JP2004209280A - Endoscope system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an endoscope system with a battery type light source for endoscope, which is prevented from loosening of a connection part. <P>SOLUTION: This endoscope system has a battery type light source for endoscope. The light source is equipped with a connection means detachably connected with a point near the light incoming end face of a light guide placed on an operating part and whose illuminating light can be switched to a lit-On condition and a lit-OFF condition by changing a relative position to the operating part. The outer periphery of the connecting means is coated with an elastic rubber member and a part of the rubber member elastically abuts on a part of the operating part. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

  The present invention relates to an endoscope apparatus that is detachably mounted on an endoscope and has an endoscope battery light source that changes a relative position with respect to an endoscope operation unit to switch an illumination lamp between a lighting state and a lighting state.

  Endoscopes are widely used in the medical and industrial fields. When a diagnosis or an examination is performed using an endoscope, a means for illuminating is required because the examination site is in a living body or inside a plant or the like. Therefore, in a general endoscope, a light source device is prepared as an external device of the endoscope.

  A lamp is built in the light source device, and the light emitted from the lamp is guided to a light guide fiber or the like provided in the endoscope. Then, the illumination light guided to the light guide fiber is emitted from the illumination window on the distal end side of the insertion portion, and illuminates the inspection site. In this light source device, a lamp in the light source device emits light using a power supply supplied from a commercial power supply.

  On the other hand, Japanese Patent Application Laid-Open No. 11-153759 discloses an endoscope apparatus in which a battery light source using a dry battery as a power supply is detachably attached to an endoscope operation unit. The endoscope to which the battery light source is attached is easy to carry and can be used in a place without a power source, so that it is most suitable for emergency use and the like.

  Turning on and off the lamp provided on the battery light source is performed by attaching the battery light source to the endoscope operation unit and then changing a relative position between the battery light source and the operation unit of the endoscope. . This makes it possible to identify at a glance the appearance whether or not the lamp is in the ON state. The switch positions are set to two positions, ie, an ON state and an OFF state, and the respective switch positions are defined as one side end and the other side end of the rotation operation range in which the relative position changes.

  However, in the endoscope apparatus disclosed in Japanese Patent Application Laid-Open No. H11-153759, the position of the switch is limited only by the regulation at the time of the rotation operation. For this reason, the ON state position and the OFF state position of the lamp are unique. Therefore, depending on how the user grips the endoscope operation unit, the position of the battery light source while the lamp is on may hinder the gripping or operation.

  In addition, in order to improve the function of the battery light source, in addition to the ON state position and the OFF state position, a third function corresponding to a specific function, such as, for example, suppressing the amount of light more than the ON state and extending the battery duration. When it is attempted to provide the switch position as the switch of the above in the rotation operation range, it is extremely difficult to maintain the specific function state. This is because there is no position fixing means for fixing the relative positional relationship between the battery light source and the operation unit to another state position within the rotation operation range. Therefore, even if the third switch is provided within this rotation operation range, there is a possibility that a malfunction such as a careless movement of the switch position may occur and the operability may be deteriorated.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an endoscope apparatus including a battery light source for an endoscope that can prevent a connection portion from being loosened.

  A first endoscope apparatus according to the present invention includes a connection unit detachably connected near an incident end face of a light guide disposed on an operation unit, and changes a relative position with respect to the operation unit to thereby provide an illumination lamp. In an endoscope device having a battery light source for an endoscope that switches to a lighted state or a light-off state, the outer periphery of the connection unit is covered with an elastic rubber member, and when the connection to the operation unit is completed, A part of the rubber member has a battery light source for an endoscope that abuts on a part of the operation unit with elastic force.

  According to a second endoscope apparatus of the present invention, in the first endoscope apparatus, the connection unit is a screw member, and a rubber member that covers an outer periphery of a screw body made of a rigid metal body. Is protruded from the end of the screw main body, and the protruding portion is brought into contact with the operating portion with screwing.

  A third endoscope apparatus according to the present invention, in the first endoscope apparatus, wherein a switch operation of turning on / off a lamp of the endoscope battery light source is coaxial with an axis for screwing and rotating the screw. The operation is a rotation operation.

  ADVANTAGE OF THE INVENTION According to this invention, the endoscope apparatus provided with the battery light source for endoscopes which can prevent loosening of a connection part can be provided.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to 19 relate to an embodiment of the present invention. FIG. 1 is a view for explaining the configuration of the endoscope apparatus of the present invention. FIG. 2 is an external view of an operation section and a connection section of a battery light source for the endoscope. FIG. 3 is a view illustrating the overall configuration of an endoscope battery light source, FIG. 4 is a longitudinal sectional view mainly showing a lamp chamber of the endoscope battery light source, and FIG. 5 is an operation unit and an endoscope. FIG. 6 is a view for explaining a switch operation of an endoscope battery light source due to a difference in relative position with respect to a battery light source for a battery, FIG. 6 is a cross-sectional view of a battery cover and a buckle fixing portion, and FIG. , FIG. 8 is a diagram showing the range of both poles of the battery in contact with the battery cover, FIG. 9 is a sectional view taken along line FF of FIG. 8, FIG. 10 is a diagram for explaining the shape and positional relationship of the switch contact portion, and FIG. FIG. 12 illustrates a switch position in an off state, and FIG. 12 illustrates one switch position in an on state. , FIG. 13 is a view for explaining another switch position of the ON state, FIG. 14 is a view for explaining a power supply circuit of the battery light source for an endoscope, FIG. 15 is an exploded view of components constituting a click mechanism, and FIG. FIG. 17 is a diagram illustrating a partition member that separates a storage chamber, FIG. 17 is a diagram illustrating an example of a method of gripping an endoscope, FIG. 18 is a diagram illustrating another example of a gripping method of an endoscope, and FIG. FIG. 4 is a diagram showing the orientation when the device is used for a patient.

  11A is a cross-sectional view taken along the line BB of FIG. 4 and illustrates a positional relationship in the switch OFF state. FIG. 11B is a cross-sectional view taken along the line CC of FIG. , FIG. 12A is a cross-sectional view taken along the line BB of FIG. 4, and is a diagram illustrating one positional relationship in a switch ON state, and FIG. 12B is a diagram of CC in FIG. FIG. 13A is a cross-sectional view illustrating one positional relationship in the switch ON state, and FIG. 13A is a cross-sectional view taken along the line BB of FIG. 4 and illustrates another positional relationship in the switch ON state. (B) is a cross-sectional view taken along the line CC of FIG. 4 and illustrates another positional relationship in a switch ON state. FIG. 19 (a) illustrates a state in which an endoscope is used for a lying patient. FIG. 19B illustrates a state in which an endoscope is used for a patient facing the patient. Diagram, FIG. 19 (c) is a diagram showing an example of a grasping method of the endoscope.

  As shown in FIG. 1, an endoscope apparatus 1 according to the present embodiment includes an endoscope 2 having a watertight structure, a light guide cable 3 detachably connected to the endoscope 2, and an endoscope 2. An endoscope battery light source (hereinafter, also referred to as a battery type light source) 4 having a watertight structure that is detachably connected.

