JP2016064015A - Charging adapter and chemical liquid charging set - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a charging adapter and a chemical liquid charging set which allow a user to easily discriminate completion of charging a chemical liquid into a chemical liquid storage part even when the color of the chemical liquid is difficult to see.SOLUTION: A charging adapter 3 comprises a suction path 95 which communicates with a liquid feed port 62b and communicates with a suction mechanism 13 for sucking a gas inside a chemical liquid storage part 62; and a notification part 101 which is provided at the suction path 95 to visually display a chemical liquid passing through the suction path 95.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a filling adapter for filling a liquid medicine storage part of a portable liquid medicine administration device such as an insulin pump, for example, and a liquid medicine filling set including the filling adapter.

  In recent years, a treatment method in which a drug solution is continuously administered into a patient's body by subcutaneous injection or intravenous injection has been performed. For example, as a treatment method for diabetic patients, a treatment in which a minute amount of insulin is continuously infused into the body of the patient is performed. In this treatment method, in order to administer a drug solution (insulin) to a patient throughout the day, a portable drug solution administration device (so-called insulin pump) that can be fixedly carried on the patient's body or clothes is used.

  As a conventional chemical | medical solution administration apparatus, there exists a thing as described in patent document 1, for example. The chemical solution administration device described in Patent Document 1 includes a chemical solution storage unit that stores a chemical solution and a piston that is driven in the chemical solution storage unit. And a chemical | medical solution is administered to a user because a piston pushes out a chemical | medical solution from a chemical | medical solution storage part.

  However, generally, when the chemical solution administration device reaches the user, the chemical solution storage unit is not pre-filled with the chemical solution. Therefore, when using the chemical solution administration device, the user needs to perform an operation of filling the chemical solution storage unit from a chemical solution container (for example, a vial) in which the chemical solution is separately stored.

  As a conventional method for filling the drug solution storage unit, for example, a user first pours a drug solution from a drug solution container using a syringe. And there exists a method of puncturing the needle tube of a syringe in the filling port provided in the chemical | medical solution storage part, and filling a chemical | medical solution into the chemical | medical solution storage part.

  Moreover, as another conventional method for filling the chemical solution storage unit, for example, first, the chemical solution storage unit and the chemical solution container are connected using an adapter. Next, there is also a method of pulling a pusher provided in the chemical solution storage unit and filling the chemical solution storage unit with the chemical solution in the chemical solution container.

Special table 2010-501283 gazette

  However, in the conventional filling method for the chemical solution storage unit, whether or not the filling is completed is determined by the user visually checking the chemical solution storage unit. Therefore, when the drug solution filled in the drug solution storage unit is a colorless and transparent drug solution such as insulin that is difficult to visually recognize, it is difficult to determine whether or not the filling operation of the drug solution into the drug solution storage unit is completed. Had a problem.

  In view of the above problems, an object of the present invention is to provide a filling adapter and a chemical solution filling set that can easily determine the completion of the filling of the chemical solution into the chemical solution storage unit even when the color of the chemical solution is difficult to see. It is in.

  In order to solve the above-mentioned problems and achieve the object of the present invention, the filling adapter of the present invention is detachably attached to a chemical liquid storage section having a filling port into which the chemical liquid is injected and a liquid feeding port for sending out the filled chemical liquid. A suction passage that communicates with the suction mechanism that sucks the gas in the chemical solution storage portion, and a notification portion that is provided in the suction passage and that displays the chemical solution that passes through the suction passage in a visible manner. , With.

  Moreover, the chemical | medical solution filling set of this invention is equipped with the main-body part, the suction side connection port, the suction mechanism, the suction passage, and the alerting | reporting part. The main body is detachably attached to a chemical liquid storage section having a filling port into which the chemical liquid is injected and a liquid feeding port for sending out the filled chemical liquid. The suction side connection port communicates with the liquid supply port. The suction mechanism sucks the gas inside the chemical solution storage unit through the suction side connection port. The suction passage communicates the liquid feeding port and the suction mechanism. An alerting | reporting part is provided in a suction passage, and displays the chemical | medical solution which passes a suction passage so that visual recognition is possible. Then, when the gas in the chemical solution storage unit is sucked by the suction mechanism, the chemical solution filling set fills the chemical solution storage unit with the chemical solution from the chemical solution container connected to the filling port.

