JPH027523Y2 - - Google Patents

Description

[Detailed explanation of the idea] The present invention relates to an endoscope suction device.

When using an endoscope to observe and treat polyps and ulcers that occur inside body cavities such as the stomach and intestines, the filth in the body cavity and the injected irrigation water must be drained outside the body cavity. Therefore, suction work is performed using a suction tube and a suction pump attached to the endoscope. This suction operation needs to be precisely controlled as intended by the surgeon, and careless suction may cause damage to the inside of the body cavity.
The control mechanism for the suction operation shall be provided with means to prevent accidents.

In order to control the suction operation, conventionally, a circumferential groove or the like is formed in the control valve body provided on the handle of the endoscope, and the control valve body is moved against the elastic force of a spring provided on the outer periphery of the control valve body. Some were designed to be pressed down to connect the suction tube to the suction pump.

However, the above-mentioned conventional technology has the following drawbacks.

First, the control valve body malfunctions and does not recover, and therefore, the suction operation may not be able to be stopped.

Second, the control valve body attached to the endoscope handle has multiple structures, which increases the weight of the endoscope and causes fatigue for the operator. It is.

Thirdly, since the control valve body is provided integrally with the handle, cleaning after use is extremely time consuming.

Fourth, since the control valve body has a structure having a complicated circumferential groove, the control valve body is likely to cause malfunctions such as clogging.

The present invention was made to solve the above-mentioned drawbacks, and its purpose is to be able to stop the suction operation even if the control valve body malfunctions and ensure safety; To provide a suction device for an endoscope that has a simple structure, does not take up much space, is easy to clean after use, and does not cause malfunctions such as clogging.

In order to achieve the above objectives, the present invention provides a main valve body that controls the suction operation and a relief valve body that is activated when the main valve body fails, separately from the endoscope body. It is characterized by

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is an overall schematic explanatory diagram showing one embodiment of the suction device for an endoscope according to the present invention, FIG. 2 is a detailed explanatory diagram of a valve body that controls the suction operation, and FIG. 1 is a control circuit diagram of the endoscope, 1 is the tip of the endoscope, 2 is the flexible tube, 3 is the handle, 4 is the suction tube, 5 is the suction pump, 6 is the control switch, and 7 is the valve body control box. ,
8 is a main valve body, 9 is a relief valve body, and 10 is a signal generating means.

The distal end 1 of the endoscope, which can be freely curved and inserted into a body cavity by the operator's operation, has one end of a suction tube 4 open, and the suction tube 4 has a flexible tube section. 2 and the handle 3 to the suction port 11 of the main valve body 8 . Further, the suction pipe 4 is connected to a suction pump 5 through a discharge port 12 of the relief valve body 9 after passing through a suction control mechanism such as a main valve body 8, which will be described later, to discharge dirt, washing water, etc. inside the body cavity. I try to do that.

Furthermore, a control switch 6 that sends out a signal to operate the main valve body 8 is provided on the handle 3 of the endoscope at a position that is easy for the operator's fingers to reach. In the control circuit shown in the figure, it is indicated by _S1 .

The main valve body 8 is detachably attached to the valve body control box 7 between the suction pipe 4 and the suction pump 5.
the voltage generated by the signal of the control switch 6;
V ₁ to the position shown in FIG. 2 to connect the suction tube 4 to the suction pump 5. That is, when the solenoid 13 is excited by the voltage V ₁ to operate the main valve body 8, the notch 14 provided in the main valve body 8 causes the suction port 11 and the connecting flow path 15 to communicate with each other. As a result, filth and the like sucked from inside the body cavity are sent to the suction pump 5 from the connection flow path 15 via the notch 16 of the relief valve body 9 and the discharge port 12.

Further, in the vicinity of the main valve body 8, there is a second main valve body 8.
A signal generating means 10 such as a limit switch which generates a signal when moved to the position shown in the figure is provided, and the signal generating means 10 is S ₂ in FIG.
is shown.

The relief valve body 9 is provided in parallel with the main valve body 8, can communicate with the main valve body 8 via the connecting flow path 15, and receives the voltage _V2 shown in FIG. 3, which will be described later. It is moved by the solenoid 17 to the position shown in FIG. At this time, the notch 16 of the relief valve body 9 communicates with the atmosphere through the gap 18, and thereby the suction pump 5 begins to suck the atmosphere.

The control circuit shown in FIG. 3 is provided in the valve body control box 7, receives the signal from the control switch 6 and the signal from the signal generating means 10, and thereby controls the main valve body 8 as shown in FIG. voltage to move to position
V ₁ and a voltage V ₂ that moves the relief valve body 9 to the position shown in FIG. 4 are output. Note that 19 indicates a delay circuit. As shown in the figure, the control circuit outputs the signal from the control switch 6 and the signal from the signal generating means 10.
It is a comparison using an AND circuit, etc., and 2
0 and 21 indicate AND circuits, and 22 and 23 indicate inverters.

