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Claims  |
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What is claimed is:
1. In an endoscope having an operation section; an illumination optical
fiber bundle, a fluid-feeding tube and a suction tube extending from said
operation section; and endoscope connector connected to a console disposed
externally of said endoscope and including a light source and a connection
to an electric power source, said endoscope connector having a
fluid-feeding fitting connected to said fluid-feeding tube and a suction
fitting connected to said suction tube; and a protection tube surrounding
said illumination optical fiber bundle, said fluid-feeding tube and said
suction tube and having two ends, one end thereof being connected to said
endoscope connector and the other end thereof being connected to said
operation section, the improvement wherein said endoscope connector
comprises:
a socket member comprising a socket body having a generally cylindrical
bore penetrating therethrough and having two ends and said fluid-feeding
and suction fittings mounted on said socket body, said socket member being
connected to said console at a portion of said socket body to which one of
said two ends of said bore opens;
a generally cylindrically plug member rotatably and sealingly inserted in
said socket body and having two ends, said plug member having said
illumination optical fiber passing therethrough and allowing both said
fluid-feeding tube and said suction tube to extend therein from one of
said two ends of the plug member which is remote from said one of said two
ends of said bore and to which said other end of said protection tube is
connected; and
a pair of annular communication chambers defined between said socket body
and said plug member to surround said plug member, one of said
communication chambers being adapted to establish communication between
said fluid-feeding fitting and said fluid-feeding tube and the other
communication chamber being adapted to establish communication between
said suction fitting and said suction tube, respectively.
2. The endoscope connector according to claim 1, wherein said communication
chambers are defined between said socket member and the annular grooves
formed in said plug member.
3. The endoscope connector according to claim 1, wherein said communication
chamber are defined between said plug member and said annular grooves
formed in the socket member.
4. The endoscope connector according to any one of the claims 1 to 3,
wherein ring-shaped contacts are formed in the socket member so as to
exposed to said bore in a state spaced from each other axially of said
bore; lead wires are extended from said ring-shaped contacts in said
socket member to protrude from said one of said two ends of said socket
member for connection to said connection in said console; annular contacts
are formed in an outer surface of said cylindrical plug member always in
contact with the corresponding ring-shaped contacts; and the lead wires
are extended from the corresponding annular contacts in said plug member
to project from said one of said two ends of said plug member into said
operation section of said endoscope.
5. The endoscope connector according to claim 1, wherein said socket body
comprises a smallest inner diameter section, a medium inner diameter
section and larger inner diameter section concentrically arranged in
series; and said plug member comprises a smallest outer diameter section,
a medium outer diameter section and a larger outer diameter section
respectively having substantially the same inner diameters as the
corresponding smaller inner diameter section, medium inner diameter
section and larger inner diameter section of said socket member.
6. The endoscope connector according to claim 5, wherein said one of said
communication chambers in formed in said medium outer diameter section of
said plug member, and said other communication chamber is formed in said
larger outer diameter section of said plug member.
7. The endoscope connector according to claim 5, wherein said one of said
communication chambers is formed in said medium inner diameter section of
said socket member, and said other communication chamber is formed in said
larger inner diameter section of said socket member.
8. The endoscope connector according to claim 5, wherein said one of said
communication chambers is defined by said larger inner diameter section of
said socket member and an annular groove formed between said medium outer
diameter section and larger outer diameter section of said plug member;
and the other communication chamber is defined by an annular groove formed
in said smaller inner diameter section of said plug member which is formed
adjacent to said medium outer diameter section of said plug member, and
said smaller inner diameter section of said socket member.
9. The endoscope connector according to any one of claims 5 to 8, wherein
annular contacts are formed in an outer surface of said plug member in a
state spaced from each other axially of said plug member; lead wires are
extended from the corresponding annular contacts through the plug member
to project from said one of said two ends of the plug member into said
operation section of the endoscope; ring-shaped contacts are formed in an
inner surface of the smallest inner diameter section of the socket member
always in contact with the corresponding annular contacts; and lead wires
are extended from the corresponding ring-shaped contacts through said
socket member to project from said one of said two ends of the socket
member to said connection in said console. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
This invention relates to an endoscope connector which connects an
endoscope-operating section to a light source, power source, fluid feeding
device and suction device provided outside of an endoscope, without
causing the twist of a protection tube extending between the
endoscope-operating section and a connector, while the endoscope is used
in the coeliac cavity.
