JP3776498B2 - Endoscope - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an endoscope having a plurality of types of power supply means.
[0002]
[Prior art]
Endoscopes that have come to be widely used in the medical field and the industrial field require a means for illuminating because a diagnosis or inspection target site is inside a living body, a plant, etc. The illumination light from the lamp in the external light source device is guided by the light guide fiber provided in the endoscope, and the guided illumination light is emitted from the illumination window on the distal end side of the insertion portion to be diagnosed or examined. Is configured to illuminate.
[0003]
In general, the light source device uses a power source supplied from a commercial power source to cause a lamp in the light source device to emit light. On the other hand, for example, Japanese Utility Model Laid-Open No. 56-59005 discloses a rigid endoscope in which a small light source device with a built-in battery is directly attached to a hand-operated portion of the rigid endoscope.
Thus, an endoscope employing a battery-driven light source using a battery is excellent in portability.
[0004]
[Problems to be solved by the invention]
However, Japanese Utility Model Publication No. 56-59005 uses a storage battery as a power source, but if the electromotive force of the storage battery disappears during the inspection, the lamp is turned on as soon as it is not replaced with a charged storage battery. Since the means were lost, there was a case where the inspection had to be stopped at that time.
[0005]
Thus, an endoscope employing a rechargeable battery-driven light source must be charged for a long time when the electromotive force of the battery is lost, and the inspection cannot be resumed immediately. Therefore, in preparation for such a situation, it is necessary to prepare the same battery that has been charged in advance.
[0006]
Further, this conventional example has a structure in which the storage battery cannot be replaced immediately, and there is a drawback that it takes time and effort to replace the storage battery. Endoscopes that use a light source that drives a light source with a non-rechargeable battery generally have a smaller capacity than the rechargeable type, so it is convenient when the inspection time is short, but the inspection time is long. In such a case, there is a drawback in that it is necessary to prepare a large number of the same dry batteries and to replace them frequently.
[0007]
Thus, in the conventional example, since the power source for driving the light source is only one type, it was not possible to select and use the rechargeable battery, the dry battery, or the existing outlet depending on the environment and sometimes. .
[0008]
The present invention has been made in view of the above-described points, and it is possible to select a driving power source according to an endoscopic examination environment, etc. An object of the present invention is to provide an easy-to-operate endoscope that can restart an examination using a power source.
[0009]
[Means for Solving the Problems]
An endoscope according to the present invention includes an endoscope body having a light guide fiber that guides illumination light, and at least an illumination lamp unit is detachably connected to a light incident end of the light guide fiber. The illumination lamp unit includes a lamp holder that holds the illumination lamp, and a pair of common outlets that are supply ports for power supplied to the illumination lamp, and is supplied to the illumination lamp. A plurality of types of power supply units including at least a battery unit serving as a power source are detachable, and each of the plurality of types of power supply units has a pair of electrode plug portions that can be meshed with the pair of common outlet portions. When the plurality of types of power supply units are attached to the illumination lamp unit, the pair of common outlets in the illumination lamp unit are arranged. And by said pair of electrodes plug portion meshes connected together in the plurality of kinds of power supply units, characterized in that the power from the power supply unit is supplied to the illumination lamp.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
1 to 6 relate to a first embodiment of the present invention, FIG. 1 shows a main configuration of the endoscope of the first embodiment, and FIG. 2 can be used with various power supply means. 3 shows the overall configuration of the endoscope according to the first embodiment, FIG. 3 shows the structure of the battery type light source of FIG. 1, and FIG. 4 shows the lamp holder 24 detachably attached to the lamp unit in the battery type light source of FIG. FIG. 5 is a developed view showing the function of the lamp holder, and FIG. 6 is an explanatory view showing that the lamp unit can be disinfected by attaching a waterproof adapter.
[0011]
An endoscope 1 according to the present embodiment includes an endoscope main body 2, a lamp unit 3 that is detachably connected to the endoscope main body 2, and a dry battery type that is detachably attached to the lamp unit 3 and has a built-in dry battery. A battery-type light source 5 composed of a rechargeable battery unit 4 and a light guide cable 6 that is selected to be connected to the lamp unit 3 (removably attached to the endoscope body 2) are connected.