  According to the filling adapter and the chemical solution filling set of the present invention, even when it is difficult to see the color of the chemical solution, it is possible to easily determine the completion of filling the chemical solution storage unit.

It is a perspective view which shows the example of embodiment of the chemical | medical solution filling apparatus and chemical | medical solution filling unit of this invention. It is a disassembled perspective view which shows the embodiment of the chemical | medical solution filling apparatus and chemical | medical solution filling unit of this invention. It is a front view which shows the embodiment of the chemical | medical solution filling apparatus of this invention. It is a perspective view which shows the embodiment of the chemical | medical solution filling unit of this invention. It is a disassembled perspective view which shows the filling adapter in the embodiment of the chemical | medical solution filling unit of this invention. It is sectional drawing which shows the filling adapter in the embodiment of the chemical | medical solution filling unit of this invention. It is explanatory drawing which shows typically the filling operation | movement of the chemical | medical solution in the embodiment of the chemical | medical solution filling apparatus of this invention, and a chemical | medical solution filling unit. It is a front view which shows the operation | movement which fills the chemical | medical solution storage part in the example of embodiment of the chemical | medical solution filling apparatus of this invention, and a chemical | medical solution filling unit. It is explanatory drawing which shows the alerting | reporting part in the embodiment of the chemical | medical solution filling apparatus and chemical | medical solution filling unit of this invention. It is explanatory drawing which shows the modification of the alerting | reporting part in the embodiment of the chemical | medical solution filling apparatus of this invention, and a chemical | medical solution filling unit.

  Hereinafter, embodiments of the filling adapter and the chemical solution filling set according to the present invention will be described with reference to FIGS. In addition, the same code | symbol is attached | subjected to the common member in each figure. The present invention is not limited to the following form.

<1. Embodiment>
1-1. Configuration Example of Chemical Solution Filling Device, Chemical Solution Filling Tool, and Chemical Solution Filling Adapter First, referring to FIG. 1 to FIG. 6, an embodiment of the chemical solution filling device, the chemical solution filling tool, and the chemical solution filling adapter of the present invention (hereinafter, “this example” ”) Will be described.
FIG. 1 is a perspective view of the chemical liquid filling device of this example as viewed from the front, and FIG. 2 is an exploded perspective view showing the chemical liquid filling device, the filling adapter, and the chemical liquid storage device of this example. In FIG. 1 and FIG. 2, in order to show the main part of the chemical storage device 2, an outer case 61 of the chemical storage device 2 described later is shown transparent.

  As shown in FIG. 1, the chemical liquid filling apparatus 1 is an apparatus that fills the chemical liquid storage unit 62 of the chemical liquid storage device 2 with the chemical liquid. A chemical solution storage device 2 and a filling adapter 3 constituting the chemical solution administration device are attached to the chemical solution filling apparatus 1. In addition, the filling adapter 3 is attached to the chemical solution storage device 2 in advance. The chemical solution storage unit 2 and the filling adapter 3 constitute a chemical solution filling unit 5. Further, a chemical solution filling set 10 is configured by the chemical solution filling device 1 and the chemical solution filling unit 5 attached to the chemical solution filling device 1.

  In addition, a vial 4 showing an example of a chemical solution container is attached to the filling adapter 3. The medicinal solution storage device 2 is combined with a drive unit having a power source, a driving mechanism for feeding medicinal solution, and the like to form a medicinal solution administration device. The drug solution administration device is a portable drug solution administration device for continuously administering a drug solution into a patient's body, such as a patch-type insulin pump, tube-type insulin pump, and other portable drug solution administration devices. Widely applied.

[Chemical liquid filling device]
Next, the chemical solution filling apparatus 1 will be described with reference to FIGS.
FIG. 3 is a front view showing the chemical solution filling set 10. FIG. 3 shows a state where the first case 16 in the chemical liquid filling device 1 is removed.

  As shown in FIGS. 1 to 3, the chemical liquid filling apparatus 1 includes a housing 11 that forms an external appearance, a filling amount adjustment mechanism 12 provided in the housing 11, and a suction mechanism 13.

[Case]
The casing 11 is formed in a substantially rectangular parallelepiped shape with a part cut away, and is formed so as to be gripped by a user. The housing 11 has a first case 16 and a second case 17 that overlap each other.