With an endoscope in general use, a connector 4 is fitted, as shown in FIG.
1, to the free end of a flexible protection tube 3 extending from the
operation section 1 of an endoscope 2. Power supply cords, illumination
optical fiber bundle, fluid-feeding tube and suction tube extending from
the operation section 1 through the protection tube 3 are connected by the
connector 4 to the corresponding power source, light source, fluid-feeding
device and suction device, thereby effecting the supply of power, light
and fluid to the endoscope. With the prior art connector 4, pins 5
connected to electric cords and the distal end portion of an optical fiber
bundle tube 6 into which the distal end portion of an illumination optical
fiber bundle is inserted are projectively provided, as shown in FIG. 2, at
the free end of the endoscope connector 4. A fitting 7 of a fluid-feeding
device and a fitting 8 of a suction device are also projectively provided
on the peripheral wall of the connector 4. When the connector 4 is
inserted into the socket member a common console to the sources of light
and power, a power cable is connected to the power source, and the
illumination optical fiber bundle is connected to the light source. The
fluid feeding fitting 7 and suction fitting 8 are respectively connected
to a fluid-feeding device and a suction device through the corresponding
connection tubes.
Where an endoscope 2 (for example, a colonofiberscope) is progressively
inserted into a coeliac tubular member such as the large intestines which
are intricately twisted, it sometimes happens that the endoscope 2
(colonofiberscope) has to be rotated around its axis. Where, however, the
prior art endoscope connector 4 is connected to the common console to the
sources of light and power, the protection tube 3 is twisted, by the
rotation of the endoscope 2, because the conventional endoscope connector
4 lacks, as seen from its indicated arrangement, a member rotatable
relative to the console. If the protection tube 3 is twisted excessively
or frequently, the difficulties will arise that the optical fiber bundle,
fluid feeding tube and suction tube are also distorted, probably resulting
in breakage. The customary practice to avoid such difficulties is to pull
the connector 4 out of the console socket when the protection tube 3 has
been twisted to a certain extent, take the connection tubes off the
fluid-feeding fitting 7 and suction fitting 8, release the protection tube
3 from distortion, insert the connector 4 again into the console socket,
and attach connection tubes to the fluid-feeding fitting 7 and suction
fitting 8. Therefore, the application of an endoscope (for the examination
of, for example, the large intestines) has unavoidably to be interrupted,
while the connector 4, fluid feeding connection tube and suction
connection tube are taken off and fitted once more, thus giving rise to
the disadvantage of unduly protracting a patient's pain.
SUMMARY OF THE INVENTION
The object of this invention is to provide an endoscope connector which
comprises a rotatable plug member rotatable with a protection tube
extending from an endoscope to the coeliac cavity, thereby preventing the
twist of the parts received in the protection tube, in case the endoscope
is rotated during its application in the coeliac cavity and the resultant
damage or breakage of the parts, and consequently making it unnecessary to
remove the endoscope connector and fluid-feeding connection tube and
suction connection tube from the cammon console to the sources of light
and power, thus dispensing with the operation steps required for the prior
art endoscope connector and consequently reducing operation time.
According to this invention, there is provided an endoscope connector which
comprises a socket member which has a cylindrical penetrating bore, that
portion of said socket member at which one end of the penetrating bore is
opened being connected to a console containing a light source and a
connection for an electric source, and whose peripheral wall is provided
with a fluid-feeding fitting and suction fitting; a cylindrical plug
member which is sealingly inserted into the cylindrical penetrating bore
of the socket member to rotate around the axis, receives the distal end
portion of an illumination optical fiber bundle, fluid feeding tube and
suction tube extending from an endoscope, said plug member having one end
which is near the other end of the socket member and to which the free end
of a protection tube receiving the illumination optical fiber bundle,
fluid-feeding tube and suction tube is fixed; and a pair of annular
chambers which are formed between the surface of the cylindrical
penetrating bore of the socket member and the peripheral surface of the
flug member, and one of which communicates with the fluid-feeding fitting
and fluid-feeding tube, and the other of which communicates with the
suction fitting and suction tube.
