JP4616179B2 - Endoscope device - Google Patents

Description

  The present invention relates to an endoscope apparatus, and more particularly to an endoscope apparatus provided with a switch unit inside an operation unit.

  Conventionally, by inserting an elongated insertion portion into a body cavity, a medical device capable of observing organs in the body cavity or performing various treatments using a treatment instrument inserted into a treatment instrument channel as necessary Endoscope devices for use are widely used.

  Also in the industrial field, for example, industrial endoscope apparatuses that can observe and inspect internal scratches and corrosion of boilers, turbines, engines, chemical plants, and the like are widely used.

  In a conventional endoscope apparatus, an elongated endoscope having an insertion part inserted into a body cavity or the like and an operation part connected to the insertion part, and various controls connected to the endoscope are performed. Generally, it is configured by a processor unit, a light source device for generating illumination light, and the like.

  In the endoscope apparatus configured as described above, the operation unit of the endoscope includes a main operation unit in which various operation members are intensively arranged, and various component members that are connected to the main operation unit. In general, it is mainly composed of a gripping portion that is a part gripped by an operator during use.

  In addition, the main operation part of the operation part includes a bending operation of the distal end of the insertion part, a vertical movement operation of a forceps raising base for performing a position operation of a distal end part of a treatment instrument such as a forceps inserted through the insertion part, an air supply operation, A plurality of operation members for performing various operations such as a water feeding operation, a suction operation, and an imaging operation (for example, a freeze operation, a release operation, etc.) performed by controlling an imaging device provided at the distal end of the insertion portion are disposed. .

  The plurality of operation members are connected to various components through a link mechanism or the like in the operation unit, for example, to mechanically operate individual component members, or electromagnetic switches or the like provided in the operation unit The operation of the corresponding component can be electrically controlled by turning on and off a predetermined electromagnetic switch.

  In a conventional endoscope, a switch unit including an electromagnetic switch, for example, is separated from a corresponding operation member inside the operation unit due to the design convenience in consideration of the arrangement, assembly, and disassembly of various components inside the operation unit. There is a case where a configuration is adopted in which it is arranged at a different position.

  In the case of adopting such an arrangement configuration, for example, the operation member and the switch unit are connected via a link mechanism so that the on / off operation of the switch member of the switch unit is interlocked with the operation of the operation member. Have been put to practical use.

  In a conventional endoscope, for example, there is a configuration in which an operation member is provided in a main operation portion of an operation portion, and a switch unit interlocking with the operation member is disposed inside a grip portion of the main operation portion. In this case, various components such as the switch unit are attached to a plate-like fixing member disposed inside the grip portion. In addition to the switch unit, the structural member attached to the plate-like fixing member is, for example, a chain that is linked to a bending operation knob that is an operation member that performs a bending operation, or an operation that performs a vertical movement operation of the forceps raising base. There is a wire or the like interlocking with a forceps raising lever as a member.

  However, in the conventional endoscope having the above-described configuration, various components are attached to one side of the plate-like fixing member inside the operation unit. For example, from a lever, a knob, or the like. In the case of the operation member, a stress is applied to the switch unit via the link mechanism. This stress is also applied to the plate-like fixing member on which the switch unit is fixed. And when the stress is concentrated on one side of the plate-like fixing member, there is a possibility that the balance of the gripping portion is deteriorated or the exterior member is distorted by the stress. It is also conceivable that the water tightness of the mounting portion of the operation member cannot be maintained due to the factor, and thus water leakage or the like occurs.

  In addition, if the switch unit and various operation members are installed on the side where the operation members are provided, for example, there is a problem that it becomes difficult to replace those constituent members.

  On the other hand, when the switch unit to be interlocked and the operation member are arranged at positions separated via the link mechanism, the link member of the link mechanism is usually long. This causes a problem that the operation of the switch unit or the like performed by operating the operation member becomes an unstable factor and also causes a malfunction.

  On the other hand, since the link mechanism itself is also arranged inside the gripping part, for example, when the switch unit is replaced or repaired, the link mechanism with the exterior member of the gripping part removed can be visually observed. Therefore, there is a problem that it is not easy to check the operation of the link mechanism.

  By the way, in recent years, for example, an endoscope that inserts the insertion portion into the large intestine by the transanus, and provided with a flexible rotating cylinder that can rotate around the axis on the outer peripheral side of the insertion portion, Various proposals have been made for a so-called rotary self-propelled endoscope apparatus in which an insertion portion can be automatically inserted into a body cavity by rotating the rotary cylinder with a drive motor.

  In this rotary self-propelled endoscope apparatus, for example, a motor box incorporating a drive motor or the like is provided between the operation unit and the insertion unit, and the motor box and the insertion unit are configured to be detachable. There is what I did. In the case of such a configuration, there is a problem that there is no room for arranging the switch unit in the grip portion of the operation portion in consideration of efficiently arranging the members that realize the attachment / detachment mechanism.