[0012]
The endoscope main body 2 includes an elongated insertion portion 7, an operation portion 8 formed at the rear end of the insertion portion 7, an eyepiece portion 9 formed at the rear end of the operation portion 8, and an operation portion. 8 and a light guide base 10 projecting from 8, and a connection base 11 of the lamp unit 3 can be detachably connected to an end of the light guide base 10.
[0013]
The insertion portion 7 is formed at the distal end portion 12 formed at the distal end thereof, the rear end portion of the distal end portion 12, the bendable bending portion 13, and the rear end portion of the bending portion 13 to the front end of the operation portion 8. And a flexible portion 14 having flexibility.
[0014]
The operation portion 8 is provided with a bending operation lever 16 on the rear end side of the grasping portion 15 held by the operator, and the bending portion 13 can be bent by rotating the bending operation lever 16. The operation unit 8 is provided with a suction button 17 for performing suction and a suction base 18 so as to protrude from the vicinity of the proximal end of the suction button 17. The suction base 18 is connected to a suction device via a tube (not shown). By operating the suction button 17, body fluid or the like can be sucked through the suction cap 18 connected to the suction channel.
[0015]
Further, a forceps insertion port 19 for inserting a treatment tool such as forceps is formed on the front end side of the operation unit 8, and the forceps insertion port 19 communicates with the suction channel inside. A forceps plug 20 is usually attached to the forceps insertion opening 19.
[0016]
A light guide fiber that guides (transmits) illumination light is inserted into the insertion portion 7, and the rear end of the light guide fiber is fixed in the light guide base 10 through the operation portion 8, as shown in FIG. When the lamp 41 mounted in the lamp unit 3 is caused to emit light by connecting the light guide base 10 to the lamp unit 3, the illumination light from the lamp 41 is converted into the light guide fiber of the light guide base 10. To the light incident end face. The supplied illumination light is guided by a light guide fiber and emitted forward from a distal end surface fixed to the illumination window of the distal end portion 12, that is, a light emitting end surface, and illuminates a subject such as an affected area.
[0017]
The illuminated subject forms an optical image at its imaging position by an objective lens attached to an observation window adjacent to the illumination window. At the image formation position, the distal end surface of the image guide fiber is disposed, and the formed optical image is transmitted to the end surface on the eyepiece 9 side. The transmitted optical image can be enlarged and observed through an eyepiece lens attached to the eyepiece window of the eyepiece 9.
[0018]
Further, a vent cap 21 is provided in the middle of the light guide cap 10 so that air can be sent from the vent cap 21 into the endoscope main body 2, and water leakage of the endoscope main body 2 is inspected. To be able to do that.
[0019]
As shown in FIG. 1, a connection cap 22 at the front end of the light guide cable 6 through which the light guide fiber is inserted can be connected to the light guide cap 10. Then, by connecting the light guide connector 23 at the rear end of the light guide cable 6 to an existing light source device (not shown), illumination light is supplied from a lamp inside the existing light source device. Illumination light guided through the guide fiber and guided to the light guide fiber on the endoscope body 2 side can be supplied.
[0020]
The lamp unit 3 provided with a connection base 11 that can be connected to the light guide base 10 has a substantially cylindrical shape, a through hole is provided in the upper side surface thereof, the connection base 11 is fixed to one opening end side, and the other side is provided. The lamp holder 24 to which the lamp 41 is attached can be mounted from the opening end.
[0021]
In addition to the non-rechargeable battery unit 4 shown in FIG. 1 being detachably mounted on the bottom surface of the lamp unit 3, a rechargeable battery unit 26 (with a built-in rechargeable battery) as shown in FIG. A rechargeable battery unit 29 configured by connecting a rechargeable battery 28 to the plug unit 27 via a power supply line, and an AC adapter unit configured by connecting an AC adapter main body 30 to the plug unit 27 via a power supply line. 31, an automobile power supply adapter unit provided with, for example, a cigarette lighter connection portion 33, to which an automobile power supply adapter 32 is connected to the plug unit 27 via a power supply line, and further connected to the automobile battery. 34 etc. can be selectively attached.
