JP3722739B2 - Ultrasound endoscope relay cable - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a relay cable for an ultrasonic endoscope that relays between an ultrasonic endoscope having an ultrasonic transducer at the distal end of the endoscope and observing an ultrasonic tomogram and an ultrasonic diagnostic apparatus.
[0002]
[Prior art]
In general, an ultrasonic endoscope is provided with an ultrasonic transducer at the distal end of an endoscope insertion portion, and can observe an endoscopic image in a body cavity and an ultrasonic tomographic image of a peripheral organ.
[0003]
FIG. 4 shows a configuration of a conventional ultrasonic endoscope. As shown in the figure, an endoscope function cable (hereinafter abbreviated as “universal cable”) 3 mainly related to the endoscope function is extended from the operation section 2 of the ultrasonic endoscope 1. In addition, an ultrasonic cable 5 related to the ultrasonic function is extended from the sub operation unit 4.
[0004]
An endoscope light source device (not shown) and a scope connector 6 connected to the endoscope device via a scope cable are fixed to the distal end of the universal cable 3. Are fixedly provided with an ultrasonic connector 7 connected to an ultrasonic diagnostic apparatus (not shown).
[0005]
Thus, since the two cables of the universal cable 3 and the ultrasonic cable 5 are extended from the operation part 2 side at hand in the general ultrasonic endoscope 1, the ultrasonic endoscope 1 Not only does the outer shape become large and the weight increases, but also the cables 3 and 5 connected to the two devices are obstructive, which makes it unusable for the user.
[0006]
Therefore, in the Japanese Patent Application No. 2001-1695, the present applicant unifies the universal cable and the ultrasonic cable, and extends only the universal cable from the ultrasonic endoscope, thereby reducing the size and weight. A technology to improve the handling and improve the handling was proposed.
[0007]
That is, as shown in FIG. 5, the ultrasonic connector 7 and the endoscope connector 8a are fixed to both ends of the ultrasonic cable 8, so that the ultrasonic cable 8 functions as a relay cable, and the endoscope By connecting the connector 8a to a scope connector 6 ′ fixed to the tip of the universal cable 3 extending from the operation unit 2 of the ultrasonic endoscope 1 ′, the universal cable 3 and the ultrasonic cable 8 are connected. Unification is realized.
[0008]
[Problems to be solved by the invention]
However, when the ultrasonic cable 8 is caused to function as a detachable relay cable as in the prior art described above, the ultrasonic connector 7 and the endoscope connector 8a provided at both ends of the ultrasonic cable 8 are connected to each other. In this case, it is necessary to connect each of the ultrasonic diagnostic apparatus (not shown) and the scope connector 6 ′, but at this time, the ultrasonic connector 7 side is used as the ultrasonic diagnostic apparatus before the endoscope connector 8a side. You may be connected.
[0009]
If the ultrasonic connector 7 side is connected earlier than the endoscope connector 8a side, the power supply and signals supplied from the ultrasonic diagnostic apparatus side are exposed to the connection terminal of the endoscope connector 8a. It is necessary to take measures.
[0010]
For example, in the ultrasonic endoscope 1 ′ shown in FIG. 5 described above, the ultrasonic connector 8a is provided with the rotation lever 9 for fixing the ultrasonic cable, and is turned on when the rotation lever 9 is rotated to the fixed side. A switch is also provided, and this switch is in an OFF state, that is, after the endoscope connector 8a of the ultrasonic cable 8 is connected to the scope connector 6 ′, until the switch is turned ON by operating the rotary lever 9, A technique is disclosed in which power and signals supplied from the ultrasonic diagnostic apparatus side are not output from the connection terminal of the ultrasonic connector 8a.
[0011]
However, even when the switch is linked to the rotation lever 9, for example, after connecting the ultrasonic connector to the ultrasonic diagnostic apparatus, before connecting the endoscope connector 8a to the scope connector 6 ′, the rotation lever 9 If the switch is rotated, the switch is turned on, and the power and signals supplied from the ultrasonic diagnostic apparatus side are exposed to the connection terminal of the endoscope connector 8a, which is the same as described above. Problems arise.
