JP3845276B2 - Portable endoscope - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an endoscope having an air / liquid feeding function.
[0002]
[Prior art]
Conventionally, an endoscope scope is connected to a light source device. When the scope is connected to the light source device, a light guide provided so as to pass through the scope is optically connected to a light source such as a halogen lamp in the light source device. The light emitted from the light source is guided to the distal end of the scope by the light guide, and irradiated as illumination light forward from the distal end of the scope. The illumination light is reflected by the observation site and enters the image guide via an objective lens provided at the distal end of the scope. The reflected light is guided to the eyepiece of the operation unit by the image guide, and the observation site can be observed through the eyepiece optical system of the eyepiece.
[0003]
The endoscope has an air / liquid feeding function. By appropriately operating the air / liquid feeding button provided on the operation unit, gas or liquid is ejected from the distal end of the scope, and removal of cloudiness adhered to the surface of the observation window that protects the objective lens described above, Air supply to the surface, cleaning of the surface of the observation window, etc. are performed. The washing water fed to the tip is stored in a liquid feeding tank that is separate from the endoscope. The liquid supply tank is connected to an air / liquid supply tube that passes through the air / liquid supply channel of the insertion portion via the tube. Gas or liquid is fed in via a pump provided in the light source device.
[0004]
[Problems to be solved by the invention]
As described above, when using the endoscope, peripheral devices such as a light source device and a liquid feeding tank are required. Therefore, these peripheral devices have to be transported and set together with the endoscope, which has a problem in portability.
[0005]
Further, since the endoscope is a medical instrument that is operated by inserting the insertion portion of the scope into the body of the patient, good operability is required. However, as described above, the endoscope must be connected to the light source device and the liquid supply tank via cables, respectively, and the light source device has a power cable for supplying driving current to the built-in light source and pump. Must be connected to a commercial power supply. That is, a plurality of cables are interlaced, and there is a problem that it is troublesome to operate the endoscope. Furthermore, the light source device is a stationary peripheral device and cannot be freely moved in accordance with the operation of the scope, while the power cable is connected to a commercial power outlet provided at a predetermined position in the medical field. Therefore, the operation of the endoscope must be constrained by the location of the medical site where it is actually used. Thus, the conventional endoscope is not satisfactory in terms of operability.
[0006]
The present invention solves the above problems, and an object thereof is to provide an endoscope excellent in operability and portability.
[0007]
[Means for Solving the Problems]
A portable endoscope according to the present invention includes a semiconductor light emitting element provided at a distal end portion for irradiating illumination light in front of a distal end portion of an insertion portion of a scope, a pump for feeding gas and liquid into the distal end portion, and a semiconductor A power supply means for supplying a drive current to the light emitting element and the pump, and an air / liquid supply unit including a liquid supply tank in which liquid is stored are provided, and the air / liquid supply unit is provided in an operation unit of the scope. And
[0008]
The air / liquid feeding unit is selectively fixed to the operation unit or detachably attached to the operation unit, and extends in a direction crossing the longitudinal direction of the operation unit, for example.
[0009]
Optionally, the air / liquid feeding unit has a unit main body in which a pump and power supply means are incorporated, and the liquid feeding tank is detachably attached to the unit main body. Optionally, the air / liquid feeding unit has a unit body in which a pump, power supply means, and a liquid feeding tank are built.
[0010]
Preferably, the unit main body includes a first attachment mechanism including a first connection portion and a second connection portion, and the operation portion includes a third connection portion connectable to the first connection portion, An insertion portion air supply conduit that includes a second attachment mechanism including a fourth connection portion connectable to the two connection portions, and sends gas to the distal end portion by connecting the first and third connection portions Is connected to the pump, and the insertion portion liquid supply conduit for feeding the liquid is connected to the liquid supply tank, and the second and fourth connection portions are connected, so that a driving current is supplied from the power supply means to the semiconductor light emitting element. Supplied.
[0011]
Preferably, the first connecting portion is a first columnar member provided on a side surface of the unit body, and a unit-side air supply conduit connected to the pump and a liquid supply tank are provided on an end surface of the first columnar member. The end of the unit-side liquid supply pipe connected to the second opening is open, and the second connecting portion is a second cylindrical member provided in the vicinity of the first cylindrical member on the side surface of the unit body. A first pair of contact pins that are electrically connected to the power supply means are exposed on the end surface of the second cylindrical member, and the first cylindrical member can be fitted to the third connection portion. It is a cylindrical first receiving member. The first receiving member is provided with the end of the insertion portion air supply conduit and the insertion portion water supply conduit, and the fourth connection portion is the second receiving portion. A cylindrical second receiving member into which the columnar member can be fitted, and the second receiving member has a semiconductor generator. When the second pair of contact pins connected to the element via the lead wire are disposed and the first cylindrical member is fitted to the first receiving member, the unit-side air supply conduit and the insertion portion When the air supply line, the unit side liquid supply line, and the insertion part liquid supply line are connected and the second cylindrical member is fitted to the second receiving member, the first and second pair of contacts Pin contacts.