[0022]
That is, an arbitrary power source is selected from a plurality of types of power sources and connected to the lamp unit 3 to form a power supply means for emitting the lamp 41 as the light source, and depending on the environment in which the endoscopic examination is performed, etc. Endoscope by using a suitable power source, using an easy-to-use power source according to the surgeon's preference, etc., and replacing the power source with another power source even when the electromotive force drops using a battery The inspection can be resumed or continued immediately.
[0023]
The rechargeable battery unit 26 or 29 supplies power by connecting the plug or plug unit to the outlet 47 at the bottom of the lamp unit 3, and when the electromotive force decreases, a charging adapter (not shown) is connected. It can be charged by connecting to an AC outlet of a commercial power source. An adapter function for charging may be added to the rechargeable battery unit 26 or the like.
[0024]
FIG. 3 shows a detailed structure of a battery-type light source 5 in which a non-rechargeable battery unit 4 is connected to the lamp unit 3 shown in FIG.
The lamp unit 3 is formed of an insulating member that can withstand the heat generated by the lamp 41, and the lamp unit 3 is formed with a storage portion 25 for storing the lamp holder 24 through a through-hole, and at one opening end of the storage portion 25. The lens frame 37 to which the condensing lens 36 is attached in a water-tight manner is fixed in a water-tight manner with an adhesive or the like, and is detachably attached to the light guide base 10 on the endoscope main body 2 side outside the lens frame 37 by screwing. A connection base 11 for connection is secured so as to be prevented from coming off and rotatable.
[0025]
In the housing portion 25, movement is restricted by the lens frame 37, and an urging force that extends rearward (leftward in FIG. 3) acts to house a coil spring 38 that has elasticity and conductivity. Then, the lamp holder 24 is inserted from the other opening end of the storage portion 25 against the urging force of the coil spring 38 and rotated as described later, whereby the lamp holder 24 is moved to the lamp as shown in FIG. 3 or FIG. 41 can be set in a lighting state.
[0026]
That is, the lamp holder 24 also functions as a lamp lighting switch. A lamp 41 such as a halogen lamp, a xenon lamp, a vacuum lamp, or an LED can be mounted in the lamp holder 24 attached to the lamp unit 3. The lamp 41 is insulated by a conductive lamp fixture 42. It is fixed to the screw part of the holder 24 by screwing.
[0027]
The lamp holder 24 is provided with a contact fitting 43 whose one end contacts the contact at the bottom of the lamp 41, and the other end of the contact fitting 43 is fixed so as to be exposed at one place on the outer peripheral surface of the lamp holder 24. Yes. In addition, an O-ring 44 is accommodated in a circumferential groove provided on the outer peripheral surface of the lamp holder 24, is in close contact with the inner peripheral surface of the accommodating portion 25 of the lamp unit 3, and the inner side thereof is watertight to ensure watertightness.
[0028]
A conductive contact pin 45 is disposed in the lamp unit 3 so as to be able to project and retract from an opening communicating with the storage portion 25 from below. The contact pin 45 has elasticity, and the tip of the contact pin 45 is opened by a conductive coil spring 46. Is urged so as to protrude into the storage portion 25.
[0029]
A pair of outlets 47 formed of a conductive member is fixed to the bottom of the lamp unit 3, and is formed of, for example, an insulating member of the non-rechargeable battery unit 4 containing the dry battery 48 as shown in FIG. By inserting the conductive plug 50 attached to the battery unit main body 49, the battery unit main body 49 is attached to the outlet 47 so that both can be connected.
[0030]
One of the pair of outlets 47 is structured to conduct to the coil spring 38 and the other to the coil spring 46. Further, the coil spring 38 is electrically connected to the lamp fixture 42 which is electrically connected to the contact portion on the side surface of the lamp 41, and the coil spring 46 is electrically connected to the contact pin 45. When the contact pin 45 is in conduction with the contact fitting 43 as shown in FIG. 3, power from the dry battery 48 is supplied to the outlet 47 through the plug 50 so that the lamp 41 can be lit.
