JP4437551B2 - Manual connector for medical connector - Google Patents

Description

  The present invention relates to an improvement of an operation part of a manual connector for a medical connector preferably used for peritoneal dialysis.

  Peritoneal dialysis (CAPD) uses the peritoneum as a dialysis membrane, and a peritoneal dialysis set with a bag containing dialysate is connected to the abdominal cavity catheter implanted in the patient's abdominal cavity. And then drained after a certain period of storage. The dialysate is stored for a certain period of time, and blood purification is performed by removing waste products and water due to the difference in solute concentration and osmotic pressure generated between the dialysate and blood in capillaries distributed in the peritoneum.

  Peritoneal dialysis consists of a cycle of draining, changing bags, injecting dialysate, and storing as described above, and patients must perform this cycle frequently 3 to 5 times a day. This is a very troublesome operation. Of particular concern is the attachment / detachment of the patient-side connector (first connector) provided at the distal end of the extension tube connected to the abdominal catheter and the dialysate-side connector (second connector) of the set with the dialysate bag. Since attachment of bacteria to the connector at the time of detachment causes peritonitis, sufficient caution is required. Further, the problem at the time of attaching and detaching the connector is not only the adhesion of bacteria, but there is a possibility that a serious situation such as a connection error or a liquid leakage may be caused by an erroneous operation of a patient's manual operation with inconvenient eyes or hands.

  Patent Document 1 below proposes a manual connector desorption device for solving such a problem. FIG. 17 conceptually shows a connector attaching / detaching procedure when this manual attaching / detaching device is used. FIG. 17A shows a preparatory stage before connecting the patient side connector and the dialysate side connector. First, the patient side connector 100 is provided at the distal end of the catheter inserted into the abdominal cavity of the patient side 300. A cap 101 is provided. On the other hand, on the dialysis side, a dialysate-side connector 200 is provided at the tip of the Y-shaped tube, and a connector cap 201 is provided. A dialysate bag 301 and a drainage bag 302 are connected to the tip of the Y-shaped tube, and one of them is connected to the patient side by a valve.

  In the set state of FIG. 17A, the patient side connector 100 and the connector cap 201 are arranged in parallel, and the connector cap 101 and the dialysate side connector 200 are also arranged in parallel.

  In order to separate the connector cap 101 and the patient side connector 100 from this set state, the connector cap 101 is rotated and both are separated. At the same time, in order to separate the connector cap 201 and the dialysate side connector 200, the dialysate side connector 200 is rotated and both are separated. This is shown in FIG.

  Next, as shown in FIG. 17 (c), the patient side connector 100 and the connector cap 201 are slid in the direction of the arrow in the figure so that the patient side connector 100 and the dialysate side connector 200 face each other. Next, as shown in FIG. 17 (d), the patient-side connector 100 and the dialysate-side connector 200 are moved and moved along the axial direction, and the dialysate-side connector 200 is rotated so that both are connected. . In this connected state, the dialysate stored in the abdominal cavity of the patient is discharged into an empty drain bag 302. Then, the dialysate in the dialysate bag 301 is injected into the abdominal cavity by switching the valve.

  When the injection of dialysate is completed, the reverse procedure is followed, and the connector caps are put on the respective connectors again. In this case, a new connector cap is prepared and set.

  As described above, it is necessary to perform an operation as shown in FIG. 17 until the connectors are connected to each other. In Patent Document 1, when the handle (corresponding to the operation unit) is rotated by 180 °, this rotational operation area A mechanism is incorporated so that the operations (a) → (b) can be performed in the first stage, (b) → (c) in the second stage, and (c) → (d) in the third stage.

Japanese Patent No. 3455701

  As described above, it is necessary to move the connector cap and the holder holding the connector as described above in various directions such as rotation, movement along the axial direction, and slide movement by one-way operation of the handle. Therefore, the operation mechanism is complicated. In addition, the handle is rotated by 180 °, but the above-mentioned various movements must be made to occur in the holder within the limited range of the operation angle. Therefore, it is necessary to allocate all the operation angles for each operation. However, considering the operability, it is preferable that the operation angle (operation amount) allocated to one type of operation is as large as possible, which is impossible in terms of design. You don't have to.

  The present invention has been made in view of the above circumstances, and its object is to provide a manual connector desorption device for a medical connector that improves the operability by increasing the amount of operation allocated to one type of operation as much as possible. is there.

In order to solve the above problems, a manual connector for a medical connector according to the present invention comprises:
In order to attach and detach the medical connector composed of the first connector and the second connector,
A first connector holder and a first cap holder capable of holding the first connector and the first connector cap, respectively, with the first connector cap coupled to the first connector by a screw type inserted;
A second connector holder and a second cap holder capable of holding the second connector and the second connector cap, respectively, with the second connector cap inserted into the second connector;
While the first connector holder and the second cap holder are arranged in parallel, the first cap holder and the second connector holder are arranged in parallel,
An operation unit for operating the connector detachment;
An opening / closing lid that is openable and closable with respect to the apparatus main body and that exposes the first and second connector holders and the first and second cap holders to the upper part of the apparatus main body;
A manual desorption device for a medical connector comprising:
After setting the first connector to which the first connector cap is coupled, in the step of closing the opening / closing lid, the first connector or the first connector cap is rotated around the axis line, thereby coupling the first connector and the first connector cap. And a connector rotating means for loosening.

  The action and effect of the manual connector for the medical connector having this configuration will be described. First, as a premise, the first connector and the first connector cap are coupled by a screw type, and the first connector cap can be connected to and disconnected from the first connector by rotating the first connector cap. That is, what is accompanied by a rotation operation is called a screw type, and is a designation for distinguishing it from a structure that can be connected and separated only by movement in the axial direction. Therefore, the present invention is not limited by the size of the rotation operation angle.