[0012]
Preferably, the first attachment mechanism includes a first ring-shaped attachment auxiliary member formed on a side surface of the unit main body so as to surround the first and second connection portions, and the second attachment mechanism includes: A second mounting auxiliary member having a substantially ring shape formed so as to surround the third and fourth connecting portions, and the first and second mounting auxiliary members are connected to each other when fitted to each other; And the third connecting portion are connected, and the second connecting portion and the fourth connecting portion are connected.
[0013]
As described above, according to the present invention, the semiconductor light emitting element that supplies the illumination light is provided at the distal end of the insertion portion of the scope, and the air / liquid feeding unit is provided at the operation portion of the scope. That is, it is not necessary to connect peripheral instruments necessary for observation with the endoscope to the scope via the cable, and the portability of the endoscope is improved. In addition, since the free operation of the scope is not hindered by the cable, the operability of the endoscope is also improved.
[0014]
If the air / liquid feeding unit is configured to be detachable from the operation unit, even if a malfunction occurs due to, for example, aging deterioration in the air / liquid feeding unit, it is possible to view the inside by replacing other air / liquid feeding units. It can be used as a mirror. Therefore, it is economical and can cope with unexpected troubles during use promptly.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is an external view of a portable endoscope to which the first embodiment according to the present invention is applied, and a part of members are cut away. The fiberscope 10 includes an insertion portion 11 that is a flexible conduit inserted into the body of a patient, an operation portion 12 provided with various operation buttons, and an eyepiece portion 13 provided integrally with the operation portion. .
[0016]
FIG. 2 is an enlarged cross-sectional view of the distal end of the insertion portion 11. A distal end portion 20 made of a suitable rigid material, for example, a corrosion-resistant metal is fixed to the opening portion at the distal end of the insertion portion 11. A through hole 31 is formed in the distal end portion 20 to accommodate the distal end of the image guide 30 that is inserted through the insertion portion 11. The image guide 30 is a light fiber bundle for observing an endoscopic image, and an objective lens 32 is disposed at the tip thereof. An observation window 33 is fixed to the opening of the through hole 31 to protect the objective lens 32 and prevent foreign matter from entering the inside of the through hole 31.
[0017]
Furthermore, the through-holes 41 and 42 are formed in the front-end | tip part 20 along a cross section. LEDs 43 and 44 are disposed near the open ends of the through holes 41 and 42, respectively. In the through holes 41 and 42, light distribution optical systems 45 and 46 are provided on the optical path of the emitted light from the LEDs 43 and 44, respectively. Wirings W11, W12, W21, and W22 are wirings for supplying drive current to the LEDs 43 and 44.
[0018]
FIG. 3 is a front view of the distal end portion 20 and schematically shows the relative positional relationship between the respective portions. 2 corresponds to a cross section taken along line II in FIG. The air supply nozzle 51 and the water supply (liquid supply) nozzle 52 are inserted through an air supply channel and a water supply (liquid supply) channel (not shown) formed in the insertion portion 11, and are respectively air (gas) and cleaning. Water (liquid) is ejected, and the observation window 33 is removed and washed. From the forceps channel 53, a treatment tool, for example, a cup portion of a biopsy forceps is exposed, and a tissue piece of the affected area is cut off. The feeding of air and cleaning water to the front end 20 will be described later.
[0019]
Referring to FIG. 1 again, the connecting portion 14 that connects the insertion portion 11 and the operation portion 12 is provided with a forceps port 60 that is continuous with the forceps channel 53 described above. A treatment tool such as a biopsy forceps or a brush is inserted from the forceps port 60 and is inserted through the forceps channel 53 and guided to the distal end of the insertion portion 11.
[0020]
The operation unit 12 is provided with an air / water supply button 71 and a suction button 72. When a hole (not shown) in the upper part of the air / water supply button 71 is blocked, air is blown out from the air supply nozzle 51 (see FIG. 3) at the tip 20 and the surface of the observation window 33 that protects the objective lens 32 is cloudy. Removal and insufflation. When the air / water supply button 71 is pushed in, the cleaning water is ejected from the water supply nozzle 52 (see FIG. 3) at the distal end portion 20, and the surface of the observation window 33 is cleaned. In addition, when the suction button 72 is pushed in with the forceps plug (not shown) attached to the forceps opening 60, the forceps channel 53 is formed at the distal end portion 20 by a suction device (not shown) connected via the suction nipple 73. Aspiration is performed from the opening of the slab, and water droplets and mucus adhering to the surface of the observation window 33 are removed and air in the body is removed.
[0021]
In the vicinity of the suction nipple 73, an air / water supply unit 15 is provided. The air / water supply unit 15 includes a unit main body 80 and a water supply tank 81 in which the above-described washing water is stored. The unit main body 80 extends in a direction intersecting the longitudinal direction of the operation unit 12 on the opposite side of the air / water supply button 71 and the suction button 72 of the operation unit 12 and is fixed to the operation unit 12. In FIG. 1, the unit main body 80 is partially cut away, and the internal circuit configuration is schematically shown.