[0031]
The non-rechargeable battery unit 4 has a case 51 that covers the battery unit main body 49, and the O-ring 52 ensures water tightness with the battery unit main body 49.
[0032]
In the battery unit main body 49, for example, two dry batteries 48 can be accommodated, and the two dry batteries 48 accommodated have a bottom electrode connected in series by a conductive metal 53 and an upper electrode is a pair of plugs. 50 respectively.
[0033]
The non-rechargeable battery unit 4 and the lamp unit 3 are detachable. That is, by inserting the plug 50 of the non-rechargeable battery unit 4 into the plug insertion opening in the outlet 47 at the bottom of the lamp unit 3 and pushing it in, each plug 47 is a narrowed constriction in the outlet 50. The battery unit body 49 is attached to the O-ring 54 housed in a circumferential groove provided on the inner periphery of the lower end of the lamp unit 3 so that the outer periphery of the battery unit 49 is in close contact and attached in a watertight state. .
[0034]
By performing the operation of pushing the plug 50 side into the outlet 47 in this way, the non-rechargeable battery unit 4 can be attached to the lamp unit 3, and when removing it, the operation of pulling out in the opposite direction is performed to perform non-charging from the lamp unit 3. The battery unit 4 can be removed. That is, the non-rechargeable battery unit 4 can be connected to and detached from the lamp unit 3 easily and in a short time. The connection and removal of other battery units and the like can be easily performed in the same manner, and the work can be performed in a short time even when the power supply needs to be replaced.
[0035]
A spare lamp holder 55 can be stored in the battery unit main body 49, and the spare lamp holder 55 is fixed by a spare lamp holder fixture 56.
[0036]
FIGS. 4A to 4C are explanatory diagrams of the switch function for turning on / off the lamp when the lamp unit 3 of the present embodiment is used.
FIG. 4A shows a state when the lamp holder 24 is attached to the lamp unit 3.
[0037]
A C-shaped circular groove 57 is provided on the outer peripheral surface of the lamp holder 24 main body, and the front end side of the main body adjacent to the circular groove 57 corresponding to the mounting position as shown in FIG. A slope portion 58 for mounting is provided.
[0038]
When the lamp holder 24 is mounted on the lamp unit 3 from the outside of the storage hole 25, the lamp unit 3 is accommodated while receiving the urging force of the coil spring 38 after being aligned with an index (not shown) and then pushed in the aligned state. In this case, after the slope portion 58 gets over the contact pin 45, the contact pin 45 engages with the circular groove 57 and is locked (attached) as shown in FIG. The In this state, since the contact metal fitting 43 is not in contact with the contact pin 45, the contact metal fitting 43 and the contact pin 45 do not conduct, and the lamp 41 does not light up. That is, it corresponds to the switch OFF state.
[0039]
FIG. 4B is a diagram showing a lighting state of the lamp 41. In the state of FIG. 4A, the lamp holder 24 is rotated by 90 ° and set to an index position indicating a lighting position (not shown), so that the contact pin 45 and the circumferential groove 57 are shown in FIG. 4B. The contact metal fitting 43 provided above comes into contact, the lamp 41 is electrically connected to the power source, and the lamp 41 is lit. That is, it corresponds to the switch ON state.
[0040]
FIG. 4C is a view when the lamp holder 24 is removed. When the lamp holder 24 is rotated 180 ° in the reverse direction in the state of FIG. 4B, a slope portion 59 formed by cutting the front side wall of the circumferential groove 57 into a tapered shape is provided as shown in FIG. 4C. In this state, the contact pin 45 is located, and the slope of the contact pin 45 is released by the slope portion 59, and the contact pin 45 is pushed rearward by the biasing force of the coil spring 38, thereby causing the slope. The part 59 gets over the contact pin 45 and comes out of the lamp knit 3. That is, this state corresponds to the removal position.