[0012]
The present invention has been made in view of the above-described points, and the ultrasonic diagnostic apparatus is provided before the relay cable that relays the ultrasonic diagnostic apparatus and the ultrasonic endoscope is connected to the ultrasonic endoscope side. Even if it is connected to the side, the power and signal from the ultrasonic diagnostic equipment side will not be exposed to the connection terminal of the relay cable, it is easy to use, and it is a small and lightweight relay for ultrasonic endoscope The purpose is to provide a cable.
[0013]
[Means for Solving the Problems]
In order to achieve the above object, the present invention relays an ultrasonic endoscope and an ultrasonic diagnostic apparatus, and an ultrasonic endoscope relay cable that is detachable from each other includes the ultrasonic endoscope . Connected to a signal detection line provided between an endoscope connector to be connected and an ultrasonic connector connected to the ultrasonic endoscope diagnostic apparatus, and the endoscope connector and the ultrasonic endoscope Detecting means for detecting a detection signal that is energized based on the connection, and on / off control of transmission of an electrical signal from the ultrasonic diagnostic apparatus based on a detection result of the detecting means connected to the detecting means And a control means.
[0014]
In such a configuration, when the detection unit detects a detection signal energized based on the connection between the ultrasonic endoscope and the relay cable, the control unit is turned on, and the ultrasonic diagnostic apparatus, the ultrasonic endoscope, The power line and the signal line between the two are made conductive through the relay cable so that the ultrasonic endoscope can be used. Therefore, when the relay cable is connected to the ultrasonic diagnostic apparatus side but not connected to the ultrasonic endoscope side, the control means is in an off state, so the relay cable for the ultrasonic endoscope is used. The power supply and signals are not exposed from the connection end side.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[0016]
(First embodiment)
FIG. 1 shows a schematic configuration diagram of an ultrasonic cable according to the first embodiment of the present invention and a scope connector of an ultrasonic endoscope connected to the ultrasonic cable.
[0017]
Reference numeral 11 in the figure denotes an ultrasonic cable as a relay cable for an ultrasonic endoscope. The ultrasonic cable 11 connects the ultrasonic diagnostic apparatus 14 and the ultrasonic endoscope 1 ′ (see FIG. 5), and is provided at both ends of the ultrasonic cable 11 in the ultrasonic endoscope 1 ′. An endoscope connector 13 connected to the scope connector 6 ′ and an ultrasonic connector 15 connected to the ultrasonic diagnostic apparatus 14 are provided.
[0018]
In the ultrasonic cable 11, a power source / signal line 17 composed of a power source line and a signal line is disposed, and one end of the power source / signal line 17 is provided in the endoscope connector 13. The mirror side terminals 17a, 17a,.
[0019]
Further, the other end of the power / signal line 17 is connected to ultrasonic side terminals 17b, 17b... Provided on the ultrasonic connector 15. Further, the ultrasonic connector 15 includes a relay RE1 as a control means for controlling conduction / cutoff of the power / signal line 17, and an NPN transistor (hereinafter referred to as “transistor”) that outputs a drive signal to the relay RE1. And abbreviated as TR1).
[0020]
The ultrasonic cable 11 is provided with a signal detection line 18, one end of which is connected to an endoscope side detection terminal 18 a as a detection means provided in the endoscope connector 13, and the other end. Is connected to the ultrasonic-side detection terminal 18 b provided in the ultrasonic connector 15.
[0021]
The ultrasonic side detection terminal 18b is connected to the ultrasonic diagnostic apparatus 14, and a detection signal from the ultrasonic diagnostic apparatus 14 is energized. This detection signal has a current / voltage sufficient to turn on the transistor TR1.
