JPH07313444A - Gas feeder for endoscope - Google Patents

Abstract

PURPOSE:To make it possible to feed the cleanest possible gas by sterilizing the gas to be fed, thereby cleaning the gas. CONSTITUTION:This gas feeder for an endoscope for feeding the gas to be sent into the endoscope includes a gas feed pump 12 which has a suction port 15 and a gas feed pipeline 17 and delivers the gas taken in from this suction port 15 to the gas feed pipeline 17 and a means which takes the gas into this gas feed pump 12 and sterilizes the gas to be delivered. Since the sterilized gas is fed and enters the inside of the living body according thereto, the cleaner endoscopy is realized.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an endoscope air feeding device for feeding gas into an endoscope.

[0002]

2. Description of the Related Art A general endoscope light source device not only incorporates an illumination light source used for illuminating an endoscope into its housing, but also supplies air and water through the endoscope. The air supply source of is also incorporated. When the endoscope is used by inserting it into the body cavity of a patient, the observation window provided at the distal end of the endoscope becomes dirty due to the adherence of body fluid or the like, which hinders observation. Therefore,
Wash the observation window by sending water and then blow off water droplets by sending air so that clear observation is possible.

However, the air sent out from the air supply source of the endoscope light source device is the air in the housing of the endoscope light source device, and in the past, the dirt or the like of the air is positively positively affected. There was no means to remove it.

[0004]

In the air supply method of the air supply device for endoscopes in the related art, the air taken in from the housing of the light source device is sent out by the air supply means, but in the housing of the light source device. The air just passes through the duct and is sent from the connector on the endoscope side to the endoscope, and there is no means for positively removing dirt and the like. The gas to be sent is
Since it enters the patient's body, it has recently been desired to be cleaner.

Therefore, it is possible to install a filter at a location corresponding to the intake / intake port of the air supply pump in the air supply source so as to remove dust and dirt so as not to enter the air supply pump. It is impossible to sterilize and sterilize actively with such a filter. Further, even if a filter for sterilization or sterilization is provided, its maintenance is troublesome.

The present invention has been made in view of the above problems, and its purpose is to sterilize the gas to be fed.
An object of the present invention is to provide an endoscope air supply device that can be cleaned by sterilization to perform clean air supply as much as possible.

[0007]

DISCLOSURE OF THE INVENTION The present invention relates to an endoscope air-sending device for sending gas to be sent to an endoscope, which has a gas-sucking port and a gas-sending conduit and takes in the gas from the gas-sucking port. Is provided with an air supply means for sending out the air to the air supply line, and a means for sterilizing the gas taken in by the air supply means and sent out. According to the present invention, a sterilized gas is sent and enters the body, so that a cleaner endoscopy can be realized.

[0008]

【Example】

(First Embodiment) This embodiment relates to an endoscope light source device to which the present invention is applied, and the endoscope light source device is configured as shown in FIG. That is, in FIG. 1, reference numeral 1 denotes an outer case that is a housing of the endoscope light source device.
The front panel 2 is provided with a connector receiver 5 for connecting a connector 4 provided at an extension tip of a so-called light guide cable 3 of an endoscope (scope).

A light guide 6 made of optical fiber and an air supply tube 7 are inserted in the light guide cable 3 of the endoscope, and a water supply tube (not shown) is incorporated if necessary. . The light guide 6 reaches a guide tube 8 provided in the connector 4. The air supply tube 7 communicates with an air supply pipe 9 provided in the connector 4.

An outer case 1 which is a casing of a light source device for an endoscope.
Inside, a xenon lamp 11 as a light source of an illumination light source system and an air supply pump 12 as an air supply means in an air supply source system are provided. With respect to the light emitted from the xenon lamp 11, only the ultraviolet rays are reflected by the ultraviolet reflection filter 13 provided in the middle of the emission optical path L in the direction perpendicular to the optical axis,
The other light components pass through the ultraviolet reflection filter 13. Then, the transmitted light is transmitted to the endoscope side by being condensed and incident on the incident end of the light guide 6 through the condenser lens 14.

On the other hand, the air supply pump 12, which is an air supply source, sucks in and takes in the air in the outer case 1 through an intake port (gas intake port) 15, and pressurizes the gas through the discharge port 16 through an air supply line. It is designed to be sent to 17. When the connector 4 is connected to the connector receiver 5, the air supply conduit 17 is connected to the air supply pipe 9 provided in the connector 4.

