JP3818688B2 - Maintenance spray container and fiberscope - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is a fiberscope used for observing and treating a diseased part of an animal such as a digestive organ or in the human body, and for removing deposits attached to the nozzle part of the flexible tube of the fiberscope. The present invention relates to a useful maintenance spray container.
[0002]
[Prior art]
The fiberscope is generally composed of an elongated flexible tube having a passage formed in the axial direction, and an operation unit that is attached to the tube and performs an endoscopic or processing operation through the passage. In addition to the optical fiber, the tube body is formed with passages such as an air / water feeding passage and a suction / forceps passage.
When the inside of the stomach or the like is observed with the fiberscope and various treatments are performed, body fluid such as blood, gastric fluid, and mucous membrane is formed inside and around the open end (nozzle portion) of the air / water passage in the tube. Adherents such as proteins invade and adhere, and solidify after using the fiberscope, causing the nozzle to become clogged and unusable. Therefore, conventionally, after using the fiberscope, the fiberscope is hung and the tube body is suspended, so that deposits such as body fluids naturally flow out from the nozzle.
[0003]
However, this method not only requires a long time to discharge the deposits such as body fluid, but also cannot completely discharge the body fluid. Moreover, since some of the deposits remain attached to the nozzle portion and solidify as they are, smooth circulation through the air / water supply passage is hindered. It is also possible to insert a thin needle-like object into the opening end of the air / water supply passage to remove the solidified substance, but the passage is a pore having an inner diameter of about 0.1 to 0.3 mm. Not only is it difficult to remove the solidified substance, but the inner wall of the passage may be damaged at the tip of the needle-like object. Further, if the passage is damaged, it is necessary to replace the nozzle portion (end member) of the expensive air / water supply passage.
[0004]
On the other hand, the nozzle of the spray container filled with the compressed gas is inserted into the other opening end of the air / water supply passage located on the opposite side of the nozzle, and the gas supply is performed by ejecting the gas from the nozzle. -It is also possible to remove deposits adhering to the nozzle part of the water supply passage. However, one end (nozzle part) of the air / water supply passage is located at the distal end of the tube, and the other end (spray nozzle insertion part) extends from the operation part. Located at the end of The light guide is provided with a light guide and an air / water supply passage. Further, the operation portion is formed with a vent hole for connecting the air / water supply passage in the light guide portion and the air / water supply passage in the pipe body by a closing operation. Therefore, in order to remove the deposits adhering to the nozzle portion, the air supply / water supply passage in the light guide portion and the air supply / water supply passage in the tubular body are made to communicate with each other by closing the vent hole of the operation portion. It is necessary to simultaneously perform the operation and the operation of inserting and pressing the spray nozzle insertion portion of the light guide portion into the nozzle of the spray container. Therefore, two workers are required, and the work for removing the deposits is extremely complicated.
[0005]
In order to solve such a problem, the present inventor has developed a spray nozzle or an auxiliary nozzle for inserting an air / water supply port into a container filled with compressed gas, and a fiberscope attached to the air / water supply port. Have proposed a fiberscope spray container provided with an insertion guide for the light guide (see Japanese Utility Model Publication Nos. 3-40250 and 3-41682). When such a spray container is used, in order to prevent gas from leaking from the air supply hole of the operation part, the air hole of the operation part communicating with the air supply / water supply passage is closed with a finger, and then the light guide The compressed gas in the spray container can be supplied to the air supply / water supply passage by a simple operation of pushing down the end portion and pressing the spray nozzle or the like. Therefore, one person can remove deposits such as bodily fluid remaining on the open end of the air / water channel of the fiberscope without damaging the passage.
[0006]
However, when the spray container is used, the end portion of the light guide is located away from the operation portion of the fiberscope. Therefore, in order to eject the compressed gas in the container from the open end of the air / water supply passage of the tube body of the fiberscope, the vent hole is closed with one hand, and the end portion of the light guide with the other hand It is necessary to push down to the inside of the spray container. That is, it is necessary to use both hands for the operation of removing the deposit, and the operability is not sufficient.
[0007]
Such a problem also occurs when olivine is deposited or deposited at the open end of the air / water supply passage. In other words, when water, especially hard water, is supplied from the light guide unit to the air / water passage of the tube through the air / water channel, the lens attached to the tip of the optical fiber is washed. Oxite deposits or accumulates at the open end, preventing smooth flow.
[0008]
[Problems to be solved by the invention]
Therefore, an object of the present invention is to provide a fiberscope capable of reliably removing deposits adhering to the opening end (nozzle portion) of the flow path formed in the tube body and a spray container useful for maintenance. It is to provide.
Another object of the present invention is to ensure that the adhering matter adhering to the opening end (nozzle part) of the air / water supply passage formed in the pipe body is relatively pushed by the relative pushing operation between the compressed gas supply means and the operation part. Another object of the present invention is to provide a fiberscope and a spray container that can be easily removed.