[0022]
On the other hand, the endoscope connector 13 is provided with a detection return terminal 19a as detection means, and the other end of the detection return line 19 that connects the detection return terminal 19a to one end is connected to the base of the transistor TR1. ing. The control voltage Vcc is applied to the collector side of the transistor TR1, and the emitter side is connected to the control terminal of the relay RE1. The relay TR1 is in an OFF state when the drive signal from the emitter side of the transistor TR1 is in a non-energized state, and is turned on when the drive signal is energized.
[0023]
Further, the scope connector 6 ′ is provided with connector side terminals 20a, 20a... Connected to the endoscope side terminals 17a, 17a. Terminals 20a, 20a... Are connected to the power supply line and signal line of the ultrasonic endoscope 1 ′, respectively.
[0024]
Furthermore, connector-side detection terminals 21a and 21b as detection means for detecting the connection of the endoscope connector 13 are located at positions corresponding to the endoscope-side detection terminal 18a and the detection return terminal 19a of the scope connector 6 ′. The connector side detection terminals 21 a and 21 b are connected via a short-circuit line 22.
[0025]
Therefore, when the endoscope connector 13 is attached to the scope connector 6 ′, the endoscope side detection terminal 18a and the detection return terminal 19a are conducted through the connector side detection terminals 21a and 21b.
[0026]
Next, the operation of the present embodiment having such a configuration will be described.
When the ultrasonic connector 15 provided at one end of the ultrasonic cable 11 is connected to the ultrasonic diagnostic apparatus 14 side, the ultrasonic side detection terminal 18b and the ultrasonic side terminal 17b provided in the ultrasonic connector 15 are connected. The terminal is connected to a terminal (not shown) on the ultrasonic diagnostic apparatus 14 side.
[0027]
At this time, the endoscope connector 13 provided at the other end of the ultrasonic cable 11 is compared with the ultrasonic cable 5 ′ provided at the tip of the universal cable 3 extending from the ultrasonic endoscope 1 ′. In the disconnected state, the signal detection line 18 and the detection return line 19 connected to the ultrasonic side detection terminal 18b are cut off, so that the detection signal is not supplied to the base of the transistor TR1, and the transistor TR1 is in the OFF state. To maintain.
[0028]
Therefore, no drive signal is output from the emitter side of the transistor TR1 to the control terminal of the relay RE1, and the relay RE1 is maintained in the OFF state. Line 17 is interrupted.
[0029]
Next, when the endoscope connector 13 provided at the other end of the ultrasonic cable 11 is attached to the scope connector 6 ′, the endoscope side detection terminal 18 a and the detection return terminal provided in the endoscope connector 13. 19a is connected to the connector side detection terminals 21a and 21b provided in the scope connector 6 ′, and the signal detection line 18 and the detection return line 19 are connected via the short-circuit line 22 provided in the scope connector 6 ′. Is conducted.
[0030]
Then, a current / voltage sufficient for turning on the transistor TR1 supplied from the ultrasonic diagnostic apparatus 14 side to the base of the transistor TR1 via the signal detection line 18, the short circuit line 22, and the detection return line 19 is supplied. And the transistor TR1 is turned on.
[0031]
As a result, the control voltage Vcc is supplied from the emitter side of the transistor TR1 to the control terminal of the relay RE1, the relay RE1 is turned on, the power source / signal line 17 is turned on, and the ultrasonic diagnostic apparatus 14 and the scope connector 6 are turned on. The power line and the signal line are connected to each other via a power / signal line 17 provided in the ultrasonic cable 11, and the ultrasonic endoscope 1 'can be used.
[0032]
Thus, according to the present embodiment, the endoscope provided in the ultrasonic cable 11 regardless of the state of the switch interlocked with the ultrasonic cable fixing rotary lever 9 disclosed in Japanese Patent Application No. 2001-1695. Until the connector 13 is connected to the scope connector 6 ′ of the ultrasonic endoscope 1 ′, the transistor TR1 is in an OFF state and the power / signal line 17 is cut off. Even when the ultrasonic diagnostic apparatus 14 is connected before the connector 13, the power source and the signal are not exposed from the endoscope side terminals 17 a, 17 a... Of the endoscope connector 13. Good handling.