The plug member rotates together with the illumination optical fiber
bundle, fluid-feeding tube and suction and the protection tube enclosing
these members jointly with the turn of the endoscope, offering the
advantage of suppressing the twist of the protection tube and its
contents.
BRIEF DESCRIPTION OF THE DRAWING
This invention can be fully understood from the following detailed
description with reference to the accompanying drawings in which:
FIG. 1 shows an endoscope provided with the prior art endoscope connector;
FIG. 2 is an oblique view of the prior art endoscope connector;
FIG. 3 is an oblique view of the socket member of an endoscope connector
according to one embodiment of this invention connected to a console of a
light source and a connection for an electric source;
FIG. 4 is an oblique view of a plug member which is to be fitted into the
socket member of FIG. 3;
FIG. 5 is a longitudinal cross-sectional view of an endoscope connector
according to the first embodiment of this invention;
FIG. 6 is an oblique view of a plug member included in an endoscope
connector according to a second embodiment of the invention;
FIG. 7 is a longitudinal cross-sectional view of an endoscope connector
using the plug member of FIG. 6; and
FIG. 8 is a longitudinal cross-sectional view of an endoscope connector
according to third embodiment of the invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
An endoscope connector according to a first embodiment of this invention
comprises, as shown in FIGS. 3 and 5, a socket member 11 prepared from
hard and electrically non-conductive synthetic resin such as polyamide
resin or polyethelene resin. The socket member 11 comprises a hollow
cylindrical body 12 and a flange 13 provided at one end of the body 12.
The socket member 11 is fixed at the flange 13 to the front panel 15 of a
console to the sources of light and electric power by screws 14. The
cylindrical body 12 of the socket member 11 has a concentric cylindrical
penetrating bore 17. This penetrating bore 17 is defined by concentric
stepped regions, that is, a smallest inner diameter section 18 open at the
end of the socket body 12 on which the flange 13 is provided, a medium
inner diameter section 19 constituting the intermediate part of the socket
body 12, a larger inner diameter section 20 adjacent to the medium inner
diameter section 19 and a largest inner diameter section 21 open at the
other end of the socket body 12 (FIG. 5). An even number of ring-shaped
contacts 22 made of electric conductive material such as copper are
embedded in the inner wall of the smallest inner diameter section 18 in a
state axially spaced from each other, with the inner edge of each contact
22 exposed from the inner surface. Lead wires 23 each connected at one end
to the corresponding contact 22 are extended in the socket body 12 toward
said one end thereof and pass through an opening 24 formed in the front
panel 15 of the console 16 and surrounded by the flange 13 up to an
electric power source (not shown) connected to its connection in the
console 16.
A suction fitting 25 is projectively fitted to the peripheral wall of that
portion of the socket body 12 which constitutes the medium inner diameter
section 19. The passage 26 of the suction fitting 25 communicates with the
medium inner diameter section 19. Connected to the suction fitting 25 is
the free end of a flexible suction connection tube (not shown) extended
from a suction device (not shown).
A fluid-feeding fitting 27 is projectively fitted to the peripheral wall of
that pertion of the socket boyd 12 which constitutes the larger inner
diameter section 20. The passage 28 of the fluid-feeding fitting 27
communicates with the larger inner diameter section 20 of the socket body
12. Connected to the fluid-feeding fitting 27 is the free end of a
flexible fluid-feeding connection tube (not shown) extended from a
fluid-feeding device (not shown).