Still another object of the present invention is to provide a fiberscope and a spray container that can easily remove deposits at the open end (nozzle portion) of the air / water supply passage of the tube body by a simple operation with only one hand. It is in.
[0009]
[Means for Solving the Problems]
As a result of intensive studies to achieve the above object, the present inventor has provided compressed gas supply means for supplying compressed gas to the passage of the elongated flexible tube to the operation section for performing the endoscopic or processing operation. It has been found that the attachment attached to the tip of the tube can be easily removed by only one hand operation when the is attached detachably, and the present invention has been completed.
That is, the fiberscope of the present invention includes an elongated flexible tube having a passage formed in the axial direction, and an operation unit attached to the tube and performing an internal view or a processing operation through the passage. In the fiberscope, mounting means capable of detachably mounting a compressed gas supply means for supplying compressed gas to the passage is formed in the operation portion.
The attachment means can be attached to the compressed gas supply means. It has a small diameter tip mounting part extending from the base An adapter and an adapter formed on the operation unit; Tip mounting part But Mating A mounting recess that can be mounted is configured, and movement of the adapter toward the mounting recess is restricted when the adapter is mounted in the mounting recess. The adapter can be vented with compressed gas supply means. One A vent is formed and this vent is an adapter. Tip mounting part An opening is formed at the side of the adapter, and a ventilation passage and a passage through which the adapter can be vented are formed in the operation portion. Between the vent hole of the adapter and the flow path of the operation portion, a ring-shaped space is interposed adjacent to the opening portion of the vent hole. The adapter may be interposed between the compressed gas supply unit and the operation unit, and may be attached to the mounting portion of the operation unit or may be attached to the compressed gas supply unit. The compressed gas supply means only needs to be able to eject a fluid into the passage of the tubular body, and usually a spray container filled with compressed gas is often used. For example, the compressed gas supply means includes a pressure vessel filled with the compressed gas, a spray nozzle capable of entering the inside of the pressure vessel, and an inside of the pressure vessel as the spray nozzle enters the inside. A spray container having a valve mechanism for ejecting the compressed gas from the spray nozzle, and the mounting means restricts the spray nozzle from moving outward in the axial direction of the nozzle and presses it. Along with this, there is provided a regulating means for allowing the spray nozzle to enter the inside of the pressure vessel.
The fiberscope has an elongated flexible tube having an air supply / water supply passage formed in the axial direction, and an attachment means attached to the tube and capable of attaching a spray nozzle of a spray container. A fiberscope including an operation unit and an air / water supply pipe extending from the operation unit through the air / water supply passage may be used. In this fiberscope, the mounting means can be mounted on the spray nozzle. It has a small diameter tip mounting part extending from the base An adapter, and the adapter formed in the operation unit Tip mounting part But Mating The adapter comprises a mounting recess that can be mounted, and the adapter Side of the tip mounting part With spray nozzle and ventable One Vents Open The adapter is formed on the operation unit Tip mounting part In addition to the air holes and tube air supply / water supply passages and the gas flow paths that allow ventilation, Between the vent hole of the tip mounting part and the flow path of the operation part, a ring-shaped space is interposed adjacent to the opening part of the vent hole, A restricting means is provided for restricting the fluid ejected from the spray nozzle from flowing into the flow path of the air / water supply pipe from the flow path of the air / water supply pipe to the flow path of the adapter. It may be done.
[0010]
In the fiberscope of the present invention, the compressed gas supply means is attached to the attachment means formed in the operation portion, whereby compressed gas is supplied to the passage of the air / water supply passage formed in the tubular body, and the open end of the passage (Nozzle part) can be ejected to the outside. That is, as in the prior art, the flow path of the air / water supply pipe extending along with the light guide from the operation portion and the air / water supply passage extending from the operation portion to the nozzle portion are closed in the vent hole of the operation portion. A simple operation of supplying the compressed fluid from the compressed gas supply means attached to the attachment means without communicating by the operation can reliably remove the body fluid remaining or adhered to the inside or the periphery of the opening end.
In addition, since the compressed gas supply means can be attached to and detached from the mounting means, when using the fiberscope for observation, processing, etc. of a digestive organ, the fiberscope is attached without mounting the compressed gas supply means. It can be used for observation and processing. On the other hand, when removing the body fluid or the like adhering to the opening end of the passage of the fiberscope tube, the compressed gas supply means can be attached to the attachment means to remove the deposits.