[0033]
In this case, the detection signal supplied from the ultrasonic diagnostic apparatus 14 side is weak because it is the base current of the transistor TR1, and the detection signal is exposed from the endoscope side detection terminal 18a of the endoscope connector 13. However, it does not affect the surroundings.
[0034]
(Second Embodiment)
FIG. 2 shows a schematic configuration diagram of an ultrasonic cable according to the second embodiment of the present invention and a scope connector of an ultrasonic endoscope connected to the ultrasonic cable.
[0035]
In this embodiment, the collector side of the transistor TR1 is connected to the control terminal of the relay RE1, the emitter side is connected to the signal detection line 18, and the control voltage VB is supplied to the base and the control voltage Vcc is always supplied to the collector. It is a thing.
[0036]
The signal detection line 18 is connected to an endoscope side detection terminal 18 a provided in the endoscope connector 13. On the other hand, the scope connector 6 ′ is provided with a ground terminal 23 connected to the endoscope side detection terminal 18a, and the ground terminal 23 is grounded.
[0037]
In such a configuration, when the endoscope connector 13 provided in the ultrasonic cable 11 and the scope connector 6 ′ are not connected, the potential on the emitter side of the transistor TR1 is indefinite, so that the transistor TR1 No current flows on the emitter side, and the relay RE1 maintains the OFF state.
[0038]
On the other hand, when the endoscope connector 13 is connected to the scope connector 6 ′, the signal detection line 18 is grounded via the ground terminal 23 of the scope connector 6 ′, so that the potential (ground level) on the emitter side of the transistor TR1 is increased. The current flows to the emitter side and the relay RE1 is turned on, and the power supply line and the signal line between the ultrasonic diagnostic apparatus 14 and the ultrasonic endoscope 1 ′ are conducted via the power supply / signal line 17, The ultrasonic endoscope 14 is ready for use.
[0039]
As described above, according to the present embodiment, in addition to the effects of the first embodiment, the detection return line 19 and the detection return terminal 19a shown in the first embodiment are unnecessary, and accordingly, the number of parts is reduced. The structure can be simplified and the cost of the product can be reduced.
[0040]
(Third embodiment)
FIG. 3 shows a schematic configuration diagram of an ultrasonic cable according to a third embodiment of the present invention and a scope connector of an ultrasonic endoscope connected to the ultrasonic cable.
[0041]
In the present embodiment, when the transistor TR1 required in the first and second embodiments is eliminated and the endoscope connector 13 is connected to the scope connector 6 ′, an ultrasonic diagnosis is performed on the relay RE1. The control voltage is directly supplied from the device 14 side.
[0042]
That is, when the ultrasonic connector 15 provided at one end of the ultrasonic cable 11 is connected to the ultrasonic diagnostic apparatus 14, the signal detection line 18 provided in the ultrasonic cable 11 is provided in the ultrasonic diagnostic apparatus 14. Connected to a detection voltage supply line (not shown). The control voltage has a voltage / current value sufficient to control the relay RE1.
[0043]
On the other hand, one end of the detection return line 19 is connected to a detection return terminal 19a provided in the endoscope connector 13, and the other end is connected to a control terminal of the relay RE1. Further, the scope connector 6 ′ is provided with connector-side detection terminals 21a and 21b that are connected to the endoscope-side detection terminal 18a and the detection return terminal 19a, and the connector-side detection terminals 21a and 21b are short-circuited. Connected via line 22.
[0044]
In such a configuration, the ultrasonic connector 15 provided at one end of the ultrasonic cable 11 and the ultrasonic diagnostic apparatus 14 are connected, while the endoscope provided at one end of the ultrasonic cable 11. When the connector 13 and the scope connector 6 ′ are in a disconnected state, the signal detection line 18 and the detection return line 19 are cut off, so that the control voltage is not supplied to the control terminal of the relay RE1, and the relay RE1 is in the OFF state.