[0022]
An air supply pump 82 and a battery 83 are disposed in the unit main body 80. The air supply pump 82 is connected to the intake port 84 formed on the side surface of the unit main body 80, the hole in the upper part of the air supply / water supply button 71, the air supply nozzle 51, and the water supply tank 82 by pipe lines. The air supply pump 82 is a diaphragm pump, and is configured to send external air taken in from the intake port 84 to the air supply / water supply button 71, the air supply nozzle 51, and the water supply tank 82. The battery 83 is a battery that supplies a drive current to the air supply pump 82 and the LEDs 43 and 44 provided at the distal end portion 20.
[0023]
On the side surface of the unit main body 80, an LED button 85 for turning on and off the LEDs 43 and 44 and a pump button 86 for starting and stopping the air supply pump 82 are provided. The switch SW1 is controlled to be turned on / off in conjunction with the operation of the LED button 85. When the LED button 85 is pressed while the switch SW1 is OFF, the switch SW1 is turned ON and supply of drive current to the LEDs 43 and 44 is started. As a result, the LEDs 43 and 44 are turned on, and illumination light is irradiated from the distal end portion 20 forward through the light distribution optical systems 44 and 45. When the LED button 85 is pressed again in this state, the switch SW1 is turned off, the supply of drive current to the LEDs 43 and 44 is stopped, and the LEDs 43 and 44 are turned off.
[0024]
The switch SW2 is controlled to be turned ON / OFF in conjunction with the operation of the pump button 86. When the pump button 86 is pressed while the switch SW2 is OFF, the switch SW2 is turned ON, the supply of drive current to the air supply pump 82 is started, and the air supply pump 82 is activated. As a result, the intake of external air from the air inlet 84 and the air supply to the air / water supply button 71, the air supply nozzle 51, and the water supply tank 82 are started. When the pump button 86 is pushed again in this state, the supply of drive current to the air supply pump 82 is stopped.
[0025]
When using the fiberscope 10, the air supply pump 82 is always activated. When the hole at the top of the air / water supply button 71 is blocked while the air supply pump 82 is operating, the air taken in from the intake port 84 is sent to the air supply nozzle 51 and from the air supply nozzle 51 as described above. Air gushes. When the air / water supply button 71 is pushed in, the air supply line is blocked and the air taken in from the intake port 84 is sent only from the air supply pump 82 to the water supply tank 81, and the air pressure in the water supply tank 81 increases. As a result, the cleaning water in the water supply tank 81 is sent out from the water supply tube 87 connected to the water supply nozzle 52, and the cleaning water is ejected from the water supply nozzle 52.
[0026]
FIG. 4 is an enlarged view showing the vicinity of the attachment portion of the water supply tank 81. An opening 80A is formed on the side surface of the unit main body 80 opposite to the side fixed to the operation unit 12. The lid member 90 is disposed in the unit main body 80 so as to shield the opening 80 </ b> A, and is fixed to the unit main body 80 by screws 91. A circular opening 90 </ b> A is formed at the center of the lid member 90, and a step is formed on the entire inner circumferential surface thereof. The tube holding member 92 has a shape that fits into the stepped portion, and is screwed onto the opening 90A. A locking member 93 is bonded to the tube holding member 92. The tube holding member 92 and the locking member 93 are formed with through holes having the same diameter, and the locking member 93 is disposed so that the centers of the through holes coincide with each other. A flange is integrally formed at the free end of the locking member 93, and a locking member 94 is engaged with the flange. A tank lid 95 is screwed to the locking member 94, and the tank lid 95 is screwed to the water supply tank 81 via a rubber packing 96.
[0027]
In the through holes of the tube holding member 92 and the locking member 93, the air supply tube 100 connected to the air supply pump 82, the air supply tube 102 connected to the air supply nozzle 51, and the water supply connected to the water supply nozzle 52. A tube 87 is inserted. The water supply tube 87 and the air supply tube 102 have a double-pipe structure. Two holes are formed in the bottom surface of the tank lid 95, and substantially cylindrical connecting members 103 and 104 are screwed into the respective holes. One end portions of the connecting members 103 and 104 are located in the through holes of the tube holding member 92 and the locking member 93. An air supply tube 100 is fitted to the connecting member 103. A water supply tube 87 and a double air supply tube 102 are fitted to the connecting member 104.
[0028]
FIG. 5 is an external view showing a part of a fiberscope 200 to which the second embodiment according to the present invention is applied. The same members as those in the first embodiment are denoted by the same reference numerals. A unit side attachment mechanism 210 is provided on the side surface of the unit main body 80 of the air / water supply unit 15 opposite to the side surface to which the water supply tank 81 is attached. The unit-side attachment mechanism 210 includes a substantially cylindrical air / water supply base 220 and an electrical connector base 230. On the other hand, an operation unit side attachment mechanism 240 is provided in the vicinity of the suction nipple 73 of the operation unit 12. The operation unit side attachment mechanism 240 includes an air / water supply base 250 corresponding to the air / water supply base 220 and an electrical connector base 260 corresponding to the electrical connector base 230.