  The present invention has been made in view of the above-described points, and an object of the present invention is to provide an operation unit for stress generated by operation of an operation member in an endoscope apparatus including a switch unit inside the operation unit. To provide an endoscope apparatus that can reliably perform a predetermined operation that can be realized by operating an operation member by adopting a configuration that can reduce the load on the plate-like fixing member inside It is.

In order to achieve the above object, an endoscope apparatus according to the present invention includes an operation unit capable of operating a function execution unit of an endoscope apparatus, a plate-like fixing member fixed inside the operation unit, It is disposed on the surface of the hand of the plate-shaped fixing member, and a switch unit provided with activatable switch member by the sliding movement of the switch pressing / pressure release direction, provided in the operation unit, before Symbol plate in the other surface side of the Jo fixing member, and operable operating member to the rotation direction to the direction orthogonal to the plate-like fixing member with respect to the operating unit and the rotation shaft, one end of the solid to the operating member A motor link that extends to the one surface and transmits the movement of the operation member to the other end, and one arm portion is fixed to the other end of the motor link and the other arm portion is the switch. A first support shaft connected to the unit and having a fulcrum provided on the plate-like fixing member The and a rotary lever which is rotatably supported as the pivot center, before Symbol switch unit connecting the door and the front SL operating member, prior Symbol of Kaidoun dynamic pre kiss switch member of the operation member and a link mechanism for converting the sliding motion of the switch pressing / pressure release direction, is provided at a position opposed to the switch unit, the said switch unit can be inserted between the inside of the external and the operating portion of the operating portion As described above, an opening provided in the exterior of the operation portion and a cover member detachably disposed so as to cover the opening are provided.

  According to the present invention, in an endoscope apparatus provided with a switch unit inside an operation unit, it is possible to reduce the load on the plate-like fixing member inside the operation unit caused by the operation of the operation member. It is another object of the present invention to provide an endoscope apparatus that can reliably perform a predetermined operation that can be realized by operating an operation member.

The present invention will be described below with reference to illustrated embodiments.
FIG. 1 is a diagram showing an overall schematic configuration of an endoscope apparatus showing an embodiment of the present invention. 2-5 is a block diagram which shows a part of internal structure in the main operation part of the operation part in the endoscope of the endoscope apparatus of this embodiment, Comprising: Specifically, it is provided inside the main operation part. A motor switch unit, a motor switching lever, and a link mechanism that connects both of them are shown. Among these, FIG.2, FIG.4, FIG.5 is a schematic block diagram when it sees from one side (cover member side) of the main operation part, Comprising: FIG. 2 shows the state which has a motor switching lever in a neutral position, FIG. 4 shows a state where the motor switching lever is tilted in one direction, and FIG. 5 shows a state where the motor switching lever is tilted in the other direction. 2, FIG. 4 and FIG. 5 show a state where the cover member is removed. FIG. 3 is an enlarged cross-sectional view showing the main part of the motor switch unit, the motor switching lever, and the vicinity of the link mechanism connecting the two. FIG. 6 is a configuration diagram showing a part of the internal configuration of the grip portion of the operation unit in the endoscope of the endoscope apparatus of the present embodiment, and is a diagram showing a wire connection portion provided in the grip portion. It is.

  In one embodiment of the present invention, a rotary self-propelled endoscope apparatus will be described below as an example.

  First, a schematic configuration of the endoscope apparatus 1 of the present embodiment will be described below with reference to FIG.

  As shown in FIG. 1, an endoscope apparatus 1 is mainly composed of a rotary self-propelled endoscope (hereinafter simply referred to as an endoscope) 2, a control device 3, a monitor 4, a suction device 5, and the like. Has been.

  The endoscope 2 includes an insertion unit 6 and an operation unit 7. Among these, the insertion portion 6 includes a distal end rigid portion (hereinafter simply referred to as a distal end portion) 8, a bending portion 9, an insertion portion main body 10, an insertion aid 11, a storage case 12, and an insertion aid in order from the tip. 11 and a guide tube 13 provided between the operation case 7 and the storage case 12, and a guide on the operation side provided with a corrugated tube provided between the operation unit 7 and the storage case 12. The tube 14 is constituted by a connector cover 15 and the like to which one end of the operation unit side guide tube 14 is connected.

  The operation unit 7 includes a motor box 16 that is detachably formed on a connector cover 15 that constitutes a part of the insertion unit 6, a gripping unit 17, a main operation unit 18, and the like.

  The main operation section 18 includes a bending operation knob 19 that bends the bending section 9 of the insertion section 6 in four directions (up and down, left and right directions corresponding to the endoscope image captured by the endoscope 2), and a fluid sending operation or suction. A plurality of operation members 20 for operation, various switches 21 for operating an optical system such as imaging and illumination, and a motor switch unit which is a switch unit for switching the rotation direction of the outer spiral tube of the insertion portion A motor switching lever 22 or the like that is an operation member that is linked to 30 (not shown in FIG. 1; details will be described later; see FIG. 2) is provided.

