JP3898993B2 - Endoscopic air / liquid feeding device and portable endoscope including the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
In the present invention, when performing examination, treatment, etc. of an affected part using an endoscope, a specific gas or chemical used for removing the fogging of the lens, removing the dirt attached to the affected part, washing, and further treating the affected part is sent. The present invention relates to an air supply and liquid supply device (mechanism).
[0002]
[Prior art]
Conventionally, an air supply / liquid supply tank is attached to a side surface of a processor of a light source device or an electronic endoscope apparatus, and the air supply / liquid supply tank is a videoscope provided with an image sensor via a tube. Or it connects with the air supply / water supply channel formed in the fiberscope. Further, a pump for air supply and water supply is provided in the light source device or the processor, and the compressed gas discharged from the pump is selectively sent to the air supply, water supply channel and tank. When cleaning lenses or removing dirt attached to the affected area, air or water is discharged from the tip, while chemicals used for examination of the affected area, nitrogen for expanding the inside of the digestive tract, oxygen supply to the bronchi An air supply / water supply channel is also used when a specific gas such as oxygen is discharged.
[0003]
When air supply is executed, that is, when air or the like is discharged from the distal end of the scope, the compressed air or the like from the pump is sent as it is to the air supply pipe in the scope. On the other hand, when liquid feeding is performed, that is, when water or the like is discharged from the distal end of the scope, air from the pump is guided into the tank and the liquid level is pressurized. By this pressurization, water and the like are sucked up from the tank and flow to the tip through the water supply pipe in the scope.
[0004]
[Problems to be solved by the invention]
In the conventional air supply / liquid supply mechanism, the liquid supply path and the air supply path are not completely separated. Therefore, when the tank is tilted or falls, the liquid flows out to the air supply conduit, and water or the like may be discharged from the distal end of the scope even though the liquid supply is not executed.
[0005]
In addition, when air supply and liquid supply are executed with a portable endoscope that has its own light source, air supply and air supply adapted to the fixed (desktop) light source device or electronic endoscope device as described above. The liquid device is difficult to use and greatly impairs the portability that is characteristic of a portable endoscope.
[0006]
Therefore, in the present invention, it is possible to prevent water and the like from being accidentally discharged from the distal end of the scope when liquid feeding is not being performed. In particular, an endoscope air feeding / liquid feeding device suitable for a portable endoscope is provided. The purpose is to obtain.
[0007]
[Means for Solving the Problems]
The endoscope air supply / liquid supply device of the present invention supplies gas and liquid from the distal end portion of the endoscope through the gas and liquid through the air supply conduit and the liquid supply conduit formed in the endoscope, respectively. It is an apparatus for discharging. The endoscope may be a fiberscope provided with an optical fiber bundle for a light guide and an image guide, or a video scope for an electronic endoscope apparatus provided with an image sensor. Moreover, gas and a liquid are air and water, for example. The air supply / liquid supply device includes a pump that sucks outside air and discharges compressed gas, a tank containing liquid, an air supply relay pipe that communicates the compressed gas discharge port of the pump and an air supply pipe line, and , A branch pipe branched from the air supply relay pipe and extending into the tank, an inflatable / shrinkable balloon attached to the tip of the branch pipe, and a liquid feed relay for communicating between the tank and the liquid feed pipe line A tube.
[0008]
The tank is hermetically sealed except for the branch pipe and the liquid sending relay pipe. Further, the liquid is stored outside the balloon in the tank. For air supply and liquid supply, as in conventional endoscope devices, air supply and liquid supply switches are provided in the operation section of the endoscope, and the compressed gas from the pump is operated according to the operation of the air supply and liquid supply switches. The flow may be selectively changed in the direction of the air supply line or the direction of the tank. When performing air supply, the compressed gas discharged from the compressed gas discharge port flows through the air supply conduit through the air supply relay pipe. On the other hand, when performing liquid feeding, the compressed gas discharged from the compressed gas discharge port is guided to the branch pipe. The balloon is inflated by sending compressed gas into the balloon, but since the tank is sealed, the expanded liquid out of the liquid in the tank flows through the liquid supply relay pipe, and the liquid supply pipe line Led to.
[0009]
By providing the balloon, the air supply path through which the gas passes and the liquid supply path through which the liquid passes are completely separated, so that the liquid may be accidentally discharged from the endoscope tip through the air supply path. Absent. The balloon only needs to be able to expand and contract by inhaling gas, but is preferably made of a rubber elastic body.