  The first case 16 has a substantially rectangular front part 16a, an upper surface part 16b that extends substantially vertically from one end in the longitudinal direction of the front part 16a, and a substantially vertical part that continues from the other longitudinal end of the front part 16a. And a mounting surface portion 16c facing the upper surface portion 16b. The first case 16 includes a first side surface 16d that is substantially perpendicular to one end of the front portion 16a in the short direction, and a first side surface that is substantially perpendicular to the other side of the front portion 16a in the short direction. It has the 2nd side part 16e facing the part 16d. And the chemical | medical solution filling apparatus 1 stands upright with the longitudinal direction of the housing | casing 11 facing a perpendicular direction by mounting the mounting surface part 16c on a desk or a stand.

  On the other side in the longitudinal direction of the front portion 16a, a pedestal portion 18 is provided that projects toward both sides in the short direction. The pedestal portion 18 is formed with an insertion hole 22 opened in a substantially circular shape.

  A mounting portion 21 is provided above the pedestal portion 18 in the front portion 16a. The mounting portion 21 is formed from the front portion 16a to the upper surface portion 16b. Moreover, the mounting part 21 is dented from one surface of the front part 16a toward the width direction orthogonal to the longitudinal direction and the short direction of the front part 16a. And as shown in FIG.1 and FIG.2, the chemical | medical solution filling unit 5 is mounted | worn with the mounting part 21. As shown in FIG.

  An opening 23 and a through hole 24 that are opened in a substantially square shape are formed in the main surface portion 21a that is parallel to one surface of the front portion 16a in the mounting portion 21. A positioning groove 26 is provided on the side wall 21b on the second side surface portion 16e side of the mounting portion 21.

  In addition, a rotation pin, a first bearing portion, and a second bearing portion (not shown) are provided on one side in the longitudinal direction of the front portion 16a and on the other surface opposite to the exposed one surface. A lever member 48 of the suction mechanism 13 described later is rotatably supported by the rotation pin. Further, a feed screw shaft 34 of a filling amount adjusting mechanism 12 (to be described later) is rotatably supported on the first bearing portion, and a guide member 37 of the filling amount adjusting mechanism 12 is swung on the second bearing portion. A pin is rotatably supported.

  The upper surface portion 16b is provided with a suction side connection hole 27 into which a second connection port of the filling adapter 3 described later is inserted. The suction side connection hole 27 is provided with a suction side connection port 55 of the suction mechanism 13 described later.

  As shown in FIG. 1, a lever member 48 of the suction mechanism 13 described later is disposed on the first side surface portion 16d.

  The second case 17 is formed in a substantially rectangular flat plate shape, and is disposed on the back side of the housing 11. The second case 17 covers an opening formed by the upper surface portion 16b, the first side surface portion 16d, the second side surface portion 16e, and the placement surface portion 16c in the first case 16. Further, the other side of the second case 17 in the longitudinal direction protrudes toward both sides in the lateral direction, similarly to the front portion 16 a of the first case 16.

[Filling amount adjustment mechanism]
Next, the configuration of the filling amount adjusting mechanism 12 will be described.
As shown in FIG. 3, the filling amount adjusting mechanism 12 includes a feed screw shaft 34, an operation unit 35, a movable member 36, a guide member 37, and a hook member 38.

  The feed screw shaft 34 is rotatably supported by a first bearing portion (not shown) provided in the first case 16. The feed screw shaft 34 is provided with a thread groove extending spirally on the outer peripheral surface thereof. The feed screw shaft 34 is arranged such that its axial direction is along the longitudinal direction of the housing 11. An operation unit 35 is provided on the other side of the feed screw shaft 34 in the axial direction. The operation unit 35 is formed in a substantially disk shape and is fixed to the feed screw shaft 34. A part of the operation unit 35 is exposed from an operation window (not shown) of the second case 17. Then, when the user rotates the operation unit 35, the feed screw shaft 34 rotates.

  The guide member 37 is formed in a flat plate shape having a substantially rectangular shape. A swing pin (not shown) is provided at one end of the guide member 37 in the longitudinal direction. The swing pin of the guide member 37 is rotatably attached to a second bearing (not shown) provided in the first case 16. As a result, the guide member 37 rotates around the swing pin.

  A bent piece 37 a is provided on the other side of the guide member 37 in the longitudinal direction. A release button 42 protrudes from one surface of the bent piece 37a. As shown in FIG. 2, the release button 42 is inserted through the insertion hole 22 of the first case 16. A return spring (not shown) is disposed between the bent piece 37 a and the second case 17.