[0029]
FIG. 6 is a cross-sectional view showing a state where the unit side mounting mechanism 210 and the operation unit mounting mechanism 240 are connected. An opening 221 is formed on the side surface 80 </ b> A of the unit main body 80 of the air / water supply unit 15, and an annular wall 222 is formed so as to surround the opening 221. An air / water supply base 220 is fitted in the opening 221 via an O-ring. The air / water feed cap 220 has a substantially cylindrical shape, and a flange 220A protruding in the radial direction is formed on the outer peripheral surface thereof. The outer diameter of the flange 220 </ b> A substantially matches the inner diameter of the annular wall portion 222. The air / water feed cap 220 is disposed so that the flange 220A is located in the annular wall 222 and the end face of the flange 220A abuts against the side surface 80A. Further, a nut 223 is tightened inside the unit main body 80 so that the air / water supply base 220 does not come out of the opening 221.
[0030]
An air supply conduit 220B for supplying air is formed inside the air supply / water supply cap 220, and a water supply tube 87 for supplying cleaning water is inserted into the air supply conduit 220B. The air supply line 220B is connected to the air supply pump 82 (see FIG. 4) via the water supply tank 81, and the end of the water supply tube 87 is washed in the water supply tank 81 (see FIG. 4) as described above. Soaked in the water.
[0031]
An opening 251 is formed on the end surface 12 </ b> A of the operation unit 12, and an annular wall 252 is formed so as to surround the opening 251. A substantially cylindrical air / water supply base 250 is fitted into the opening 251 via an O-ring. The fixing member 253 includes a large diameter portion 253A and a small diameter portion 253B, and a vertical hole 253C penetrating the large diameter portion 253A and the small diameter portion 253B is formed therein. The air / water feed cap 250 and the small diameter portion 253B of the fixing member 253 are screwed together via an O-ring. In the vertical hole 253C, an end portion of a water supply pipe 254 that is inserted through the operation unit 12 and connected to a water supply nozzle 52 (see FIG. 3) is disposed. The opening on the large-diameter portion 253A side of the vertical hole 253C is closed by a flange 254A formed on the outer peripheral surface of the water pipe 254. A hole 253D penetrating in the radial direction is formed in a portion corresponding to the large-diameter portion 253A on the inner wall surface of the vertical hole 253C. Are connected.
[0032]
On the inner wall surface of the side surface 12 </ b> A of the operation unit 12, a protruding portion 256 having a predetermined height is formed on the peripheral edge of the opening 251 over the entire circumference. The projecting portion 256 is in contact with an end surface continuous with the outer peripheral surface of the small diameter portion 253B in the large diameter portion 253A of the fixing member 253. This prevents the air / water supply base 250 from being detached from the operation unit 12 outward.
[0033]
As shown in FIG. 6, the air / water supply cap 220 of the unit-side mounting mechanism 210 is fitted to the air / water supply cap 250 of the operation unit mounting mechanism 240. In this fitted state, the water supply tube 87 is connected to the water supply nozzle 52 via the water supply pipe 254 and the water supply pipe line of the operation unit 12, and the air supply tube 102 is connected to the air supply pipe line 220B, the vertical hole 253C of the fixing member 254, and the water supply pipe line. It is connected to the air supply nozzle 51 through the trachea 255.
[0034]
An opening 231 is formed in the vicinity of the opening 221 on the side surface 80A of the unit main body 80 of the air / water supply unit 15, and an annular wall 232 is formed in the opening 231 as well as the opening 221. Yes. An approximately cylindrical electric connector base 230 is fitted into the opening 231 via an O-ring. A cylindrical contact pin holder 233 made of an insulating material is disposed inside the electric connector base 230. In the contact pin holder 233, two through holes 233A and 233B are formed. The end face located in the unit main body 80 of the electric connector base 230 and the end face located in the unit main body 80 of the contact pin holder 233 form substantially the same plane, and the lid member 234 is arranged so as to contact these end faces. Established. That is, the openings in the unit main body 80 of the two through holes 233A and 233B are closed by the lid member 234. The cup-shaped fixing member 235 is disposed so as to cover the portion located inside the unit main body 80 of the electric connector base 230 and the lid member 234, and is fixed to the lid member 234 by a screw 236 on the bottom surface portion thereof. The screw is fixed to the electric connector base 230 with a screw 237.
[0035]
Inside the two through holes 233A and 233B of the contact pin holder 233, rod-shaped contact pins 238 and 239 made of a conductive member are disposed, respectively. The two contact pins 238 and 239 are inserted through holes provided in the bottom surface portions of the lid member 234 and the fixing member 235, and lead wires L1 and L2 are connected to a battery 83 (see FIG. 5) disposed in the unit main body 80. Connected by. The front end portions of the contact pins 238 and 239 are formed to have a larger diameter than the base portion, and the outer diameters thereof substantially coincide with the inner diameters of the small diameter portions of the through holes 233A and 233B, respectively. Rings 242 and 243 are fixed to the tips of the contact pins 238 and 239, respectively. The outer diameters of the rings 242 and 243 are substantially the same as the inner diameters of the large diameter portions of the through holes 233A and 233B. The tips of the contact pins 238 and 239 are slidable along the axial direction of the through holes 233A and 233B in the small diameter portions of the through holes 233A and 233B, and the rings 242 and 243 are larger than the through holes 233A and 233B. In the diameter portion, it can slide along the coaxial core direction.