[0010]
On the other hand, in consideration of the configuration in which the liquid is put into the balloon, the endoscope air supply / liquid supply device in the present invention includes a pump that sucks outside air and discharges compressed gas, a tank containing liquid, a pump The compressed gas discharge port and the air supply conduit communicate with each other, the air supply relay tube, the branch pipe branched from the air supply relay tube and extending into the tank, and the tank and the liquid supply conduit communicate with each other. And a balloon capable of expanding and contracting attached to the tip of the relay pipe for liquid feeding. The tank is sealed except for the branch pipe and the relay pipe for liquid feeding, and the liquid is stored in the balloon in the tank. And when performing liquid feeding, the compressed gas discharged from a compressed gas discharge port is guide | induced to a branch pipe, and a balloon shrink | contracts. As a result, the liquid in the balloon flows through the liquid supply relay pipe and is guided to the liquid supply pipe line.
[0011]
A portable endoscope is an endoscope having a light source device uniquely, and unlike a conventional endoscope, a cable for connecting to a light source device and a processor is not necessary. It is necessary to perform air supply and liquid supply without impairing the portability of such an endoscope. A portable endoscope according to another aspect of the present invention is formed with an air supply conduit for discharging gas from a tip portion and a liquid supply conduit for discharging liquid from the tip portion. It is branched from the pump that sucks the compressed air and discharges the compressed gas, the tank containing the liquid, the air supply relay pipe that connects the compressed gas discharge port of the pump and the air supply pipe, and the air supply relay pipe A branch pipe extending to the inside of the tank, a balloon that can be inflated and deflated attached to the tip of the branch pipe, and a liquid feed relay pipe that communicates the inside of the tank and the liquid feed pipe line. When liquid feeding is performed, the compressed gas discharged from the compressed gas discharge port is guided to the branch pipe. When the compressed gas is sent into the balloon and the balloon is inflated, a part of the liquid in the tank is pushed away through the relay pipe for liquid delivery. Since the portable endoscope itself is equipped with a configuration for air supply and liquid supply processing, it is not necessary to connect the portable endoscope to the light source device or the processor for air supply and liquid supply. Air supply and liquid supply processing can be performed without impairing the above. Further, since the air supply path and the liquid supply path are separated, even if the tank is tilted during the operation of the portable endoscope, the liquid is not accidentally discharged from the distal end portion.
[0012]
On the other hand, considering the configuration for storing the liquid in the balloon, the portable endoscope of the present invention includes an air supply conduit for discharging the gas from the distal end, and an outlet for discharging the liquid from the distal end. An air supply relay that forms a liquid supply conduit and communicates the pump that sucks outside air and discharges compressed gas, a tank containing liquid, and the compressed gas discharge port of the pump and the air supply conduit A pipe, a branch pipe that branches off from the air supply relay pipe and extends into the tank, a liquid supply relay pipe that connects the tank and the liquid supply pipe line, and an expansion that is attached to the tip of the liquid supply relay pipe A deflatable balloon. The tank is sealed except for the branch pipe and the relay pipe for liquid feeding, and the liquid is stored in the balloon in the tank.
[0013]
An endoscope air supply / liquid supply device according to another aspect of the present invention includes an air supply conduit and a liquid supply conduit formed in an endoscope through gas and liquid, respectively, from the distal end of the endoscope. An endoscope air-feeding / liquid-feeding device for discharging a gas and a liquid, wherein the tank contains a liquid, and the tank is divided into a first space without liquid and a second space with liquid. A space changing member that expands one space and contracts the other space, and a gas supply means that supplies gas to the air supply conduit when supplying air and supplies gas to the tank when supplying liquid. In the liquid state, the liquid is guided to the liquid supply conduit by either expansion or contraction of the first space.
[0014]
A portable endoscope according to another aspect of the present invention includes an air supply conduit for discharging gas from a tip portion and a liquid supply conduit for discharging liquid from the tip portion. A tank in which the inside of the tank is divided into a first space without liquid and a second space with liquid, a space changing member that expands one space and contracts the other space, and at the time of air supply Gas supply means for flowing gas to the air supply line and supplying gas to the tank when liquid is supplied, and at the time of liquid supply, the liquid is supplied by either expansion or contraction of the first space It is characterized by being guided to.
[0015]
The endoscope air supply / liquid supply device of the present invention supplies gas and liquid from the distal end portion of the endoscope through the gas and liquid through the air supply conduit and the liquid supply conduit formed in the endoscope, respectively. Endoscopic air supply / liquid supply device for discharging, for supplying air by connecting a pump for discharging gas, a tank containing liquid, a gas discharge port of the pump, and an air supply line A relay pipe, a branch pipe branched from the air supply relay pipe and extending into the tank, an inflatable / shrinkable balloon attached to the tip of the branch pipe, and the tank and the liquid supply pipe line communicating with each other A liquid relay pipe and gas flow direction selection means for selectively supplying the gas from the pump to either the air supply pipe or the branch pipe, and the tank includes the liquid feed relay pipe and the branch pipe A sealing member that seals the tank except for the Characterized in that it is.