  A guide groove (not shown) is formed between the swing pin of the guide member 37 and the bent piece 37a. The guide groove is formed along the longitudinal direction of the guide member 37. Further, an engagement piece 43 is formed between the guide groove in the guide member 37 and the bent piece 37a. The engagement piece 43 protrudes in the same direction as the release button 42. As shown in FIG. 2, the engagement piece 43 passes through the through hole 24 of the first case 16.

  The movable member 36 is formed in a substantially flat plate shape, and an opening portion that is opened in a substantially square shape is formed in the approximate center thereof. A nut portion 44 is provided on one side of the movable member 36. The nut portion 44 engages with the feed screw shaft 34.

  A hook member 38 is inserted into the opening of the movable member 36. The hook member 38 has a sliding piece (not shown) that is slidably inserted into the guide groove of the guide member 37, and a hook piece 38a. The hook piece 38 a protrudes in the same direction as the engagement piece 43. The hook piece 38a is engaged with a nut piece 64c of the chemical solution storage device 2 described later.

  When the feed screw shaft 34 is rotated, the rotational force of the feed screw shaft 34 is transmitted to the movable member 36 and the hook member 38 via the nut portion 44. The movable member 36 and the hook member 38 move along the guide groove of the guide member 37. Thereby, the position of the hook piece 38a can be adjusted.

  The hook member 38 is attached to the guide member 37 via a sliding piece. Therefore, when the guide member 37 rotates, the hook member 38 moves together with the guide member 37.

[Suction mechanism]
Next, the configuration of the suction mechanism 13 will be described.
As shown in FIG. 3, the suction mechanism 13 includes a suction side connection port 55, a suction tube 46, a syringe 47, a lever member 48, a suction side pusher 49, a lever member 48, and a suction side pusher 49. And a link member 50 for connecting the two.

  As shown in FIG. 2, the suction side connection port 55 is disposed in the suction side connection hole 27 provided in the housing 11. As shown in FIG. 3, the suction side connection port 55 is connected to a suction tube 46 that is an example of a suction passage. One end of the suction tube 46 is connected to the suction side connection port 55, and the other end of the suction tube 46 is connected to the syringe 47.

  A first check valve 51 is provided in the middle of the suction tube 46. The first check valve 51 is opened only when the gas passing through the suction tube 46 goes from the suction side connection port 55 to the syringe 47, and is closed when the gas goes from the syringe 47 to the suction side connection port 55.

  The syringe 47 is formed in a substantially cylindrical shape. A second check valve 52 is provided at one end of the syringe 47 in the axial direction. The second check valve 52 is opened only when the gas is discharged from the syringe 47 and is closed when the gas is sucked into the syringe 47 from the outside except the suction tube 46. Therefore, only the gas that passes through the suction tube 46 is fed into the syringe 47.

  A suction side pusher 49 is inserted into the cylindrical hole of the syringe 47 so as to be slidable in the axial direction of the syringe 47. The suction side pusher 49 adjusts the capacity in the syringe 47 freely. The suction side pusher 49 is provided with a pressing spring 53. The pressing spring 53 is interposed between the suction side pusher 49 and the second side surface portion 16 e of the first case 16. The pressing spring 53 urges the suction side pusher 49 toward one side in the axial direction of the syringe 47.

  A lever member 48 is connected to the suction side pusher 49 via a link member 50. A bearing hole 48 a is provided at one end of the lever member 48. A rotation pin (not shown) provided in the first case 16 is passed through the bearing hole 48a. The lever member 48 is rotatably supported by the first case 16 and the second case 17 around the rotation pin.

  Further, one end portion of the link member 50 is rotatably attached to the other end portion of the lever member 48. Further, the other end of the link member 50 is attached to the suction side pusher 49 so as to be rotatable. When the user grips the lever member 48 and pivots about the pivot pin, the suction side pusher 49 together with the link member 50 resists the urging force of the pressing spring 53, and the other side in the axial direction of the syringe 47. (See FIG. 8). Thereby, the capacity | capacitance in the syringe 47 expands, and air is sent in into the syringe 47 via the suction side connection port 55 and the suction tube 46.