  In order to connect the first connector and the second connector, first, it is necessary to set the first connector with the first connector cap on the first connector. Therefore, the opening / closing lid is opened, the first connector holder and the first cap holder are exposed to the upper part of the apparatus body, and the first connector with the first connector cap is set. After the first connector is set, the first connector or the first connector cap is rotated around the axis in the step of operating the opening / closing lid in the closing direction. As a result, the connection between the first connector and the first connector cap is loosened, and preparations for separating both are completed. Here, the axis corresponds to the center of rotation when the above-described rotation operation is performed.

  After closing the open / close lid, the operation up to the connection (or preparation for connection) of the first connector and the second connector can be performed by operating the operation portion. Therefore, in the present invention, not all operations are performed by operating the operation unit, but a predetermined operation is performed by the process of closing the opening / closing lid and the operation of the operation unit. Therefore, the operation amount of the operation unit allocated to one type of operation can be increased accordingly. As a result, it is possible to provide a medical connector manual attachment / detachment device that improves the operability by increasing the amount of operation allocated to one type of operation as much as possible.

  In the present invention, the first connector holder is preferably arranged coaxially with the rotational axis of the opening / closing lid.

  By arranging coaxially with the rotation axis of the opening / closing lid, a mechanism for rotating the first connector holder by the opening / closing operation of the opening / closing lid can be realized with a simple configuration. For example, the movement of the opening / closing lid can be directly transmitted to the first connector holder.

In the present invention, a first connector holder moving means for allowing the first connector holder to move in the axial direction of the rotation axis;
Holder urging means for urging the first connector holder with respect to the first cap holder along the axial direction;
It is preferable that the first connector holder is configured to be movable against the urging force of the holder urging means when loosening the coupling between the first connector and the first connector cap.

  According to this configuration, the first connector holder is urged in the direction of the first cap holder by the holder urging means. The first connector and the first connector cap are coupled by a screw type, and the first connector needs to move in the axial direction relative to the first connector cap by loosening both. Thus, by configuring the first connector holder to be movable as described above, the loosening operation of the first connector cap and the first connector can be performed smoothly.

  In the present invention, it is preferable that a lock mechanism for locking the operation by the operation unit when the open / close lid is opened is provided.

  If the operation unit is operated while the opening / closing lid is opened, for example, the first connector holder and the second cap holder may face each other, and the first connector and the second connector are set in such a state. Then, malfunction may occur. Therefore, when the opening / closing lid is opened, it is possible to prevent an incorrect operation from being performed by locking the operation unit.

  A preferred embodiment of a manual connector for a medical connector according to the present invention will be described with reference to the drawings. First, a preferred embodiment of the medical connector will be described.

<Medical connector>
As explained at the beginning, the medical connector according to the present invention is preferably used in peritoneal dialysis (CAPD), and is composed of a patient side connector and a dialysate side connector. The structure of these connectors is shown in FIG.

  FIG. 1A shows the configuration of the first connector 1 on the patient side. The first connector 1 is provided with a connector connecting portion 11 on the distal end side of the tube 10. A knob portion 12 for performing a connection operation in the connector connecting portion 11 and a flange 13 positioned at the boundary between the knob portion 12 and the connector connecting portion 11 are provided. The connector connecting portion 11 is provided with an O-ring 14 and a cam groove 15. By providing the O-ring 14, leakage of dialysate is prevented. The knob portion 12 is provided with two protruding portions 12a for operation in the circumferential direction.

  When the cam groove 15 is developed along the circumferential direction, a view as shown in FIG. The same cam groove 15 is formed in the circumferential direction at 180 ° intervals. The cam groove 15 has a first region 15a and a second region 15b. The first region 15a occupies a region of 45 ° in the circumferential direction and is an inclined groove. The second region 15b also occupies a 45 ° region in the circumferential direction, and is a straight groove along the circumferential direction.

  The connector connecting portion 11 can be covered with the first connector cap 3, and two protrusions 30 for operation are provided in the circumferential direction. Engagement protrusions 31 that engage with the cam grooves 15 are provided at two locations inside the first connector cap 3. Therefore, when the first connector cap 3 is put on the first connector, the engagement protrusion 31 is aligned with the entrance of the cam groove 15 (see FIG. 1B), and the first connector cap 3 is rotated ( The first connector cap 3 may be rotated), and the first connector cap 3 may be rotated and moved in the axial direction (left-right direction in FIG. 1) to cover the first connector cap 3 with the first connector cap 3. it can. FIG. 2A shows a state where the first connector 1 and the first connector cap 3 are completely connected.

  Further, a ring-shaped first flange 30a and a second flange 30b are formed on the outer peripheral surface of the first connector cap 3, and are used for positioning when the first connector cap 3 is attached to the first cap holder. The first flange 30a and the second flange 30b are separated from each other by a predetermined distance for positioning to the holder, and the second flange 30b is located on the insertion side.

  FIG. 1C shows the configuration of the second connector 2 on the dialysate side. The second connector 2 is provided with a connector connecting portion 21 on the distal end side of the Y-shaped tube 20. A drain bag and a dialysate bag are connected to the Y tube 20. The connector connecting portion 21 has two protruding portions 21a for operation in the circumferential direction. In addition, a ring-shaped first flange 21b and a second flange 21c are provided on the outer periphery of the connector connection portion 21, and are used for positioning when the connector connection portion 21 is attached to the second connector holder. The first flange 21b and the second flange 21c are familiar with a predetermined interval for positioning to the holder, and the second flange 21c is located on the insertion side.