The air supply conduit 17 is arranged relatively near the outgoing light path L of the illumination light source system and at a position for receiving the ultraviolet rays reflected by the ultraviolet reflection filter 13. The air supply conduit 17 in this embodiment is arranged in parallel along the optical axis of the emission optical path L of the illumination light source system. Also,
The air supply conduit 17 is made of a material that transmits the received ultraviolet rays. Therefore, with these configurations, the gas flowing through the air supply line 17 is exposed to the ultraviolet rays, and means for sterilizing the gas is created. In this specification, sterilization includes sterilization, and sterilization means sterilization.

Next, the operation of the air supply device for an endoscope will be described. When the connector 4 of the light guide cable 3 of the endoscope is connected to the connector receiver 5 and a power switch (not shown) is turned on, the xenon lamp 11 which is a light source of the illumination system is turned on, and at the same time, the air supply which is the air supply source of the air supply system is supplied. The pump 12 operates.

When the air supply pump 12 is operated, the gas in the outer case 1 is sucked through the suction port 15 and pressurized, and is discharged from the discharge port 16 to the air supply conduit 17. Then, the air is sent to the endoscope-side air supply tube 7 through the air supply pipe 9 of the connector 4 and is supplied to the patient's body.

At this time, the light emitted from the xenon lamp 11 and transmitted through the ultraviolet reflection filter 13 is condensed and incident on the incident end of the light guide 6 through the condenser lens 14 to enter the endoscope side. Sent to.

The ultraviolet light emitted from the xenon lamp 11 is reflected by the ultraviolet reflection filter 13 provided in the emission optical path L in a direction perpendicular to the optical axis thereof. The reflected ultraviolet rays pass through the air supply conduit 17 and are applied to the gas flowing through the air supply conduit 17. The gas flowing through the air supply conduit 17 is exposed to ultraviolet rays and is sterilized. The sterilized gas is sent to the endoscope side and sent to the body.

According to this embodiment, however, the gas that has been sterilized in advance enters the body, so that a more hygienic endoscopic examination can be realized. Further, although a filter may be provided at the suction port 15 of the air supply pump 12, according to this embodiment, the gas for air supply can be sterilized, so that the filter need not be used. In this case, maintenance for the filter is unnecessary. Instead of the ultraviolet reflection filter 13, an ultraviolet transmission filter may be used and the transmitted ultraviolet rays may be used for sterilization. (Second Embodiment) This embodiment also relates to a light source device for an endoscope to which the present invention is applied, and a schematic configuration of the light source device for an endoscope is shown in FIG. Similar to the case of the first embodiment described above,
The front panel 2 of the outer case 1 which is a housing of the endoscope light source device is provided with a connector receiver 5 for connecting a connector 4 provided at an extension tip of the light guide cable 3 of the endoscope (scope) 20. Has been.

An air supply tube is inserted in the light guide cable 3 of the endoscope in addition to the light guide made of an optical fiber or the like. Light guide is connector 4
It reaches the guide tube 8 provided in the. The air supply tube communicates with the air supply pipe 9 provided in the connector 4.

An outer case 1 which is a casing of a light source device for an endoscope.
Each element of the illumination light source system and the air supply source system is provided inside. That is, the power supply 21 and the lamp 23 that is turned on by the lamp lighting means 22 are provided, and the air supply means 24 including a pump that sucks the air in the outer case 1 and pressurizes and discharges the air is provided. Has been. An air supply conduit 26 communicating with an air supply pipe 9 provided in the connector 4 is connected to the discharge port of the air supply unit 24. Lamp lighting means 2
2 and the air supply means 24 are controlled by the control means 27.

As shown in FIG. 3, the lamp 23 includes two heat sinks 28a and 28b in order to radiate the heat generated therein. In order to sterilize the air supply through the air supply conduit 26, in this embodiment, the air supply conduit 26 is used.
The middle part of the above is introduced into each heat sink 28a, 28b in a meandering state. That is, the intermediate portion 26a on the upstream side near the air supply means 24 is passed inside the first heat sink 28a, and the intermediate portion 26b on the downstream side is passed inside the second heat sink 28b. Also, from the air feeding means 24 to the first
Of the heat sink 28a, the portion 29b of the first heat sink 28a to the second heat sink 28b, and the portion 29c of the second heat sink 28b to the connector receiver 5 of the heat resistance of the electrical insulator. It is specially formed as an air supply line 26.