  When the user stops the gripping operation of the lever member 48, the suction side pusher 49 is urged by the pressing spring 53 and inserted into the syringe 47. The suction tube 46 is provided with a first check valve 51 that blocks air from the syringe 47 toward the suction side connection port 55. Therefore, the air in the syringe 47 is discharged to the outside through the second check valve 52. Further, the moving force of the suction side pusher 49 is transmitted to the lever member 48 via the link member 50, and the lever member 48 returns to the initial state shown in FIG.

[Chemical solution filling unit]
Next, the chemical solution filling unit 5 including the chemical solution storage device 2 and the filling adapter 3 will be described with reference to FIGS.
FIG. 4 is a perspective view showing the chemical liquid filling unit 5, FIG. 5 is an exploded perspective view showing the filling adapter 3, and FIG. 6 is a cross-sectional view showing the filling adapter 3.

[Chemical solution storage device]
As shown in FIG.2 and FIG.4, the chemical | medical solution storage tool 2 is the exterior case 61 which one side opened, the chemical | medical solution storage part 62 accommodated in the inside of the exterior case 61, the storage part side connection port 63, and a pusher. Member 64.

  The outer case 61 is formed in a container shape that is open on one side. The exterior case 61 has a main surface portion 61a formed in a substantially rectangular shape, a side wall 61b surrounding the main surface portion 61a, and a recessed portion 61c that is recessed by one step from the main surface portion 61a. The recessed portion 61c is provided with a substantially cylindrical storage portion side connecting tube 66. Positioning protrusions 61d are provided on the side wall 61b of the outer case 61 (see FIG. 2). The positioning protrusion 61 d is inserted into the positioning groove 26 provided in the mounting portion 21 when the chemical solution filling unit 5 is attached to the chemical solution filling apparatus 1.

  As shown in FIG. 4, the chemical solution storage unit 62 is formed in a substantially cylindrical shape, and one surface is closed and the other surface is opened. A filling port 62 a and a liquid feeding port 62 b are provided at the end of the chemical liquid storage unit 62 on the closing side. A chemical solution is injected from the filling port 62a, and air or a chemical solution is sent out from the liquid supply port 62b. When the chemical liquid filling unit 5 is attached to the chemical liquid filling apparatus 1, the liquid feeding port 62b is disposed above the filling port 62a in the vertical direction.

  A liquid supply tube 69 is connected to the liquid supply port 62b. The storage unit side connection port 63 is connected to the end of the liquid supply tube 69 opposite to the liquid supply port 62b. The storage unit side connection port 63 is disposed in the storage unit side connection cylinder 66 in the outer case 61.

  Further, as shown in FIG. 2, a pusher member 64 is slidably inserted into the cylindrical hole of the chemical solution storage unit 62. As shown in FIG. 3, the pusher member 64 is fixed to the shaft portion 64b, a gasket 64a that moves while being in close contact with the inner peripheral surface of the chemical solution storage portion 62, a shaft portion 64b attached to the gasket 64a, and the shaft portion 64b. Nut piece 64c. The nut piece 64c is provided on the opposite side of the shaft 64b from the gasket 64a. When the chemical storage device 2 and the drive unit are combined together, the nut piece 64c is engaged with the screw shaft of the drive mechanism provided in the drive unit.

  The nut piece 64 c engages with the hook piece 38 a of the filling amount adjusting mechanism 12 when the chemical solution filling unit 5 is attached to the chemical solution filling apparatus 1.

[Filling adapter]
Next, the filling adapter 3 will be described.

  As shown in FIGS. 5 and 6, the filling adapter 3 includes a main body portion 71, a support portion 72, a first connection port 73, a second connection port 74, and a liquid feeding needle tube held by the main body portion 71. 75, a ventilation needle tube 76, and a ventilation filter 77. Further, the filling adapter 3 has a protection mechanism 78 provided in the main body 71.

[Main unit]
The main body 71 is formed in a substantially rectangular parallelepiped shape. A support portion 72, a protection mechanism 78, a liquid feeding needle tube 75, and a ventilation needle tube 76 are disposed on one side in the longitudinal direction of the main body portion 71. A first connection port 73 and a second connection port 74 are disposed on the other side of the main body 71 in the longitudinal direction.

  Further, on the other side in the longitudinal direction of the main body 71, a recess 81 that is recessed in a substantially square shape from the one surface 71a is formed. The recess 81 is provided at a position corresponding to the first connection port 73 and the second connection port 74 provided in the main body 71. A first communication hole 82 and a second communication hole 83 are formed in the recess 81. The first communication hole 82 and the second communication hole 83 pass through the main body 71 in the vertical direction. The recess 81 is formed with a communication path 84 that allows the first communication hole 82 and the second communication hole 83 to communicate with each other.