  The endoscope 2 includes an elongated insertion section 5, an operation section 6 provided at a base end of the insertion section 5, and an eyepiece section 7 provided at a rear end of the operation section 6. I have. The insertion portion 5 has a rigid distal end portion 8, a bendable bending portion 9, and a flexible tube portion 10 having flexibility in series from the distal end side.

  A light guide base 11 made of a member having good heat conductivity is provided on a side surface of the operation section 6. The light guide base 11 projects laterally. The connection portion 3a of the light guide cable 3 or the connection portion 12 of the battery type light source 4 is detachably connected to the light guide base 11.

  The operation unit 6 is provided with a grip 13 that is gripped by an operator. The light guide base 11, the bending operation lever 14 for performing the bending operation of the bending portion 9, and the suction button 15 for performing the suction operation are provided on the rear side of the grip portion 13. A suction base 16 communicating with a suction channel (not shown) provided in the endoscope 2 protrudes from near the base end of the suction button 15. The suction base 16 is connected to a suction device (not shown) via a tube (not shown). Therefore, by appropriately operating the suction button 15, it is possible to suction and discharge the liquid in the body cavity through the suction channel and the suction base 16.

  A forceps insertion port 17 protrudes from a front side of the grip 13. The forceps insertion port 17 is usually closed by a forceps stopper 18. On the opposite side of the forceps insertion port 17, for example, a ventilation cap 19 is provided. By sending air from the vent hole 19 into the endoscope 2, a water leak test of the endoscope 2 can be performed.

  A light guide fiber (not shown) for transmitting illumination light is inserted into the insertion section 5. The proximal end of the light guide fiber is bent inside the operation section 6, and the proximal end is fixed in the light guide base 11. The distal end of the light guide fiber is fixed to an illumination window 20 provided at the distal end 8 of the insertion section 5.

  A male screw portion 11a for connection is provided on the outer peripheral portion of the light guide base 11. The male screw part 11a is formed on the inner peripheral surface of the connecting rings 3c and 24 provided movably on the outer peripheral part of the connecting part 3a of the light guide cable 3 or the outer peripheral part of the connecting part 12 of the battery type light source 4, respectively. Female screw part is screwed. The endoscope 2 and the light guide cable 3 or the endoscope 2 and the battery-type light source 4 are integrated by screwing and fixing the connection tubes 3c and 24 to the connection portion 3a.

  As shown in FIGS. 2 to 4, the connection ring 24 of the battery-type light source 4 includes a screw main body 24a and a screw cover 24b. The female screw portion is formed in the screw main body 24a. The screw cover 24b covers an outer peripheral portion of the screw main body 24a, and is formed of a material having low heat transfer and elasticity such as rubber. The distal end of the screw cover 24b extends further distally than the distal end of the screw body 24a, and a convex portion 24c is integrally formed on the inner peripheral surface thereof.

  As shown in FIG. 2, when the endoscope 2 and the battery type light source 4 are connected to each other, the endoscope 2 is provided on the connection tube 11 c of the light guide base 11 and on the battery type light source 4. It is attached so as to match the index 4a. As a result, the positioning pin 26 provided on the battery type light source 4 engages with the pin receiving portion 11d provided on the connection cylinder 11c of the light guide base 11. As a result, the endoscope 2 and the battery-type light source 4 are positioned in a fixed positional relationship.

  In this state, the connecting ring 24 is rotated in a predetermined direction. Then, the female screw 24d formed on the inner peripheral surface of the screw main body 24a and the male screw portion 11a of the light guide base 11 are screwed. As a result, the endoscope 2 and the battery-type light source 4 are integrally fixed. At this time, the watertight ring 28 provided on the connection base 27 on the inner peripheral side of the connection ring 24 comes into close contact with the inner peripheral surface of the connection cylinder 11c. Therefore, watertightness in the connecting portion is ensured.

  When the above-mentioned screwing is completed, the convex portion 24c formed on the inner peripheral surface of the screw cover 24b comes into contact with the outer peripheral surface of the base 6c protruding from the side surface of the operation portion 6 with elastic force. . As a result, a structure in which the connection ring 24 and the light guide base 11 are not easily loosened and fixed is not easily loosened.

  The entire inner peripheral surface of the screw cover 24b is not brought into contact with the base 6c, but is made to come into contact with only the convex portion 24c. Can be completed. In addition, when the screw cover 24b and the base 6c rub against each other, generation of unpleasant noise is prevented.

  Also, at the time of this screw fixing, the battery-type light source 4 is turned off so that the illumination lamp 21 does not turn on. In other words, the positional relationship indicated by the dashed line in FIG. 5, that is, the light source main body 30 of the battery type light source 4 is set in a relative positional relationship parallel to the longitudinal axis direction of the endoscope 2.

  Then, the light source body 30 is rotated by 90 ° in the forward and reverse directions with respect to the OFF position, and the light source body 30 is arranged at a position shown by a solid line or a broken line in FIG. The light turns on.

  Therefore, for example, the battery type light source 4 is mounted on the light guide base 11 and the light source main body 30 is arranged at a position indicated by a solid line or a broken line in FIG. The lamp 21 enters a light emitting state.

  The illumination light of the illumination lamp 21 is condensed by a condenser lens 22 in the battery-type light source 4 and is formed by a transparent glass member provided on a light guide fiber light incident end face of the light guide base 11. The light is supplied to the light guide fiber through a guide cover (not shown). Then, the light is transmitted to the distal end portion by the light guide fiber, emitted from the illumination window 20 toward the front side, and illuminates the inspection site.

  On the other hand, the light guide connector 3b provided at the rear end of the light guide cable 3 shown in FIG. 1 is connected to an existing light source device (not shown). Therefore, by connecting the light guide connector 3b to the light source device, the illumination light from the illumination lamp provided inside the light source device is connected to the light guide connector 3b, the light guide fiber (not shown) in the light guide cable 3, and the connection. The light is supplied to the light guide fiber of the endoscope 2 via the section 3a.

  That is, by connecting the light guide cable 3 to the endoscope 2, the endoscope can be inspected by connecting to the light source device in the same manner as a normal endoscope.

  Here, the configuration of the battery-type light source 4 will be specifically described.

  As shown in FIG. 3, the battery-type light source 4 includes a light source main body 30, a lid 31 that is connected to the light source main body 30 by, for example, a hinge and that is openable and closable, and is detachably attachable to the light source main body 30. And a lamp holder 32 which is a lamp mounting member for holding the illumination lamp 21.

  The battery 33 can be replaced by opening the cover 31. The illumination lamp 21 can be replaced by removing the lamp holder 32 from the light source body 30. In the present embodiment, for example, an AA nickel-metal hydride rechargeable battery is used as the two dry batteries 33 as the power source of the battery-type light source 4.

  The light source main body 30 is mainly constituted by an exterior member 34 formed of an insulating resin member. The exterior member 34 is formed with a battery storage section 35 for storing the dry battery 33 and a lamp chamber 36 for storing the illumination lamp 21.

  A remaining amount detection circuit 25 for detecting the remaining amount of the dry battery 33 to be used is provided inside the battery storage section 35. The detection result of the remaining amount detection circuit 25 is turned on by the plurality of LEDs 29a and 29b, and is notified to the operator as the remaining amount of the dry battery 33.