  The connector connector 21 can be covered with the second connector cap 4. The second connector cap 4 is provided with a knob portion 40, and operational protrusions 40 a are formed at two locations in the circumferential direction of the knob portion 40. At the tip of the second connector cap 4, two engaging claws 41 for coupling with the connector connecting portion 21 are provided.

  FIG. 2B shows a state in which the second connector 2 and the second connector cap 4 are coupled, and the connector connecting portion 21 is provided with an engaging groove 22 that engages the tip of the engaging claw 41. It has been. Therefore, when the second connector 2 and the second connector cap 4 are coupled, the engagement groove 22 of the second connector 2 and the position of the engagement claw 41 of the second connector cap 4 in the circumferential direction are aligned, and the axis line is maintained. It can couple | bond by inserting the 2nd connector cap 4 along a direction. That is, when the second connector 2 and the second connector cap 4 are coupled, no rotation operation is required, and the second connector 2 and the second connector cap 4 can be attached and detached only by movement in the axial direction.

  When exchanging the dialysate, the first connector cap 3 of the first connector 1 on the patient side is removed, and the second connector cap 4 of the second connector 2 on the dialysate side is also removed, so that the first connector 1 and the second connector are removed. 2 are connected. The connection completion state is shown in FIG. Similarly to the first connector cap 3, an engagement protrusion 23 is provided inside the connector connection portion 21 of the second connector 2 and can be engaged with the cam groove 15. Therefore, the operation when the second connector 2 is attached to the first connector 1 is the same as the operation when the first connector cap 3 is attached (rotation operation + movement in the axial direction).

  The first connector cap 3 and the second connector cap 4 can also be attached to each other. An engagement groove 32 that engages with the engagement claw 41 of the second connector cap 4 is provided inside the first connector cap 3, similarly to the second connector. When the first and second connector caps 3 and 4 are coupled, a rotation operation is not necessary, and an operation only in the axial direction is sufficient.

  The first connector 1 on the patient side needs to be connected to the dialysate bag at the time of exchanging dialysate (at the time of discharge / infusion), and the connection state of the first connector 1 until the next dialysate exchange Need to be protected from accidental removal. Therefore, the detachment operation of the first connector 1 and the second connector 2 and the first connector 1 and the first connector cap 3 is performed by a rotation operation.

  In addition, the second connector 2 on the dialysate side only needs to be protected until the product outer packaging is opened and connected to the first connector 1 on the patient side. Therefore, the detaching operation of the second connector 2 and the second connector cap 4 is only moved in the axial direction.

<Configuration of manual connector for medical connector>
Next, the manual attachment / detachment device for the medical connector described in FIGS. 1 and 2 will be described. FIG. 3 is a perspective view showing an external configuration of the manual detaching device, and FIG. 4 is a perspective view showing a state in which an opening / closing lid of the manual detaching device is opened. FIG. 5 is a plan view showing a state where the open / close lid of the manual detaching device is opened.

The manual attachment / detachment device includes a main body case 5 and an opening / closing lid 6 as external parts. The opening / closing lid 6 is pivotally supported around an axis X ₁ which is a rotation axis, and is configured such that the upper part of the apparatus main body is exposed by opening the opening / closing lid 6. A slit S is formed when the opening / closing lid 6 is closed by the bending portion 5a formed on the side surface portion of the main body case 5 and the bending portion 6a formed on the side surface portion of the opening / closing lid 6. The slit S is provided so that the Y-shaped tube 20 of the second connector 2 can move when the first connector 1 and the second connector 2 are attached and detached. The slit S is formed in a substantially arc shape.

On the front side of the main body case 5 is provided a rotary handle type operation section 7 which is attached so as to be able to rotate around the axis Y by 145 °. The end portion of the operation unit 7 is provided with the operation knob 7a, it is carried out between the first connector 1 by rotating the operating portion 7 closes the lid 6 in the arrow A ₁ direction coupling of the second connector 2 can be, by rotating in the arrow B ₁ direction, it is possible to perform the first connector 2 the separation of the second connector 2. The operation unit 7 is provided with a lock mechanism so that it cannot be rotated when the opening / closing lid 6 is opened.

<Holder structure>
Next, a holder structure for setting the first connector 1 and the second connector 2 will be described. Since the holders for setting the connectors 1 and 2 are exposed to the upper part of the apparatus main body by opening the opening / closing lid 6, the connectors 1 and 2 can be set from above.

  6 shows a holder structure for setting the first connector 1, and FIG. 7 shows a holder structure for setting the second connector 2. FIG. 8 shows a view of the open / close lid from the inside.

  6A is a perspective view showing a holder structure for holding the first connector 1, FIG. 6B is a plan view, FIG. 6C is a side view, and FIG. 6D is a state in which the first connector 1 is mounted. Is shown. The first connector 1 can be attached to the first connector holder 50 with the first connector cap 3 coupled thereto. The first connector holder 50 includes a holder main body 50a and a tube support 50b provided integrally with the holder main body 50a. An engaging claw 50c that can be elastically deformed is integrally formed at the center of the holder main body 50a. When the knob portion 12 of the first connector 1 is inserted into the holder main body portion 50a, the knob portion 12 is elastically sandwiched by the engaging claws 50c, and the attached first connector 1 rotates within the first connector holder 50. Not to be held. As shown in FIG. 6B, a groove 50d is formed at the bottom of the holder main body 50a, and the protruding portion 12a of the first connector 1 is inserted into the groove 50d. The rotation of the first connector 1 is surely prevented.