  Further, a mounting hole 85 is provided on the outer edge of the first communication hole 82 on the concave portion 81 side. A ventilation filter 77 is attached to the attachment hole 85. The ventilation filter 77 has a mechanism that allows only gas such as air to pass therethrough and prevents liquid from passing therethrough. The main body 71 is provided with a lid 86 that closes the opening of the recess 81.

[Needle tube for liquid feeding and needle tube for ventilation]
A needle tip is provided at one end of each of the liquid-feeding needle tube 75 and the ventilation needle tube 76. One end of each of the liquid-feeding needle tube 75 and the ventilation needle tube 76 is punctured by a rubber plug that seals the opening of the vial 4 and penetrates the rubber plug. A needle tip is also provided at the other end of the liquid feeding needle tube 75. The other end of the liquid feeding needle tube 75 is pierced into the filling port 62a of the drug solution storage unit 62 and penetrates the filling port 62a. The other end side of the liquid feeding needle tube 75 is bent in a substantially L shape.

  The liquid feeding needle tube 75 and the ventilation needle tube 76 are held by the main body 71. One end sides of the liquid-feeding needle tube 75 and the ventilation needle tube 76 protrude from the one surface 71 a of the main body 71. Further, the other end side of the liquid feeding needle tube 75 protrudes from the other surface 71 b which is the surface opposite to the one surface 71 a of the main body 71. That is, the liquid feeding needle tube 75 is provided so as to penetrate the main body portion 71 in the vertical direction. The other end of the ventilation needle tube 76 protrudes from the other surface 71b of the main body 71, or the end surface thereof is located on the same plane as the other surface 71b. The other end of the ventilation needle tube 76 does not have to protrude from the other surface 71b of the main body 71. For example, a ventilation hole communicating with the ventilation needle tube 76 may be provided in the main body 71.

  A substantially cylindrical support portion 72 is provided on one side in the longitudinal direction of the main body portion 71. The opening of the support portion 72 is set to a size that allows the mouth portion of the vial 4 to be inserted. One end side of the liquid feeding needle tube 75 and the ventilation needle tube 76 is disposed in the cylindrical hole of the support portion 72. That is, the support portion 72 is formed in a cylindrical shape that covers the periphery of the liquid feeding needle tube 75 and the ventilation needle tube 76, and is spaced apart from the needle tip on one side of the liquid feeding needle tube 75 and the ventilation needle tube 76 in the radial direction. Is provided. Thereby, it is possible to prevent the user from accidentally puncturing the needle tips on one end side of the liquid-feeding needle tube 75 and the ventilation needle tube 76.

  A rib 72 a that is continuous in the circumferential direction is formed on the inner wall of the support portion 72. The rib 72 a is fitted to the mouth of the vial 4. Thereby, the vial 4 can be held by the support portion 72.

  A first connection port 73 and a second connection port 74 are provided on the other surface 71 b of the main body 71 on the recess 81 side. The first connection port 73 and the second connection port 74 are formed in a substantially cylindrical shape. The first connection port 73 and the second connection port 74 are respectively formed with communication holes 73a and 74a penetrating along the axial direction. In addition, sealing bodies 90 and 90 are attached to the openings on the side opposite to the main body 71 in the communication holes 73a and 74a so as to close the openings.

  The first connection port 73 communicates with a first communication hole 82 provided in the main body 71, and the second connection port 74 communicates with a second communication hole 83. Further, seal members 91 are provided at the ends of the first connection port 73 and the second connection port 74 opposite to the main body 71. And as shown in FIG. 8, the 1st connection port 73 is inserted in the storage part side connection cylinder 66 of the chemical | medical solution storage tool 2, and is connected to the storage part side connection port 63. As shown in FIG. The second connection port 74 is inserted into the suction side connection hole 27 of the chemical liquid filling apparatus 1 and connected to the suction side connection port 55.

  The first connection port 73 is provided with a notification unit 101. The notification unit 101 includes a viewing window 102 through which the communication hole 73a formed in the first connection port 73 can be visually recognized from the outside, and a float member 103 that is disposed in the communication hole 73a so as to be movable along the axial direction. ing. The float member 103 has a predetermined buoyancy and moves in the communication hole 73a along the axial direction in accordance with the liquid level of the chemical liquid M1 flowing into the communication hole 73a (see FIG. 9).