  As shown in FIG. 2, at a position facing the LEDs 29a and the like of the exterior member 34, a remaining amount display section 38 configured by arranging a plurality of display windows 37a and 37b that transmit light of these LEDs is provided. I have. In the present embodiment, when the capacity of the dry battery 33 is sufficient, the two LEDs 29a of green emission color corresponding to the display window 37a are simultaneously lit.

  The LED 29a is turned off one by one as the capacity of the dry battery 33 decreases. When the capacity of the dry battery 33 becomes small, the emission color corresponding to the display window 37b is changed from the green LED 29a. Is switched to, for example, a yellow LED 29b. Then, the LED 29b blinks to prompt the surgeon to run out of battery warning.

A level gauge 40 is provided near the display window 37a for the purpose of improving visibility.
In addition, the display example using the LEDs is not limited to the above-described embodiment, and it is possible to change the emission color, change the number of LEDs, and the like. In addition, the capacity may be displayed in a bar graph, for example, by liquid crystal instead of the LED.

  Further, when two dry batteries 33 are stored in the battery storage portion 35 and the lid 31 is closed, the dry batteries 33 contact the conductive plate 41 by the elastic force of coil springs 44a and 44b shown in FIG. And are connected in series. Therefore, the loading directions of the two dry batteries 33 are different from each other.

  As shown in FIGS. 3 and 6, the lid 31 is provided with a fixed claw portion 31a. On the other hand, the exterior member 34 is provided with a lock claw 42 that engages with the fixed claw portion 31a when the lid 31 is closed. The lock claw 42 is rotatably provided on an opening lever 43 that rotates with respect to the exterior member 34. Therefore, the lock claw 42 is in a state of being fixed to the fixed claw portion 31a or in a state of being opened in conjunction with the operation of the release lever 43. That is, the lid 31 is integrally fixed to the light source main body 30 by a so-called buckle-type locking mechanism.

  A packing 46 is provided on the inner surface side of the lid 31. When the lid 31 is closed, the packing 46 comes into close contact with the watertight surface 35 a of the opening of the battery housing 35. Thus, the inside of the battery storage section 35 is kept watertight.

  The watertight surface 35a is inclined with respect to the direction in which the lid 31 is closed. That is, it is an inclined surface whose inner dimension gradually decreases from the opening side toward the back. Thus, for example, when the release lever 43 is in the closed state, it serves to generate a biasing force in a direction to open the lid 31, and the buckle-type locking mechanism works well.

  In the closed state, the lock claw 42 and the release lever 43 are housed and arranged so that there is no unevenness with respect to the bank 34a provided integrally with the exterior member 34. This prevents the opening lever 43 from being accidentally opened during use or during cleaning.

  As shown in FIG. 7, a conductive plate 41 and a conductive panel 47 are fixed to the lid 31 with screws 70. The conductive plate 41 is made of a plate material having good conductivity and rigidity, which constitutes the electrical connection means. The conductive panel 47 is arranged so as to overlap below the conductive plate 41. The conductive panel 47 is formed of a plate material having good conductivity and spring elasticity, and has an arm portion to be described later in contact with an electrode portion of the dry battery 33. Note that the lid 31 itself is formed of a non-conductive member.

  As shown in FIGS. 3, 7, and 8, one end of the conductive plate 41 has a stepped shape. A semi-arc-shaped portion 41c is formed on the end face side of the conductive plate 41 so as not to overlap the region 53 where the anode of the dry battery 33 faces. At a predetermined position near the semi-arc-shaped portion 41c, a cutout portion 41a is formed in which a first elastic arm portion 47a serving as a thin band-shaped elastic contact portion formed on the conductive panel 47 is arranged. The notch 41a is located so as to overlap the region 54 of the dry battery 33 where the cathode faces.

  On the other side of the conductive plate 41 across the screw hole 70a, a second elastic arm portion 47b serving as a thin band-like elastic contact portion formed on the conductive panel 47 is disposed. Is formed.

  The conductive panel 47 and the conductive plate 41 are superimposed on each other, and are integrally fixed to the cover 31 with screws 70, so that the notch 41a and the opening 41b of the conductive plate 41 The first elastic arm 47a and the second elastic arm 47b are arranged.

  At this time, the first elastic arm portion 47a does not overlap the region 53 where the anode of the dry battery 33 faces. That is, only the cathode of the dry battery 33 is located in the area 54 facing the cathode. Then, as shown in FIG. 9, the contact portions of the elastic arms 47a and 47b that come into contact with the dry battery 33 are located at positions protruding from the upper surface of the conductive plate 41, respectively.

  A concave portion 31b for positioning and positioning the conductive plate 41 and the conductive panel 47 is formed on the inner surface of the cover 31 shown in FIG.

  In addition, relief portions 49a and 49b are provided in the respective deforming directions of the elastic arms 47a and 47b so that the elastic arms 47a and 47b are elastically deformed when pressed against the dry battery 33. .

  Further, on the inner surface on the side where the opening 41b is disposed, a substantially C-shaped convex portion 31c is formed in which the anode of the dry battery 33 passes without contact, but the cathode does not contact and cannot pass. Have been. As a result, as shown in FIG. 9, the height from the upper surface of the conductive plate 41 to the upper surface of the convex portion 31 c is lower than the projecting height of the anode of the dry battery 33, and the second elastic arm portion 47 b of the conductive panel 47 has The protrusion is set so as to be lower than the upper surface of the protrusion 31c.

  The packing 46 is disposed on a substantially elliptical step formed on the outer peripheral side of the concave portion 31b.

  As shown in FIG. 4, the coil springs 44a and 44b made of the good conductive material are arranged at the bottom of the battery housing 35 and connected to the power supply circuit 45, and the dry batteries connected in series. The power of 33 is supplied to the power supply circuit 45. The power supply circuit 45 is provided with a transformer circuit 39 shown in FIG. 14 for converting the voltage of the dry battery 33 into the rated voltage of the illumination lamp 21.

  As shown in FIGS. 4 and 10, conductive contact plates 40a, 40b, and 40c having elasticity are arranged between the power supply circuit 45 and the lamp chamber 36. The end of the conductive contact plate 40a is configured to get on and off the insulating block 52 within an elastic range by a switch operation described later. As shown in FIG. 11 (b), when riding on the insulating block 52, the conductive contact plate 40b and the conductive contact plate 40a are separated, and the switch is turned off.

  Then, as shown in FIG. 12 (b) and FIG. 13 (b), when descending from the insulating block 52, the conductive contact plate 40b and the conductive contact plate 40a are in press contact, and the switch is turned on.

  In the sliding portion between the conductive contact plate 40a and the insulating block 52, the end of the conductive contact plate 40a is formed wide so that the insulating block 52 is not cut by the edge of the conductive contact plate 40a. Further, the sliding convex portion 52a of the insulating block 52 is brought into contact with the edge portion of the end of the conductive contact plate 40a near the center. This prevents poor contact of the contacts due to the generation of shavings. The wide portion of the conductive contact plate 40a is also a contact portion with the conductive contact plate 40b.