[0016]
The endoscope air supply / liquid supply device of the present invention supplies gas and liquid from the distal end portion of the endoscope through the gas and liquid through the air supply conduit and the liquid supply conduit formed in the endoscope, respectively. Endoscopic air supply / liquid supply device for discharging, for supplying air by connecting a pump for discharging gas, a tank containing liquid, a gas discharge port of the pump, and an air supply line Attached to the end of the relay pipe, the branch pipe branched from the air supply relay pipe and extending into the tank, the liquid supply relay pipe connecting the inside of the tank and the liquid supply pipe, and the end of the liquid supply relay pipe An inflatable / shrinkable balloon and gas flow direction selection means for selectively supplying the gas from the pump to one of the air supply pipe and the branch pipe, and the tank includes the branch pipe and the liquid feed relay It has a sealing member that seals the tank except for the tube, and the liquid is ballooned in the tank. Characterized in that it is stored in.
[0017]
The portable endoscope according to the present invention has an air supply conduit for discharging gas from the tip portion and a liquid supply conduit for discharging liquid from the tip portion, and discharges the gas. Pump, a tank containing liquid, an air supply relay pipe that connects the gas discharge port of the pump and an air supply pipe, and a branch pipe that branches from the air supply relay pipe and extends into the tank A balloon that can be inflated and retracted attached to the tip of the branch pipe, a liquid feed relay pipe that communicates the inside of the tank and the liquid feed pipe line, and a gas from the pump, Gas flow direction selection means for selectively supplying to either one of them, the tank has a sealing member that seals the tank except for the relay pipe for liquid feeding and the branch pipe, and the liquid is outside the balloon in the tank. It is stored in the water.
[0018]
The portable endoscope according to the present invention has an air supply conduit for discharging gas from the tip portion and a liquid supply conduit for discharging liquid from the tip portion, and discharges the gas. A pump, a tank containing liquid, an air supply relay pipe communicating the gas discharge port of the pump and the air supply pipe line, a branch pipe branched from the air supply relay pipe and extending into the tank, A liquid-feeding relay pipe that connects the inside of the tank and the liquid-feeding pipe line, an inflatable / shrinkable balloon that is attached to the tip of the liquid-feeding relay pipe, and a gas from the pump that feeds the gas and the branch pipe Gas flow direction selection means for selectively supplying to either one of the tank, the tank has a sealing member for sealing the tank except for the branch pipe and the liquid sending relay pipe, and the liquid is ballooned in the tank. It is stored in the inside.
[0019]
The endoscope air supply / liquid supply device of the present invention supplies gas and liquid from the distal end portion of the endoscope through the gas and liquid through the air supply conduit and the liquid supply conduit formed in the endoscope, respectively. An endoscopic air-feed / liquid-feed device for discharging, wherein a container containing liquid, and the inside of the container is divided into a first space without liquid and a second space with liquid, and one space A space changing member that expands and contracts the other space, a gas transmission pipe that extends to the first space, a liquid transmission pipe that communicates the liquid supply conduit with the second space, A gas liquid supply means for supplying a gas to the gas pipeline and sending the gas to the container via the gas transmission pipe at the time of liquid supply, and the gas liquid supply means supplies the gas to the first space and expands it. Thus, the liquid is guided to the liquid supply conduit.
[0020]
The portable endoscope according to the present invention is formed with an air supply conduit for discharging gas from the distal end portion and a liquid supply conduit for discharging liquid from the distal end portion. An air supply / liquid supply device for an endoscope for discharging gas and liquid from the distal end portion of an endoscope through gas and liquid respectively into an air supply pipe and a liquid supply pipe formed therein, A container containing liquid, a space changing member that divides the inside of the container into a first space without liquid and a second space with liquid, expands one space and contracts the other space, A gas transmission pipe extending to the space, a liquid transmission pipe communicating the liquid feeding pipe line and the second space, a gas flowing through the air feeding pipe line during air feeding, and a gas transmission pipe via the gas transmission pipe during liquid feeding. Gas liquid supply means for sending gas to the container, and the gas liquid supply means supplies gas to the first space. The liquid you'll be inflated, characterized in that leads to the fluid supply conduit.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a portable endoscope and an endoscope light source device according to an embodiment of the present invention will be described with reference to the drawings.
[0022]
FIG. 1 is a plan view schematically showing a portable endoscope according to the first embodiment.
[0023]
The fiberscope 10 is a portable fiberscope with a unique light source. From the bending portion 14 including the distal end portion 15, the insertion portion 16, the operation portion 12, the eyepiece portion 17, the light source unit 19, and the connection portion 18. It is configured. When surgery, inspection, or the like is started, the bending portion 14 and the insertion portion 16 are inserted into the body.