  The bending operation knob 19 is arranged in a form in which two substantially disk-shaped operation knobs are stacked on one surface of the main operation unit 18 of the operation unit 7. These two operation knobs are rotatably arranged. Among these, an up (UP) down (DOWN) bending operation knob (hereinafter referred to as a UD bending operation knob) 19 a for operating the bending portion 9 in the vertical direction is disposed at a position near the main operation portion 18. ing. On the upper side of the UD bending operation knob 19a, a right-left bending operation knob (hereinafter referred to as an RL bending operation knob) 19b for operating the bending portion 9 in the left-right direction is disposed in a stacked manner.

  As the plurality of operation members 20 disposed on one side surface of the main operation unit 18, for example, an imaging unit (not shown) provided at the distal end 8 of the endoscope 2 is controlled to perform an imaging operation. A release button 20a operated at the time, an air / water supply button 20b for performing an air supply / water supply operation from the distal end portion 8 of the endoscope 2 into the subject, and an inside of the subject from the distal end portion 8 of the endoscope 2 There is a suction button 20c or the like that is operated when sucking filth and the like.

  In the present embodiment, the main operation members such as the release button 20a, the air / water supply button 20b, and the suction button 20c are configured as operation members that are interlocked with an electromagnetic switch.

  A universal cord 18a, which is an electric cable, extends from one side of the main operation unit 18. A folding stop 18b is disposed at the base end of the universal cord 18a. A connector portion 18c is disposed on the distal end side of the universal cord 18a. The connector portion 18 c is connected to a connector provided on the front panel of the control device 3.

  From the connector cover 15 attached to and detached from the motor box 16, three tubes 23 inserted into the insertion portion 6 extend. These three tubes 23 are an air supply tube 23a, a water supply tube 23b, and a suction tube 23c, respectively. The distal ends of these three tubes 23 are detachably connected to predetermined positions on the front panel of the control device 3 via connectors.

  The control device 3 is provided with a water supply tank 24. Distilled water or physiological saline is stored in the water supply tank 24. The distilled water or physiological saline is supplied to the water supply tube 23b under the control of the control device 3 that has received a signal generated by a predetermined operation of the air / water supply button 20b of the main operation unit 18. It has become. As described above, the water supply tube 23 b is inserted into the insertion portion 6, and the distal end thereof reaches the distal end portion 8 of the endoscope 2. Accordingly, distilled water or physiological saline is ejected from the distal end portion 8 of the endoscope 2.

  Further, air is supplied to the air supply tube 23a from a compressor (not shown) in the control device 3 when a predetermined operation of the air / water supply button 20b of the main operation unit 18 is performed. ing. The air supply tube 23 a is also inserted through the insertion portion 6 as described above, and the distal end thereof reaches the distal end portion 8 of the endoscope 2. Accordingly, this air is ejected from the distal end portion 8 of the endoscope 2.

  On the other hand, the suction tube is inserted through the insertion portion 6 as described above, and the distal end thereof reaches the distal end portion 8 of the endoscope 2. Therefore, when the suction button 20c is operated, dirt and the like are sucked from the distal end portion 8 of the endoscope 2. The filth and the like are fed into the suction device 5 through the suction tube 23c. In addition, in the endoscope apparatus 1 of the present embodiment, the suction device 5 is provided, but instead, the distal end side of the suction tube 23c is provided in the hospital via the control device 3. It is possible to use the suction system by connecting to the suction system.

  A foot switch 25 is connected to the control device 3 via an electric cable 25a. The foot switch 25 is an operation switch that is an operation member for performing a rotation operation or a stop operation of the insertion portion main body 10 of the endoscope 2 in a predetermined direction. The same operation as that of the foot switch 25, that is, the rotation direction of the insertion portion main body 10 or the stop operation can be performed by the motor switching lever 22 provided in the main operation portion 18 of the operation portion 7 as described above. It is.

  On the front panel of the control device 3, a power switch, an operation dial for changing the rotation speed of the insertion portion main body 10 of the endoscope 2, and the like are disposed.

  A drive motor (not shown) for applying a rotational force to the insertion unit main body 10 is built in the motor box 16 of the operation unit 7. As an operation member (switch) for controlling the rotation of the drive motor, the motor switching lever 22 and the foot switch 25 of the operation unit 7 play a role.

  In addition, as an operation member for performing rotation control of the drive motor, for example, a similar operation member (switch) may be provided on the front panel of the control device 3. When a plurality of operation members for performing the same operation are provided in this way, for example, when an operation member of any one of the three operation members is operated, an operation member of a different system is used. The operation by is controlled to be invalid.