Next, details of the control circuit will be explained together with the operations of the main valve body 8 and the relief valve body 9.

If there is no malfunction in the main valve body 8, when the operator presses the control switch 6, _S1 is made and the voltage is
V ₁ is generated, and the solenoid 13 of the main valve body 8 is excited by the voltage V ₁ . At this time, the main valve body 8
moves to the position shown in Fig. 2, hits the signal generating means 10 such as a limit switch, and then
4 communicates the suction pipe 4 with the suction pump 5,
Perform suction operation. While the main valve body 8 is moving to the _position shown in _FIG . The valve body 9 never operates. Then, when the operator releases the control switch 6, S ₁ is made, and therefore the voltage
V ₁ is no longer generated, and as a result, the main valve body 8 moves back and stops the suction operation. When the main valve body 8 retreats, the signal generating means 10 also stops sending out the signal,
This causes S ₂ to break.

The above explanation was based on the case where the main valve body 8 had no failure and the main valve body 8 operated smoothly in response to ON and OFF of the control switch 6 pressed by the operator. If the main valve body 8 does not return to the suction stop position even after releasing the valve 6 to stop the suction operation, the suction pump 5 may continue to unnecessarily suction the inside of the body cavity, which is dangerous. be.

Therefore, in the present invention, in order to deal with such a case, the relief valve body 9 is operated to connect the suction pump 5 to the atmosphere. That is, in a dangerous state, _S1 corresponding to the control switch 6 is broken, and since the main valve body 8 does not recover despite this, _S2 corresponding to the signal generating means 10 is made. There is. At this time, the control circuit is
After a certain period of time defined by the delay circuit 19 has elapsed, the inverter 23 inverts the input signal.
The AND circuit 21 compares the signals. At this time, switch S ₂ is ON, and the signal is the same as that passed through AND circuit 20, so that the voltage
V ₂ is generated and the solenoid 17 of the relief valve body 9
Excite. As a result, the relief valve body 9
Move to the position shown in FIG. 4, cut out 16 and gap 18
The suction pump 5 is communicated with the atmosphere through the air.

As described above, the endoscope suction device according to the present invention includes a control switch provided on the handle, a main valve body provided in the valve body control box, and a signal generating means for checking the operation of the main valve body. , a relief valve body that can communicate with the atmosphere, and a control circuit that operates the main valve body and the relief valve body, thereby achieving the following significant effects.

First, by means of signal generation means, control circuits, etc.
When the main valve body malfunctions, it can be detected and the relief valve body can be activated, allowing the suction pump to communicate with the atmosphere, thereby preventing unnecessary suction from the patient's body cavity. It is possible to ensure patient safety.

Second, since the endoscope body only has a control switch and no other valve bodies, the structure of the endoscope body can be simplified, made smaller and lighter, and space can be saved. This can reduce the burden on the operator.

Third, the valve body is detachably installed in the valve body control box separately from the endoscope, and the structure of the valve body has been greatly simplified, making it easy to clean after use.
And it is perfectly possible.

Fourthly, the structure of the main valve body is simple and there is no narrow flow path such as a circumferential groove as in conventional systems, so accidents such as clogging of the suction device do not occur.

[Brief explanation of the drawing]

FIG. 1 is an overall schematic explanatory diagram showing one embodiment of the suction device for an endoscope according to the present invention, FIG. 2 is a detailed explanatory diagram of a valve body that controls the suction operation, and FIG. The control circuit diagram of the body, FIG. 4 is an explanatory diagram of the operation of the relief valve body. 1...Tip, 2...Flexible tube part, 3...Handle part, 4
... Suction pipe, 5... Suction pump, 6... Control switch, 7... Valve body control box, 8... Main valve body,
9... Relief valve body, 10... Signal generating means, 1
DESCRIPTION OF SYMBOLS 1... Suction port, 12... Discharge port, 13... Solenoid, 14... Notch, 15... Connection channel, 16...
...notch, 17... solenoid, 18... gap,
19...Delay circuit.

Claims (1)

[Scope of utility model registration request] A main valve body, a relief valve body, and a suction pump are connected in this order to the suction pipe that opens at the head of the endoscope, and a control switch that operates the main valve body is provided in the endoscope handle, and when the main valve body is activated. A signal generating means for generating a signal is provided near the main valve body, and when the main valve body opens, suction in the body cavity is started, and when the main valve body does not close even when the control switch is turned off, the relief The valve element opens to communicate the suction pump with the atmosphere and closes the communication between the body cavity and the suction pump.Furthermore, the signal from the control switch and the signal from the signal generating means are compared by an AND circuit, and the control switch is activated. A suction device for an endoscope, comprising a control circuit that operates the relief valve body when a signal from the signal generating means is generated even though the valve is turned off.