap 20, each of the pair of leaf spring members 25 extends from the long side of the bottom of the waterproof cap 20 toward the side of the opening. For example, it is formed of a spring material such as a stainless steel plate for a spring.

  Each of the pair of holding plates 26 is formed of a plastic material, a rubber material, or the like so as not to damage the housing 10 when pressed against the housing 10 of the ultrasonic signal connector 6. (Ie, the surface of the ultrasonic signal connector 6 on the side facing the housing 10) and are attached so as to face each other.

  FIG. 4 shows a state in which the waterproof cap 20 is attached to the ultrasonic signal connector 6. The opening end 20a of the waterproof cap 20 is fitted into the waterproof cap engaging groove 16 of the ultrasonic signal connector 6, and all the electrical contacts 11 are covered with the waterproof cap 20, and are fitted into the O-ring mounting groove 24 of the waterproof cap 20. The O-ring 23 is crushed in the waterproof cap engaging groove 16 to prevent water and the like from entering the electrical contact 11 and the ultrasonic signal connector 6 from the outside.

  Such an O-ring 23 has a consumable character that deteriorates in a short period of time when it is repeatedly exposed to an atmosphere such as a chemical solution or sterilized steam at the time of cleaning and disinfection after use. It needs to be replaced.

  Therefore, as shown in FIG. 5, the waterproof cap 20 is formed with a notch 29 having a shape in which a part of the side wall of the O-ring mounting groove 24 is cut off to the opening end 20 a of the waterproof cap 20.

  The depth of the notch 29 is substantially the same as the bottom surface of the O-ring mounting groove 24 in this embodiment. Further, the width of the notch 29 indicated by L in FIG. 1 is formed to a size (for example, about 3 cm) at least enough for a finger of a human hand to pass. If the width is too wide, the O-ring 23 may be easily removed unnecessarily.

  As a result, when it becomes necessary to replace the O-ring 23, as shown in FIG. 6, if the O-ring 23 is lifted by inserting a fingertip into the notch 29, the elastic O-ring 23 Can be partially pulled out of the O-ring mounting groove 24 and easily picked with a fingertip, and then the entire O-ring 23 can be removed from the O-ring mounting groove 24 and easily replaced.

  As shown in FIG. 7, the depth of the notch 29 may be set at a position x not higher than the radial dimension r of the O-ring 23 from at least the bottom surface of the O-ring mounting groove 24. That is, x ≦ r.

It is a perspective view of the waterproof cap of the ultrasonic signal connector of the ultrasonic endoscope of the embodiment of the present invention. 1 is an external view showing the overall configuration of an ultrasonic endoscope according to an embodiment of the present invention. It is a front view which shows the state where the waterproof cap was removed from the ultrasonic signal connector of the ultrasonic endoscope of the Example of this invention in a partial cross section. It is a side view which shows the state where the waterproof cap was attached to the ultrasonic signal connector of the ultrasonic endoscope of the Example of this invention in a partial cross section. It is a partial expanded sectional view of the waterproof cap of the ultrasonic signal connector of the ultrasonic endoscope of the embodiment of the present invention. It is a partial expanded sectional view which shows the state which removes an O-ring from the waterproof cap of the ultrasonic signal connector of the ultrasonic endoscope of the Example of this invention. It is the elements on larger scale of the waterproof cap of the ultrasonic signal connector of the ultrasonic endoscope of other examples of the present invention. The It is a partial expanded sectional view which shows the state which removes an O-ring from the waterproof cap of the ultrasonic signal connector of the conventional ultrasonic endoscope.

Explanation of symbols

2 Ultrasonic probe 6 Ultrasonic signal connector 11 Electrical contact 20 Waterproof cap 20a Open end 23 O-ring 24 O-ring mounting groove 29 Notch 50 Ultrasonic signal controller

Claims (4)

A plurality of electrical contacts for transmitting / receiving electrical signals to / from the ultrasound probe disposed at the distal end of the insertion portion of the ultrasound endoscope are provided and detachably connected to an external ultrasound signal controller. In the waterproof cap of the ultrasonic signal connector of the ultrasonic endoscope for watertightly covering all of the plurality of electrical contacts when the ultrasonic signal connector is not connected to the ultrasonic signal controller,
An O-ring mounting groove for detachably mounting an elastic sealing O-ring is formed on the outer peripheral surface in the vicinity of the opening end in a continuous manner, and a part of the side wall of the O-ring mounting groove A waterproof cap for an ultrasonic signal connector of an ultrasonic endoscope, characterized in that a cutout having a shape obtained by cutting out the open end to the opening end is formed.   The waterproof cap for an ultrasonic signal connector of an ultrasonic endoscope according to claim 1, wherein the notch is formed to have a width through which at least a finger of a human hand passes.   The waterproof of the ultrasonic signal connector of the ultrasonic endoscope according to claim 1 or 2, wherein the depth of the notch is set at a position not higher than a radial dimension of the O-ring from a bottom surface of the O-ring mounting groove. cap.   4. The waterproof cap for an ultrasonic signal connector of an ultrasonic endoscope according to claim 1, wherein a depth of the notch substantially coincides with a bottom surface of the O-ring mounting groove.

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