[0011]
The spray container of the present invention is useful for removing and cleaning the deposits adhering to the distal end portion of the fiberscope tube with a jetting fluid. The spray container includes a pressure container filled with a compressed gas, a spray nozzle capable of entering the inside of the pressure container, and a pressure container as the spray nozzle enters the inside. Inside A spray container comprising a valve mechanism for ejecting compressed gas from the spray nozzle, a mounting recess formed in an operating portion of a fiberscope tube, and an adapter that can be mounted in the mounting recess, The adapter has a tip mounting portion with a small diameter that extends from the base and is fitted into the mounting recess. In the mounting state of the adapter in the mounting recess, the adapter is restricted from moving toward the mounting recess, and the adapter moves in the axial direction of the spray nozzle and the tube through the flow path formed in the operation unit. Communicating with the passage extending to And one open at the side of the tip mounting part With vents, A ring-shaped space is interposed between the air hole and the flow path of the operation unit adjacent to the opening of the air hole. And a restricting means for restricting the spray nozzle from moving outward in the axial direction of the nozzle and for allowing the spray nozzle to enter the inside of the pressure vessel in accordance with the pressing. Have The The flow path of the operation unit may be constituted by a gas (air) sub-flow path, a water sub-flow path, or both sub-flow paths. For example, the pipe passage is composed of a gas sub-passage and a water sub-passage, and these sub-passages merge in the middle of the pipe to form a passage that extends to the open end of the pipe. The gas supply pipe extending from the light guide section and the gas sub-flow path communicating with the gas sub-passage of the tube, and the water supply pipe extending from the light guide section and the water sub-path of the pipe body You may comprise with the subchannel for water which can communicate.
[0012]
In the spray container of the present invention, when the spray nozzle enters the inside of the pressure container, the compressed gas inside the pressure container is ejected from the spray nozzle by the valve mechanism. On the other hand, since the spray nozzle and the tube passage communicate with each other through the flow passage of the operation portion by the vent hole of the adapter that can be attached to the operation portion, the compressed fluid from the spray nozzle is passed through the passage of the tube body. To erupt from the opening end of the passage.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described below with reference to the accompanying drawings.
1 to 4 show an embodiment of the fiberscope of the present invention, FIG. 1 is a schematic view showing a use state thereof, FIG. 2 is a schematic sectional view showing a tube body of the fiberscope, and FIG. FIG. 4 is a cross-sectional view showing an adapter constituting the mounting means.
[0014]
The fiberscope 1 has an elongated flexible tube 3 in which a passage is formed in the axial direction, and an operation unit 2 attached to the tube 3. As shown in FIG. 2, in addition to the optical fiber 10, the tube 3 is formed with an air / water supply passage 11, a forceps passage 12, a suction passage 13, and other passages 14a and 14b. 11 to 13, 14 a and 14 b are opened at the end face 9 of the tube body 3.
[0015]
As shown in FIG. 1, a light guide portion 4 for sending light to the optical fiber 10 extends from the operation portion 2 having the grip portion 2 a, and the operation portion 2 is connected to the passages 11 to 13. , 14a, 14b, an operation member 6 for controlling the direction of at least the distal end portion of the flexible tube 3 by a rotation operation or the like, and a gripping portion 2a for performing an endoscopic or processing operation. A forceps port 5 is provided for connection with a tube extending from the tube.
The light guide portion 4 is provided with a light guide and an air / water supply pipe (not shown) in which a flow path communicating with the air / water supply passage 11 of the tubular body 3 is formed. That is, the flexible tube 3 extends in one direction from the operation unit 2, and the light guide unit 4 extends in the other direction. In the operation unit 2, air / water supply of the tube 3 is performed. The passage 11 and the flow path of the air / water pipe (not shown) of the light guide portion 4 can communicate with each other. From the air / water supply opening that opens at the end of the light guide 4, gas flows to the digestive organs such as the stomach through the air / water supply channel and the air / water supply passage 11 of the tube 3. And / or a liquid such as water can be supplied.
[0016]
As shown in FIG. 3, the mounting portion 2 b of the operation unit 2 can be detachably mounted with a spray nozzle 33 of a spray container 7 as a compressed gas supply means, and the spray container 7 can be mounted from the spray container 7. A gas flow path 23 for supplying a compressed fluid to the air / water supply passage 11 of the flexible tube 3 is formed. In this example, the mounting portion as the mounting means is configured by a mounting concave portion 21 formed in the mounting portion 2b of the operation unit 2 and an adapter 8 that can be attached to and detached from the mounting concave portion. The spray container 7 is detachable.
[0017]
The flow path of the air / water supply passage 11 of the flexible tube 3 and the air / water supply pipe of the light guide portion 4 through the hole 42 of the adapter 8 and the gas flow path 23 of the mounting portion 2b are as follows. Communication is possible. Further, in order to restrict the jet gas from the spray nozzle 33 from flowing into the air / water feed pipe of the light guide portion 4, the jet gas is effectively flowed into the air / water feed passage 11 of the flexible tube 3. Among the air / water supply pipes of the light guide part 4, a check valve (not shown) as a restricting means is provided in the flow path on the adapter 8 side.
[0018]
Further, the mounting recess 21 is a vent hole for connecting the air / water supply pipe of the light guide part and the air / water supply passage of the flexible tube among the operation parts of the conventional fiberscope by a closing operation. It is formed in the part corresponding to.