  The conductive contact plate 40b is always in pressure contact with the lamp housing 50 made of a good conductive material regardless of a switch operation described later. The contact portion between the lamp housing cylinder 50 and the conductive contact plate 40a, which is the end portion, is formed wide, and when the switch is operated to be in the OFF state, a part of the contact portion falls under the insulating block 52, and It is configured to fit in a gap provided between the storage cylinder 50 and the storage cylinder 50.

  The conductive contact plate 40c has a bent portion 40d formed by bending a wide end portion so as to protrude into the lamp chamber 36. As shown in FIG. 4, when the lamp holder 32 is mounted in the lamp chamber 36, the bent portion 40 d presses and contacts the ring-shaped portion 55 a of the lamp contact spring 55 provided on the lamp holder 32.

  As shown in FIG. 14, the dry battery 33 in this embodiment is a nickel-metal hydride rechargeable battery having an electromotive force of 1.2 V per cell. Therefore, a power supply voltage of 2.4 V is obtained by being connected in series. The anode side of the dry battery 33 is connected to the transformer circuit 39, and the cathode side is connected to the conductive contact plate 40a.

  On the other hand, the conductive contact plate 40b with which the conductive contact plate 40a contacts is connected to the transformer circuit 39, and a power supply circuit to the transformer circuit 39 is formed in a state where the conductive contact plate 40a and the conductive contact plate 40b are in contact with each other. You. The conductive contact plates 40b and 40c are electrically connected to the electrodes of the illumination lamp 21 having a rated voltage of 4.8v. The conductive contact plates 40b and 40c are output lines of the transformer circuit 39.

  As a result, when the conductive contact plate 40a is operated by a switch, the voltage transformer circuit 39 is activated, and the electric power boosted to 4.8 V is supplied to the illumination lamp 21.

  The conductive contact plate 40b is a common ground for the dry cell 33, the loop of the transformer circuit 39 and the loop of the transformer circuit 39 and the illumination lamp 21.

  The power supply circuit 45 is provided with a short-circuit protection circuit (not shown), which detects a voltage drop when the current of the dry battery 33 as a power supply flows to the maximum, and stops the power supply to the illumination lamp 21. It has become. This stops the power supply to the illumination lamp 21 on the circuit even when the switch of the battery type light source 4 is in the ON position.

  Although not shown, the power supply circuit 45 and the remaining amount detection circuit 25 are joined in an L-shape, and the electromotive force of the remaining amount detection circuit 25 is supplied from the power supply circuit 45.

  As shown in FIG. 3, the lamp holder 32 includes a holder main body 51, a watertight ring 56, and a lamp contact spring 55. The holder main body 51 is formed by providing a large diameter portion and a small diameter portion with an insulating material such as a resin material. The watertight ring 56 is arranged on the outer periphery of the large diameter portion of the holder main body 51. The lamp contact spring 55 comes into contact with the ring-shaped portion 55a fitted to the small-diameter portion of the holder main body 51 and the base-side electrode of the illumination lamp 21 from the ring-shaped portion 55a with a spring elastic force. The arm 55b is provided.

  A male screw portion 51 a that is screwed to the exterior member 34 is formed on the outer periphery of the narrow diameter portion of the holder main body 51 on the root side. The screw shape of the male screw portion 51a is formed as a so-called trapezoidal screw having a trapezoidal thread. For this reason, even if it is screwed into the exterior member 34 strongly, it is possible to prevent the screwed state from being strongly bitten, and to attach and detach the lamp holder 32 smoothly at all times.

  At the distal end of the small diameter portion of the holder main body 51, a lamp fixing claw 51b formed by providing a plurality of slits in a tubular portion is provided. On an inner peripheral surface of an end portion of the lamp fixing claw portion 51b, a lamp engaging portion 51c for engaging a ring-shaped lamp convex portion 21a on an outer peripheral surface of a mounting portion of the illumination lamp 21 (see FIG. 4). Is formed.

  The inner diameter of the lamp fixing claw 51b is set slightly larger than the outer diameter of the mounting portion of the base end of the illumination lamp 21 to be engaged with the claw 51b. The illumination lamp 21 is located between the lamp projection 21a and the stepped portion 21b.

  For this reason, when the illumination lamp 21 is mounted on the lamp holder 32, the illumination lamp 21 is freely rotatable around the optical axis direction of the illumination lamp 21 and is also movable with respect to the lamp optical axis direction. .

  The arm portion 55b is disposed at a position rearward of the lamp locking portion 51c and is urged by a spring toward the front side thereof, so that the lamp protrusion 21a is held over the lamp locking portion 51c. Then, the lamp projection 21a is held in contact with the lamp locking portion 51c by the urging force of the arm 55b. At this time, the lamp holder 32 is not attached to the exterior member 34.

  On the other hand, when a force against the urging force of the arm 55b is applied, the lamp projection 21a can be moved to the deep side of the lamp fixing claw 51b.

  The outer diameter of the lamp projection 21a is slightly larger than the diameter of the inner peripheral surface of the lamp retaining portion 51c, and the lamp can be pushed in so as to be expanded. Then, by generating a click feeling at this time, the operator can recognize that the lamp mounting operation has been reliably performed.

  The lamp holder 32 holding the illumination lamp 21 is screwed into the exterior member 34, the illumination lamp 21 comes into contact with the lamp contact portion 50a inside the lamp housing 50, and the screwing of the lamp holder 32 is completed. In the mounted state, the dimensions of each of the lamps 21 are set so that the lamp locking portion 51c fits between the lamp convex portion 21a and the stepped portion 21b within the moving range of the illumination lamp 21 with respect to the lamp holder 32 in the optical axis direction. You have set.

  Further, the engagement of the lamp projection 21a of the illumination lamp 21 by the lamp locking portion 51c engages with a force greater than the spring force of the lamp contact spring 55.

  Further, an arm portion 55b of the lamp contact spring 55 extends to a substantially center of the holder main body 51 through a slit of the lamp fixing claw portion 51b. When the illumination lamp 21 is mounted on the lamp holder 32, the arm 55b abuts one of the electrodes on the bottom of the illumination lamp 21 with elasticity.

  As shown in FIG. 4, a groove 51d is formed at the base end of the holder main body 51, where the tip of a flathead screwdriver and coins are arranged. By attaching a coin or the like to the groove 51d and rotating the holder main body 51, a detaching operation can be performed.

  When the lamp holder 32 is screwed into the exterior member 34, the watertightness of the battery-type light source 4 is maintained by the watertight ring 56.

  The illumination lamp 21 is formed by coating a non-conductive resin tube 57 that is difficult to conduct heat by exposing a portion near the front end of the lamp to an outer peripheral portion of a metal cylindrical body 21c that forms one of the electrodes. I have.

  FIG. 4 is a sectional view of the lamp chamber 36 in a state where the lamp holder 32 on which the illumination lamp 21 is mounted is mounted on the battery-type light source 4. The state shown in FIG. 4 is a state where the illumination lamp 21 is turned on. In the present embodiment, there are two ON state switch positions, which are the state of FIG. 12B and the state of FIG. The diagram showing the overall configuration at this time is the positional relationship between the solid line and the broken line in FIG.

  From this ON state, the exterior member 34 is rotated by 90 ° in the forward and reverse directions with respect to the lamp housing 50 described below, so that the state shown in FIG. To the OFF state switch position.