  Moreover, the auxiliary holder 51 is provided, and the tube support portion 50b is inserted therein so as to be slidable in the arrow C direction. A compression coil spring 52 is provided and urged in a direction in which the first connector holder 50 protrudes. The tube support 50b is provided with a tube receiving groove 50e (U-shaped) so that the tube 10 of the first connector 1 can be inserted, and the auxiliary holder 51 is slit upward so that the tube 10 can be inserted. Is provided.

  A hole 50f is formed in the bottom of the holder main body 50a, and an unillustrated eject pin is configured to protrude through the hole 50f, so that the first connector 1 once mounted can be easily taken out.

  The first connector cap 3 is attached to the first cap holder 60. The first connector cap 3 includes a first main body portion 60a located on the side closer to the first connector holder 50, and a second main body portion 60b located on the far side, and further between these main body portions 60a and 60b. A slit 60c is formed in the slit. The upper portion of the first main body portion 60a is opened so that the first connector cap 3 can be mounted from above, and the upper portion of the second main body portion 60b is also opened.

  A groove 60 d along the axial direction is formed at the bottom of the first cap holder 60, and the protruding portion 30 of the first connector cap 3 is fitted, whereby the first connector cap 3 is placed in the first cap holder 60. It is held so as not to rotate relatively. Further, a circumferential groove 60e is formed inside the first main body 60a, and the first flange 30a of the first connector cap 3 is fitted therein, so that the first connector cap 3 can be attached in a state where the first connector cap 3 is positioned in the axial direction. ing.

  A hole 60f is formed in the bottom portion of the first main body 60a, and an unillustrated eject pin is configured to project like the first connector holder 50.

  A ring-shaped guide groove 61 is formed on the opposite side of the second main body portion 60b from the first main body portion 60a, and a first gear 62 is further provided. A gear shaft 62 a is provided integrally with the first gear 62, and the axis of the gear shaft 62 a is in a position eccentric from the axis of the first connector 1. The functions of the guide groove 61 and the first gear 62 will be described later.

FIG. 8A is a perspective view showing the configuration of the opening / closing lid 6 as viewed from the inside, and FIG. 8B is a side view of the same. The first connector holder 50 and the auxiliary holder 51 described above are attached at a position coaxial with the axis X ₁ of the rotation axis of the opening / closing lid 6. Therefore, when the opening / closing lid 6 is rotated for opening and closing, the first connector holder 50 and the auxiliary holder 51 are also rotated by the same angle in conjunction with this. By adopting such a configuration, the first connector 1 can be rotated and the first connector cap 3 can be loosened or screw-fastened in conjunction with the opening / closing operation of the opening / closing lid 6.

The first cap holder 60 is provided on the apparatus main body side, but is provided at a position that is coaxial with the axis X ₁ .

  7A is a perspective view showing a holder structure for holding the second connector 2, FIG. 7B is a plan view, FIG. 7C is a side view, and FIG. 7D is a state in which the second connector 2 is mounted. Is shown. The first connector 2 can be attached to the second connector holder 70 with the second connector cap 4 coupled thereto.

  The second connector holder 70 includes a first main body portion 70a located on the side closer to the second cap holder 45, a second main body portion 70b located on the far side, and between the first main body portion 70a and the second main body portion 70b. The slit 70c is formed. The upper portion of the first main body portion 70a is opened to insert the second connector 2 from above, and the upper portion of the second main body portion 70b is similarly opened.

  A groove 70 d along the axial direction is formed at the bottom of the second connector holder 70, and the protruding portion 21 a of the second connector 2 is fitted, whereby the second connector 2 is relatively moved within the second connector holder 70. To keep it from rotating. Further, a circumferential groove 70e is formed inside the first main body portion 70a, and the first flange 21b of the second connector 2 is fitted therein, so that the second connector 2 can be attached in a state of being positioned in the axial direction thereof. .

  A ring-shaped guide groove 71 is formed on the opposite side of the second main body portion 70b from the first main body portion 70a, and a second gear 72 is further provided. A gear shaft 72 a is provided integrally with the second gear 72, and the axis of the gear shaft 72 a is in a position eccentric from the axis of the second connector 2. The functions of the guide groove 71 and the first gear 72 will be described later. A slit 70g corresponding to the width of the tube 20 is formed above the portion where the guide groove 71 is formed so that the Y-shaped tube 20 of the second connector 2 can be inserted.

  A hole 70f is formed in the bottom of the holder main body 70a, and an unillustrated eject pin is configured to protrude through the hole 70f, so that the second connector 2 once mounted can be easily taken out.

  The second cap holder 45 includes an engaging claw 45a and elastically holds the knob portion 40 of the second connector cap 4. Moreover, the groove | channel 45b formed along an axial direction is provided, and the protrusion part 40a of the 2nd connector cap 4 fits. Thus, the second connector cap 45 is held so as not to rotate relatively in the second cap holder 45.

The axis X ₂ of the second connector holder 70 and the second cap holder 45 is parallel to the axis X _{1 of} the first connector holder 50 and the first cap holder 60 that are adjacently disposed, and is disposed at a predetermined interval.

  Further, the second cap holder 45 is fixed to the upper part of the apparatus main body in a state where it cannot be rotated or moved. A coupling claw 45c is integrally formed at the bottom of the second cap holder 45, and is coupled to the apparatus main body using the claw 45c.

  A hole 45d is also formed in the bottom of the second cap holder 45 so that an unillustrated eject pin can project through the hole 45d so that the second connector cap 4 once mounted can be easily taken out. Yes.