As shown in FIGS. 4 and 5, the endoscope connector comprises a cylindrical
plug member 29 which is inserted into the socket member 11. The plug
member 29 is made of the same material as the socket member 11 and is
formed of a smallest outer diameter section 30, medium outer diameter
section 31, larger diameter section 32 and largest outer diameter section
33 respectively engageable with the smallest inner diameter section 18,
the medium diameter section 19, the larger inner diameter section 20, and
the largest inner diameter section 21 of the socket body 12. An
illumination optical fiber bundle 34 extended from the operation section
of the endoscope penetrates the central part of the plug member 29. The
distal end of the illumination optical fiber bundle 34 faces a light
source (not shown) in the console 16.
An annular groove 35 is formed in the peripheral wall of the medium outer
diameter section 31 of the plug member 29. This groove 35 communicates
with the passage of 26 of the suction fitting 25. An annular groove 35 is
also formed in the peripheral wall of the larger outer diameter section 32
of the plug member 29. The groove 36 communicates with the passage 28 of
the fluid-feeding fitting 27.
A suction tube 37 extended from the operation section of the endoscope
extends from that end of the plug member 29 which lies on the side of the
largest outer diameter section 33 of the plug member 29 to the annular
groove 35 in the plug member 29 and communicates with the groove 35
through an opening 39. A fluid-feeding tube 38 extended from the operation
section of the endoscope extends from that end of the plug member 29 which
lies on the side of the largest outer diameter section 33 of the plug
member 29 to the annular groove 36 and communicates with the groove 36
through an opening 40.
Fluid such as carbon dioxide gas, oxide gas or other gas, or distilled
water or medical solution is conducted from the fluid-feeding device to
the body cavity such as the large intestine through the fluid-feeding tube
38. Through the suction tube 37, the fluid such as the gas, blood, mucus
and used medical solution is conducted from the body cavity such as the
great intestine to the suction device.
Embedded in the inner wall of the smallest outer diameter section 30 of the
plug member 29 are annular contacts 41 always in contact with the
ring-shaped contacts 22 formed in the socket member 11. Lead wires 42
extend from the contacts 4 through the plug member 29 and protrude from
that end of the plug member 29 which lies on the side of the largest outer
diameter section 33 up to the electrically operated respective parts such
as a camer flashing device housed in the operation section of the
endoscope. A pair of annular grooves 31a are formed in those portions of
the peripheral wall of the medium outer diameter section 31 of the plug
member 29 which lie on both sides of the annular groove 35. A pair of
annular grooves 32a are formed in those portions of the peripheral wall of
the larger outer diameter section 32 of the plug member 29 which lie on
both sides of the annular groove 36. An annular groove 33a is formed in
the peripheral wall of the largest outer diameter section 33 of the plug
member 29. A region defined between the inner surface of the socket member
11 and the outer surface of the plug member 29 is sealed in a state
preventing fluid leakage.
External screw threads 46 are formed on the free end of the largest outer
diameter section 33 of the plug member 29. Engaged with the external screw
threads 46 are internal screw theads 47 formed in one end portion of a
flexible protection tube 48 enclosing a bundle of electric cords wrapping
the lead wires 42, the illumination optical fiber bundle 34, the suction
tube 37 the fluid-feeding tube 38. The other end of the protection tube 48
is fixed to the operation section of the endoscope. The protection tube 48
is connected to the plug member 29 by means of the external and internal
screw threads 46, 47.
In operation, the endoscope connector whose plug member 29 is connected to
the protection tube 48 as shown in FIG. 5 is fixed at the flange 13 of the
socket member 11 to the front panel of the console 16 by the screw threats
14. The suction fitting 25 and fluid-feeding fitting 27 are inserted into
the corresponding connection tubes extended from the suction device and
fluid-feeding device respectively. The endoscope is inserted into a
coeliac tubular member such as the large intestines which are to be
examined or undergo a medical treatment. Where the endoscope is rotated
about its axis while passing through the intricately twisted portions of
the coeliac tubular member, the protection tube 48 is jointly rotated
about its axis. As the protection tube 48 is rotated, the plug member 29
are also rotated about its axis X--X through substantially the same angle
as the endoscope. Even if, therefore, the endoscope is rotated frequently
in the same direction or very often in various directions, the protection
tube 48 and plug member 29 are rotated together easily and smoothly.