[0041]
FIG. 5 shows a developed view of the circumferential groove forming the switch mechanism formed on the outer peripheral surface of the lamp holder 24. The shape at the mounting position, lighting position, and removal position of the lamp holder 24 is shown. When the lamp holder 24 is pushed into the lamp unit 3 in the mounting position, the lamp holder 24 is fixed (attached). When it is rotated 90 ° from that state, it is turned on, and when it is further rotated 180 ° from that state, it is in the removal position.
[0042]
When moving from the mounting position to the detaching position, a stopper 60 is provided so as not to easily rotate to the detaching position. In the case of detaching, the stopper 60 resists the force of the coil spring 38 and must be rotated while pushing the lamp holder 24. It is supposed not to be. Therefore, during normal use, the lamp holder 24 is not accidentally detached from the lamp unit 3 even if the lamp 41 is turned on or off.
[0043]
Next, the operation of this embodiment will be described.
When it is difficult to use the existing light source device, for example, when the environment for performing the endoscopy is far from the place where the existing light source device is installed, the endoscope body 2 and the lamp unit 3 are used. And one or more are carried from the non-rechargeable battery unit 4 that drives the lamp 41 used in the lamp unit 3, the rechargeable battery unit 26, the AC power adapter 31, and the like.
[0044]
When it is known that there is a commercial power outlet in the environment where the endoscopy is actually performed, for example, the AC power adapter 31 is carried. When there is no commercial power outlet nearby, the non-rechargeable battery unit 4 or the rechargeable battery unit 26 is carried according to the inspection time or the like.
[0045]
For example, when the inspection time is expected to be short, the connection base 11 of the lamp unit 3 is connected to the light guide base 10 of the endoscope body 2 by screwing, and an outlet at the bottom of the lamp unit 3 is connected. 47, for example, by performing an operation of pushing in the plug 50 of the non-rechargeable battery unit 4. Further, the lamp holder 24 is attached to the lamp unit 3 as described in FIG.
[0046]
In this state, the lamp holder 24 is rotated 90 ° to turn on the lamp 41, and an endoscopic examination can be performed. After the examination is completed and the endoscope main body 2 is pulled out from the examination target site, the lamp holder 24 is rotated by 90 ° and the lamp 41 is turned off.
[0047]
On the other hand, when the inspection becomes longer than expected and the electromotive force of the non-rechargeable battery unit 4 decreases during the inspection, an operation of pulling the non-rechargeable battery unit 4 away from the lamp unit 3 is performed. It can be removed easily and in a short time. For example, by performing an operation of pushing the plug of the rechargeable battery unit 26, the rechargeable battery unit 26 is attached to the lamp unit 3 in a short time and the power supply is exchanged. Thus, the lamp 41 can be turned on again and the inspection can be continued.
[0048]
Further, in an environment where endoscopy is performed, even when there is a commercial power outlet nearby and the AC power adapter 31 can be used, it is preferable to use a rechargeable battery unit 26 or the like that does not require the power supply line. The surgeon can select and use a power source that can be used according to his / her preference.
[0049]
Further, in an environment where an existing light source device can be used, the light guide cable 6 may be connected to the endoscope body 2 and the inspection may be performed using the existing light source device.
[0050]
As described above, according to the present embodiment, various power sources can be selected and used according to the environment in which endoscopy is performed, the operator's preference, and the like, and the electromotive force of the power source used is reduced. Even in this case, the inspection can be continued by simply replacing the power source with another power source in a short time.
[0051]
FIG. 6 is a view when the lamp unit 3 is disinfected with a disinfecting liquid or the like. As shown in FIG. 6A, by attaching the plug 62 for attaching the waterproof adapter 61 to the outlet 47 with respect to the lamp unit 3, the O-ring 54 is brought into close contact with the outer peripheral surface of the waterproof adapter 61. The bottom side can be made watertight.
[0052]
Further, the lamp unit 24 is mounted on the lamp unit 3 and immersed in the disinfecting liquid 64 in the disinfecting tank 63 as shown in FIG. 6B with the lamp holder 24 and the waterproof adapter 61 mounted. 3 can be disinfected.
[0053]
The present embodiment has the following effects.
A power source for driving the light source can be selected and used in accordance with the environment in which the endoscopy is performed.
