JPH0810216A - Air feeding and water feeding device of endoscope - Google Patents

Abstract

PURPOSE:To make it possible to increase the supply amt. of fluid, such as washing water or pressurized air, to be supplied via on air feed route and water feed route and to maintain the strength of tubes constituting such air feed route and water feed route by forming the air and water feed routes with the tubes which are thinner-in thickness and larger in inside diameter than a tube of air/water feeding path. CONSTITUTION:The tube 30 for air feeding of the air feed passage 11 to be connected via a confluent pipe 32 to the tube 33 for air and water feeding and the tube 31 for water feeding constituting the water feed passage 12 are so formed as to be thinner in thickness and larger in inside diameter than the tube 33 for air and water feeding constituting the air feeding and water feeding path 10 of the air feed route and water feed route formed in an endoscope, by which the flow rate for supply is increased. In addition, the tube 33 for feeding air and water is formed thick, by which the generation of buckling, deformation, etc., is prevented even if the tube is bent at a large angle within the angle part.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air / water supply device provided for cleaning a lens surface of an observation window attached to an insertion portion of an endoscope.

[0002]

2. Description of the Related Art An illumination window for illuminating an object to be observed is provided at the distal end of an insertion portion of an endoscope, and
An observation window is provided for acquiring an image of this observation target portion. An objective lens or a cover lens covering the objective lens is attached to the observation window, and a solid-state image pickup device such as a CCD is provided at an image forming portion of the objective lens, or an incident end of an image guide is exposed. . Since the insertion portion is inserted into the body cavity of the patient, the observation window provided at the tip of the insertion portion may be contaminated with body fluid or the like, making it difficult to observe the inside of the body cavity. For this reason, the endoscope is provided with an air / water supply device for cleaning the lens surface of the observation window.

The air / water supply device comprises an air supply source and a water supply source provided outside the endoscope, and an air supply path and a water supply path. In the endoscope, the air supply path and the water supply path respectively connected to the air supply source and the water supply source are guided as an air supply passage and a water supply passage from the light guide flexible portion to the insertion portion via the main body operation portion. . Further, the main body operation part is provided with an air supply / water supply valve connecting the air supply passage and the water supply passage, and this air supply / water supply valve is operated by a finger of a hand holding the main body operation part to supply air.・ When the water supply is stopped,
It is possible to switch between three positions of an air supply state and a water supply state.

It is necessary to make the diameter of the insertion portion of the endoscope as small as possible. In particular, since the distal end hard portion is provided with an illumination window and an observation window each equipped with a lens, and a treatment tool outlet for leading out a treatment tool such as forceps is opened, It is not possible to obtain a space for disposing the spray nozzle and the spray nozzle for water supply. In addition, the filling rate in the angle section connected to the hard tip section must be suppressed as low as possible. Considering the above,
At a position close to the angle part in the insertion part, the air supply passage and the water supply passage are joined to form an air supply water supply passage, and this air supply water supply passage is connected to an injection nozzle provided so as to face the lens surface of the observation window. It is configured to do.

[0005]

By the way, whether it is the air supply path or the water supply path, the length of the endoscope is long, such as the light guide flexible part, the operation part of the main body and the insertion part. Since the conduit resistance is significantly increased, the amount of fluid supplied to the injection nozzle is reduced.
Therefore, in order to reduce the conduit resistance and increase the flow rate, the passage cross-sectional areas of the air supply path and the water supply path may be made as large as possible. For this purpose, it is conceivable to increase the diameters of the flexible tubes forming the air supply passage, the water supply passage, and the air supply / water supply passage. However, increasing the diameter of the tube naturally increases the diameter of the entire insertion portion, which is not preferable. The passage cross-sectional area can also be increased by reducing the wall thickness while keeping the outer diameter of the tube unchanged. However, if the tube is made thin, the strength of the tube is reduced, and there is a high risk of buckling or deformation.

The present invention has been made in view of the above points, and it is an object of the present invention to increase the amount of fluid supplied through the air supply path and the water supply path, and to provide these air supply paths. And to maintain the strength of the tube that constitutes the water supply path.

[0007]

In order to achieve the above-mentioned object, the present invention joins an air supply passage and a water supply passage which are inserted from a flexible portion in an insertion portion of an endoscope to a portion in the vicinity of an angle portion. In the air / water supply device configured to connect to the nozzle provided in the tip hard portion, the air / water supply path is formed of a tube having a predetermined wall thickness and inner diameter. The gas supply passage and the water supply passage are formed by tubes having a smaller wall thickness and a larger inner diameter than the air supply and water supply passage.

[0008]

In the insertion portion, the angle portion bends at a large angle, so the air / water supply passage arranged at this portion must have strength. For this reason, the thickness of the tube forming the air / water supply channel is sufficiently increased to improve its strength. In order to improve the strength, it is preferable to increase the diameter of the tube, but since the filling rate is high in the angle portion, there is a limit to increase the diameter. Therefore, since the air / water supply channel is located in the angle portion, the configuration of the tube in this portion is not particularly changed. However, although the air supply passage and the water supply passage are flexible, since they are not bent at a large angle unlike the angle portion, they need not be as strong as the inside of the angle portion. Moreover, the air supply passage and the water supply passage are connected to the air supply / water supply passage immediately before the angle portion.