  The control device 3 is electrically connected to the monitor 4. The monitor 4 functions as a display device that displays an endoscopic image or the like captured by the endoscope 2.

  Next, in the endoscope apparatus 1 described above, the configuration of the motor switching lever 22 and the motor switch unit provided in the operation unit 7 of the endoscope 2 will be described in detail below.

  As shown in FIGS. 2 to 4, a motor switching lever 22 is provided in the operation unit 7 of the endoscope 2 of the present embodiment. The motor switching lever 22 protrudes on the outer surface of the operation unit 7 so that a part of the motor switching lever 22 protrudes on the surface opposite to the surface on which the release button 20a, the air / water supply button 20b, and the suction button 20c are provided. It is the operation member arranged.

  Further, an opening 27 is provided on the outer surface of the operation unit 7 as shown in FIG. A cover member (not shown) is provided for the opening 27 so as to cover it.

  The motor switching lever 22 is connected to a motor switch unit 30 disposed in the operation unit 7 through a predetermined link mechanism in the operation unit 7.

  As shown in FIGS. 2 and 3, the link mechanism for connecting the motor switching lever 22 and the motor switch unit 30 includes a motor switching lever 22 in which a switching operation knob 22a and a support plate 22b are integrally formed, A motor link shaft 36 fixed to the base end portion of the motor switching lever 22, a motor link 35 connected in series with the motor link shaft 36 interposed therebetween, and a substantially L-shape connected to one end of the motor link 35. The rotary lever 31 is mainly composed of a plate member having a shape and a support shaft 32 that pivotally supports the rotation center of the rotary lever 31.

  On the other hand, a fixing plate 33 which is a plate-like fixing member is fixed inside the operation unit 7 so as to bisect the inside of the operation unit 7. Due to the fixing plate 33, the inside of the operation section 7 is divided into two sides, a side where the bending operation knob 19 is provided and a side opposite to the side where the cover member (not shown) is provided. It has a room structure.

  The support shaft 32 penetrates through the predetermined positions of the fixed plate 33 and the shaft plate plate 34 and is fixed to the shaft plate plate 34 so as to be substantially orthogonal to the fixed plate 33. As shown in FIG. 3, the shaft plate 34 is disposed integrally with the fixed plate 33 so as to be in close contact with the fixed plate 33 on the side where the cover member is provided.

  As shown in FIG. 3, the link mechanism is disposed through a space inside the operation unit 7 and outside the outer peripheral edge of the fixed plate 33. Thus, the motor switching lever 22 provided on the bending operation knob 19 side with the fixing plate 33 interposed therebetween is connected to the motor switch unit 30 provided on the cover member side by the link mechanism.

  With such a configuration, when the operator moves the motor switching lever 22 in the direction along the arrow S shown in FIG. 2, the rotating lever 31 rotates in the direction along the arrow R with the support shaft 32 as the rotation center. It comes to move. Accordingly, the on / off operation of the two motor switches 30a and 30b disposed in the motor switch unit 30 is performed.

  The motor switch unit 30 includes the above-described two motor switches 30a and 30b and mechanism members for turning on and off the motor switches 30a and 30b, that is, a sliding member 37, a switch pressing member 38, and the like. Yes.

  The two motor switches 30 a and 30 b of the motor switch unit 30 are switch members for performing drive control of a drive motor (not shown) provided in the motor box 16, for example, switching control of the rotation direction.

  The tip of the short arm portion 31c of the rotating lever 31 is rotatably connected to the sliding member 37 of the motor switch unit 30 by a support shaft 31b. Therefore, when the rotating lever 31 is rotated in the direction along the arrow R in FIG. 2 by the operation of moving the motor switching lever 22 in a predetermined direction by the operator, the sliding member 37 is along the arrow X in the drawing. It is designed to move in the direction.

  When the load in the operation direction on the motor switching lever 22 is released, that is, when the operator releases the hand from the motor switching lever 22, the motor switching lever 22 returns to the neutral position, and the motor switch in the on state is turned off. It is designed to switch to a state.

  An arm portion 37 a is protruded from the sliding member 37. A rod-like switch pressing member 38 is fixed in the vicinity of the distal end portion of the arm portion 37a. The switch pressing member 38 is disposed inside the motor switch unit 30 in a direction substantially orthogonal to the arm portion 37a. The two motor switches 30a and 30b described above are arranged at positions facing the both ends of the switch pressing member 38 with a predetermined distance from each end.

  Accordingly, the rotation lever 31 is rotated in the direction along the arrow R in FIG. 2 by the movement operation of the motor switching lever 22 in a predetermined direction by the operator, and the sliding member 37 is along the arrow X in FIG. Accordingly, the switch pressing member 38 fixed to the arm portion 37a also moves in the same direction, and acts on one of the two motor switches 30a and 30b. Yes.