[0024]
The light source unit 19 of the operation unit 12 is provided with a lamp (not shown), and a light guide (not shown) that is an optical fiber bundle for illumination is provided from the light source unit 19 to the distal end portion 14. . Light emitted from the lamp exits from the tip 15 through the optical fiber bundle. Thereby, the subject S is irradiated with light. The light reflected from the subject S passes through an objective lens (not shown) provided at the tip portion 15 and enters an incident end of an image guide (not shown) that is an optical fiber bundle for image transmission. The image guide is provided in the fiberscope 10 from the distal end portion 15 to the eyepiece unit 17, and the image of the subject S is optically transmitted to the eyepiece unit 17 through the image guide. In the eyepiece 17, an image of the observation subject S is formed, so that the operator can observe the subject S through the eyepiece 17.
[0025]
The operation section 12 of the fiberscope 10 is provided with a lever (not shown) for bending the bending section 15, and supplies an air / water supply switch 13 </ b> A for performing air / water supply, A lamp switch 13B for turning off the light is provided. A tank 30 containing water is detachably attached to the connection unit 18 in the connection unit 18 formed in the operation unit 12.
[0026]
FIG. 2 is a diagram schematically showing the inside of the fiberscope 10.
[0027]
An air supply / water supply channel 26 is formed in the fiberscope 10 for cleaning the objective lens at the distal end portion 15 and for removing dirt attached to the observation site (subject S). 26E, a water supply pipe 26D for flowing water is formed from the operation section 12 to the tip section 15. A pump 34 is provided in the operation unit 12, and the pump 34 communicates with the air supply pipe 26 </ b> E via the air supply relay pipe 26 </ b> B, the air supply / water supply switch 13 </ b> A. A branch pipe 26A branches from the air supply relay pipe 26B and extends into the tank 30, and a balloon 31 is attached to the tip of the branch pipe 26A. On the other hand, a water supply relay pipe 26C extends from the air / water supply switch 13A to the inside of the tank 30, and the tank 30 communicates with the water supply pipe 26D via the water supply relay pipe 26C, the air supply / water supply switch 13A. To do.
[0028]
The pump 34 is a pump that sucks outside air and discharges compressed air, and the outside air suction port 35 extends to a suction hole (not shown) formed on the surface of the operation unit 12. The discharge port 37 through which compressed air is discharged is connected to the air supply relay pipe 26B. When the pump 34 is operated, the compressed air is sent to the air supply / water supply switch 13A. The pump 34 is supplied with power from the battery 36, and when a pump operation button (not shown) provided on the operation unit 12 is operated, a pump switch 39 provided between the battery 36 and the pump 34. Becomes ON, and the pump 34 operates.
[0029]
The air supply / water supply switch 13A is provided with a check valve 33. The check valve 33 blocks the spatial connection between the air supply relay pipe 26B and the air supply pipe 26E and is sent from the pump 34. The incoming compressed air is discharged from the top 13T of the air / water supply switch 13A. Therefore, while air supply and water supply are not executed, the compressed air discharged from the pump 34 is transmitted only to the air supply / water supply switch 13A. In this state, the spatial connection between the water supply conduit 26D and the water supply relay tube 26C is also blocked.
[0030]
When air supply is executed, the top T of the air supply / water supply switch 13A is pressed by the operator. That is, the hole of the top portion 13T from which the compressed air is discharged is blocked by the operator's finger. As a result, the position of the check valve 33 fluctuates, and the compressed air from the pump 34 flows to the air supply line 26E. Thereby, the compressed air discharged from the pump 34 is discharged from the tip portion 15.
[0031]
Further, when executing water supply, the air / water supply switch 13A is pressed by the operator. As a result, the spatial connection between the air supply relay pipe 26B and the air supply pipe line 26E is cut off, while the water supply relay pipe 26C and the water supply pipe line 26D communicate with each other. In such a state, the compressed air discharged from the pump 34 is guided toward the tank 30 and the water W is sucked from the tank 30 as will be described later. The sucked water W flows through the water supply relay pipe 26 </ b> C, the air supply / water supply switch 13 </ b> A, and the water supply pipe 26 </ b> D, and is discharged from the distal end portion 15.
[0032]
The structure of the air supply / water supply switch 13A provided with the check valve 33 and the air supply / water supply switching method as described above are conventionally known.
[0033]
FIG. 3 is a diagram showing the flow of air and water during air supply and water supply.