<Description of internal mechanism>
Operation unit 7 is a member that rotates by the rotating operation manual, operating the arrow A ₁ direction in FIG. 3, the first connector 1 and second connector 2 of the connector cap 3,4 respectively disconnect the first connector 1 and the 2nd connector 2 can be connected. At the same time, the connector caps 3 and 4 of the connectors 1 and 2 can be connected to each other.

When the operation unit 7 is operated in the direction of the arrow B ₁ , the reverse operation is performed, the first connector 1 and the second connector 2 are separated, and new connector caps 3 and 4 are attached to the respective connectors 1 and 2. Can be made.

  9A to 9D are views showing a holder driving mechanism for performing the above-described attachment / detachment. FIG. 9A is a view of the holder driving mechanism as seen from the bottom surface side. A view of the holder driving mechanism as viewed from above is partially shown in FIG. FIG. 9B is a perspective view seen from obliquely below. FIG. 9C is a view seen from one side in the axial direction, and FIG. 9D is a view seen from the other side in the axial direction.

In FIG. 9, the operation shaft 25 is connected to the operation unit 7 and rotates in conjunction with the rotation operation of the operation unit 7. A bevel gear 26 is integrally coupled to the operation shaft 25. In addition, an axis X ₃ is set at the midpoint between the axes X ₁ and X ₂ , and a cylindrical cam 27 that can rotate around the axis X ₃ is provided. A cam groove 27 a is formed along the circumferential surface of the cylindrical cam 27.

  Further, a bevel gear 28 and a partial gear 29 are provided so as to be rotatable integrally with the cylindrical cam 27. The bevel gear 28 meshes with the bevel gear 26 in a state in which the rotation axis is orthogonal to each other. Therefore, when the operation unit 7 is rotated, the bevel gear 28 and the partial gear 29 are rotated together with the cylindrical cam 27. The bevel gear 26, the cylindrical cam 27, the bevel gear 28, and the partial gear 29 can rotate but cannot move along the axial direction.

The holder support 80 is configured to be movable along the axial direction X ₃ with respect to the drive shaft 81 attached to the main body case 5. The holder support 80 is provided with a cam pin (not shown in the figure) that engages with the cam groove 27a. Thus, by rotating the cylindrical cam 27, since the cam pin moves along the cam groove 27a, the holder support 80 is movable X ₃ along the axis. However, the holder support 80 cannot rotate around the axis X ₃ .

A guide body 80 a is integrally provided at one end of the holder support 80 in the axial direction, and the guide body 80 a is fitted in the guide grooves 61 and 71. Thus, the first cap holder 60 and the second connector holder 70, and can rotate smoothly about the axis X _3.

The drive shaft 81 is pivotally supported in a state where both ends thereof can rotate on the apparatus main body. A connecting gear 81 a is coupled to one end of the drive shaft 81, and the connecting gear 81 a can mesh with the partial gear 29. As shown in FIG. 9C, the partial gear 29 has no teeth on the entire circumference, and a gear forming portion 29a is provided only in a partial region in the circumferential direction. Connecting gear 81a is, it is possible to move along the axis X _3, partial gear 29 and the coupling gear 81a only when at the same position in the axial direction, can be coupled gear 81a and the partial gear 29 is meshed.

  A drive gear 81b is coupled to the other end side of the drive shaft 81 adjacent to the guide body 80a. Thereby, when the connection gear 81a meshed with the partial gear 29 rotates, the drive gear 81b can also rotate together.

  FIG. 9D shows a state in which some parts (such as the gear holder 84) are removed, but the drive gear 81b is connected via the first gear 62 and the first intermediate gear 82, and the second gear 72 is The second intermediate gear 83 is connected. 9B, a gear holder 84 is provided and is integrally coupled to the drive shaft 81. The gear shaft 62a of the first gear 62, the gear shaft 72a of the second gear 72, The first intermediate gear 82 and the second intermediate gear 83 are pivotally supported. The five gears supported by these gear holders 84 are referred to as gear units for convenience of explanation.

  According to this configuration, when the drive shaft 81 rotates, the gear holder 84 also rotates, so that the first cap holder 60 and the second connector holder 70 rotate around the axis. The rotation angle is set to 180 °. In addition, since the gear unit is provided, the first cap holder 60 and the second connector holder 70 do not change their support postures (the first connector cap 3 and the second connector 4 are positioned upward) 180 °. It will be rotated.

<Lock mechanism>
Next, the locking mechanism of the opening / closing lid 6 and the locking mechanism of the operation unit 7 will be described with reference to FIG. FIG. 10A is a plan view showing a part of the lock mechanism attached to the opening / closing lid 6, and FIG. 10B is a side view showing the configuration of the lock mechanism.

  A lock lever 90 is attached to the opening / closing lid 6 side so as to be slidable in the horizontal direction, and FIG. 10B shows a locked state. An engaging claw 90a is integrally formed on the lock lever 90, and the opening / closing lid 6 is prevented from being opened by engaging with an engaged portion 5b provided on the main body case 5 side.

  A relay lever 91 and an operation lock member 92 are provided on the main body case 5 side. The relay lever 91 is pivotally supported around the shaft core 91a so as to be swingable. The operation lock member 92 is slidable in the vertical direction and is biased vertically downward by a spring 93. The spring 93 is hooked between a pin 92 a planted on the operation lock member 92 and a spring support pin 5 c planted on the operation portion of the main body case 5. Further, the relay lever 91 and the operation lock member 92 are coupled so as to operate in conjunction with each other.

  Two engagement grooves 94 a and 94 b are formed in the lock plate 94 connected to the operation shaft 25 of the operation unit 7. The engagement protrusions 92b of the operation lock member 92 can be engaged with the engagement grooves 94a and 94b. The two engagement grooves 94a and 94b are formed corresponding to the operation angle (145 °) of the operation unit 7.