  As described above, in the endoscope 2 of the endoscope apparatus 1 according to the present embodiment, the motor box 16 constituting a part of the operation unit 7 and the connector cover 15 constituting a part of the insertion unit 6 are provided. It is configured to be detachable.

  In this case, the UD chain 51 shown in FIG. 6 is attached to the UD bending operation knob 19a (not shown in FIG. 6), and the RL bending operation knob 19b (not shown in FIG. 6) is shown in FIG. The RL chains 52 shown are stretched respectively. The UD chain 51 and the RL chain 52 are connected to the bending portion via a bending wire that passes through the inside of the insertion portion 6.

  The motor box 16 and the connector cover 15 are detachable via a connection member 53. The connection member 53 is provided corresponding to each of the UD chain 51 and the RL chain 52. The connection members 53 are arranged side by side in the width direction of the fixed plate 33 fixed inside the operation unit 7 and the gripping unit 17.

  Here, constituent members such as the UD chain 51, the RL chain 52, and the connection member 53 are provided on the fixing plate 33. These members are fixed on the side where the bending operation knob 19 is disposed. It is provided on the surface of the plate 33 (the surface opposite to the side shown in FIG. 6).

  In addition, although illustration is abbreviate | omitted, the switch unit cover member is arrange | positioned by the motor switch unit 30 and the rotation lever 31 so that this may be covered. Thereby, for example, a lead wire or the like is prevented from being caught by the sliding member 37 of the motor switch unit 30 inside the operation unit 7.

  In the endoscope apparatus 1 of the present embodiment configured as described above, an operation when the motor switching lever 22 provided in the operation unit 7 of the endoscope 2 is moved will be described below.

  First, in a state before the motor switching lever 22 is operated, the motor switching lever 22 is in a neutral state shown in FIG. In this state, the two motor switches 30a and 30b of the motor switch unit 30 are both off.

  In this state, for example, the motor switching lever 22 is moved in the direction along the arrow S1 shown in FIGS. Then, the rotation lever 31 rotates in the direction along the arrow R1 shown in the figure. As a result, the sliding member 37 of the motor switch unit 30 slides in the direction along the arrow X1. At the same time, the switch pressing member 38 also moves in the same direction via the arm portion 37a that moves in the same direction. The switch pressing member 38 presses the switch portion of the motor switch 30a.

  Thus, when an ON signal is generated from the motor switch 30a, the signal is transmitted to the drive motor (not shown) of the motor box 16 via the control device 3. In response to this, the drive motor is driven in a predetermined direction, for example, the forward rotation direction. And the insertion part main body 10 rotates in a backward direction, for example with the rotational driving force of this drive motor.

  When the operator releases his hand from the motor switching lever 22 at any time, the motor switching lever 22 returns to the neutral position. As a result, the motor switch 30a is turned off, and the rotational drive of the drive motor (not shown) is stopped.

  On the other hand, in the state shown in FIG. 2, the motor switching lever 22 is moved in the direction along the arrow S2 in FIGS. Then, the rotation lever 31 rotates in the direction along the arrow R2 shown in the figure. As a result, the sliding member 37 of the motor switch unit 30 slides in the direction along the arrow X2 in FIG. At the same time, the switch pressing member 38 also moves in the same direction via the arm portion 37a that moves in the same direction. The switch pressing member 38 presses the switch portion of the motor switch 30b.

  Thus, when the ON signal is generated from the motor switch 30b, the signal is transmitted to the drive motor (not shown) of the motor box 16 via the control device 3. In response to this, the drive motor is driven in a predetermined direction, for example, the reverse direction. And the insertion part main body 10 rotates in the advancing direction, for example with the rotational driving force of this drive motor.

  As described above, according to the above-described embodiment, in the main operation unit 18 of the operation unit 7 of the endoscope 2, the motor is disposed on the arrangement surface side of the bending operation knob 19 on one surface side with the fixing plate 33 interposed therebetween. Since the switching lever 22 is provided, the motor switch unit 30 is arranged on the cover member side on the other surface side, and both are connected via a link mechanism, the stress applied to the fixing plate 33 is distributed to each surface. Can be made.

  Since the motor switch unit 30 is arranged inside the operation unit 7, the relative arrangement position of the motor switching lever 22 and the motor switch unit 30 can be brought closer, and thus the link mechanism can be set short. The certainty of operation can be ensured, and the endoscope 2 with higher reliability can be realized.

  Since the motor switch unit provided in the gripping part in the conventional endoscope is arranged inside the operation part, the internal space of the gripping part can be secured.

While providing the main operation unit 18 to the motor changeover lever 2 2 of the operation unit 7, a motor switch unit 30 in the inside of the main operation unit 18, a link mechanism between said motor switch unit 30 and the motor changeover lever 2 2 It is arranged. In this case, the motor switch unit 30, so disposed on the surface of the cover member side relative to the stationary plate 33, by removing the cover member of the main operating unit 18, the motor switch unit 30, the link mechanism, a motor changeover lever 2 2 can be repaired and replaced, and at the same time, its operation can be easily visually confirmed.