[0036]
A coil spring 244 is disposed between the cover member 234 of the large diameter portion of the through hole 233 </ b> A and the ring 242 so as to wind the portion of the contact pin 238. One end of the coil spring 244 is in contact with the lid member 234, and the other end is in contact with the end surface of the ring 242. The ring 242 is always urged in the direction A in the figure. Therefore, the contact pin 238 is always urged in the A direction. Similarly, a coil spring 245 is disposed between the cover member 234 of the large diameter portion of the through hole 233 </ b> B and the ring 243 so as to wind the portion of the contact pin 239. One end of the coil spring 245 is in contact with the lid member 234, and the other end is in contact with the end surface of the ring 243, and the ring 243 is always urged in the direction A in the drawing. Therefore, the contact pin 239 is also always urged in the A direction.
[0037]
As described above, the outer diameters of the rings 242 and 243 substantially coincide with the inner diameters of the large diameter portions of the through holes 233A and 233B, respectively, and are larger than the inner diameters of the small diameter portions of the through holes 233A and 233B. Therefore, even if the coil springs 244 and 245 are urged in the A direction, the rings 242 and 243 do not drop out from the openings of the small diameter portions of the through holes 233A and 233B. In other words, the contact pins 238 and 239 are prevented from being biased outward more than necessary.
[0038]
An opening 261 is formed in the vicinity of the opening 251 on the end surface 12 </ b> A of the operation unit 12. Similarly, an annular wall 262 is formed so as to surround the opening 261. A substantially cylindrical electric connector base 260 is fitted in the opening 261 via an O-ring. A flange 260 </ b> A is formed on the outer peripheral surface of the electric connector base 260, and the outer diameter of the flange 260 </ b> A substantially matches the inner diameter of the annular wall portion 262. The electric connector base 260 is attached to the opening 261 so that the flange 260A fits into the annular wall portion 262 and the end surface of the flange 260A comes into contact with the end surface 12A of the operation unit 12.
[0039]
A cylindrical fixing member 263 is disposed in the electric connector base 260. The fixing member 263 has a small-diameter portion 263A and a large-diameter portion 263B. The small-diameter portion 263A is fixed to the electric connector base 260 via an O-ring, and an end surface continuous with the small-diameter portion 263A of the large-diameter portion 263B is The protrusion 264 is formed on the peripheral edge of the opening 261. With the above configuration, the electric connector base 260 and the fixing member 263 are fixed to the opening 261 and are not attached to or detached from the outer side or the inner side of the operation unit 12.
[0040]
In the fixing member 263, a contact pin holder 265 made of an insulating material is disposed. The contact pin holder 265 has a portion 265A having an outer diameter substantially the same as the inner diameter of the fixing member 263, and a convex portion 265B formed integrally with the base portion 265A. A flange 265C is formed on the end surface of the portion 265A, and the flange 265C is fixed to the fixing member 263 with screws.
[0041]
The rod-shaped contact pin 266 is disposed in a hole penetrating the base portion 265A and the convex portion 265B in the contact pin holder 265. One end of the contact pin 266 is projected from the opening of the convex portion 265B by a predetermined length, and the other end is connected to the lead wire W11 of the LED 43 and the lead wire W21 of the LED 44 (see FIG. 2). Connected to the lead wire L3.
[0042]
The contact pin 267 has a part 267A that fits into the fixing member 263. The part 267A has a hole into which the convex part 265B of the contact pin holder 265 is fitted, and a base part 265A of the contact pin holder 265. A connecting portion 267B is formed through the hole penetrating the through hole. That is, the contact pin holder 265 and the contact pin 267 are fitted to each other. The connecting portion 267B is connected to the lead wire L4 connected to the lead wire W12 of the LED 43 and the lead wire W22 of the LED 44 (see FIG. 2). In addition, a protrusion having the same length as the end of the contact pin 266 protruding from the opening of the convex portion 265B is formed on the opposite side of the connection portion 267B.
[0043]
6, the end of the contact pin 266 on the electric connector base 260 side of the operation unit 12 and the protrusion of the contact pin 267 are connected to the contact pin holder 233 on the electric connector base 230 side of the air / water supply unit 15. They are inserted into the through holes 233A and 233B, respectively. In a state where the end face of the electric connector base 260 is in contact with the annular wall portion 232, that is, in a state where the electric connector bases 230 and 260 are fitted most deeply, the end of the contact pin 266 is in contact with the end of the contact pin 238. The protruding dimension of the end of the contact pin 266 is defined so that the contact pin 238 can be pressed against the biasing force of the spring coil 244 in the B direction. Similarly, in the state where the electrical connector caps 230 and 260 are most deeply fitted, the protrusion of the contact pin 267 abuts against the end of the contact pin 239, and the contact pin 239 is resisted against the biasing force of the spring coil 245. The protruding dimension of the protrusion of the contact pin 267 is defined so that it can be pushed in the B direction. With the above configuration, the drive current can be supplied from the battery 83 to the LEDs 43 and 44.