Consequently, the protection tube 48 is saved from twisting, thus
preventing the illumination optical fiber bundle 34, suction tube 37,
fluid-feeding tube 38 and electric cords received in the protection tube
48 from being twisted, entangled with each other, damaged or broken.
Further, when the plug member 29 is rotated, the annular contacts 41 in the
smallest outer diameter section 30 of the plug member 29 always slidably
contact the ring-shaped contacts 22 in the smallest inner diameter section
18 of the socket member 11. Therefore, the electric power source and the
lead wires 42 of the plug member 29 are always electrically connected
together through the connection in the console 16. Further, the passage 26
of the suction fitting 25 and the passage 28 of the fluid-feeding fitting
27 always respectively communicate with the suction tube 37 and
fluid-feeding tube 38 through the corresponding annular grooves 35, 36. No
matter, therefore, how often and much the connector of the endoscope is
rotated during the application of the endoscope, it is quite unnecessary
to remove the connector from the console 16 or pull the suction connection
tube from the suction fitting 25 and the fluid-feeding connection tube
from the fluid-feeding fitting 27, thus elevating the operation efficiency
of an endoscope.
FIGS. 6 and 7 show an endoscope connector according to a second embodiment
of this invention. With this second embodiment, the annular groove 35
formed in the peripheral wall of the medium outer diameter section 31 of
the plug member 29 of the first embodiment and the annular groove 36
formed in the peripheral wall of the larger diameter outer section 32 of
the plug member 29 are respectively replaced by an annular groove 49
formed in the inner face of the medium inner diameter section 19 of the
socket member 11 and an annular groove 50 formed in the inner face of the
larger diameter inner section 20 of the socket member 11. Instead, O-rings
43, 44, 45 are inserted into the annular grooves 51, 52, 53 respectively
formed in the inner walls of the medium diameter inner section 19, larger
inner diameter section 20 and largest inner diameter section 21 of the
socket member 11. The other part of the second embodiment has the same
construction as that of the first embodiment and the same function
(description thereof being omitted).
With an endoscope connector of FIG. 8 according to a third embodiment of
this invention, the annular grooves 49, 50 of the second embodiment are
replaced by an annular groove 54 formed in the smallest inner diameter
section 18 of the socket member 11 adjacent to the medium inner diameter
section 19 of the socket member 11, and an annular chamber 55 defined by
an annular groove 56 between the forward end of the medium inner diameter
section 19 and the rear end of the larger inner diameter section 20 of the
socket member 11 and an annular groove 60 formed in the outer wall of the
rear end portion of the larger outer diameter section 32 of the plug
member 29. The annular groove 54 communicates with the suction tube 37,
and the annular chamber 55 communicates with the fluid-feeding tube 38. An
annular groove 57 is formed in the inner wall of the smallest inner
diameter section 18 of the socket member 11. An O-ring 58 placed in the
annular groove 57 effects a sealing between the smaller inner diameter
section 18 of the socket member 11 and the smaller outer diameter section
30 of the plug member 29. An O-ring 59 is formed between the regions lying
near the free ends of the socket member 11 and plug member 29 to seal both
members. The endoscope connector of the third embodiment does not include
a largest outer and inner diameter sections of other embodiments but has
substantially the same construction as the second embodiment in other
respects.
The combination of the annular grooves 35, 36 and the inner surface of the
socket member 11, the combination of the annular grooves 49, 50 and the
outer surface of the plug member 29, and the annular chamber 55 constitute
annular communication chambers for establishing communication between the
suction fitting 25 and suction tube 37 and also communication between the
fluid-feeding fitting 27 and fluid-feeding tube 38.
The parts of the second and third embodiments which are the same as or
similar to those of the first embodiment are denoted by the same numerals,
description thereof being omitted.
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Description |
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