[0019]
More specifically, at one end of the pressure vessel (container main body) constituting the spray container 7, a cylindrical bulging portion 32 bulging into a cap shape in the inner region, and the periphery of the bulging portion A base 31 having a ring-shaped concave portion 34 formed on the bulging portion 32 is attached. From the central portion of the bulging portion 32, one end portion opens and the other end portion closes. A cylindrical spray nozzle 33 in which a hole 41 for guiding compressed gas to the opening is formed in the side wall and protrudes therethrough.
[0020]
The spray nozzle 33 is disposed so as to be able to enter the inside of the spray container 7, and the compressed gas is ejected from the spray nozzle 33 as the spray nozzle 33 enters the inside of the spray container 7. Therefore, the spray container 7 includes a valve mechanism. That is, in the spray container 7, a first tubular valve member 36 having a ring-shaped flange at one end and a through-hole for the spray nozzle 33 formed at the other end, A second cylindrical valve which accommodates the first cylindrical valve member 36 so as to be movable back and forth in the axial direction and which can fix a spray nozzle 33 extending through the first cylindrical valve member 36 at the bottom. A valve mechanism 35 including a member 37 is disposed.
[0021]
In this valve mechanism, one end portion of the second cylindrical valve member 37 can contact the ring-shaped flange portion, and the inner wall of the bulging portion 32 and the flange of the first cylindrical valve member 36 can be contacted. A packing 39 for sealing the penetrating portion of the bulging portion 32 is disposed in the spray nozzle 33 between the first portion and the bottom portion of the first cylindrical valve member 36. An O-ring 40 is fitted to seal the through portion. Further, the first tubular valve member 36 and Spray nozzle 33 A coil spring 38 for biasing the spray nozzle 33 outward in the axial direction is disposed between the two.
[0022]
When such a valve mechanism is used, the end surface of the second cylindrical valve member 37 is pressed against the ring-shaped flange portion of the first cylindrical valve member 36 by the biasing force of the coil spring 38. Therefore, when the spray nozzle 33 is pressed inward of the container 7 against the urging force of the coil spring 38, the second cylindrical valve member 37 moves inward together with the spray nozzle 33, and the first cylindrical valve member. A flow path is formed between the 36 ring-shaped flanges and the end surface of the second cylindrical valve member 37. Therefore, the compressed gas filled in the container 7 is introduced into the cylindrical spray nozzle 33 through the flow path and the hole 41 and is ejected from the tip opening of the spray nozzle 33. When the pressing is released, the biasing force of the spring 38 moves the second cylindrical valve member 37 together with the spray nozzle 33 in the axial direction, and the end of the second cylindrical valve member 37 is moved to the end. Since it is press-contacted to the ring-shaped collar part of the 1st cylindrical valve member 36, ejection of compressed gas stops.
In addition, as compressed gas with which the pressure container of the spray container 7 is filled, Freon gas, Freon substitute gas, nitrogen, air, etc. are mentioned. Further, the container 7 may be filled with a disinfecting liquid, a cleaning liquid and the like together with the compressed gas.
[0023]
As shown in FIGS. 3 and 4, the adapter 8 to which the spray container 7 can be attached includes a large-diameter base 52 having a cylindrical portion that can slide in the ring-shaped recess 34 of the base 31 of the container 7, A small-diameter tip mounting portion 53 extending from the base portion 52. The adapter 8 has a T-shape that extends in the axial direction from the end surface of the base 52 and opens at the side of the tip mounting portion 53 in order to guide the fluid ejected from the spray nozzle 33 to the gas flow path 23 of the mounting portion 2b. The hole 42 is formed.
That is, the hole 42 is formed at the end of the base 52, and a recess 43 in which the bulging portion 32 of the spray container 7 can be partially attached, and the end surface of the spray nozzle 33 extending in the axial direction from the recess 43. A hole 44 having an inner wall 47 for restricting the outward movement of the spray nozzle 33, and extending in the axial direction from the hole to reach the center of the tip mounting portion 53. A passage 45 having a circular cross-section with a smaller hole diameter than the outer diameter of 33 and side holes 46 extending at both sides perpendicular to the extending direction of the passage and opening at the side of the tip mounting portion 53. ing. In this example, the passage 45 and the side hole 46 constitute a vent hole that can ventilate the compressed gas supply means. Such an adapter can be formed of various materials that can be easily molded, such as a synthetic resin.
[0024]
When the adapter 8 is attached to the spray container 7, the container 7 bulges between the ring-shaped recess 34 of the base 31 of the container 7 and the end surface of the base 52 of the adapter 8 as shown in FIG. 3. A space is formed between the portion 32 and the wall surface of the mounting recess 43 of the base 52 so that the spray container 7 can be pushed into the adapter 8. That is, the dimension from the tip of the spray nozzle 33 to the bulging portion 32 of the container 7 is longer than the depth of the hole 44 having the contact inner wall of the spray nozzle 33 and the depth of the mounting recess 43 and the hole 44. It is shorter than the sum. The dimension from the tip of the spray nozzle 33 of the container 7 to the bottom surface of the ring-shaped recess 34 is formed longer than the total depth of the mounting recess 43 and the hole 44.