Also, during endoscopy using a battery as a power source, even if the electromotive force of the power source in use decreases or disappears, immediately replace it with another power source and do not interrupt the inspection. The inspection can continue.
[0054]
(Second Embodiment)
Next, a second embodiment of the present invention will be described. In the first embodiment, the lamp holder 24 has an integrated structure that also functions as a switch, but in this embodiment, the lamp holder 24 ′ and the switch 66 are separated.
[0055]
FIG. 7 is a sectional view showing the structure of a battery-type light source 5 ′ in which a non-rechargeable battery unit 4 ′ is mounted on the lamp unit 3 ′. Further, as shown in FIG. 8, the lamp 41 is screwed into the lamp holder 24 ', and the tip of the contact fitting 43 is fixed to the contact at the bottom of the lamp 41. The contact fitting 43 is exposed on the outer peripheral surface of the lamp holder 24 ', and a watertight O-ring 44 is provided at a rear position thereof.
[0056]
On the front end side of the lamp holder 24 ′, a screw portion that is screwed into a screw portion that also functions as the other contact of the lamp 41 is formed on the inner peripheral surface, and a mounting screw portion 67 is also provided on the outer peripheral surface. It has been.
[0057]
Then, as shown in FIG. 7, the screw portion 67 of the lamp holder 24 'can be screwed into the screw portion at the rear end of the holder mounting bracket 68 fixed to the storage portion 25 of the lamp unit 3' so that it can be detachably fixed. ing.
[0058]
On the side of the lamp unit 3 ', there is provided a knob 69 of a switch 66 for turning on and off the lamp 41. An oval contact piece 71 is fixed to the tip of the shaft of the knob 69 with a screw, and by rotating the knob 69, fixed contact pieces arranged on both sides of the conductive contact piece 71 and The power supply and the lamp 41 can be electrically connected / disconnected freely. The conductive state and the separated non-conductive state (state shown in FIG. 7) can be established.
[0059]
In the present embodiment, the case 51 of the battery unit 4 ′ is provided with a spare lamp holder accommodating portion 73 so that the spare lamp holder 74 can be accommodated.
FIG. 9 shows an external view of the battery-type light source 5 'in the second embodiment. As shown by an arrow, the lamp holder 24' is inserted into the storage portion and screwed into the lamp unit 3 '. A holder 24 'can be mounted.
[0060]
Further, when the knob 69 of the switch 66 is set to the position of the index on which “ON” is written, the switch can be turned on, and when it is set to the position of the index on which “OFF” is also written, the switch can be turned off.
[0061]
Other configurations are the same as those of the first embodiment.
Further, the operation of the present embodiment is almost the same as that of the first embodiment except that the lamp holder 24 'and the switch 66 are separate.
[0062]
The effect of this embodiment is as follows.
In addition to the effects of the first embodiment, the lamp holder 24 'can be reliably fixed in the second embodiment, so that there is no inconvenience that the lamp holder 24' is inadvertently removed from the lamp unit 3 '. .
[0063]
(Third embodiment)
Next, a third embodiment of the present invention will be described with reference to FIG. An endoscope 81 according to the third embodiment includes an endoscope body 82, a lamp unit 83 that is detachably connected to the endoscope body 82, and a plurality of parts that are detachably connected to the lamp unit 83. A power supply means is composed of various types of power sources, specifically, for example, the rechargeable battery 84 and the AC power adapter 85.
[0064]
The endoscope main body 82 is similar to the endoscope main body 2 of FIG. 1 in which a light guide cable 6 that is detachable from the endoscope main body 2 is integrated. That is, a light guide cable 86 is extended from the operation unit 8 of the endoscope main body 82, and a light guide connector 87 that is detachably connected to the lamp unit 83 is provided at the end of the light guide cable 86. A light guide fiber 88 that guides illumination light is inserted into the light guide cable 86, and the rear end, that is, the light incident end reaches the light guide connector 87.
[0065]
The endoscope main body 82 is formed at the elongated insertion portion 7, the operation portion 8 formed at the rear end of the insertion portion 7, and the rear end of the operation portion 8, as in the first embodiment. It has an eyepiece 9.