[0034]
The tank 30 having a cylindrical shape includes a container 30A, a lid 30B, and a connection portion 32, and the connection portion 32 is attached on the lid 30B. Further, the water supply relay pipe 26C and the branch pipe 26A extend into the tank 30 through the connection portion 32 and the vicinity of the center of the lid 30B. A male screw is formed at the distal end portion 32 of the tank 30 so that the distal end portion of the connection portion 18 in the fiberscope 10 and the distal end portion 32 of the tank 30 are screwed together. The tank 30 can be removed. The lid 30B is attached to the container 30A so as to sandwich the upper portion 30C of the container 30A, and the container 30 can be removed by pulling the container 30 downward while holding the lid 30B. When replenishing the water W in the tank 30, the container 30A is removed from the lid 30B. The lid 30B has a structure that is attached in close contact with the container 30A. When the tank 30 is attached to the connecting portion 18, the air in the tank 30 passes through a place other than the water supply relay pipe 26C and the branch pipe 26A. Water W does not leak into or enter the tank 30. That is, the inside of the tank 30 is sealed.
[0035]
The balloon 31 attached to the tip of the branch pipe 26A is made of a rubber elastic body. When compressed air is sent from the pump 34, the balloon 31, that is, the space in the balloon 31 (first space) is inflated, and is otherwise contracted. Water W is stored in a space (second space) excluding the inside of the balloon 31 in the tank 30, and the amount of the water W stored here is approximately half of the capacity of the tank 30.
[0036]
As described above, when air supply is performed, the compressed air discharged from the discharge port 37 of the pump 34 is directly led to the air supply / water supply switch 13A through the air supply relay pipe 26B. Accordingly, no particular change occurs in the water W and the balloon 31 in the tank 30.
[0037]
When the air supply / water supply switch 13A is pressed to execute water supply, the compressed air discharged from the pump 34 flows in the direction of the branch pipe 26A. As a result, the balloon 31 is inflated. When the balloon 31 expands, the liquid level of the water W tends to rise. However, since the space not immersed in water is pressurized, pressure is applied to the liquid level of the water W in the tank 30. As a result, the water W corresponding to the volume of the expansion flows through the water supply relay pipe 26C, and is discharged from the distal end portion 15 through the air supply, the water supply switch 13A, and the water supply pipe 26D.
[0038]
As described above, according to the present embodiment, when water is supplied, air is sent from the pump 34 into the balloon 31, and the water W flows from the tank 30 to the tip portion 15 due to the expansion of the balloon 31.
[0039]
Since the water supply route and the air supply route are completely isolated, water is not discharged from the tip portion 15 through the air supply route even though the water supply process is not performed. Further, even when the tank 30 is tilted while the portable fiberscope 10 is being operated, water is not accidentally discharged from the tip. That is, the configuration relating to air supply and water supply of the present embodiment is very suitable for a portable endoscope.
[0040]
Since the balloon 31 is an elastic body, when the operation of the pump 34 is stopped after the balloon is inflated, the balloon 31 is contracted, and the pressure in the tank 30 is reduced to return to the original state. Therefore, the water W does not jump out when the container 30A is removed from the lid 30B for replenishing the water W.
[0041]
The balloon may be formed of a material other than rubber as long as it can expand and contract. Further, in order to prevent the water supply relay pipe 26C and the balloon 31 from contacting each other when the balloon 31 is inflated, the water supply relay pipe 26C may be arranged as close to the container 30A as possible.
[0042]
You may switch air_supply and water_supply with structures other than the air_supply / water supply switch shown by this embodiment. For example, the direction of the compressed air flow from the pump may be controlled by operating the electromagnetic valve, and an electric signal may be detected when the air supply / water supply switch is operated to operate the electromagnetic valve.
[0043]
The configuration of the tank 30 is not limited to the configuration described above, and may be a configuration that is sealed so that the water W or the air in the tank 30 does not leak. Further, the tank 30 may be attached to the connection unit 18 so as to be arranged in parallel with the direction along the eyepiece unit 17 from the operation unit 12.
[0044]
Next, a second embodiment will be described with reference to FIG. In the second embodiment, unlike the first embodiment, water is stored in the balloon. Other configurations are substantially the same as those of the first embodiment, and the same reference numerals are used for the same components.
[0045]
FIG. 4 is a diagram showing the flow of gas and liquid during air supply and water supply in the second embodiment.
[0046]
As shown in FIG. 4, a balloon 31 is attached to the tip of the water supply relay pipe 26 </ b> C, and water W is contained in the balloon 31. The branch pipe 26A branched from the air supply relay pipe 26B extends into the tank 30 in which no water W is contained.