Further, in the present embodiment, by operating the motor changeover lever 2 2, and to perform the control of the forward reverse rotation of the drive motor. In this case, the drive motor is rotated forward by the pressing operation in the direction of the arrow S1 in FIG. On the other hand, the insertion portion is advanced by reversing the drive motor by a pressing operation in the arrow S2 direction (frontward direction) in FIG. That is, by adopting a configuration in which is matched with the moving direction of the insertion portion and the operation direction of the operating member (the motor changeover lever 2 2), which contributes to improvement in operability in the rotary self-propelled endoscope apparatus it can.

In the embodiment described above, the move operation in a predetermined direction of the motor changeover lever 2 2, two motor switch 30a of the motor switch unit 30, to perform either of the on-off control of the 30b ing.

Alternatively, the moving operation in a predetermined direction of the motor changeover lever 2 2, a motor switch 30a, in addition to any one of the on-off control of the 30b, when the ON state is maintained, the motor switching By gradually changing the current value as the switch lever 22 moves, it is possible to perform operations such as switching the various operation modes by controlling the rotational speed of the motor and the like.

With such a structure, like the application of the motor changeover lever 2 2 and the motor switch unit 30 as an operation member, for example performing the rocking operation of the forceps holder also contemplated different use form as the above-described embodiment .

  By the way, in the endoscope apparatus 1 of the present embodiment, the operation of main operation members, for example, the air / water supply button 20b and the suction button 20c, among the plurality of operation members provided in the operation unit 7 of the endoscope 2 is performed. The member is configured as an operation member that interlocks with the electromagnetic switch.

  This contributes to securing a sufficient space for disposing the motor switch unit 30 inside the operation unit 7. That is, by adopting such a configuration, it is possible to operate the motor switch unit 30 without increasing the size of the operation unit 7 itself and without changing the size and shape of the operation unit in the conventional endoscope. The effect that it can arrange | position in the inside of the part 7 without difficulty is also acquired.

  On the other hand, it is also conceivable to arrange the motor switch unit inside the operation unit in an operation unit to which, for example, an air / water supply button or a suction button is applied. A modification in the case of such a configuration will be described below.

  FIG. 7 shows a first modification of the above-described embodiment, in which the motor switch unit of the operation unit, the motor switching lever, and the link mechanism that connects both are viewed from one side surface (the cover member side) of the main operation unit. It is a schematic block diagram at the time. In addition, the state shown in FIG. 7 has shown the state which has a motor switching lever in a neutral position.

  The endoscope of this modification basically has a configuration substantially similar to that of the above-described embodiment. Therefore, the same components are denoted by the same reference numerals, description thereof is omitted, and only different configurations will be described in detail below.

  In the endoscope of this modification, as shown in FIG. 7, the air / water supply button 20Ab and the suction button 20Ac are cylinders having cylinders 41b and 41c among the operation members 20 provided in the main operation unit 18A of the operation unit 7A. It is made up of methods.

  From this, in the case of this modification, the motor switch unit 30 and the link mechanism that connects the motor switch unit 30 and the motor switching lever 22 inside the main operation unit 18 are the same as those in the above-described embodiment. It cannot be placed at the same location.

  Therefore, in this modification, as shown in FIG. 7, the motor switch unit 30 and its link mechanism are arranged at a position near the release button 20a. For this purpose, the rotation lever 31A of the members constituting the link mechanism that connects the motor switch unit 30 and the motor switching lever 22 has a shape different from that of the above-described embodiment. In this case, the rotation lever 31A in the present modification is different from the rotation lever 31 in the above-described embodiment in the extension position of the short arm portion 31c. Other configurations are the same as those of the above-described embodiment.

  In this modified example configured as described above, when the operator moves the motor switching lever 22 in the direction along the arrow S in FIG. 7, the rotating lever 31 </ b> A rotates in the direction along the arrow R in the figure, Accordingly, the sliding member 37 of the motor switch unit 30 moves in the direction along the arrow X in the figure. As a result, the switch pressing member 38 presses one of the two motor switches 30 a and 30 b of the motor switch unit 30. These series of actions are the same as those in the above-described embodiment.

  As described above, according to the first modification, even in an endoscope to which the cylinder type air / water supply button 20Ab or the suction button 20Ac is applied, a motor switch is provided inside the main operation portion 18A of the operation portion 7A. Unit 30 can be arranged. Therefore, the same effect as that of the above-described embodiment can be obtained.