[0044]
Grooves are formed along the circumferential direction on the outer peripheral surface of the air / water supply base 15 of the air / water supply unit 15 and on the outer peripheral surface in the vicinity of the end of the electric connector base 230. Annular locking members 224 and 249 having flexibility are provided. The outer diameter of the locking member 224 is slightly larger than the inner diameter of the end of the air / water supply base 250 of the operation portion mounting mechanism 240, and the outer diameter of the locking member 259 is the base for the electrical connector of the operation portion mounting mechanism 240. It is slightly larger than the inner diameter of the end portion of 260. Therefore, when the air / water supply unit 15 is attached to the operation unit 12, the air / water supply base 220 and the electrical connector base 230 are pushed into the corresponding air / water supply base 250 and electrical connector base 260 with a predetermined force, respectively. There is a need. Further, when the air / water supply unit 15 is removed, it must be pulled out with a predetermined force. That is, the air / water supply unit 15 is prevented from being easily detached from the operation unit 12.
[0045]
FIG. 7 is an external view of a fiberscope 300 to which the third embodiment according to the present invention is applied, in which some members are cut away. The same members as those in the first embodiment and the second embodiment are denoted by the same reference numerals. The air / water supply unit 15 is provided with a unit-side mounting auxiliary mechanism 310 so as to cover the air / water supply base 220 and the electrical connector base 230. Further, the operation unit 12 is provided with an operation unit side mounting auxiliary mechanism 330 so as to cover the air / water supply base 250 and the electric connector base 260.
[0046]
FIG. 8 is a cross-sectional view showing a state in which the unit-side attachment assist mechanism 310 and the operation unit attachment assist mechanism 330 are connected. In FIG. 8, the same members as those in the second embodiment are denoted by the same reference numerals. The auxiliary base 311 has a cylindrical base portion 311A and an annular attachment portion 311B formed integrally with the end surface of the base portion 311A. The attachment portion 311B is inserted through the opening 312 formed in the end surface 80A of the unit main body 80 of the air / water supply unit 15, and the contact portion between the outer peripheral surface of the attachment portion 311B and the inner peripheral surface of the opening 312 is bonded. Has been. Further, a fastening ring 313 is screwed into the outer peripheral surface of the mounting portion 311B in the vicinity of the outer wall surface of the unit body 80. The holding plate 314 has a disk shape, and the outer diameter thereof is substantially the same as the inner diameter of the attachment portion 311B, and is bonded to an end surface continuous with the attachment portion 311B of the base portion 311A via an O-ring. The holding plate 314 holds an air / water feeding base 220 and an electrical connector base 230 having the same configuration as in the second embodiment. The attachment structure of the air / water supply base 220 and the electric connector base 230 to the holding plate 314 is the same as the attachment structure to the side surface 80A of the air / water supply base 220 and the electric connector base 230 in the second embodiment.
[0047]
Similarly to the auxiliary base 311, the auxiliary base 331 also has a cylindrical base portion 331A and an annular attachment portion 331B formed integrally with the end surface of the base portion 331A. Further, a flange 331C is integrally formed on the outer peripheral surface of the mounting portion 331B. The attachment portion 331B is disposed so that the end surface of the flange 331C contacts the side surface 12A of the operation portion 12 through the opening 332 formed on the side surface of the operation portion 12. The abutting portion between the outer peripheral surface of the attachment portion 331B and the inner peripheral surface of the opening portion 332 is bonded. Further, the outer diameter of the disc-shaped holding plate 333 is substantially the same as the inner diameter of the mounting portion 331B, and the holding plate 333 is bonded to an end surface continuous with the mounting portion 331B of the portion 331A. The holding plate 333 holds an air / water feeding base 250 and an electrical connector base 260 having the same configuration as in the second embodiment. The attachment structure of the air / water supply base 250 and the electric connector base 260 to the holding plate 333 is the same as the attachment structure to the side surface 12A of the air / water supply base 250 and the electric connector base 260 in the second embodiment.
[0048]
As described above, in the third embodiment, the auxiliary base 311 of the unit-side attachment auxiliary mechanism 310 is configured to surround the air / water supply base 220 and the electric connector base 230, and the auxiliary of the operation unit side attachment auxiliary mechanism 330 is configured. The base 331 is configured to surround the air / water supply base 250 and the electrical connector base 260. When the attachment part 311B of the auxiliary base 311 and the attachment part 331B of the auxiliary base 331 are fitted, the air / water supply bases 220 and 250 are connected, and the electrical connector bases 230 and 260 are connected, respectively. The holding plates 314 and 333 are provided with air / water supply caps 220 and 250 and electric connector caps 230 and 260.