Therefore, when the air supply means 24 is operated by the signal of the control means 27, the outer case 1 of the endoscope light source device is operated.
The air inside is taken in from the gas intake of the air supply means 24, and is sent out to the air supply pipeline 26 in a pressurized state. The upstream midway portion 26a of the air feeding conduit 26 introduced into the first heat sink 28a and the midway downstream portion 26b of the air feeding conduit 26 introduced into the second heat sink 28b are connected to the lamp 23. Heated by the heat sinks 28a and 28b which are heated by the heat radiation of the air, and heating the air sent out through the air supply conduit 26, as a result of being sterilized and sterilized, after that, the air is sent through the endoscope 20 and into the body cavity. Be worried.

According to this embodiment, each heat sink 28
When the air passes through the portion of the air supply pipe line 26 disposed in a and 28b, the air is heated. As a result, air sterilized and sterilized by the heat of the heat sinks 28a and 28b is obtained. In addition, the air supply line 2 is provided in the heat sinks 28a and 28b.
By providing 6, the heat dissipation surface areas of the heat sinks 28a and 28b are increased, and the heat dissipation effect of the lamp 23 is increased,
The performance of the light source device for an endoscope is improved. (Third Embodiment) This embodiment shows a modification of the above-mentioned second embodiment. That is, as shown in FIG. 4, the lamps 23 for illumination are heated close to the heat sinks 28a, 28b for heat dissipation,
At least an intermediate portion of the air supply conduit 26 for guiding the air sent out from the air supply means 24 is arranged, and the heat dissipation from the heat sinks 28a and 28b heats the air supply conduit 26. . Of course, the air supply line 26 does not interfere with the illumination light of the lamp 23 and does not interfere with other devices.
It is desirable to provide it in the vicinity of. Further, the air supply line 26
The arrangement and configuration are such that the heat sinks 28a and 28b can be attached and detached while fixing the.

However, also in this embodiment, as in the case of the second embodiment described above, when the air feeding means 24 is operated by the signal of the control means 27, the inside of the outer case 1 of the endoscope light source device is operated. The air is sent out to the air supply conduit 26 by the air supply means 24. Since the midway portion of the air supply conduit 26 is disposed close to the heat sinks 28a and 28b, it is heated by the heat radiation from the heat sinks 28a and 28b that is heated for the radiation of the lamp 23 for illumination. Therefore, the air sent out through the air supply conduit 26 is heated, and as a result, the air is sterilized and sterilized, and then passes through the endoscope 20 and is sent into the body cavity of the patient.

According to the structure of this embodiment, however, the air that has been heated by the heat radiation of the lamp 23 and that has passed through the air supply conduit 26 is heated, so that sterilized and sterilized air can be obtained. In addition, the heat sinks 28a and 28b on the lamp 23 side
No special processing or modification is required, and the lamp 23 and the heat sinks 28a and 28b can be easily attached and detached. (Fourth Embodiment) In the configurations of the second to third embodiments described above, as means for heating the air supply conduit 26, heat sinks 28a, 2a for radiating heat of the lamp 23 for illumination.
8b was used to utilize the heat, but in this embodiment, the heater 30 is utilized as shown in FIG. Other configurations are similar to those of the second or third embodiment.

Between the air feeding means 24 for feeding air and the connector receiver 5, a heater 3 as a heating means for heating the air feeding pipeline 26 is provided in the middle of the air feeding pipeline 26.
0 is set. The heater 30 may be of any type as long as it can heat the air supply conduit 26, but an electric heater is used here. The heater 30 here is held by a support means (not shown) made of a heat-resistant material in a state of being embedded in a block 31 formed of a material having good thermal conductivity, for example, a metal such as iron or copper. Air line 26
The intermediate part of the is embedded in the block 31.

If the heat of the heater 30 can be transferred to the air supply conduit 26, the heat transfer method is not limited to the case of using the block 31. For example, the heater 30
May be attached to the air supply pipe line 26 to directly conduct heat, or to transfer heat using convection through a liquid heat transfer medium, for example, using a heat pipe. It may be.

Also in this embodiment, the above-mentioned second to third
As in the case of the above embodiment, when the air supply means 24 is operated by the signal of the control means 27, the air in the outer case 1 of the endoscope light source device is sent to the air supply conduit 26 by the air supply means 24. . A heater 30 is provided in the middle of the air supply line 26.
Heated by. Therefore, as a result of heating the air sent out through the air supply line 26, the air is sterilized and
It is sterilized and then passed through the endoscope 20 into the body cavity of the patient.