  On the other hand, the conventional endoscope has a treatment instrument insertion channel for inserting the insertion section, and a treatment instrument insertion opening communicating with the treatment instrument insertion channel is provided at a predetermined portion of the operation section. There is one in which a distal end opening communicating with a treatment instrument insertion channel is provided at the distal end portion so that treatment can be performed simultaneously while observing with an endoscope. In this case, in the vicinity of the distal end opening of the distal end portion of the insertion portion, a forceps raising base for changing the direction of the treatment instrument inserted through the treatment instrument insertion channel and projecting from the distal end opening is provided to be swingable. is there.

  The swinging operation of the forceps raising base is performed using a forceps raising lever which is an operation member disposed in the operation portion. For this purpose, the forceps raising lever is configured to be connected to the forceps raising base via a connecting member such as a wire inserted through the insertion portion. Accordingly, when a predetermined operation of the forceps raising lever is performed, the forceps raising base is swung, and the direction of the treatment tool projected from the distal end opening can be changed.

  An example of applying the present invention to an endoscope having such a configuration will be described below.

  FIG. 8 shows a second modification of the above-described embodiment, in which the motor switch unit of the operation unit, the motor switching lever, and the link mechanism that connects both are viewed from one side surface (the cover member side) of the main operation unit. It is a schematic block diagram at the time. In addition, the state shown in FIG. 8 has shown the state which has a motor switching lever in a neutral position.

  The endoscope of this modification basically has a configuration substantially similar to that of the above-described embodiment. Therefore, the same components are denoted by the same reference numerals, description thereof is omitted, and only different configurations will be described in detail below.

  In the endoscope of this modification, as shown in FIG. 8, in the endoscope 2 of the above-described embodiment, the forceps raising lever 42, the forceps raising portion 44, the forceps raising lever 42, and the forceps raising portion. A link shaft 43 that is interposed between them and connects them, a forceps raising wire 45 that is connected to the forceps raising portion 44, and a forceps raising base (not shown) disposed at the distal end of the insertion portion are added. Are different.

  In this case, a forceps raising lever 42 is disposed in the vicinity of the motor switching lever 22 in the main operation portion 18B of the operation portion 7B.

  The forceps raising lever 42 is pivotally supported coaxially with the support shaft 32 of the rotary lever 31 that is supported on the fixed plate 33 of the operation portion 7B. One end portion 43 a of the link shaft 43 is connected to the proximal end side of the forceps raising lever 42.

  Further, the fixing plate 33 extends also inside the gripping portion 17 of the operation portion 7B, and the inside of the gripping portion 17 has a two-chamber structure. On one surface of the fixing plate 33, a forceps raising portion 44 is slidably disposed in the axial direction of the gripping portion 17, that is, in the direction along the arrow Y in FIG. The other end portion 43b of the link shaft 43 is connected to a predetermined portion on the upper end side (main operation portion 18B side) of the forceps raising portion 44. A forceps raising wire 45 is connected to a predetermined portion on the lower end side (side closer to the insertion portion) of the forceps raising portion 44. The forceps raising wire 45 passes through the inside of the insertion portion (not particularly shown in FIG. 8) and reaches the distal end portion of the insertion portion, and is connected to a forceps raising base provided near the distal end portion of the insertion portion. Has been.

  The component members such as the forceps raising lever 42, the link shaft 43, the forceps raising portion 44, and the forceps raising wire 45 described above are arranged on one side (the cover member side) of the main operation portion 18B with respect to the fixing plate 33. ). Other configurations are the same as those of the above-described embodiment.

  In this modified example configured as described above, when the operator moves the motor switching lever 22 in the direction along the arrow S in FIG. 8, the rotating lever 31 rotates in the direction along the arrow R in the figure, Accordingly, the sliding member 37 of the motor switch unit 30 moves in the direction along the arrow X in the figure. Accordingly, the switch pressing member presses one of the two motor switches of the motor switch unit 30. These series of actions are the same as those in the above-described embodiment.

  When the operator rotates the forceps raising lever 42 in the direction along the arrow K in FIG. 8 as necessary, the forceps raising lever 42 is rotated in the direction along the arrow R in FIG. Along with this, the forceps raising portion 44 slides in the direction along the arrow Y in the figure via the link shaft 43. As a result, when the wire 45 connected to the forceps raising portion 44 is tensioned or relaxed, a forceps raising base (not shown) at the distal end of the insertion portion swings in a predetermined direction. The protruding direction of the distal end portion of the placed treatment tool is changed.

  The forceps raising lever 42 is provided with a lock mechanism (not shown) so that the operation position can be fixed. By fixing the forceps raising lever 42 at a desired position by this locking mechanism, the swing position of the forceps raising base at the distal end of the insertion portion, that is, the protruding direction of the distal end portion of the treatment instrument can be fixed. It has become.

  As described above, according to the second modification, the main part of the operation unit 7B is also used in an endoscope including the forceps raising base and the forceps raising lever 42 (including a link mechanism) that is an operation mechanism thereof. The motor switch unit 30 can be disposed inside the operation unit 18B. Therefore, the same effect as that of the above-described embodiment can be obtained.