[0049]
Note that a stopper member 316 is provided by a screw 315 on the mounting portion 311B of the auxiliary base 311. As a result, when the auxiliary bases 311 and 331 are fitted to a predetermined depth, the end face of the stopper member 316 comes into contact with the side surface 12A of the operation portion, so that the auxiliary bases 311 and 331 are prevented from being fitted deeper than necessary. The
[0050]
According to the third embodiment, the auxiliary base 331 is configured to surround the air / water supply base 250 and the electrical connector base 260. Therefore, when the scope 300 is immersed in a disinfectant solution for sterilization, the air / water feeding base 250 and the electrical connector base 260 are sterilized in an exposed state. On the other hand, the sterilization process on the air / water supply unit 15 side only needs to attach a single protective cap capable of collectively protecting the air / water supply base 220 and the electrical connector 230 connected to the power source only to the auxiliary base 331. That is, the sterilization process is saved.
[0051]
FIG. 9 is an external view showing a part of a fiberscope 400 to which the fourth embodiment according to the present invention is applied, and the same members as those in the first embodiment are denoted by the same reference numerals. As is clear from FIG. 9, the water supply tank 81 is provided in a unit main body 80 that extends in a direction intersecting the longitudinal direction of the operation unit 12 on the opposite side of the air / water supply button 71 and the suction button 72 of the operation unit 12. Arranged. On the upper surface side of the water supply tank 81 in FIG. 9, a cylindrical mounting portion having a smaller diameter than the main body of the water supply tank 81 is formed. This attachment portion is attached to a tank port formed on the side surface of the unit main body 80. The tank port is shielded by attaching a tank port mounting lid 401. The tank port attachment lid 401 is removed when the cleaning water is supplied into the water supply tank 81.
[0052]
The battery 83 is fixed to a battery chamber 402 provided at a predetermined position in the unit main body 80. Power can be supplied from the battery 83 by attaching the battery port attachment lid 403 to the opening of the battery chamber 402. The pump button 404 is provided in the vicinity of the suction button 72. In conjunction with the operation of the pump button 404, ON / OFF of SW3 is controlled. When SW3 is turned on, the drive current of the air supply pump 82 is supplied from the battery 83, and when it is turned off, the supply of the drive current is stopped. The battery 83 has lead wires (not shown) connected to the lead wires W11, W12, W21, and W22 (see FIG. 2) of the LEDs 43 and 44 provided at the distal ends of the scope without passing through the SW3. It is connected.
[0053]
In the scope 400 of the fourth embodiment, the unit main body 80 may be detachable as in the scope 200 of the second embodiment and the scope 300 of the third embodiment.
[0054]
FIG. 10 is an external view showing a fiberscope 500 of a first modification of the first embodiment. In the unit main body 80 of the air / water supply unit 15, a battery cover 91 is provided on the side surface opposite to the side surface on which the LED button 85 and the pump button 86 are provided. The battery lid 91 is a member for protecting the battery chamber in which the battery 83 is accommodated, and is configured to be openable and closable with respect to the unit main body 80. Other configurations are substantially the same as those of the first embodiment. According to this modification, since the battery can be easily exchanged, even if the supply power of the battery 83 is reduced during the operation of the fiberscope 10 and the exchange is necessary, the operation of the patient is not delayed for a long time. The burden is reduced.
[0055]
FIG. 11 is an external view showing a fiberscope 600 of a second modification of the first embodiment. In the unit main body 80 of the air / water supply unit 15, an adapter connection portion 92 is provided on the side surface opposite to the side surface on which the LED button 85 and the pump button 86 are provided. A known AC / DC adapter 93 can be connected to the adapter connection portion 92. The electric circuit in the unit main body 80 is configured such that the driving current for the air supply pump 82 and the LEDs 43 and 44 is supplied from the battery 83 and can also be supplied from a commercial power source via the AC / DC adapter 93. Therefore, even when the supply power of the battery 83 is reduced during the operation of the fiberscope 10 and a spare battery is not prepared, the AC / DC adapter 93 is connected to the adapter connection portion 92 to respond immediately. be able to.
[0056]
FIG. 12 is an external view showing a fiberscope 700 of a third modification of the first embodiment. The electric circuit of the unit main body 80 of the air / water supply unit 15 includes a charging circuit 94, and is configured such that a drive current can be supplied from the charging circuit 94 to the air supply pump 82 and the LEDs 43 and 44. Therefore, if the electric power supplied from the commercial power supply is charged via the AC / DC adapter 93 and used in combination with the battery 83 before the operation, the operation can be performed for a longer time.
[0057]
The first to third modifications of the first embodiment described above are also applied to the fiberscope 200 of the second embodiment, the fiberscope 300 of the third embodiment, and the fiberscope 400 of the fourth embodiment. Is possible.
[0058]
【The invention's effect】
As described above, according to the present invention, the illumination means is provided at the distal end of the insertion portion of the scope, and the air / water supply unit, the battery that supplies the drive means for the illumination means and the air / water supply unit are provided in the operation portion of the scope. . Therefore, the portability of the endoscope is improved. Moreover, since it is not necessary to connect a water supply tank, a battery, etc. with the cable which obstruct | occludes free operation of an endoscope, the operativity of an endoscope improves.
[Brief description of the drawings]
FIG. 1 is an external view of a portable endoscope to which a first embodiment according to the present invention is applied.