[0045]
When the endoscope connector 13 is connected to the scope connector 6 ′, the signal detection line 18 and the detection return line 19 provided on the endoscope connector 13 are connected to the short-circuit line 22 provided on the scope connector 6 ′. And the control voltage supplied to the signal detection line 18 is supplied to the control terminal of the relay RE1 via the detection return line 19.
[0046]
Then, the relay RE1 is turned on, the power / signal line 17 is in a conductive state, and the power supply line and the signal line provided in the ultrasonic diagnostic apparatus 14 and the scope connector 6 ′ are provided in the ultrasonic cable 11. The ultrasonic endoscope 1 ′ is ready for use through the power / signal line 17.
[0047]
Thus, in this embodiment, since the control voltage is directly supplied to the relay RE1 from the ultrasonic diagnostic apparatus 14 side, the value of the current flowing through the signal detection line 18 is compared with that of the first embodiment. However, although the value is slightly large, the transistor TR1 can be omitted, so that the number of parts can be reduced and the structure can be simplified, and the product cost can be reduced.
[0048]
[Appendix] As described in detail above, according to the present invention, the following configuration can be obtained.
(1) In an ultrasonic endoscope comprising an endoscope cable and a detachable ultrasonic function cable,
A detecting means provided on the ultrasonic endoscope side connector of the ultrasonic function cable, for detecting connection with the ultrasonic endoscope;
Control means for turning on / off transmission of a power line and a signal line of the ultrasonic diagnostic apparatus based on a detection result of the detection means;
An ultrasonic endoscope characterized by comprising:
[0049]
In such a configuration, only when the connection between the ultrasonic function cable and the ultrasonic endoscope is detected, the power supply line and signal line from the ultrasonic diagnostic apparatus are connected, and the ultrasonic endoscope can be used. It becomes a state.
[0050]
【The invention's effect】
As described above, according to the present invention, even when the relay cable is connected to the ultrasonic diagnostic apparatus before the relay cable is connected to the ultrasonic endoscope, Since power and signals are not exposed to the connection terminal of the relay cable, it is easy to use. In addition, since it has a simple structure, it is possible to achieve an excellent effect such as a reduction in size and weight and high safety.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of an ultrasonic cable according to a first embodiment and a scope connector of an ultrasonic endoscope connected to the ultrasonic cable. FIG. 2 is an ultrasonic cable according to a second embodiment; FIG. 3 is a schematic configuration diagram of an ultrasonic endoscope scope connector connected to an ultrasonic cable. FIG. 3 is an outline of an ultrasonic cable according to a third embodiment and an ultrasonic endoscope scope connector connected to the ultrasonic cable. FIG. 4 is an overall configuration diagram of a conventional ultrasonic endoscope. FIG. 5 is an overall configuration diagram of an ultrasonic endoscope according to another conventional mode.
1 'Ultrasound endoscope 14 Ultrasound diagnostic device 18a Endoscope side detection terminal (detection means)
19a Detection return terminal (detection means)
RE1 relay (control means)

Claims (2)

In the relay cable for the ultrasonic endoscope, which relays between the ultrasonic endoscope and the ultrasonic diagnostic apparatus and is detachable from each other,
Connected to a signal detection line provided between an endoscope connector connected to the ultrasonic endoscope and an ultrasonic connector connected to the ultrasonic endoscope diagnostic apparatus; and Detecting means for detecting a detection signal energized based on the connection with the ultrasonic endoscope ;
A control unit connected to the detection unit and configured to control on / off transmission of an electrical signal from the ultrasonic diagnostic apparatus based on a detection result of the detection unit;
A relay cable for an ultrasonic endoscope, comprising: The relay cable for an ultrasonic endoscope according to claim 1, wherein the control means is a relay operated based on the detection signal.

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