Moreover, the insertion part 7 consists of the front-end | tip part 12 formed in the front-end | tip, the curved part 13 formed in the rear end, and the flexible part 14 formed in the rear end. In addition, the same code | symbol is attached | subjected to the same member demonstrated in the endoscope main body 2 of FIG. 1, and the description is abbreviate | omitted.
[0066]
As shown in FIG. 10, when the light guide connector 87 is connected to the lamp unit 83 to cause the lamp 89 inside the lamp unit 83 to emit light, the illumination light from the lamp 89 is incident on the light guide connector 87. The illumination light supplied to the end face is guided by the light guide fiber 88 and emitted forward from the light exit end face fixed to the illumination window of the distal end portion 12 to illuminate a subject such as an affected part.
[0067]
The lamp unit 83 is provided with an outlet 91 serving as a power supply connected to the lamp 89 via a power supply line. The outlet 91 is connected to the plug 92 of the rechargeable battery 84 or the AC power adapter 85. The plug 93 can be detachably connected.
[0068]
The rechargeable battery 84 has a built-in rechargeable secondary battery, and the plug 92 is connected to the outlet 91 so that power can be supplied to the lamp 89 to emit light.
[0069]
The AC power adapter 85 has an AC power adapter body with a built-in transformer that converts the voltage to suit the lamp 89, and the primary side of the transformer is connected to an AC plug 94 integrated with the AC power adapter body. The secondary side of the transformer is turned into direct current by a rectifier and then connected to a plug 93 via a connection cord 95.
[0070]
Then, by connecting the plug 93 to the outlet 91 and the AC plug 94 to a commercial power source, it is possible to supply power for converting the voltage of the commercial power source and causing the lamp 89 to emit light.
[0071]
In the present embodiment, the light incident end of the light guide cable 86 of the endoscope main body 82 is detachably attached to the lamp unit 83, and the rechargeable battery 84 and the AC power adapter 85 function as a plurality of types of power sources for the lamp unit 83. Are selectively connectable, and the endoscope 89 can be inspected by causing the lamp 89 built in the lamp unit 83 to emit light by the connected power source.
[0072]
Next, the operation of this embodiment will be described. For example, by connecting the plug 92 of the rechargeable battery 84 to the connector unit 91 of the lamp unit 8 ”3, power is supplied to the lamp 89 to cause the lamp 89 to emit light, and the illumination light is transmitted to the endoscope body 82. The light guide fiber 88 can be supplied to perform endoscopy.
[0073]
When the electromotive force of the rechargeable battery 84 decreases or disappears, the plug 92 of the rechargeable battery 84 is pulled out from the connector portion 91 and the plug 93 of the AC power adapter 85 is connected to the connector portion 91. Thus, the lamp 89 can be made to emit light using a commercial power source easily and in a short time.
For this reason, endoscopy can be continued without interruption.
[0074]
The present embodiment has the following effects.
In a battery light source type endoscope that emits a lamp from a battery such as the rechargeable battery 84, when the battery is out of electricity, another power source can be used, so that the inspection can be performed without interrupting the inspection. It becomes possible to continue.
[0075]
In addition to the effects of the first embodiment, since the lamp unit 83 is provided separately from the endoscope main body 82, a lamp 89 with a large amount of light can be used. That is, brighter illumination is possible.
[0076]
Although the endoscope main body 82 is described as being integrated with the light guide cable 86 in FIG. 10, it may be a separate body as shown in FIG.
In the above embodiment, the optical endoscope body using an image guide fiber in the observation optical system has been described. However, the present invention is not limited to this, and a CCD (Charge Coupled Device) is used. The present invention can also be applied to a video endoscope or an electronic endoscope using a solid-state imaging device such as the above.
[0077]
For example, in FIG. 10, the lamp 89 may be a voltage that can emit light directly from an AC power supply supplied from an AC outlet of a commercial power supply (for example, a rated voltage for AC100V). In this case, when the battery is driven by a rechargeable battery, it may be configured by stacking a large number of rechargeable battery units.
[0078]
Further, the lamp may be driven by raising the power supply voltage via a DC-DC converter or a DC-AC converter using a rechargeable battery or the like.