  Inside the lamp chamber 36, a substantially cylindrical lamp housing cylinder 50 formed of a material having good conductivity is arranged. The proximal end of the lamp housing 50 has a flange shape, and is rotatably disposed on the exterior member 34 with a ring 48 having elasticity and increasing sliding resistance therebetween.

  An insulating block 52 for elastically deforming the conductive contact plate 40a is fixed to a predetermined position of the lamp housing 50. The fixed position corresponds to a switch position at which the lighting lamp 21 described later is turned on and off.

  The inner hole of the substantially central portion of the lamp housing cylinder 50 is formed to have such a size that the outer periphery of the cylindrical body 21c of the illumination lamp 21 is fitted almost exactly. At a predetermined position on the inner periphery of the end portion side of the lamp housing tube 50, a lamp contact portion 50a is formed as a positioning portion by which the front end peripheral portion of the tube 21c of the illumination lamp 21 contacts. The cylindrical body 21c is the other electrode corresponding to the one electrode provided on the bottom side of the illumination lamp 21.

  As shown in FIG. 15, with respect to the outer periphery of one end of the lamp housing tube 50 fitted into the lamp holder mounting opening 34b of the exterior member 34, a click mechanism is opened from the opening opposite to the lamp holder mounting opening 34b. A disc-shaped click plate 58 for forming a part, a spring 59, and a connection base 27 are inserted in this order.

  A positioning pin 26 is screwed to the connection base 27 so as to protrude from the inner peripheral surface of the connection base 27 (see FIG. 4). Accordingly, the protrusion 26a of the positioning pin 26 is engaged with the notch 50b provided at the end of the lamp housing 50, and the connection base 27 is slid into the lamp housing 50.

  The click plate 58 has a substantially U-shaped slit 58a. The slit 58a is passed from the base end side of the connection mouthpiece 27 through a rotation restricting portion 27a that extends a part of the cylindrical portion.

  Further, the lens holding tube 60 in which the condenser lens 22 is adhesively fixed in a watertight manner is screwed into the lamp housing tube 50 at the bottom of the cylindrical hollow into which the light guide base 11 of the endoscope 2 is inserted. The connection base 27 is integrally fixed to the lamp housing 50.

  Further, a non-conductive female screw block 66 into which the male screw portion 51a of the holder main body 51 is screwed is fixedly fitted to the lamp holder mounting opening 34b. Further, a watertight ring 61 is provided on the base end side of the connection mouthpiece 27 fitted in the exterior member 34 to have a watertight structure. Further, a watertight ring 62 is inserted around the outer periphery of the distal end side of the lens holding cylinder 60 to ensure watertightness.

In this state, the click plate 58 is constantly urged by the two elastic portions 34 d of the inner peripheral stepped portion 34 c of the exterior member 34 by the spring elastic force of the spring 59. (See FIG. 15 and FIG. 11A)
The click plate 58 can move in a direction against the urging force of the spring 59. The click plate 58 is formed with a groove 58b at the same angular position as the protrusion 34d. The switch operation causes the protrusion 34d to fall into the groove 58b, so that a click feeling is generated. (See FIG. 11A)
The stepped portion 34c is formed by changing the inner diameter depth of the fitting of the connection base 27 within a predetermined angle range, and as shown in FIG. 11A, both side surfaces of the stepped portion protruding in the inner circumferential direction. Is a rotation stopper 34e with which the rotation restricting portion 27a contacts.

  With the structure described above, the exterior member 34 is rotated around the lamp housing cylinder 50 within a predetermined angle range, and a click fixing position is provided for holding the click member within a predetermined relative position within the angle range. I have.

  In this embodiment, the click fixing position is set to the OFF state switch position, and the position is rotated around the position in the forward and reverse directions within a range of 90 ° to move to the ON state switch position, which is the restriction position. It has become. And it is possible to change this rotation angle appropriately.

  In addition, on the outer peripheral surface of the exterior member 34 around the lamp chamber 36, an uneven portion 67 for increasing the contact area with the atmosphere is formed. The unevenness 67 allows heat generated from the illumination lamp 21 to be efficiently released to the outside.

  As shown in FIGS. 6 and 16, the space between the substrate storage chamber 64 in which the substrate having the remaining amount detection circuit 25 and the power supply circuit 45 is disposed and the battery chamber 63 in which the dry battery 33 is stored is non-conductive. It is separated by a partition member 65 made of a member.

  The peripheral portion 65a of the partition member 65 is formed in a rib shape, and is configured to be assembled with the exterior member 34 without any gap. Thus, it is possible to prevent a foreign substance entering from the battery chamber 63 from entering the substrate storage chamber 64, and it is possible to prevent a problem such as a circuit short-circuit due to the entry of a conductive foreign substance. The partition member 65 has a function of holding and fixing the remaining amount detection circuit 25.

Here, the operation of the battery type light source 4 of the present embodiment will be described.
First, as shown in FIG. 3, the lid 31 of the light source main body 30 is opened, two dry batteries 33 are stored in the battery storage section 35 with their polarities reversed, and the lid 31 is closed. After that, while moving the release lever 43, the lock claw 42 is engaged with the fixed claw portion 31a of the lid 31. Fix it so that it is drawn to the 30 side.

  As a result, the packing 46 provided on the lid 31 comes into close contact with the opening of the battery storage unit 35 to be in a watertight state. In addition, the conductive plate 41 and the conductive panel 47 provided on the lid 31 come into contact with the opposite electrodes of the dry battery 33 to connect the two dry batteries 33 in series. At this time, both poles of the dry battery 33 are sandwiched between the coil springs 44a and 44b inside the battery housing 35 and the elastic arms 47a and 47b of the lid 31.

  Next, the base end side of the illumination lamp 21 is inserted into the lamp fixing claw 51b of the lamp holder 32. At this time, the convex portion 21a of the illumination lamp 21 is fitted while pressing the lamp locking portion 51c on the inner peripheral surface of the lamp fixing claw portion 51b, and the convex portion 21a gets over the lamp locking portion 51c. This results in a fixed state with a click feeling.

  At this time, the arm 55b of the lamp contact spring 55 elastically contacts the base electrode of the illumination lamp 21. In this state, the illumination lamp 21 is rotatable around the optical axis with respect to the lamp holder 32, and is movable in the optical axis direction against the elastic force of the lamp contact spring 55.

  Next, a coin or the like is placed in the groove 51d of the lamp holder 32 and rotated, and the male thread 51a of the lamp holder 32 is screwed into the female thread of the exterior member 34. As a result, the illumination lamp 21 is loaded into the lamp chamber 36 of the light source body 30.

  At this time, before the screwing of the lamp holder 32 to the exterior member 34 is completed, the distal-end-side peripheral portion, which is the other electrode of the illumination lamp 21, is provided on the lamp housing tube 50. And position it. That is, the lamp holder 32 is screwed to the exterior member 34 in a state where the lamp protrusion 21a is in contact with the lamp locking portion 51c.

  As a result, the illumination lamp 21 comes into contact with the lamp contact portion 50a at the initial stage of the screwing, and thereafter, the base electrode portion of the illumination lamp 21 moves to a deep portion of the lamp fixing claw portion 51b, and the arm portion When the screw 55b is elastically deformed and screwing is completed, the mounting state shown in FIG. 4 is obtained.