FIG. 2 is a cross-sectional view of the distal end of the insertion portion of the scope.
FIG. 3 is a front view of the distal end of the insertion portion of the scope.
FIG. 4 is an enlarged cross-sectional view showing the vicinity of a water supply tank mounting portion in an air / water supply unit.
FIG. 5 is an external view of a portable endoscope to which a second embodiment according to the present invention is applied.
FIG. 6 is an enlarged view showing a cross section of the unit side attachment mechanism and the operation part side attachment mechanism in a state where the air / water supply unit of the second embodiment is attached to the operation part of the scope.
FIG. 7 is an external view of a portable endoscope to which a third embodiment according to the present invention is applied.
FIG. 8 is an enlarged view showing a cross section of the unit side mounting assist mechanism and the operation unit side mounting assist mechanism in a state where the air / water feeding unit of the third embodiment is mounted on the operation section of the scope.
FIG. 9 is an external view of a portable endoscope to which the fourth embodiment according to the present invention is applied.
FIG. 10 is an external view showing a portable endoscope according to a first modification of the first embodiment.
FIG. 11 is an external view showing a portable endoscope according to a second modification of the first embodiment.
FIG. 12 is an external view showing a portable endoscope according to a third modification of the first embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Fiberscope 11 Insertion part 12 Operation part 13 Eyepiece part 14 Connection part 15 Air supply / water supply unit 60 Forceps port 71 Air supply / water supply button 72 Suction button 73 Suction nipple 80 Unit main body 81 Water supply tank 82 Air supply pump 83 Battery 84 Inlet 220, 250 Air / water supply base 230, 260 Electric connector base 311, 331 Auxiliary base

Claims (9)

A semiconductor light emitting element provided at the tip for irradiating illumination light in front of the tip of the insertion portion of the scope;
A pump for feeding gas and liquid to the tip, power supply means for supplying a driving current to the semiconductor light emitting element and the pump, and an air / liquid feeding unit comprising a liquid feeding tank storing the liquid Prepared,
The portable endoscope, wherein the air supply / liquid supply unit is provided in an operation unit of the scope. The portable endoscope according to claim 1, wherein the air / liquid feeding unit is fixed to the operation unit. The portable endoscope according to claim 1, wherein the air / liquid feeding unit is detachably attached to the operation unit. The portable endoscope according to claim 2 or 3, wherein the air / liquid feeding unit extends in a direction intersecting with a longitudinal direction of the operation unit. The air / liquid feeding unit has a unit main body in which the pump and the power supply means are built, and the liquid feeding tank is detachably attached to the unit main body. The described portable endoscope. The portable endoscope according to claim 2 or 3, wherein the air / liquid feeding unit includes a unit main body in which the pump, the power supply means, and the liquid feeding tank are built. The unit body includes a first attachment mechanism including a first connection portion and a second connection portion,
The operation portion includes a second attachment mechanism including a third connection portion connectable to the first connection portion and a fourth connection portion connectable to the second connection portion,
When the first and third connecting portions are connected, an insertion portion air supply conduit for feeding gas to the tip portion is connected to the pump, and an insertion portion liquid delivery conduit for feeding liquid is the liquid supply tank. 7. The mobile phone according to claim 5, wherein a driving current is supplied from the power supply means to the semiconductor light emitting element by connecting the second and fourth connecting portions. Endoscope. The first connection portion is a first columnar member provided on a side surface of the unit main body, and a unit-side air supply conduit connected to the pump and the liquid supply are provided on an end surface of the first columnar member. The end of the unit side liquid supply line connected to the tank is open,
The second connection portion is a second columnar member provided in the vicinity of the first columnar member on the side surface of the unit main body, and the end surface of the second columnar member is connected to the power supply means and the electric power supply unit. A first pair of contact pins connected to each other are exposed;
The third connecting portion is a cylindrical first receiving member into which the first columnar member can be fitted, and the first receiving member includes the insertion portion air supply conduit and the insertion portion liquid supply. The end of the pipeline is arranged,
The fourth connecting portion is a cylindrical second receiving member into which the second columnar member can be fitted, and the second receiving member has the semiconductor light emitting element and a lead wire interposed therebetween. A second pair of contact pins to be connected are disposed;
When the first cylindrical member is fitted to the first receiving member, the unit-side air supply conduit and the insertion portion air supply conduit, and the unit-side liquid supply conduit and the insertion portion liquid supply conduit Are concatenated,
The portable endoscope according to claim 7, wherein when the second cylindrical member is fitted to the second receiving member, the first and second pair of contact pins come into contact with each other. The first attachment mechanism has a substantially ring-shaped first attachment auxiliary member formed on a side surface of the unit body so as to surround the first and second connection portions,
The second attachment mechanism has a second attachment auxiliary member having a substantially ring shape formed so as to surround the third and fourth connection portions,
When the first and second attachment assisting members are fitted to each other, the first connecting portion and the third connecting portion are connected, and the second connecting portion and the fourth connecting portion are connected to each other. The portable endoscope according to claim 7, wherein the portable endoscope is connected.

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