Further, it is also possible to change the amount of illumination light or the like according to the examination site to be used by replacing and mounting lamps having different rated voltages. In accordance with this, the output voltage may be changed so that it can be supplied by a power source such as a battery unit.
Further, embodiments configured by partially combining the above-described embodiments and the like belong to the present invention.
[0079]
[Appendix]
1. In an endoscope having a light guide fiber for guiding illumination light,
An illumination lamp unit is detachably connected to the light incident end of the light guide fiber, a plurality of power sources can be selected, and a power supply means is provided to connect the power source to the illumination lamp unit. Endoscope.
[0080]
2. In an endoscope having a light guide fiber for guiding illumination light,
An illumination lamp unit that houses an illumination lamp at the light guide fiber incident end provided in the operation section of the endoscope is detachably provided integrally with the operation section, and power supply means that can be connected to the illumination lamp unit An endoscope characterized by being provided.
[0081]
3. The endoscope according to appendix 1 or 2, wherein the power supply means is a battery.
4). The endoscope according to appendix 3, wherein the battery is a dry battery.
5). The endoscope according to appendix 3, wherein the battery is rechargeable.
6). The endoscope according to appendix 1 or 2, wherein the power supply means is an existing AC power supply.
[0082]
【The invention's effect】
  As explained above, according to the present invention,, InsideThe power supply can be selected and used according to the environment in which the endoscopy is performed, and even if the electromotive force decreases during the test using a battery, the endoscope can be immediately replaced by replacing it with another power supply. The inspection can be resumed.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a main configuration of an endoscope according to a first embodiment of the present invention.
FIG. 2 is a perspective view showing the overall configuration of the endoscope according to the first embodiment that can be used with various power supply means.
3 is a cross-sectional view showing the structure of the battery-type light source of FIG.
4 is an explanatory view showing in cross section the function of a lamp holder that is detachable from a lamp unit in the battery-type light source of FIG. 3;
FIG. 5 is a development view showing the function of the lamp holder.
FIG. 6 is an explanatory diagram showing that the lamp unit has a waterproof structure that can be disinfected by attaching a waterproof adapter.
FIG. 7 is a cross-sectional view showing a structure of a battery-type light source in which a non-rechargeable battery unit is mounted on a lamp unit according to a second embodiment of the present invention.
FIG. 8 is a cross-sectional view showing the structure of a lamp holder.
FIG. 9 is a perspective view showing an external appearance of a battery-type light source.
FIG. 10 is a diagram showing a configuration of an endoscope according to a third embodiment of the present invention.
[Explanation of symbols]
1 ... Endoscope
2. Endoscope body
3 ... Lamp unit
4 ... Non-rechargeable battery unit
5 ... Battery type light source
6. Light guide cable
7 ... Insertion section
10. Light guide cap
11 ... Connection base
23 ... Light guide connector
24 ... Lamp holder
25. Storage section
26, 29 ... Rechargeable battery unit
27 ... Plug unit
31 ... AC adapter unit
34 ... Adapter unit for automobile power supply
38, 46 ... Coil spring
41 ... Ramp
42. Lamp fixture
43 ... Contact metal fittings
45 ... Contact pin
47 ... Outlet
48 ... Battery
50 ... Plug

Claims (1)

An endoscope having an endoscope body having a light guide fiber that guides illumination light, and at least an illumination lamp unit is detachably connected to a light incident end of the light guide fiber,
The illumination lamp unit includes a lamp holder that holds the illumination lamp, and a pair of common outlets that are supply ports for power supplied to the illumination lamp, and at least serves as a power source that is supplied to the illumination lamp. Multiple types of power supply units including battery units are detachable,
Each of the plurality of types of power supply units has a pair of electrode plug portions that can be meshed with the pair of common outlet portions.
When the plurality of types of power supply units are mounted on the illumination lamp unit, the pair of common outlets in the illumination lamp unit and the pair of electrode plug portions in the plurality of types of power supply units are engaged with each other. The endoscope is characterized in that power from the power supply unit is supplied to the illumination lamp .

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