[0025]
On the other hand, the tip opening wall of the spray nozzle 33 is in contact with the inner wall 47 of the hole 44 and restricts the movement of the spray nozzle 33. For this reason, when the spray nozzle 33 of the spray container 7 is inserted into the hole 42 of the adapter 8 and the spray container 7 and the adapter 8 are relatively pressed, the spray nozzle 33 enters the inside of the spray container 7 and the compressed gas flows. It ejects from the side hole 46 of the tip mounting part 53 through the spray nozzle 33 and the hole 42.
[0026]
On the other hand, the mounting portion 2b to which the adapter 8 is mounted is formed with the mounting recess 21 in which the tip mounting portion 53 of the adapter 8 is detachably mounted by fitting as shown in FIG. A ring-shaped space 22 that can communicate with the gas flow path 23 is formed in a portion of the inner wall of the recess corresponding to the side hole 46 of the adapter 8. Further, in order to ensure the sealing property with the adapter 8 in the mounting recess 21, O-rings 48 and 49 are respectively provided on both side portions of the side hole 46 opened to the side of the tip mounting portion 53 of the adapter 8. A cylindrical packing 50 having an annular convex portion in the circumferential direction is fitted on the distal end portion of the distal end mounting portion 53.
[0027]
When a fiberscope and a spray container are used in this way, the compressed container 7 is attached to the mounting recess 43 of the adapter 8 and the compressed gas in the spray container 7 is reduced by simply pressing the container 7 and the adapter 8 relative to each other. The air can be guided to the air / water supply passage 11 through the spray nozzle 33, the passage 45 of the adapter 8, the side hole 46, and the gas passage 23, and can be ejected to the outside from the end face 9 of the flexible tube 3. Therefore, deposits such as body fluid attached to the open end of the air / water feed passage 11 of the flexible tube 3 or its peripheral portion can be removed by the jet gas. On the other hand, the ejection of the compressed gas can be stopped by releasing the pressing operation.
In particular, a mounting recess 21 in which the adapter 8 can be mounted is formed in a portion corresponding to the vent hole of the conventional operation unit, and an adapter 8 for mounting the spray container 7 is provided in the operation unit 2 of the fiberscope 1. Therefore, the compressed gas can be supplied to the tube 3 simply by attaching the spray container 7 to the adapter 8 and pressing the spray container 7 relative to the operation unit 2 without closing the vent hole. The air / water supply passage 11 can be supplied and ejected from the open end (nozzle portion) of the passage.
Therefore, deposits such as bodily fluid adhering to the open end of the air / water feed passage 11 and its peripheral portion can be reliably removed with a simple operation of one hand. Further, since the spray container 7 as the compressed gas supply means is detachable from the mounting portion, the spray container 7 is removed from the adapter 8 when the fiberscope 1 is used for observation and processing of a digestive organ or the like. Thus, it is possible to perform endoscopic processing and processing operations with a fiberscope without impairing operability.
The adapter 8 can be removed from the mounting recess 21 when the deposits need not be removed by the jet gas, and the recess 43 exposed on the end surface of the adapter 8 is fitted with a cap or the like, so that the mounting recess 21 is fitted. It may be attached to.
[0028]
FIG. 5 is a cross-sectional view showing another mounting mechanism in the operation unit. In addition, the same code | symbol is attached | subjected and demonstrated to the element which is common in the said Example.
In this example, an adapter 101 is fixedly attached to the spray container 7 configured in the same manner as in the above-described embodiment, and this adapter 101 can be mounted in a mounting recess 122 formed in the mounting portion 120 of the operation unit.
[0029]
More specifically, the adapter 101 to be mounted on the mounting site 120 has a button-like base 102 integrated with the spray nozzle 33 of the spray container 7 and a small diameter extending from the button-like base in the axial direction of the spray nozzle 33. A tip mounting portion 104 is provided, and a flange portion 103 is formed on the base mounting portion 102 on the tip mounting portion 104 side. The flange portion 103 is slidably disposed in the casing 105, and movement toward the spray container 7 is restricted by the inner wall of the casing 105.
Further, a spring 106 having a larger urging force than the coil spring 38 of the spray container 7 is disposed in the casing 105 in order to urge the flange portion 103 outward. Therefore, when the spray container 7 is pressed toward the mounting site 120, the valve mechanism of the spray container 7 is opened by the coil spring 38 of the spray container 7, and the compressed gas is introduced into the spray nozzle 33. Further, when the button-like base 102 together with the spray container 7 is further pushed in the direction of the casing 105 against the urging force of the spring 106 of the adapter 101, the tip mounting portion 104 enters the mounting recess 122 of the mounting site 120.
[0030]
In addition, the tip mounting portion 104 is formed with a ring-shaped convex portion 108 that is in contact with the outer wall of the casing 105 and restricts the casing 105 from moving toward the mounting concave portion 120. An O-ring 109 having an inclined surface inclined toward the casing 105 side and an annular convex portion 110 to which the O-ring is attached and capable of sliding contact with the mounting concave portion 120 are formed adjacent to the portion.