  The lamp contact portion 50a has a function of positioning the illumination lamp 21 at a position where the light emitted from the illumination lamp 21 is most efficiently condensed on the light guide fiber incident end of the endoscope.

  At this time, the holder main body 51 is integrally fixed to the exterior member 34, and the conductive contact plate 40c connected to the output of the transformer circuit 39 is elastically attached to the ring-shaped portion 55a of the lamp contact spring 55 as shown in FIG. Contact

  Further, the interior of the lamp chamber 36 with the illumination lamp 21 loaded therein is made watertight by a watertight ring 56.

  Subsequently, the connection portion 12 of the battery type light source 4 is connected to the light guide base 11 of the endoscope 2. Thereby, the lamp housing cylinder 50 integrated with the connection part 12 is integrally fixed to the light guide base 11.

  At the position shown by the dashed line in FIG. 5, the lamp lighting switch is in the OFF position. In this state, as shown in FIG. 11B, the conductive contact plate 40a rides on the insulating block 52, and the conductive contact plates 40a and 40b are separated from each other, and the transformer circuit 39 does not start. That is, the illumination lamp 21 does not light. Also, in this lamp extinguished state, power is not supplied to the remaining amount detection circuit 25, so that the remaining amount display unit 38 does not display the remaining amount.

  In addition, the rotation restricting portion 27a of the connection base 27 in the OFF state is at an intermediate position of the rotation stopper 34e as shown in FIG. At this time, the click plate 58 is at a position where the groove 58b is engaged with the protrusion 34d. That is, the state is held by the click mechanism, and the switch OFF function is assigned to the held state.

  Next, the light source main body 30 is rotated with respect to the operation unit 6 to the solid line position or the broken line position shown in FIG. Note that the rotation direction in which the remaining amount display unit 38 faces the eyepiece unit 7 is defined as a positive direction. At this time, the rotation range of the exterior member 34 that rotates about the lamp housing 50 is determined by a rotation stopper 34e that comes into contact with the rotation restricting portion 27a as shown in FIG. In this embodiment, the rotation angle is set to approximately 90 ° from the OFF position.

  In the turning operation from the OFF position, it is necessary to operate the protrusion 34 d located in the groove 58 b of the click plate 58 so as to ride up from the groove 58 b against the elastic force of the spring 59. Therefore, at the time of the first operation from the OFF position, a stronger turning power is required. However, when the protrusion 34d gets on the groove 58b, the turning operation can be performed with a stable and constant force that is lighter than the initial operation.

  In addition, the amount of force at the time of the click fixing can be appropriately adjusted by changing the amount of force of the spring 59 pressing the click plate 58 or changing the shape of engagement between the groove 58b and the protrusion 34d.

  Further, the surface of the click plate 58 may be coated with a coating for improving the slipperiness so that the protrusion 34d sliding on the click plate 58 is not worn.

  As shown in FIG. 12B, in the ON state in the forward direction, the conductive contact plate 40a comes down from the insulating block 52 and comes into contact with the conductive contact plate 40b. In this state, the power from the dry battery 33 is supplied to the transformer circuit 39, and the power boosted to the rated voltage of the illumination lamp 21 is supplied. That is, a closed circuit including the transformer circuit 39, the conductive contact plate 40c, the lamp contact spring 55, the illumination lamp 21, the lamp housing 50, the conductive contact plate 40b, and the transformer circuit 39 is formed, and the illumination lamp 21 is turned on.

  Simultaneously with the lighting of the illumination lamp 21, the remaining amount detection circuit 25 is activated to monitor the output voltage value and the like of the dry battery 33, convert the remaining battery amount from the voltage value, and display the remaining battery amount on the remaining amount display unit 38 as needed. indicate.

  The illumination light emitted from the illumination lamp 21 is condensed by a condenser lens 22 and is efficiently incident on a light guide fiber disposed on a light guide base 11 of the endoscope 2. Then, the illumination light incident on the light guide fiber is transmitted to the distal end side, emitted from the illumination window 20 to the front side, and illuminates a subject such as a diseased part in a body cavity into which the insertion section 5 is inserted.

  On the other hand, the optical image of the subject illuminated by the illumination light is formed on the distal end surface of the image guide fiber by the objective lens 23, transmitted to the proximal end side, and observed by looking through the eyepiece 7. And endoscopic diagnosis of the affected part or the like can be performed.

  At this time, the heat generated while the illumination lamp 21 is turned on is transmitted to the lamp housing 50 and further transmitted from the connection portion 12 to the light guide base 11 of the endoscope 2. Then, heat diffuses from the light guide base 11 to the metal parts inside the operation unit 6.

  In order to further improve the light collection efficiency, the glass bulb itself of the illumination lamp 21 may have a lens-like thickness so that the light emitted from the illumination lamp 21 is closer to a spot beam.

  As described above, in the present embodiment, by storing the illumination lamp 21 that is a heat source in the lamp storage tube 50 that is a conductive metal member, extra heat generated by the illumination lamp 21 is positively applied to the lamp storage tube 50. Through the endoscope body.

An air layer is provided between the lamp housing 50 and the exterior member 34 so that heat is not directly transmitted to the exterior member 34.
Furthermore, even if the heat is conducted to the exterior member 34 around the lamp chamber 36 due to long use, the heat is efficiently released from the uneven portion 67 to the atmosphere.

  Further, in the lamp holder 32 on which the illumination lamp 21 is mounted, since the holder main body 51 is formed of a resin member that does not easily conduct heat, the external surface facing the groove 51d does not become hot. This prevents the surface of the exterior member 34 around the lamp chamber 36 that touches the operator's hand from becoming hot enough to hinder use.

  As described above, since heat does not accumulate inside, it is possible to prevent an adverse effect of heat on an electric circuit and the like disposed inside.

  Further, since the screw cover 24b of the connection ring 24 is formed of a rubber material having low thermal conductivity, it is possible to prevent heat from being transmitted to the operator's hand.

  When the light source main body 30 is turned to the OFF position after the observation is completed, the light source body 30 is positioned and fixed at the OFF position by the click mechanism, and the conductive contact plate 40a rides on the insulating block 52 so that the illumination lamp 21 and the remaining amount display section 38 are simultaneously displayed. It turns off.

  At the time of the ON / OFF rotation operation described above, the lamp holder 32 rotates integrally with the exterior member 34, but the illumination lamp 21 slides with the lamp housing 50 due to engagement with the lamp holder 32. Does not rotate due to high resistance.

  At this time, the rotational force transmitted from the illumination lamp 21 to the lamp holder 32 is very small. For this reason, even if the ON operation and the OFF operation are repeatedly performed, the screwing state of the lamp holder 32 to the exterior member 34 does not become loose.

  Further, the connection ring 24 fixing the light guide base 11 and the connection base 27 is screwed to the male screw part 11a in a state where the screw cover 24b is elastically brought into close contact with the base 6c of the operation part 6. . For this reason, even if the above-mentioned ON / OFF operation is repeatedly performed, the screwed state does not become loose.

  On the other hand, the light source main body 30 can be rotated with respect to the endoscope 2 in, for example, a direction opposite to that described above and arranged at the position shown by the broken line in FIG. 5 to set the second lamp ON state.