  Further, the notification unit 101 has a stopper member 104. The stopper member 104 is provided in the vicinity of the opening on the main body 71 side in the communication hole 73a. The stopper member 104 stops the float member 103 that has been lifted by the chemical solution M1. Thereby, it is possible to prevent the float member 103 that has been lifted from blocking the opening on the main body 71 side in the communication hole 73a.

  The protection mechanism 78 is provided in the main body 71 and is rotatably disposed in the vicinity of the other end of the liquid feeding needle tube 75 in the main body 71. The protection mechanism 78 rotates to cover the other end side of the liquid feeding needle tube 75. Thereby, the needle tip on the other end side of the liquid feeding needle tube 75 after the filling operation is completed can be covered, and the used filling adapter 3 can be brought into a safe state.

1-2. Next, an example of a chemical solution filling method using the chemical solution filling set 10 of this example will be described with reference to FIGS.
FIG. 7 is an explanatory diagram schematically showing the filling operation of the chemical solution. FIG. 8 is a front view of the chemical solution filling set 10 showing the operation of filling the chemical solution storage unit 62 of the chemical solution storage device 2 with the chemical solution. FIG. 9 is an explanatory diagram showing the notification unit 101 when filling with a chemical solution.

  First, as shown in FIG. 2, the user stands the chemical liquid filling device 1 on a desk or a stand so that the opening on the upper surface portion 16 b side of the mounting portion 21 faces upward. In addition, the chemical solution filling device 1 is provided with a pedestal portion 18 projecting on both sides of the first side surface portion 16 d and the second side surface portion 16 e below the housing 11. Thereby, the chemical | medical solution filling apparatus 1 can be stood stably on a desk or a base.

  Next, the operation unit 35 of the chemical solution filling apparatus 1 is operated to set a display piece (not shown) at a predetermined scale position. The setting of the filling amount adjusting mechanism 12 may be performed before the chemical liquid filling device 1 is placed on a desk or a table, or may be performed after the chemical liquid filling unit 5 is attached to the chemical liquid filling device 1.

  Here, the filling adapter 3 is attached to the chemical solution storage device 2 in advance. The other end side of the liquid feeding needle tube 75 in the filling adapter 3 passes through the filling port 62 a of the chemical solution storage unit 62. The first connection port 73 is inserted into the storage unit side connection tube 66 of the chemical solution storage device 2. Thereby, the liquid supply port 62b of the chemical | medical solution storage tool 2, the liquid supply tube 69, the storage part side connection port 63, and the 1st connection port 73 of the filling adapter 3 are connected.

  Next, as shown in FIGS. 1 and 3, the chemical solution filling unit 5 is attached to the chemical solution filling apparatus 1. Specifically, the protrusion 61 d of the chemical solution storage device 2 is inserted into the positioning groove 26 of the mounting portion 21, and the chemical solution storage device 2 is mounted on the mounting portion 21. Further, the second connection port 74 of the filling adapter 3 is inserted into the suction side connection hole 27 of the chemical solution filling apparatus 1. As a result, the second connection port 74 and the suction side connection port 55 communicate with each other. 7A, the internal space of the syringe 47 of the suction mechanism 13 and the internal space of the chemical solution storage unit 62 are communicated with each other via a liquid supply port 62b, a liquid supply tube 69, a communication path 84, and a suction tube 46. The Further, a suction passage 95 is constituted by the liquid feeding tube 69, the communication passage 84 and the suction tube 46.

  Further, the engaging piece 43 protruding from the mounting portion 21 is engaged with the side wall 61 b of the outer case 61 in the chemical solution storage device 2. Thereby, the chemical | medical solution storage tool 2 can be stably mounted | worn with the mounting part 21. FIG.

  Further, the hook piece 38a of the filling amount adjusting mechanism 12 is engaged with the nut piece 64c of the chemical liquid storage device 2, and the insertion position of the pusher member 64 with respect to the chemical liquid storage section 62 is held at a predetermined position. As a result, as shown in FIG. 3, the position of the gasket 64 a of the pusher member 64 in the chemical solution storage unit 62 is maintained, and the capacity in the chemical solution storage unit 62 can be maintained at a set amount. Further, even after the chemical liquid storage device 2 is mounted on the mounting portion 21, the position of the hook piece 38a engaged with the nut piece 64c can be changed by operating the operation section 35, and the capacity of the chemical liquid storage section 62 can be increased. Can be easily changed.