[0047]
When air supply is executed, the compressed air from the pump 34 is directly sent to the tip through the air supply relay pipe 26B. On the other hand, when water is supplied, the compressed air from the pump 34 is guided into the tank 30. As the compressed air flows into the tank 30, the tank 30 is pressurized and the balloon 31 is deflated. As a result, the water W in the balloon 31 flows through the water supply relay pipe 26 </ b> C, and the water W is discharged from the distal end portion 15.
[0048]
In the first and second embodiments, the portable endoscope is provided with an air supply / water supply device. However, the above-described air supply is applied to a conventional fixed light source device or electronic endoscope device. The water supply device may be provided. As for air supply, nitrogen or oxygen cylinder may be connected to the suction port of the pump 34, and nitrogen or oxygen may be discharged from the tip. As for water supply, a chemical solution other than water may be stored in the tank 30 and the chemical solution may be discharged into the body (liquid supply is executed).
[0049]
【The invention's effect】
As described above, according to the present invention, it is possible to prevent water and the like from being accidentally discharged from the distal end of the scope when liquid feeding is not being performed, and the convenience of the portable endoscope is not impaired. Qi, liquid feeding can be executed.
[Brief description of the drawings]
FIG. 1 is a plan view schematically showing a portable endoscope according to a first embodiment.
FIG. 2 is a diagram schematically showing the inside of a fiberscope.
FIG. 3 is a diagram showing the flow of air and water during air supply and water supply.
FIG. 4 is a diagram showing the flow of gas and liquid during air supply and water supply in the second embodiment.
[Explanation of symbols]
10 Fiberscope (portable endoscope)
13A Air / water switch (air / liquid switch)
26A Branch pipe 26B Air supply relay pipe 26C Water supply relay pipe (liquid supply relay pipe)
26D Water supply pipeline (liquid supply pipeline)
26E Air supply conduit 30 Tank 31 Balloon (space variation member)
34 Pump 37 Discharge port

Claims (13)

Endoscopic air supply / liquid supply for discharging the gas and liquid from the distal end portion of the endoscope through gas and liquid, respectively, through an air supply pipe and a liquid supply pipe formed in the endoscope A device,
A pump for sucking outside air and discharging compressed gas;
A tank containing the liquid;
An air supply relay pipe for communicating the compressed gas discharge port of the pump and the air supply pipe line;
A branch pipe branched from the air supply relay pipe and having a tip extending into the tank;
Wherein a balloon that is mounted so as to communicate with the tip of the branch pipe, the tank, an expansion deflatable balloon be divided into a first space and a balloon outside the second space including the internal balloon ,
A liquid feed relay pipe extending from the upper part of the tank to the inside of the tank and communicating the inside of the tank and the liquid feed pipe line;
The tank is sealed except for the branch pipe and the relay pipe for liquid feeding, and the liquid is stored in the second space outside the balloon in the tank,
When performing air supply, the compressed gas discharged from the compressed gas discharge port flows through the air supply conduit through the air supply relay pipe,
When liquid feeding is performed, the balloon is inflated when the compressed gas discharged from the compressed gas discharge port is guided to the branch pipe, and the liquid in the tank is supplied to the air in the second space. An endoscopic air / liquid feeding device characterized by flowing through the liquid feeding conduit through the liquid feeding relay pipe by pressurization . Endoscopic air supply / liquid supply for discharging the gas and liquid from the distal end portion of the endoscope through gas and liquid, respectively, through an air supply pipe and a liquid supply pipe formed in the endoscope A device,
A pump for sucking outside air and discharging compressed gas;
A tank containing the liquid;
An air supply relay pipe for communicating the compressed gas discharge port of the pump and the air supply pipe line;
A branch pipe branched from the air supply relay pipe and extending into the tank;
A liquid-feeding relay pipe that connects the inside of the tank and the liquid-feeding pipe line;
An inflatable / shrinkable balloon attached to the tip of the relay pipe for liquid feeding,
The tank is sealed except for the branch pipe and the relay pipe for liquid feeding, and the liquid is stored in the balloon in the tank,
When performing air supply, the compressed gas discharged from the compressed gas discharge port flows through the air supply conduit through the air supply relay pipe,
When liquid feeding is performed, the balloon is contracted by the compressed gas discharged from the compressed gas discharge port being guided to the branch pipe, and the liquid in the balloon passes through the liquid feeding relay pipe. An endoscopic air / liquid feeding device characterized by flowing in the liquid feeding conduit.   The endoscopic air supply / liquid supply device according to claim 1, wherein the balloon is made of a rubber elastic body. An air supply conduit for discharging gas from the tip;
A liquid feed conduit for discharging liquid from the tip, and a pump for sucking outside air and discharging compressed gas;
A tank containing the liquid;
An air supply relay pipe for communicating the compressed gas discharge port of the pump and the air supply pipe line;
A branch pipe branched from the air supply relay pipe and having a tip extending into the tank;