  At this time, the rotation range of the exterior member 34 that rotates about the lamp housing cylinder 50 is determined by the rotation restricting portion 27a and the rotation stopper 34e that comes into contact with the rotation restricting portion 27a, and is rotated by approximately 90 ° from the OFF switch position. The corner is set.

  Accordingly, the rotation angle of the light source body 30 with respect to the operation unit 6 of the endoscope 2 is 90 ° in the forward and reverse directions when the OFF switch position is the center, that is, the total rotation angle is 180 °. ing.

  Further, the contact state of the conductive contact plates 40a and 40b when rotated in the opposite direction is as shown in FIG. 13B. The switch operation mechanism in the reverse direction has the same configuration as the switch operation mechanism in the forward direction described above, except for the rotation direction.

  The above-described total rotation angle and the position of the OFF switch that is fixed by clicking can be appropriately adjusted by changing the angle formed by the stepped portion 34c and the position of the groove 58b of the click plate 58.

  In addition, by changing the number and arrangement positions of the stepped portions 34c and the groove portions 58b, a plurality of click fixing positions can be set within the entire rotation angle range. Then, a plurality of switch functions performing a predetermined function may be assigned to the click fixed position.

  As described above, the battery-type light source 4 having the two ON switch positions and the OFF switch position can be held and operated in two ways as shown in FIGS.

  When used on a patient lying down as shown in FIG. 19 (a), it is common to hold the operation unit 6 with the palm and operate the bending operation lever 14 with the thumb as shown in FIG. 19 (c). Had been done. Therefore, the light source main body 30 is rotated in the forward direction as shown in FIG. 17, and the illumination lamp 21 is turned on in the state shown by the solid line in FIG. Thus, when the insertion section 5 is operated and observed in a state where the insertion section 5 faces downward from the horizontal plane, the insertion section 5 can be held in the most natural state.

  On the other hand, when used for a patient facing as shown in FIG. 19 (b), the insertion section 5 must be operated and observed with the insertion section 5 in a substantially horizontal state. At this time, in the gripping method shown in FIG. 19C, the operation of operating the bending operation lever 14 with the thumb while the insertion portion 5 is in the horizontal direction is very unnatural and difficult to perform.

  At this time, the light source main body 30 is rotated in the reverse direction, moved to the position shown by the broken line in FIG. 5 to be turned on, and the operation unit 6 is turned over so that the bending operation lever 14 is directed upward. In this state, the endoscope 2 is gripped as shown in FIG. That is, the battery-operated light source 4 is gripped so as to wrap around with the palm, and the bending operation lever 14 is operated with the index finger. According to this gripping method, since the light source main body 30 can be firmly gripped by the palm and the bending operation lever 14 can be operated by the natural operation of the index finger, the operability is greatly improved.

  Note that the OFF switch position is a position where the light source main body 30 is in a state parallel to the operation unit 6 so that the battery light source 4 can be easily stored in a storage place with the battery light source 4 attached to the endoscope 2.

  In this way, the arrangement position of the battery light source for the endoscope with respect to the operation unit of the endoscope is provided in the middle of the entire rotation range in addition to the restriction position, and a desired switch function is assigned to each arrangement position. By adopting a configuration that is positioned and held at the switch position, the operability and usability of the endoscope can be greatly improved.

  Thus, in the endoscope apparatus in which the switch operation is performed by changing the relative position of the battery light source for the endoscope connected to the operation unit of the endoscope, a plurality of switch positions are set within the relative position change range. Since the click mechanism is assigned and operated at the switch position, a plurality of switches can be switched quickly, reliably and easily. In addition, a switch position of a desired function is selectively arranged at an optimum position in consideration of a use situation of a relative position of the battery light source for the endoscope with respect to an operation unit of the endoscope, thereby further improving operability and usability. Is greatly improved.

  In particular, in the present embodiment, a gripping method in which the insertion section 5 of the endoscope 2 is gripped downward and the bending operation lever 14 is operated with the thumb, and the insertion section 5 of the endoscope 2 is oriented in the horizontal direction. With the switch ON position assigned to a position suitable for two types of gripping methods of operating the bending operation lever 14 with the index finger in a state in which the operator holds the index finger, the operator can change the relative position according to the situation to optimize the switch position. User-friendliness.

  In addition, the position where the battery light source for the endoscope is parallel to the eyepiece is set to the switch OFF position, and the click mechanism is also operated at this switch position. Storage and storage with the battery light source connected can be easily performed.

  Furthermore, in a state where the dry battery is housed in the battery chamber and sealed with the lid, the two poles of the dry battery are elastically sandwiched between the coil spring inside the battery chamber and the two contact members of the conductive panel provided on the lid. Holds to ensure electrical conduction, so even if the internal battery moves due to inertia when a strong external impact is applied to the battery light source, the electrical contact with the battery is reliably maintained by the elastic force. can do.

  As a result, even when the external battery 33 moves inside the battery chamber 63 due to an external impact applied to the light source main body 30 when the illumination lamp 21 is turned on, poor contact between the electrode of the battery 33 and the battery contact occurs. Since the protection circuit erroneously recognizes a voltage drop of the power supply due to an instantaneous contact failure as a short circuit, malfunction of the protection circuit for turning off the illumination lamp is prevented.

  In this embodiment, the malfunction of the protection circuit is prevented by the elastic arms, which are the two springs of the coil spring 44 and the conductive panel 47. However, as shown in FIG. Is provided, the generation of the inertial force in the direction of crushing the coil spring 44 can be reduced even when an external impact is applied. Therefore, the conductive panel 47 becomes unnecessary.

  In addition, the combination of the conductive plate provided on the lid, the conductive panel and the convex portion of the lid prevents electrical connection when the battery is loaded in the wrong direction. By mistake, reverse current can be prevented from flowing through the circuit, and a failure due to erroneous loading of the dry battery can be prevented.

  Further, the battery body light source for the endoscope is connected to the operation unit of the endoscope, the screw body of the connection ring for fixing is a metal member, and the outer periphery thereof is covered with a screw cover of a rubber material, and the protruding portion of the end is With the configuration in which the connecting ring is elastically applied to the operation section of the endoscope with the screw engagement, it is possible to reliably prevent the connection ring from being loosened during use.

  As a result, the connection state becomes uncertain, so that the light collection efficiency from the illumination lamp 21 to the light guide incidence portion does not decrease, and the observation light is prevented from being darkened. In addition, the temperature rise of the outer surface of the connection ring 24 due to the heat of the illumination lamp 21 is prevented.

  It should be noted that the present invention is not limited to only the above-described embodiments, and various modifications can be made without departing from the spirit of the invention.

[Appendix]
According to the embodiment of the present invention described in detail above, the following configuration can be obtained.

(1) In an endoscope battery light source that changes a relative position with respect to an endoscope operation unit to switch an illumination lamp between a lighting state and a light-off state,
A light source body containing a battery that supplies power for lighting the illumination lamp,
A plurality of switch positions provided in a change range in which a relative position between the light source body and the endoscope operation unit changes;
A click mechanism unit provided at at least one switch position for holding a relative position of the light source body with respect to the endoscope operation unit in a predetermined state and switching the illumination lamp to a predetermined state in the held state;
An endoscope battery light source comprising:

(2) The battery light source for an endoscope according to Appendix 1, wherein the light source body is rotated with respect to the endoscope operation unit to change a relative position.