Therefore, the tubes forming the air supply passage and the water supply passage are made thin to increase the inner diameter thereof. Since most parts of the air supply path and the water supply path are the air supply path and the water supply path, increasing the passage cross-sectional area of this part reduces the conduit resistance and increases the fluid supply amount. it can. As a result, although the cross-sectional area of the air / water supply channel is reduced, this air / water supply channel is only an extremely short length of the total length of the air / water supply channel and the water / water supply channel. Even if it is throttled by the pneumatic water supply channel, the flow rate can be increased in the portion before that, and the pipeline resistance can be reduced as a whole, so that the flow rate supplied to the injection nozzle can be considerably increased. .

[0010]

Embodiments of the present invention will be described below with reference to the drawings. First, FIG. 1 shows a configuration of an air / water supply device for an endoscope. In the figure, reference numeral 1 denotes an endoscope, and the endoscope 1 is composed of a main body operation part 2, an insertion part 3 into a body cavity, and a light guide flexible part 4. The insertion portion 3 has a flexible portion 3a for most of its length from the side where the insertion portion 3 is connected to the main body operating portion 2, and an angle portion 3b is continuously connected to the flexible portion 3a.
Further, a hard tip portion 3c is connected to the angle portion 3b.

As shown in FIG. 2, the distal end hard portion 3c of the insertion portion 3 is provided with an illumination window 5, an observation window 6 and a treatment instrument outlet 7, and the cleaning window is directed toward the observation window 6. An injection nozzle 8 for supplying a fluid is provided. An air / water passage 10 is connected to the injection nozzle 8, and the air / water passage 10 extends from the angle portion 3b to a portion slightly inside the flexible portion 3a in the insertion portion 3, and the flexibility An air supply passage 11 and a water supply passage 12 at a position inside the portion 3a.
It is divided into The air supply passage 11 and the water supply passage 12 extend to the connector portion 4a provided at the tip of the light guide flexible portion 4 via the main body operating portion 2. In addition, the main body operation unit 2 is
An air / water supply valve 13 for switching between three states of an air supply state and a water supply state is attached, and this air / water supply valve 13 can be operated by a finger of a hand holding the main body operation unit 2 of the endoscope 1. Has become.

Reference numeral 20 is an air pump 20, 2 as an air supply source.
1 is a water supply tank as a water supply source, and an air pump 2
Pressurized air supplied from 0 is detachably connected to the air supply passage 11 via an air pipe 22. A tank pressurizing pipe 23 is connected to the air pipe 22, and a tip portion of the tank pressurizing pipe 23 is opened above the liquid surface of the water supply tank 21. A water supply pipe 24 is opened below the liquid level in the water supply tank 21, and the other end of the water supply pipe 24 is connected to the water supply passage 12. By supplying pressurized air into the water supply tank 21 via the tank pressurizing pipe 23 to pressurize the liquid surface of the water supply tank 21, water can be supplied toward the water supply passage 12 via the water supply pipe 24. Has become.

FIG. 3 shows the structure of the portion from the vicinity of the tips of the air supply passage 11 and the water supply passage 12 to the injection nozzle 8. In the figure, 30 is an air supply tube which constitutes the air supply passage 11, 31 is a water supply tube which constitutes the water supply passage 12, and the air supply tube 30 and the water supply tube 31 are fed by a merging pipe 32. It is connected to an air / water supply tube 33 that constitutes the air / water supply passage 10. Further, a fluid passage 34 is formed in the distal end hard portion 3c of the insertion portion 3, and the proximal end portion of the injection nozzle 8 is inserted into the distal end side of the fluid passage 34 and the connecting pipe is connected to the proximal end side. Three
5 is attached, and the air / water supply tube 33 is connected to the connection pipe 35.

Since the air / water supply tube 33 constituting the air / water supply passage 10 is located in the angle portion 3b, it should be provided with a considerable wall thickness in order to have sufficient strength against bending. There is. Further, since the other member is provided in the angle portion 3b, the outer diameter dimension thereof is restricted to some extent. On the other hand, the air supply tube 3 that constitutes the air supply passage 11 connected to the merging pipe 32
0 and the water supply tube 31 forming the water supply passage 12,
Since it is not bent so much, it is formed to be considerably thinner than the air / water supply tube 33 so as to increase the cross-sectional area of the passage inside. Here, the outer diameter of the air / water feeding tube 33 is D ₁ , and the wall thickness is T
₁ , the inner diameter is d _1, and the outer diameter of the air supply tube 30 and the water supply tube 31 is D ₂ , the wall thickness is T ₂ , and the inner diameter is d _2.
And D ₁ = D ₂ = 1.4 mm and the wall thickness T
₁ is 0.25 mm and the wall thickness T ₂ is 0.2 mm, the inner diameter d ₁ is 0.9 mm, while the inner diameter d ₂ is 1.
0 mm. Therefore, the passage cross-sectional area can increase the flow passage cross-sectional areas of the air-feeding tube 30 and the water-feeding tube 31 by about 1.24 times as much as that of the air-feeding water-feeding tube 33.