  FIG. 10C shows a state in which the opening / closing lid 6 is opened. Since the engaging claw 90a of the lock lever 90 is retracted upward, the relay lever 91 is in a free state. Therefore, the operation lock member 92 is urged downward by the urging force of the spring 93, and the engagement protrusion 92b can be engaged with one of the engagement grooves 94a and 94b. This prohibits the operation unit 7 from being operated with the open / close lid 6 open.

  Further, while the operation by the operation unit 7 is being performed, the engagement protrusion 92b is positioned on the outer peripheral surface 94c of the lock plate 94, thereby preventing the sliding movement of the lock lever 90 of the opening / closing lid 6. Therefore, the opening / closing lid 6 is configured not to open carelessly during operation.

  The operation unit 7 can be rotated from the first position to the second position, and the operation angle therebetween is 145 °. Further, the internal cylindrical cam 27 rotates in conjunction with the rotation operation of the operation unit 7, but the angle of the cam groove formed in the cylindrical cam 27 is 300 ° in total. FIG. 11 is an expanded view of the cam groove 27a. The operation area of the operation unit 7 and the cylindrical cam 27 can be divided into three areas: a first operation area S1, a second operation area S2, and a third operation area S3. The angle distribution is S1 = S3 = 105 ° and S2 = 90 °.

In the forward operation of the operation unit 7, the first operation region S1 is a step of separating the first connector 1 and the first connector cap 3, the second connector 2 and the second connector cap 4, and the second operation region S2 is separated. The step of rotating the first connector cap 3 and the second connector 2 by 180 ° around the axis X ₃ , the third region operation S3 includes the first connector 1 and the second connector 2, the first connector cap 3 and the second connector cap 4 is a step of bringing 4 close to each other. In the reverse operation of the operation unit 7, the reverse process is performed.

<Connecting / detaching connector>
Next, a connector attaching / detaching operation using the medical connector manual attachment / detachment device according to the present embodiment will be described with reference to FIG.

<1. Connector set → lid closure>
First, the opening / closing lid 6 of the manual detaching device is opened. The opening angle of the opening / closing lid 6 is just 90 °. In the state shown in FIG. 5, the first connector 1 to which the first connector cap 3 is coupled is mounted on the first cap holder 60 and the first connector holder 50, respectively. On the other hand, the second connector 2 to which the second connector cap 4 is coupled is mounted on the second cap holder 45 and the second connector holder 70, respectively (see FIG. 12A). At this time, since the operation unit 7 is in the first position and the opening / closing lid 6 is open, it is locked so as not to move by the lock mechanism.

Next, when the opening / closing lid 6 is closed, the opening / closing lid 6 rotates around the axis X ₁ . Along with this, the first connector holder 50 and the auxiliary holder 51 also rotate around the axis X ₁ . The rotation angle is the same as that of the opening / closing lid 6, and the first connector holder 50 and the auxiliary holder 51 rotate 90 ° before the opening / closing lid 6 is closed. Accordingly, the first connector 1 attached thereto rotates 90 °.

When the first connector 1 is rotated by 90 °, the connection between the first connector 1 and the first connector cap 3 begins to loosen, and the engagement protrusion 31 of the connector cap 3 moves to the first connector 1 as shown in FIG. The cam groove 15 is detached. At this time, since the first connector 1 tends to be separated from the first connector cap 3 along the axis X ₁ , the first connector holder 50 moves backward against the urging force of the compression coil spring 52. Thereby, the preparation for pulling the first connector cap 3 away from the first connector 1 is ready.

  When the opening / closing lid 6 is closed, the engaging claw 90a of the lock lever 90 pushes the relay lever 91 downward to rotate the relay lever 91. As a result, the operation lock member 92 is slid upward, and the engagement protrusion 92 b is detached from the engagement groove 94 b of the lock plate 94. As a result, the operation unit 7 can be rotated. Further, the lock lever 90 is slid to prevent the opening / closing lid 6 from being inadvertently opened.

<2. First operation area>
Next, the operation unit 7 is gradually rotated from the first position (arrow A ₁ direction). The operation shaft 25 and the bevel gear 26 are rotated by the rotation of the operation unit 7. The rotation of the bevel gear 26 is transmitted to the bevel gear 28 that meshes with the bevel gear 26, thereby rotating the cylindrical cam 27. As the cylindrical cam 27 rotates, the cam pin of the holder support 80 engaged with the cam groove 27a moves along the cam groove 27a.

As a result, the holder support 80 moves in the direction of arrow D along the axis X ₃ (see FIGS. 9A and 13A). With this movement, the first cap holder 60 and the second connector holder 70 also move in the same direction. The connecting gear 81a also moves in the same direction. The gear unit supported by the gear holder 84 also moves in the same direction.

  By this movement, the first connector 1 and the first connector cap 3 are separated from each other. The first connector 1 and the first connector cap 3 are loosened in advance, and can be pulled apart smoothly. At the same time, the second connector 2 and the second connector cap 4 are also pulled apart from each other. The second connector 2 and the second connector cap 4 are not screw-coupled, but by simply moving the second connector 2 in the direction of arrow D, the engagement claw 41 is detached from the engagement groove 32 (see FIG. 2D). ) And can be separated. FIG. 12B is a plan view showing the state at that time.