Wherein a balloon that is mounted so as to communicate with the tip of the branch pipe, the tank, an expansion deflatable balloon be divided into a first space and a balloon outside the second space including the internal balloon ,
A liquid feed relay pipe extending from the upper part of the tank to the inside of the tank and communicating the inside of the tank and the liquid feed pipe line;
The tank is sealed except for the branch pipe and the relay pipe for liquid feeding, and the liquid is stored in the second space outside the balloon in the tank,
When performing air supply, the compressed gas discharged from the compressed gas discharge port flows through the air supply conduit through the air supply relay pipe,
When liquid feeding is performed, the balloon is inflated when the compressed gas discharged from the compressed gas discharge port is guided to the branch pipe, and the liquid in the tank is supplied to the air in the second space. A portable endoscope characterized by flowing through the liquid supply conduit through the liquid supply relay pipe by pressurization . An air supply conduit for discharging gas from the tip;
A liquid feed conduit for discharging liquid from the tip, and a pump for sucking outside air and discharging compressed gas;
A tank containing the liquid;
An air supply relay pipe for communicating the compressed gas discharge port of the pump and the air supply pipe line;
A branch pipe branched from the air supply relay pipe and extending into the tank;
A liquid-feeding relay pipe that connects the inside of the tank and the liquid-feeding pipe line;
An inflatable / shrinkable balloon attached to the tip of the relay pipe for liquid feeding,
The tank is sealed except for the branch pipe and the relay pipe for liquid feeding, and the liquid is stored in the balloon in the tank,
When performing air supply, the compressed gas discharged from the compressed gas discharge port flows through the air supply conduit through the air supply relay pipe,
When liquid feeding is performed, the balloon is contracted by the compressed gas discharged from the compressed gas discharge port being guided to the branch pipe, and the liquid in the balloon passes through the liquid feeding relay pipe. A portable endoscope characterized by flowing through the liquid supply conduit. Endoscopic air supply / liquid supply device for discharging gas and liquid from the distal end of the endoscope through gas and liquid respectively through an air supply pipe and a liquid supply pipe formed in the endoscope Because
A container containing the liquid;
A gas transmission tube extending into the container;
A space varying member attached to communicate with the distal end portion of the gas transmission pipe, wherein the liquid inside the sealed container is disposed between the first space without the liquid in the space varying member and the outside of the space varying member. An inflatable space varying member that divides into a second space with the liquid;
A liquid transmission pipe extending from the upper part of the container into the container and communicating the liquid supply conduit with the second space;
A gas liquid supply means for flowing the gas to the air supply conduit at the time of air supply, and for sending the gas to the container via the gas transmission tube at the time of liquid supply;
The gas liquid supply means supplies gas to the first space, expands the space changing member, and guides the liquid to the liquid supply conduit by pressurization of the gas in the second space. An air supply / liquid supply device for endoscopes. An air supply conduit for discharging gas from the tip;
A liquid supply conduit for discharging liquid from the tip;
Means for discharging the gas and the liquid from the distal end portion of the endoscope through the gas and the liquid to the air supply line and the liquid supply line, respectively;
A container containing the liquid;
A gas transmission pipe extending to the first space;
A space varying member attached to communicate with the distal end portion of the gas transmission pipe, wherein the liquid inside the sealed container is disposed between the first space without the liquid in the space varying member and the outside of the space varying member. An inflatable space varying member that divides into a second space with the liquid;
A liquid transmission pipe extending from the upper part of the container into the container and communicating the liquid supply conduit with the second space;
A gas liquid supply means for flowing the gas to the air supply conduit at the time of air supply, and for sending the gas to the container via the gas transmission tube at the time of liquid supply;
The gas liquid supply means supplies gas to the first space, expands the space changing member, and guides the liquid to the liquid supply conduit by pressurization of the gas in the second space. A portable endoscope characterized by this. Endoscopic air supply / liquid supply for discharging the gas and liquid from the distal end portion of the endoscope through gas and liquid, respectively, through an air supply pipe and a liquid supply pipe formed in the endoscope A device,
A pump for discharging the gas;
A tank containing the liquid;
An air supply relay pipe for communicating the gas discharge port of the pump and the air supply pipe line;
A branch pipe branched from the air supply relay pipe and having a tip extending into the tank;
Wherein a balloon that is attached to the distal end portion and communicating the branch pipe, the sealed said tank, expansion and contraction can be divided into a first space and a balloon outside the second space including the internal balloon A balloon and
A liquid feed relay pipe extending from the upper part of the tank to the inside of the tank and connecting the inside of the tank and the liquid feed pipe line;