In this way, the air is heated by the heater 30 and passes through the air supply pipe line 26, and the air is heated to obtain sterilized air. The heater 30 can be provided inside the exterior case 1 of the endoscope light source device or outside the endoscope light source device, and can be used in a conventional endoscope light source device that does not have a sterilizing means utilizing heat. It can be easily connected and used. (Fifth Embodiment) This embodiment shows a modification of the heater 30 in the above-described fourth embodiment as shown in FIG. 6, except for the above-mentioned fourth embodiment. Is the same. That is, in this embodiment, the heater 30
To regulate the ability of heat to be transferred from the
For example, the temperature sensor 35 of the temperature detecting means is provided in the block 31 which holds both of them, and the control means 36 for controlling the heat generation amount of the heater 30 according to the value of the temperature detected by the temperature detecting means is provided. . The control unit 36 appropriately controls the heat generation amount of the heater 30 by taking into consideration the air supply amount of the air supply unit 24 such as a pump.

According to the configuration of this embodiment, the air supply line 26
Can be heated to a designated temperature at a proper specific temperature by which the air discharged through the air supply line 26 is heated.
Other functions and effects are similar to those of the above-described fourth embodiment, and the air sent out through the air supply conduit 26 is heated, and as a result, the air is sterilized and sterilized.
It is possible to insufflate through 0 into the body cavity of the patient. (Sixth Embodiment) In this embodiment, as shown in FIG. 7, an air supply device 42 is incorporated in an outer case 41 which is a casing of a light source device for an endoscope. This air supply device 42 has an air supply pump 43 as an air supply means, and the air supply pump 43 sucks the air in the outer case 41 from its suction port and pressurizes it to a carburetor 44. Send in. Vaporizer 4
4 is a gas 4 for sterilization using the sent air
5 is generated. The air supply gas 45 generated here is sent out to the endoscope from the connector receiver 47 as described above through the air supply pipe line 46. Further, air is sent to the outside of the light source device.

The vaporizer 44 is a container 48 containing an antiseptic solution.
The vaporizer 44 vaporizes the disinfecting liquid to disinfect the air from the air supply pump 43, and produces a sterilized gas 45 for air supply. As described above, a light source device for an endoscope that can supply a sterilized gas for air supply can be realized. (Seventh embodiment) This embodiment is a modification of the light source device for an endoscope in the sixth embodiment. This is an air supply instead of the disinfection vaporizer 44 as shown in FIG. Pump 4
3 is provided with a sterilizing lamp 49 for sterilizing the air sent out from the air supply pipe line 46 from 3. The air supply conduit 46 is made of a material that transmits the sterilizing light emitted by the sterilizing lamp 49.

The air delivered from the air delivery pump 43 is sterilized by a sterilizing lamp 49 while flowing through the air delivery conduit 46, and is delivered to the outside of the apparatus. As described above, a light source device for an endoscope that can supply a sterilized gas for air supply can be realized.

The one shown in FIG. 9 is a light source device for an endoscope in which an air supply device 52 is incorporated inside an exterior case 51 which is a housing. The air supply device 52 includes a container 54 containing an already sterilized air supply gas 53, an air supply pump 55 for sending out the air supply gas 53 from the container 54, and a gas 53 sent out from the air supply pump 55. Is provided with an air supply conduit 57 for guiding the connector to the connector receiver 56 as described above, and the sterilized gas for air supply 53 is sent out to the outside of the apparatus, for example, an endoscope. According to the air supply device 52, an endoscope light source device capable of supplying sterilized air supply gas can be realized. (Supplementary Note) According to the contents of the above description, the invention of the following matters is recognized. In addition to these, various modes are conceivable.

1. In an endoscope air supply device or an endoscope light source device with an air supply device that supplies gas to be sent to the endoscope, the gas taken in from the gas intake port having a gas intake port and an air supply conduit is provided. Air supply means for sending out to the air supply line,
An air supply device for an endoscope or a light source device for an endoscope, comprising: means for sterilizing a gas taken in and sent out by the air supply means.

2. 2. The endoscope air-sending device or the endoscope light-source device according to the above 1, wherein a means for sterilizing the gas is provided in the air-sending conduit. 3. The means for sterilizing the gas applies heat to the gas,
Alternatively, the endoscope air supply device or the endoscope light source device according to the above 1 or 2, which is sterilized by irradiation with ultraviolet rays.