13A and 13B are views for explaining the movement of the internal mechanism in the first operation region S1, FIG. 13A is a perspective view seen from below, and FIG. 13B is a view in the axial direction. Figure 9D is a state before (first position) to start the operation by the operation section 7, the connecting gear 81a and the part gear 29 is located at a position shifted in the axial X ₃ direction, the action of the cam grooves 27a and the cam pin holder support 80 by moving in the axial X ₃ direction (arrow D), connecting gear 81a comes close to the direction of the connecting gear 29 by. Figure 13 shows the operation completion state of the first operation area S1, in the axial X ₃ direction, the coupling gear 29 is just the same position as the connecting gear 81a.

  Further, the partial gear 29a is rotated, and at the end of the first operation region S1, a state immediately before the partial gear 29a is engaged with the connecting gear 81a is obtained (see FIG. 13B). At this time, the cylindrical cam 27 is rotated by 105 ° (see the cam diagram in FIG. 11).

<3. Second operation area>
Furthermore, if the operation part 7 is rotated, it will enter into 2nd operation area | region S2. At this time, since the connection gear 81a and the connection gear 29 mesh with each other, the connection gear 81a is rotated. In conjunction with this, the drive shaft 81 and the gear holder 84 also rotate. The state at this time is shown in FIG.

Gear holder 84 is rotated in the arrow A ₃ direction about the axis X _3. In the second operating region S2, the cam groove 27a of the cam pin of the holder support member 80 are engaged (see Fig. 11) because there is no variation of the displacement, the holder support 80 is moved along the axis X ₃ direction It will be in a stopped state. As the gear holder 84 rotates, the first cap holder 60 and the second connector holder 70 supported by the gear holder 84 also rotate in the same direction. As a result, the first connector cap 3 and the second connector 2 are rotated about the axis X ₃ . 14A (a perspective view seen from below) and 14B (a perspective view seen from above) show the middle of the rotating operation.

Further, since the drive gear 81 b is also rotated by the rotation of the drive shaft 81, the first gear 62 and the second gear 72 are also rotated via the first and second intermediate gears 82 and 83. By the rotation of the first gear 62 and second gear 72, the first cap holder 60 and the second connector holder 70 while rotating about the axis X _3, it rotates in the gear shaft 62a, 72a around the same time. As a result, the first cap holder 60 and the second connector holder 70 rotate while maintaining the same horizontal attitude, and the attitude when the first connector cap 3 and the second connector 2 are initially attached is also maintained. It is rotated while.

  In addition, the Y-shaped tube 20 connected to the second connector 2 rotates together with the rotation of the second connector 2. However, as described with reference to FIG. 1, an arcuate slit S is formed in the main body case 5 and the opening / closing lid 6. The Y-shaped tube 20 can move along the slit S. Thereby, the 2nd connector 2 can be moved without trouble.

  15A and 15B show a state in which the operation in the second operation region S2 is completed, and is a state in which the gear holder 84 and the like are rotated by 180 °. At this time, the second connector holder 70 and the first connector holder 50 face each other, and the first cap holder 60 and the second cap holder 45 face each other. Thus, preparations for connecting the first connector 1 and the second connector 2 and preparations for connecting the first connector cap 3 and the second connector cap 4 are completed.

<3. Third operation area>
Furthermore, if the operation part 7 is rotated, it will enter into 3rd operation area | region S3. At this time, the gear forming portion 29a of the partial gear 29 is disengaged from the engagement with the connecting gear 81a. Accordingly, the connection gear 81a does not rotate any more, and the rotation of the gear holder 84, the drive gear 81b, etc. also stops.

The movement, the cam pin of the holder support member 80 will be engaged with the third operation area S3 of the cam groove 27a of the cylindrical cam 27, along with this, the holder support 80 in the direction of arrow E along the axis X ₃ To do. This moving direction is completely opposite to the direction D in the first operation area S1. As the holder support 80 moves, the first cap holder 60 and the second connector holder 70 also move along the axis X ₃ . Accordingly, the second connector 2 approaches the direction of the first connector 1, and the first connector cap 3 approaches the direction of the second connector cap 4.

  A state where the operation in the third operation region S3 is completed is shown in the plan view of FIG. The first connector 1 is inserted into the second connector 2. At this time, the engaging protrusion 23 of the second connector 2 is in a state where it can be inserted into the cam groove 15 of the first connector 1. Accordingly, the screw connection between the first connector 1 and the second connector 2 is not completed at this stage.

  On the other hand, the first connector cap 3 is inserted into the second connector cap 4, and the coupling between the two is completed. This coupled state is as shown in FIG. At this time, the operation unit 7 moves from the first position to the second position, and the operation in the past is completed. Further, in conjunction with the movement of the operation portion 7, the lock plate 94 is also rotated, and the engagement groove 94 a is moved to a position where it can engage with the engagement protrusion 92 of the operation lock member 92. However, it does not engage until the opening / closing lid 6 is opened.

<Lid open>
Next, the opening / closing lid 6 is opened. As a result, the first connector holder 50 and the auxiliary holder 51 rotate in the direction opposite to that when the lid 6 is closed. The rotation angle is 90 °, whereby the first connector 1 is also rotated 90 °, and the screw connection between the first connector 1 and the second connector 2 is completed.

  As described above, when the first connector 1 and the second connector 2 are connected, the dialysate stored in the abdominal cavity of the patient is discharged into an empty drain bag in this connected state. And the dialysate in a dialysate bag is inject | poured into abdominal cavity by switching a valve not shown.

  Further, the coupled connector caps 3 and 4 are taken out and inserted into the first cap holder 60 and the second cap holder 45 in a state where the new connector caps 3 and 4 are coupled.

When the exchange of the dialysate is completed, the open / close lid 5 is closed again, and this time, the operation unit 7 is rotated in the opposite direction (reverse operation). The direction of rotation of the member is indicated by B ₁ , B ₂ , B ₃ . As a result, the operation described above is followed in the reverse direction to return to the initial set state shown in FIG. At this time, the first connector 1 is covered with a new first connector cap 3, and the second connector 2 is also covered with a new second connector cap 4.