A gas flow direction selection means for selectively supplying the gas from the pump to either the air supply pipe line or the branch pipe;
The tank has a sealing member that seals the tank except for the liquid feeding relay pipe and the branch pipe,
The endoscope air / liquid feeding device, wherein the liquid is stored in the second space outside the balloon in a state containing air in the tank. Endoscopic air supply / liquid supply for discharging the gas and liquid from the distal end portion of the endoscope through gas and liquid, respectively, through an air supply pipe and a liquid supply pipe formed in the endoscope A device,
A pump for discharging the gas;
A tank containing the liquid;
An air supply relay pipe for communicating the gas discharge port of the pump and the air supply pipe line;
A branch pipe branched from the air supply relay pipe and extending into the tank;
A liquid-feeding relay pipe that connects the inside of the tank and the liquid-feeding pipe line;
An inflatable and contractible balloon attached to the tip of the relay pipe for liquid feeding;
A gas flow direction selection means for selectively supplying the gas from the pump to either the air supply pipe line or the branch pipe;
The tank has a sealing member that seals the tank except for the branch pipe and the relay pipe for liquid feeding,
An endoscopic air supply / liquid supply apparatus, wherein the liquid is stored in the balloon in the tank. An air supply conduit for discharging gas from the tip;
A liquid feed conduit for discharging the liquid from the tip, and a pump for discharging the gas;
A tank containing the liquid;
An air supply relay pipe for communicating the gas discharge port of the pump and the air supply pipe line;
A branch pipe branched from the air supply relay pipe and having a tip extending into the tank;
Wherein a balloon that is attached to the distal end portion and communicating the branch pipe, the sealed said tank, expansion and contraction can be divided into a first space and a balloon outside the second space including the internal balloon A balloon and
A liquid feed relay pipe extending from the upper part of the tank to the inside of the tank and connecting the inside of the tank and the liquid feed pipe line;
A gas flow direction selection means for selectively supplying the gas from the pump to either the air supply pipe line or the branch pipe;
The tank has a sealing member that seals the tank except for the liquid feeding relay pipe and the branch pipe,
The portable endoscope, wherein the liquid is stored in the tank in a state containing air in the second space outside the balloon. An air supply conduit for discharging gas from the tip;
A liquid feed conduit for discharging the liquid from the tip, and a pump for discharging the gas;
A tank containing the liquid;
An air supply relay pipe for communicating the gas discharge port of the pump and the air supply pipe line;
A branch pipe branched from the air supply relay pipe and extending into the tank;
A liquid-feeding relay pipe that connects the inside of the tank and the liquid-feeding pipe line;
An inflatable and contractible balloon attached to the tip of the relay pipe for liquid feeding;
A gas flow direction selection means for selectively supplying the gas from the pump to either the air supply pipe line or the branch pipe;
The tank has a sealing member that seals the tank except for the branch pipe and the relay pipe for liquid feeding,
The portable endoscope, wherein the liquid is stored in the balloon in the tank. Endoscopic air supply / liquid supply device for discharging gas and liquid from the distal end of the endoscope through gas and liquid respectively through an air supply pipe and a liquid supply pipe formed in the endoscope Because
A container containing the liquid;
A gas transmission tube extending to the container;
A space varying member attached to communicate with the tip of the liquid transmission pipe, wherein the sealed container is filled with the first space without the liquid outside the space varying member and the space varying member. A shrinkable space varying member that divides into a second space with the liquid;
A liquid transmission pipe that communicates the liquid feeding conduit with the second space;
A gas liquid supply means for flowing the gas to the air supply conduit at the time of air supply, and for sending the gas to the container via the gas transmission tube at the time of liquid supply;
The gas liquid supply means, air supply for an endoscope, characterized in that directing said to first gas to the space by supplying feeding said Thus the liquid to be contracting the spatial variation member liquid conduit・ Liquid feeding device. An air supply conduit for discharging gas from the tip;
A liquid supply conduit for discharging liquid from the tip;
Means for discharging the gas and liquid from the endoscope tip portion through the respective gas and liquid in the air supply conduit and liquid feed conduit,
A container containing the liquid;
A gas transmission tube extending into the container ;
A space varying member attached to communicate with the tip of the liquid transmission tube, wherein the liquid inside the sealed container has a liquid-free first space outside the space varying member and the space varying member. A shrinkable space varying member that divides into a second space with the liquid;
A liquid transmission pipe that communicates the liquid feeding conduit with the second space;
A gas liquid supply means for flowing the gas to the air supply conduit at the time of air supply, and for sending the gas to the container via the gas transmission tube at the time of liquid supply;
The gas liquid supply means, the first portable endoscope a result the liquid to gas supplies to shrink the space variation member, characterized in that leads to the liquid feed conduit to the space.

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