(3) The relative positional relationship between the light source main body held by the click mechanism unit and the endoscope operating unit is such that the direction of the longitudinal axis of the endoscope operating unit and the direction of the longitudinal axis of the light source main unit are substantially parallel. 2. The battery light source for an endoscope according to Appendix 1, wherein the battery light source has a great positional relationship.

(4) When the longitudinal axis direction of the light source main body held by the click mechanism unit and the longitudinal axis direction of the endoscope operation unit are substantially parallel, the switch position turns off the illumination lamp. 4. The battery light source for an endoscope according to 3.

(5) The reciprocal symmetrical position where the longitudinal axis direction of the endoscope operating section and the longitudinal axis direction of the light source main body are substantially orthogonal to each other is a switch position for turning on the illumination lamp. Battery light source for endoscope.

(6) In an endoscope apparatus that changes a relative position between an endoscope operation unit and an endoscope battery light source to switch an illumination lamp between a lighting state and a lighting state,
The endoscope has a light guide that guides illumination light for illuminating an examination region, an operation unit, and an illumination light incident end face disposed on the operation unit, and the battery light source is an illumination light for the endoscope operation unit. When connected near the incident end face,
The battery-operated light source,
An illumination lamp that is arranged to face the illumination light incident end face and emits the illumination light;
A battery for supplying power for lighting the illumination lamp,
A light source body containing the battery;
A switch position for switching the illumination lamp to a light-on state or a light-off state by moving a relative position of the light source body with respect to the endoscope operation unit by a predetermined range;
A click mechanism that is provided at a switch position in which a relative position of the light source main body with respect to the endoscope operation unit is moved by the predetermined range, and clicks and fixes the light source main body;
An endoscope device comprising:

(7) The endoscope apparatus according to supplementary note 6, wherein the endoscope battery light source is detachable from the endoscope operation unit.

(8) The light source main body rotates around a straight line perpendicular to the longitudinal axis of the endoscope operation section as a central axis, and rotates within a predetermined angle range with respect to the longitudinal axis of the operation section,
When the position where the longitudinal axis of the light source body is rotated by a predetermined angle relative to the longitudinal axis of the operation unit is the switch position, and the light source body is disposed at the switch position, the illumination lamp is turned on. 7. The endoscope apparatus according to claim 6, wherein the endoscope apparatus is turned off.

(9) The endoscope apparatus according to Supplementary Note 6, wherein when the light source main body is click-fixed to the click mechanism, the longitudinal axis of the operation unit and the longitudinal axis of the light source main body have a substantially parallel positional relationship.

(10) A switch position where the illumination lamp is turned off when the longitudinal axis of the light source main body click-fixed to the click mechanism unit and the longitudinal axis of the endoscope operation unit are substantially parallel. An endoscope apparatus according to attachment 9.

(11) The endoscope apparatus according to supplementary note 9, wherein the position where the longitudinal axis of the light source body is symmetrical with respect to the longitudinal axis of the operation unit is a switch position for turning on the illumination lamp.

(12) In an endoscope apparatus that changes a relative position between an endoscope operation unit and an endoscope battery light source to switch an illumination lamp between a lighting state and a lighting state,
The endoscope has a light guide that guides illumination light for illuminating an examination site, an operation unit, and an illumination light incident end face arranged in the operation unit, and the battery-type light source is an endoscope operation unit. When detachably connected near the illumination light incident end face,
The battery-operated light source,
An illumination lamp that is arranged to face the illumination light incident end face and emits illumination light;
A lamp housing unit that houses the lighting lamp;
A battery for supplying power for lighting the illumination lamp,
A light source body that houses the battery that is configured to be rotatable with respect to the lamp housing unit, with a longitudinal axis of the lamp housing unit as a central axis;
At least three switches are provided in a range in which the light source body rotates, and a switch position for switching the illumination lamp to a lighting state or a light-off state,
A click mechanism provided at a switch position at a predetermined rotation position within a rotation range, for fixing the light source body to the lamp housing unit by clicking,
An endoscope device comprising:

(13) The endoscope apparatus according to Supplementary Note 12, wherein when the light source main body is click-fixed by the click mechanism, a longitudinal axis of the endoscope operation unit and a longitudinal axis of the light source main body become substantially parallel.

(14) At least two switch positions are the ends of the rotation range, and these switch positions are positions symmetrical to each other with respect to the longitudinal axis of the light source main body disposed at the switch position provided with the click mechanism. 14. The endoscope apparatus according to supplementary note 13, wherein

(15) The endoscope apparatus according to supplementary note 14, wherein the two switch positions provided at the end of the rotation range turn the illumination lamp on.

FIGS. 1 to 19 relate to an embodiment of the present invention, and FIG. 1 is a diagram illustrating a configuration of an endoscope apparatus of the present invention. The figure explaining the external appearance of the connection part of an operation part and the battery light source for endoscopes The figure which shows the whole structure of the battery light source for endoscopes Longitudinal sectional view mainly of a lamp chamber of a battery light source for an endoscope The figure explaining the switch operation of the battery light source for endoscope by the difference of the relative position of the operation part and the battery light source for endoscope. Sectional view of battery lid and buckle fixing part Exploded view of the contact member provided on the battery lid Diagram showing the range of both poles of the battery in contact with the battery lid FIG. 8 is a sectional view taken along line FF of FIG. Diagram for explaining the shape and positional relationship of switch contacts Diagram explaining switch position in off state FIG. 4 is a diagram illustrating a first switch position in an ON state. The figure explaining the 2nd switch position of an ON state The figure explaining the power supply circuit of the battery light source for endoscopes Exploded view of parts that make up the click mechanism The figure explaining the partition member which separates a substrate storage room The figure which shows an example of the gripping method of an endoscope. The figure which shows the other example of the gripping method of the endoscope. The figure which shows the direction when using an endoscope apparatus with a patient

Explanation of reference numerals

34c: Stepped part
34d ... protrusion
34e ... rotation stop
40a, 40b ... conductive contact plate
50: Lamp storage cylinder 52: Insulation block
58: Click plate 58b: Groove
Attorney Susumu Ito

Claims (3)

An endoscope comprising a connection means detachably connected to a vicinity of an incident end face of a light guide disposed on an operation unit, and an illumination lamp being switched to a light-on state or a light-off state by changing a relative position with respect to the operation unit. Endoscope device having a battery light source for
An endoscope battery that covers an outer periphery of the connecting means with a rubber member having elasticity and, when the connection to the operation section is completed, a part of the rubber member abuts on a part of the operation section with elastic force. An endoscope device having a light source.   The connection means is screwed with a screw, and one end of a rubber member covering an outer periphery of a screw body made of a rigid metal body is made to protrude from an end of the screw body, and the protruding portion is associated with the screwing. The endoscope device according to claim 1, wherein the endoscope device is brought into contact with the operation unit.   The endoscope apparatus according to claim 1, wherein the switch operation of turning on and off the lamp of the endoscope battery light source is a rotation operation coaxial with an axis for screwing and rotating the screw.

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