4. The means for sterilizing the gas is to sterilize by irradiating only the ultraviolet rays from the light generated from the light source lamp of the light source device for an endoscope using the ultraviolet reflecting filter or the ultraviolet transmitting filter and irradiating the ultraviolet rays to the gas. 3. The air supply device for an endoscope according to 1 or 2 above.

5. The air supply device for an endoscope according to the above 4, wherein the gas is sterilized by the ultraviolet light by applying the ultraviolet light to an air supply line that transmits the ultraviolet light. 6. The means for sterilizing the gas is provided with a heater that heats an air supply line, and heats the gas passing through the air supply line to sterilize it, or the air supply device for an endoscope according to the above 1 or 2, Light source device for endoscopes.

7. 7. The temperature detecting means for detecting the temperature of the gas passing through the air supply pipe with the heater, and the temperature controlling means for controlling the output of the heater according to the detected temperature are added. Air supply device for endoscope or light source device for endoscope.

8. A light source lamp, a heat sink for releasing heat generated by the light source lamp, a gas intake port and an air supply line, and an air supply unit for sending out the gas taken in from the gas intake port to the air supply line, and the air supply line. A light source for an endoscope with an air supply device, characterized in that at least a part is provided inside or in the vicinity of a heat sink, and means for heating and sterilizing the gas sent out by the air sending means by heat radiation of the heat sink. apparatus.

9. 9. The light source device for an endoscope with an air supply device according to the above 8, wherein the heat sink is detachably provided. 10. 10. The light source device for an endoscope with an air supply device according to 9, wherein the air supply pipe line is provided in a position where the attachment and detachment of the heat sink is not impaired.

[0040]

As described above, according to the present invention, a sterilized gas is sent and enters the body, so that a cleaner endoscopic examination can be realized.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing a schematic configuration of a light source device for an endoscope to which a first embodiment of the present invention is applied.

FIG. 2 is an explanatory diagram showing a schematic configuration of a light source device for an endoscope to which a second embodiment of the present invention is applied.

FIG. 3 is an explanatory view schematically showing a main part of an endoscope light source device to which the second embodiment is applied.

FIG. 4 is an explanatory view schematically showing a main part of a light source device for an endoscope to which a third embodiment of the present invention is applied.

FIG. 5 is an explanatory view schematically showing a main part of an endoscope light source device to which a fourth embodiment of the present invention is applied.

FIG. 6 is an explanatory view schematically showing a main part of a light source device for an endoscope to which a fifth embodiment of the present invention is applied.

FIG. 7 is an explanatory view schematically showing a main part of a light source device for an endoscope to which a sixth embodiment of the present invention is applied.

FIG. 8 is an explanatory view schematically showing a main part of a light source device for an endoscope to which a seventh embodiment of the present invention is applied.

FIG. 9 is an explanatory diagram schematically showing a main part of a light source device for an endoscope in which an air supply device is incorporated inside an outer case.

[Explanation of symbols]

1 ... Exterior case, 3 ... Light guide cable, 4 ... Connector, 5 ... Connector receiver, 6 ... Light guide, 7 ... Air supply tube, 8 ... Guide tube, 9 ... Air supply tube, 11 ... Xenon lamp, 12 ... Air supply Pump, 13 ... UV reflection filter,
14 ... Condensing lens, 15 ... Intake port (gas intake port), 1
6 ... Discharge port, 17 ... Air supply line, 20 ... Endoscope, 21 ... Power supply, 22 ... Lamp lighting means, 23 ... Lamp, 24 ... Air supply means, 26 ... Air supply line, 27 ... Control means, 28a, 28
b ... heat sink, 30 ... heater, 36 ... control means, 4
1 ... Exterior case, 42 ... Air supply device, 43 ... Air supply pump,
44 ... Vaporizer, 45 ... Gas for air supply, 46 ... Air supply line, 4
7 ... Connector receiver, 48 ... Container, 49 ... Sterilization lamp.

Claims (1)

[Claims] 1. An air supply device for an endoscope, which supplies gas to be fed to an endoscope, and which has a gas intake port and an air supply pipe line and sends out gas taken in from the gas intake port to an air supply pipe line. An air supply device for an endoscope, comprising: a means and a means for sterilizing a gas taken into the air supply means and sent out.