The figure which shows the whole schematic structure of the endoscope apparatus which shows one Embodiment of this invention. It is a block diagram which shows a part of internal structure in the main operation part of the operation part in the endoscope of the endoscope apparatus of FIG. 1, Comprising: The motor switch unit provided in the inside of a main operation part, a motor switching lever, and both The figure which shows the link mechanism which connects, and the state which has a motor switching lever in a neutral position. The principal part sectional drawing which expands and shows the vicinity of the link mechanism which connects a motor switch unit, a motor switching lever, and both in the endoscope of the endoscope apparatus of FIG. The figure which shows the state in which the motor switching lever was tilted in one direction from the state of FIG. The figure which shows the state by which the motor switching lever was tilted in the other direction from the state of FIG. FIG. 2 is a configuration diagram illustrating a part of an internal configuration of a gripping portion of an operation unit in the endoscope of the endoscope apparatus of FIG. 1, and is a diagram illustrating a wire connection portion provided in the gripping portion. The 1st modification of one Embodiment of this invention is shown, and the outline at the time of seeing the link mechanism which connects the motor switch unit of an operation part, a motor switching lever, and both from the one side (cover member side) of a main operation part Diagram. The 2nd modification of one Embodiment of this invention is shown, and the outline at the time of seeing the link mechanism which connects the motor switch unit of an operation part, a motor switching lever, and both from one side (cover member side) of a main operation part Diagram.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Endoscope apparatus 2 ... Endoscope 3 ... Control apparatus 4 ... Monitor 5 ... Aspirator 6 ... Insertion part 7, 7A, 7B ... Operation part 8 ... Tip part 9 ... Curve Part 10 ... insertion part body 11 ... insertion aid 12 ... storage case 13 ... tip side guide tube 14 ... operation part side guide tube 15 ... connector cover 16 ... motor box 17 ... gripping part 18, 18A, 18B ...... Main operation part 18a ...... Universal cord 18b ...... Folding prevention part 19 ... Bending operation knob 19a ...... Up / down bending operation knob 19b ... Right left bending operation knob 20 ... Operating member 20a ... Release button 20b, 20Ab ... Air / water supply button 20c, 20Ac ... Suction button 22 ... Motor switch lever 22a ... Switch operation knob 22b ... Support plate 24 ... Water supply tank 25 ... Foot switch 25 ... Electric cable 30 ... Motor switch units 30a, 30b ... Motor switches 31, 31A ... Rotating lever 31b ... Support shaft 31c ... Short arm 33 ... Fixed plate 34 ... Shaft plate 35 ... Motor Link 36 ... Motor link shaft 37 ... Sliding member 37a ... Arm 38 ... Switch pressing member 42 ... Forceps raising lever 43 ... Link shaft 43a ... End 43b ... End 44 ... Forceps Raising part 45 ... Forceps raising wire 51 ... UD chain 52 ... RL chain 53 ... Connecting member

Claims (3)

An operation unit capable of operating the function execution unit of the endoscope apparatus ;
A plate-like fixing member fixed inside the operation unit;
Is disposed on the surface of the hand of the plate-shaped fixing member, and a switch unit provided with activatable switch member by the sliding movement of the switch pressing / pressure release Direction,
Wherein provided in the operation unit, on the other surface side of the front Symbol fixing sheet member, operable operating the direction orthogonal to the plate-like fixing member with respect to the operating unit to the rotation Direction of the rotation axis Members,
A motor link that has one end fixed to the operation member and the other end extended to the one surface side to transmit the movement of the operation member to the other end, and one arm portion fixed to the other end of the motor link It is and a rotating lever the other arm portion fulcrum is connected to the switch unit is rotatably supported as a rotation about a first support shaft provided on the plate-shaped fixing member, before Symbol switch unit and before a link mechanism connecting the serial operation member, for converting a Kaidoun movement of the operation member to the sliding movement of the previous SL switch pressing / pressing release direction before kissing switch member,
An opening provided in a position facing the switch unit, and provided in an exterior of the operation unit so that the switch unit can be inserted between the outside of the operation unit and the inside of the operation unit;
A cover member that is detachably disposed so as to cover the opening,
An endoscope apparatus characterized by comprising: The switch Chiyunitto further slidable and a second shaft connecting the other arm of the rotating levers to the switch unit, the switch pressing / pressure release Direction and to said switch unit and the sliding member, according to claim 1, characterized in that it comprises a and a switch pressing member for releasing the pressing / pushing the front Symbol switch member to move to the same direction with the movement of the sliding member Endoscope device. The switch unit includes at least two switch members that perform electrical control,
The operation member acts on one of the at least two switch members of the switch unit by an operation in one direction, and at least two switch members of the switch unit by an operation in the other direction of the operation member. The endoscope apparatus according to claim 1, wherein the endoscope apparatus acts on the other switch member.

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