Furthermore, an umbrella-shaped soft packing 111 that opens to the spray nozzle 33 side is attached to a portion of the tip mounting portion 104 that is away from the annular convex portion 110, and a cylindrical shape is attached to the tip portion. A packing 112 is attached.
[0031]
In addition, in order to supply the compressed gas from the spray nozzle 33 to the air / water supply passage of the flexible tube, it communicates with the hole of the spray nozzle 33 from the button-shaped base 102 toward the tip mounting portion 104. A vent hole 113 is formed in the axial direction, and the vent hole is opened at a side wall between the umbrella-shaped soft packing 111 and the cylindrical packing 112 of the tip mounting portion 104.
[0032]
On the other hand, the mounting part 120 is configured by a ring-shaped member 121 having a flange that protrudes from the wall surface and extends outward from the front end portion, and the mounting recess 122 formed in the inner region of the ring-shaped member. Has been. The collar portion of the ring-shaped member 121 can be engaged with an engagement end portion of a soft cap 107 that fits the casing 105 of the adapter 101.
Further, on the wall surface of the mounting recess 122 corresponding to the opening portion of the vent hole 113 of the adapter 101, there are an air / water feed passage 11 of the flexible tube and an air / water feed channel 130 of the light guide portion. A communication space 123 that communicates is formed.
[0033]
In such an adapter 101 and a spray container 7 equipped with this adapter, the vent hole of the adapter 101 mounted in the mounting recess 122 has the same function as the vent hole of the operation part of the conventional fiberscope. Therefore, the spray container 7 is attached to the air hole formed as the attachment recess 122 without closing the air hole, and the compressed gas is supplied to the air supply / water supply path of the flexible tube by a simple operation of pushing. It can be ejected from the tip. Further, due to the buffering action of the spring 106, the compressed gas can be ejected from the distal end portion of the air / water supply passage 11 of the flexible tube without applying an excessive pressing force to the spray container 7.
[0034]
The flow path of the operation section may be configured with at least one sub flow path corresponding to the air / water supply pipe from the air / water supply means of the light guide unit. That is, the flow path of the operation unit may be constituted by a gas sub-flow path and a water sub-flow path that can communicate with the air supply pipe and the water supply pipe respectively extending from the air supply / water supply means of the light guide unit. . Further, the air / water supply passage of the flexible tube may be constituted by a gas sub-passage and a water sub-passage that can communicate with the gas sub-flow channel and the water sub-flow channel, respectively. Well, the gas sub-passage and the water sub-passage of the flexible tube join the middle part of the passage, and the air / water supply passage extending to the end member attached to the distal end of the flexible tube is provided. It may be formed.
[0035]
FIG. 6 is a cross-sectional view showing still another mounting mechanism in the operation unit, and FIG. 7 is a cross-sectional view showing the adapter of FIG.
In this example, the adapter 201 has the same shape as the adapter 8 shown in FIG. 4 except for the shape of the hole. That is, the hole 202 extends into the recess 43, the hole 44 extending in the axial direction from the recess, the passage 203 extending in the axial direction from the hole, and both sides orthogonal to the extending direction of the passage. A first side hole 204 that opens at both sides of the middle part of the adapter 201, and a second side that extends at both sides perpendicular to the extending direction of the passage 203 and opens at both sides of the tip of the adapter 201. It consists of part holes 205.
The first side hole 204 can be ventilated with the gas flow path 23 (as a gas sub-flow path) via the ring-shaped recess 22 of the operation section 2, and the second side hole 205 is formed of the operation section 2. Water can be passed through the water channel 207 (as a sub channel for water) through the ring-shaped recess 206. The gas channel 23 and the water channel 207 lead to a gas sub-passage (not shown) and a water sub-passage (not shown) formed in the flexible tube, respectively. Further, the gas sub-passage and the water sub-passage join at the middle part of the flexible tube to form an air / water feed passage (fluid flow passage) extending to the opening end (nozzle portion) of the passage. Yes.
[0036]
Therefore, when the spray container 7 is mounted in the mounting recess 21 of the adapter 201 and the spray container 7 and the adapter 201 are relatively pressed, the compressed gas in the spray container 7 is compressed into the spray nozzle 33, the hole 202 of the adapter 201, and the operation. The gas flow path 23 and the water flow path 207 of the section 2, the gas sub-passage and the water sub-passage lead to the air / water feed passage of the flexible tubular body 3, and the compressed gas reaches the end of the flexible tubular body 3. Erupts from the department.