First connector holder 50 provided on the axis X ₁ of the cover 6, is such auxiliary holder 51, the first connector 1 is rotated around the axis, for loosening the coupling of the first connector 1 and the first connector cap 3 This corresponds to the connector rotating means.

  The auxiliary holder 51 and the compression coil spring 52 (corresponding to the holder urging means) correspond to first connector holder moving means that allows the first connector holder 50 to move in the direction of the rotation axis.

<Another embodiment>
The operation angle of the operation portion 7 and the cam groove 27a of the cylindrical cam 27 is not limited to this embodiment, and can be determined as appropriate in consideration of ease of use. Also, how many times the first, second, and third operation areas S1, S2, and S3 are allocated in the entire operation range can be determined as appropriate. Further, the operation direction of the operation portion 7, the arrow A ₁ in FIG. 1 can be selected as appropriate whether the backward operation or the forward operation.

  In the present embodiment, the first connector cap 3 and the second connector 2 are supported by the holder and rotated. However, the first connector 1 and the second connector cap 4 may be rotated. In this case, when the first connector 1 and the first connector cap 3 are detached, it is preferable to rotate the first connector cap 3.

  In this embodiment, the insertion and removal with respect to the first connector 1 is a screw type (rotation operation and linear operation), and the insertion and removal with respect to the second connector 2 is only a linear operation, but the insertion and removal with respect to the second connector 2 is the first. As with the connector 1, a screw type may be adopted.

  In the present embodiment, the rotation angle of the opening / closing lid 6 is 90 °, but is not limited to this. For example, a large opening / closing angle of 90 ° or more may be used. In this case, since the rotation angle of the first connector holder 50 and the auxiliary holder 51 needs to be 90 °, a mechanism for adjusting the angle (intermediate gear or the like is interposed) is provided.

Diagram showing connector configuration Diagram showing connector connection The perspective view which shows the external appearance structure of a manual desorption apparatus The perspective view which shows the state which opened the opening-and-closing lid of the manual desorption apparatus. The top view which shows the state which opened the opening-and-closing lid of the manual desorption device The figure which shows the holder structure for a 1st connector The figure which shows the holder structure for a 2nd connector Perspective view showing the inside of the lid Side view showing the configuration of the lid Diagram showing holder drive mechanism Diagram showing holder drive mechanism Diagram showing holder drive mechanism Diagram showing holder drive mechanism Diagram explaining the locking mechanism Expanded cam groove of cylindrical cam Plan view explaining the operation of the manual desorption device (connector set) Plan view explaining the operation of the manual detaching device (connector separation) The figure explaining operation of the internal mechanism of a manual desorption device (operation of a partial gear) The figure explaining operation of the internal mechanism of a manual desorption device (connector rotation) The figure explaining operation of the internal mechanism of a manual desorption device (connector rotation) Diagram explaining operation of internal mechanism of manual desorption device (connector rotation completed) Diagram explaining operation of internal mechanism of manual desorption device (connector rotation completed) Plan view explaining the operation of the manual desorption device (connector coupling completed) The figure explaining insertion and removal of the connector concerning a prior art

Explanation of symbols

1 Patient side connector (first connector)
2 Dialysate side connector (second connector)
3 First connector cap 4 Second connector cap 5 Main body case 6 Opening / closing lid 7 Operation portion 27 Cylindrical cam 27a Cam groove 29 Cylindrical cam 45 Second cap holder 50 First connector holder 50a Holder main body portion 51 Auxiliary holder 52 Compression coil spring 60 First cap holder 70 Second connector holder 80 Holder support 81 Drive shaft 81a Connection gear 84 Gear holder 90 Lock lever 92 Operation lock member 92b Engagement protrusion 94 Lock plates 94a and 94b Engagement groove S1 First operation area S2 Second operation Area S3 Third operation area

Claims (4)

In order to attach and detach the medical connector composed of the first connector and the second connector,
A first connector holder and a first cap holder capable of holding the first connector and the first connector cap, respectively, with the first connector cap coupled to the first connector by a screw type inserted;
A second connector holder and a second cap holder capable of holding the second connector and the second connector cap, respectively, with the second connector cap inserted into the second connector;
While the first connector holder and the second cap holder are arranged in parallel, the first cap holder and the second connector holder are arranged in parallel,
An operation unit for operating the connector detachment;
An opening / closing lid that is openable and closable with respect to the apparatus main body and that exposes the first and second connector holders and the first and second cap holders to the upper part of the apparatus main body;
A manual desorption device for a medical connector comprising:
After setting the first connector to which the first connector cap is coupled, in the step of closing the opening / closing lid, the first connector or the first connector cap is rotated around the axis line, thereby coupling the first connector and the first connector cap. A manual connector attaching / detaching device for a medical connector, comprising: a connector rotating means for loosening the connector.   The medical connector manual attachment / detachment device according to claim 1, wherein the first connector holder is disposed coaxially with a rotation axis of the opening / closing lid. First connector holder moving means for allowing the first connector holder to move in the axial direction of the rotational axis;
Holder urging means for urging the first connector holder with respect to the first cap holder along the axial direction;
The first connector holder is configured to be movable against the biasing force of the holder biasing means when loosening the coupling between the first connector and the first connector cap. A manual desorption device for the medical connector as described.   The medical connector manual attachment / detachment device according to any one of claims 1 to 3, further comprising a lock mechanism for locking an operation by the operation unit when the opening / closing lid is opened. .

Images