The air / water supply device is constructed as described above, and while the insertion portion 3 is inserted into the body cavity to carry out inspection / diagnosis, the observation window 6 is contaminated with body fluid or the like. When it is soiled, the air / water supply valve 13 is operated to first supply the cleaning water to the spray nozzle 8 to spray the lens surface mounted on the observation window 6. This makes it possible to wash away contaminants from the lens surface. After that, by switching the air / water supply valve 13 to the air supply state, pressurized air is ejected from the ejection nozzle 8 to remove water droplets adhering to the lens surface.

In order to efficiently perform the above-mentioned lens surface cleaning, it is necessary to supply the cleaning water and the pressurized air as much as possible. The supply amounts of the wash water and the pressurized air depend on the passage cross-sectional areas of the air supply passage and the water supply passage. Air passage 1
1 and tubes 30 and 31 constituting the water supply passage 12
Has a relatively large passage cross-sectional area, so that the flow rate at the portion up to the confluence pipe 32 can be increased. However, the inner diameter of the portion beyond the confluence pipe 32, that is, the portion of the air / water feeding tube 33 is
Although it is smaller than 31, the length of this portion is extremely short, for example, 150 mm or less, so that even if the flow path is narrowed at this portion, the entire inner diameter of the air / water feeding tube 33 is reduced. Compared with the same size as
By making it possible to significantly reduce the pipeline resistance,
A considerable increase in the flow rate can be achieved.

The angle portion 3b is designed to be bent in order to direct the tip hard portion 3c in a desired direction, and the bending angle of the angle portion 3b is 18, for example.
It may be an extremely large angle such as 0 ° or more. Moreover, a light guide, a treatment tool insertion channel, an image guide (in the case of an electronic endoscope, a signal cable connected to a solid-state image sensor), etc. are inserted in the angle portion 3b, and the large angle as described above is used. The air / water supply tube 33 provided at this portion even when curved at
Since it is formed thick, it is possible to prevent buckling and deformation even if it is bent at such a large angle.

On the other hand, the flexible portion 3a of the insertion portion 3 is flexible, but is not greatly bent like the angle portion 3b. Therefore, the air supply tube 30 and the water supply tube 31 provided at this portion do not need to have the same strength as the inside of the angle portion 3b, and moreover, the flexible portion 3a.
The confluence pipe 32 is attached to the tip of the
Therefore, even if the air feeding tube 30 and the water feeding tube 31 are thinned to increase the inner diameters,
There is no inconvenience such as deformation of these. In addition, the fact that the wall thickness of the air supply tube 30 and the water supply tube 31 can be made thin also makes it possible to make their outer diameters small, and thus the filling rate in the flexible part 3a can be suppressed to be low. Become.

[0019]

As described above, according to the present invention, since the air supply passage and the water supply passage are formed of tubes having a thinner wall and a larger inner diameter than the air supply water supply passage, the air supply passage and the water supply passage are supplied through the air supply passage and the water supply passage. The amount of fluid such as cleaning water and pressurized air can be increased, and the lens surface of the observation window can be efficiently cleaned, and the strength of the tubes that make up the air supply path and water supply path can be maintained. There is an effect such as being able to.

[Brief description of drawings]

FIG. 1 is a configuration explanatory view of an air / water supply device of an endoscope.

FIG. 2 is an external view of a distal end portion of the endoscope.

FIG. 3 is a cross-sectional view showing a configuration from a confluence portion of an air supply path and a water supply path to a tip portion.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Endoscope 2 Main body operation part 3 Insertion part 6 Observation window 8 Injection nozzle 10 Air supply / water supply path 11 Air supply path 12 Water supply path 30 Air supply tube 31 Water supply tube 32 Confluence pipe 33 Air supply / water supply tube

Claims (2)

[Claims] 1. An air supply / water supply path is formed by merging an air supply path and a water supply path, which are inserted from a soft part in an insertion part of an endoscope to a portion in the vicinity of an angle part, to form an air supply / water supply path. In the air / water supply device connected to the injection nozzle provided in the section, the air / water supply passage is formed by a tube having a predetermined wall thickness and inner diameter, and the air / water supply passage and the water supply passage are An air / water supply device for an endoscope, characterized in that the tube is thinner than the water channel and is formed of a tube having a large inner diameter. 2. An outer diameter of the air supply passage and the water supply passage and an outer diameter of the air supply water supply passage are substantially the same, or the air supply water supply passage is formed larger. Item 1. The air / water supply device for an endoscope according to Item 1.