When the adapter 201 having the water passage 207 is used in combination with the spray container 7, it provides a great advantage when the lens mounted on the end of the optical fiber of the flexible tube is washed with water, particularly hard water. That is, an observation or processing operation using a fiberscope, a lens cleaning operation (that is, the flexible tube is fed from the water supply means of the light guide section through the water supply pipe, the water flow path 207 of the operation section 2 and the water sub-path When the lens is washed by supplying water to the air / water supply passage) and when the tube is suspended repeatedly to let the fluid flow out naturally, the open end of the air / water supply passage of the flexible tube In the part, scale (olivine) due to water is deposited or deposited. In the present invention, the jet gas that is ejected can efficiently remove not only the deposits due to the body fluid but also the scales due to water from the ends of the flexible tube 3.
[0037]
In the fiberscope of the present invention, the compressed gas supply means may be any means as long as it can supply compressed gas, and is not limited to a spray container, but a pressure container (such as a cylinder) provided with opening / closing means such as an opening / closing valve and an opening / closing cock. Or a compressor.
The attachment means for attaching the compressed gas supply means is not limited to the adapter as described above, and may be selected according to the type of the compressed gas supply means as long as the compressed gas supply means can be detachably attached. For example, in a pressure vessel provided with an opening / closing means, it is only necessary to be able to attach the end of a pressure vessel hose or a connection end such as a nozzle.
[0038]
The mounting means can be composed of an adapter that can be mounted to the connection end of the compressed gas supply means, and a mounting portion (mounting recess) that is formed in the operation section and to which the adapter can be mounted. When the compressed gas supply means is a spray container that is easy to operate and excellent in portability, the adapter can be used to clean the tip of the tube body by ejecting compressed gas with a simple operation of mounting and pushing. It is possible to reliably prevent clogging of the air / water passage.
[0039]
The adapter may be interposed between the compressed gas supply means and the operation section, and the adapter may be detachably attached to or fixed to either the operation section or the compressed gas supply means. For example, the mounting portion may be configured by attaching an adapter to the mounting portion of the operation portion by fixing or the like, and the compressed gas supply means may be detachably attached to the adapter. Conversely, the adapter may be attached to the compressed gas supply means by fixing or the like, and the adapter may be detachably attached to a mounting portion (mounting recess) formed in the operation portion.
In the example shown in FIG. 5, the spray nozzle 33 and the adapter 101 are integrated. However, a mounting recess suitable for the spray nozzle 33 is formed in the base 102 of the adapter 101, and the tip of the spray nozzle 33 is formed in this mounting recess. May be detachably mounted.
[0040]
In the above embodiment, the adapter is formed with a T-shaped vent hole that can be ventilated with the compressed gas supply means, but the opening portion of the vent hole is not limited as long as it can ventilate with the compressed gas supply means. Not only the side part but also the tip part may be used. Further, it is only necessary to form a gas flow path capable of aeration with the ventilation hole of the adapter and the air supply / water supply passage of the tubular body in the operation portion, and this gas flow path is the communication space 123 shown in FIG. As described above, the air / water supply passage 11 of the flexible tube 3 and / or the flow path of the air / water supply pipe of the light guide 4 may be configured.
[0041]
Further, in the above-described embodiment, the mounting portion (mounting recess) for mounting the adapter is formed in a portion corresponding to the vent hole of the conventional operation portion. However, as long as the mounting portion is the operation portion, the grip portion 2a. It can be formed in the right place.
[0042]
When the compressed gas supply means is a spray container, the mounting means regulates the movement of the spray nozzle outward in the axial direction, and causes the spray nozzle to enter the inside of the pressure container in accordance with the pressing. It is preferable to provide a regulating means. In the above embodiment, the restricting means is constituted by the inner wall 47 which can come into surface contact with the end face of the spray nozzle. However, as long as the movement of the spray nozzle in the axial direction is restricted, the side of the spray nozzle shaft is limited. An uneven part may be formed in the part, and the restricting means may be configured by an engaging part that can be engaged with the uneven part.
Further, in order to restrict the gas from the compressed gas supply means from being ejected from the air / water supply pipe of the light guide unit, in the above example, a back valve is provided in the air / water supply pipe on the adapter side. Such a regulating means may be provided in the flow path from the flow path of the air / water supply pipe to the vent hole of the adapter.
[0043]
The spray container of the present invention includes a pressure container filled with a compressed gas, a spray nozzle capable of entering the inside of the pressure container, a valve mechanism for ejecting the compressed gas from the spray nozzle, and a fiberscope. What is necessary is just to provide the adapter which can be mounted | worn with the operation part of a flexible tube. The valve mechanism is not limited to the structure of the above embodiment, and any mechanism may be used as long as the compressed gas in the pressure vessel is ejected from the spray nozzle as the pressure vessel enters inward. The adapter may be fixed to the spray nozzle, and may be detachable from the spray nozzle and / or the spray container. As described above, the adapter is formed with a vent hole for communicating the spray nozzle and the passage of the flexible tube through the flow path formed in the operation portion.
[0044]
【The invention's effect】
According to the fiberscope and the spray container of the present invention, the compressed gas is ejected from the compressed gas supply means attached to the attachment means, so that the opening end of the passage such as the air / water supply passage formed in the tubular body, etc. The deposits can be reliably removed with a simple operation. Moreover, the said deposit | attachment can be reliably and easily removed by relative pushing operation of the compressed gas supply means comprised with the spray container, and the operation part. In particular, since the compressed gas can be ejected by an operation with only one hand, the deposits can be easily removed by a simple operation, and clogging of the pore passages can be reliably prevented over a long period of time.
[Brief description of the drawings]
FIG. 1 is a schematic view showing a use state of a fiberscope of the present invention.
FIG. 2 is a schematic cross-sectional view showing a tube body of the fiberscope of FIG. 1;
FIG. 3 is a cross-sectional view showing a mounting mechanism in the operation unit of FIG. 1;
4 is a cross-sectional view showing the adapter of FIG. 1. FIG.
FIG. 5 is a cross-sectional view showing another mounting mechanism in the operation unit.
FIG. 6 is a cross-sectional view showing still another mounting mechanism in the operation unit.
FIG. 7 is a cross-sectional view showing the adapter of FIG.
[Explanation of symbols]
1 ... Fiberscope
2 ... Operation part
3 ... Tube
7 ... spray container
8, 101 ... Adapter
11 ... Air / water passage
21, 122 ... mounting recess
23 ... Gas flow path
33 ... spray nozzle
47 ... Inner wall (regulation means)

Claims (4)

A pressure vessel filled with compressed gas, a spray nozzle capable of entering the inside of the pressure vessel, and causing the compressed gas in the pressure vessel to be ejected from the spray nozzle as the spray nozzle enters the inside. A spray mechanism comprising a valve mechanism for mounting, a mounting recess formed in the operation portion of the fiberscope tube, and an adapter that can be mounted in the mounting recess, the adapter extending from the base, and It has a small-diameter tip mounting portion that fits into the mounting recess ([0023] [0026]), and the adapter is restricted from moving toward the mounting recess when the adapter is mounted in the mounting recess. are, the adapter, through a flow path formed in the operation portion, in communication with a passage extending in the axial direction of the tubular body and the spray nozzle, and an opening in the side of the distal end mounting portion ([ 0023] One (3, 5) together is provided with a vent, during this vent hole and the flow path of the operating portion, it is interposed a ring-shaped space adjacent to the opening of the vent hole ([0026] [0032] [0035], 3, 5 and 6), together with the spray nozzle to regulate the movement towards the axial direction outside the nozzle, the spray nozzle is accompanied by the pressing Tei Ru spray container provided with a regulating means to enter the interior of the pressure vessel.   The passage of the tubular body is composed of a gas sub-passage and a water sub-passage, and these sub-passages merge at a middle portion of the tubular body to form a passage extending to the opening end of the tubular body, The gas flow path can communicate with the gas supply pipe extending from the light guide part and the gas sub-passage of the pipe body, and the water supply pipe extending from the light guide part and the water sub-passage of the pipe body. The spray container according to claim 1, wherein the spray container is composed of a water sub-channel. A fiberscope having an elongated flexible tube having a passage formed in an axial direction, and an operation unit attached to the tube for performing an internal view or a processing operation through the passage. in the are attached means formed removably mounting the compressed gas supply means for supplying a compressed gas into the passage, the mounting means are possible attached to the compressed gas supply means, extending from the base portion Consists of an adapter having a small-diameter tip mounting portion , and a mounting recess that is formed in the operation portion and that can be mounted by fitting the tip mounting portion of the adapter. movement of the adapter to the mounting recess side is regulated, compressed gas supply means and the ventable one vent hole in the adapter is formed, the side of the distal end mounting portion of the vent adapter Open and, on the operation unit, the are vents and tube passages and breathable flow path of the adapter is formed and between the flow path of the vent hole and the operating portion of the distal end mounting portion A ring-shaped space is interposed adjacent to the opening of the vent hole, and the compressed gas supply means includes a pressure vessel filled with the compressed gas, and a spray nozzle capable of entering the inside of the pressure vessel. And a valve mechanism for causing the compressed gas inside the pressure vessel to be ejected from the spray nozzle as the spray nozzle enters inward. A fiberscope comprising regulation means for regulating the movement of the nozzle in the axially outward direction and causing the spray nozzle to enter the inside of the pressure vessel in accordance with pressing.   An elongated flexible tube having an air supply / water supply passage formed in the axial direction, an operation unit attached to the tube and having a mounting means to which a spray nozzle of a spray container can be mounted; A fiberscope including an air / water supply pipe extending from the operation section through an air / water supply passage, wherein the attachment means is an adapter that can be attached to the spray nozzle, and the operation section The adapter is formed with a mounting recess to which the adapter can be mounted. The adapter is formed with a spray nozzle and a vent hole that can be vented. A gas flow path that can be vented to the passage is formed, and a fluid ejected from a spray nozzle is supplied to the air / water supply pipe from a flow path of the air / water supply pipe to a flow path of the adapter. Fiberscope according to claim 3, wherein the regulating means is provided for regulating flowing into the flow path.

Images