  Next, the vial 4 having a chemical solution is attached to the support portion 72 of the filling adapter 3. Thereby, one end side of the liquid feeding needle tube 75 and the ventilation needle tube 76 of the filling adapter 3 penetrates the rubber stopper of the vial bottle 4, and the liquid feeding needle tube 75, the ventilation needle tube 76 and the internal space of the vial bottle 4 are formed. Communicate. The other end of the liquid feeding needle tube 75 passes through the filling port 62 a of the chemical liquid storage unit 62. Therefore, as shown in FIG. 7A, the internal space of the vial 4 and the internal space of the drug solution storage unit 62 communicate with each other via the liquid supply needle tube 75.

  The vial bottle 4 may be attached to the filling adapter 3 before the chemical liquid filling unit 5 is attached to the chemical liquid filling apparatus 1.

  Next, as shown in FIG. 8, the user holds the casing 11, grasps the lever member 48, and rotates the lever member 48. When the lever member 48 is rotated, the suction side pusher 49 is moved through the link member 50, and the capacity in the syringe 47 is increased. The syringe 47 is provided with a second check valve 52 that opens only when the gas is discharged from the syringe 47 and closes when the gas is sucked into the syringe 47. Therefore, the pressure in the syringe 47 temporarily decreases. And since the pressure in the syringe 47 becomes a negative pressure, the suction mechanism 13 sucks air from the suction tube 46 side.

  As a result, as shown in FIGS. 7B and 8, the air in the chemical solution storage unit 62 is sucked into the syringe 47 through the suction passage 95. As a result, the inside of the chemical solution storage unit 62 has a negative pressure. Further, when the air in the chemical solution storage unit 62 flows into the syringe 47, the pressure in the syringe 47 returns to the initial value, that is, the atmospheric pressure.

  Furthermore, since the inside of the chemical solution storage unit 62 has a negative pressure, the chemical solution M1 is injected from the vial bottle 4 into the chemical solution storage unit 62 via the liquid supply needle tube 75 and the filling port 62a. In addition, external air is fed into the vial 4 via the aeration needle tube 76. In this way, the user can easily inject the chemical M1 into the chemical storage part 62 by gripping the lever member 48.

  When the user stops the gripping operation of the lever member 48, the suction side pusher 49 is urged by the pressing spring 53 and inserted into the syringe 47. The suction tube 46 is provided with a first check valve 51 that blocks air from the syringe 47 toward the suction side connection port 55. Furthermore, as described above, the syringe 47 is provided with the second check valve 52 that opens only when the gas is discharged from the syringe 47 and closes when the gas is sucked into the syringe 47. Yes. Therefore, the air in the syringe 47 is discharged to the outside via the second check valve 52 instead of the suction tube 46 side. Further, the moving force of the suction side pusher 49 is transmitted to the lever member 48 via the link member 50, and the lever member 48 returns to the initial state shown in FIG.

  Then, the user repeats the gripping operation of the lever member 48. As a result, the air in the drug solution storage unit 62 is sucked by the suction mechanism 13 of the drug solution filling apparatus 1 to be negative pressure, and the drug solution M1 is injected into the drug solution storage unit 62 from the vial 4.

  When the inside of the chemical solution storage unit 62 is filled with the chemical solution M1, the chemical solution M1 is filled up to the liquid feeding tube 69 as shown in FIG. 7B. Here, the suction passage 95 is provided with a ventilation filter 77 that allows only a gas such as air to pass therethrough and does not allow liquid to pass therethrough. Then, the chemical liquid M1 is filled up to the chemical liquid storage section 62 and the ventilation filter 77 in the suction passage 95.

  In addition, as shown in FIG. 9, the chemical solution M <b> 1 is also filled in the communication hole 73 a in the first connection port 73. And the float member 103 arrange | positioned at the communicating hole 73a floats to the visual recognition window 102 with the chemical | medical solution M1. As a result, the user visually recognizes the float member 103 from the visual recognition window 102, so that the user can determine that the chemical liquid storage device 2 is filled with the chemical liquid M1. As a result, even when it is difficult to see the color of the chemical liquid M1, it is possible to easily determine the completion of filling the chemical liquid storage device 2.

  At this time, the float member 103 is restricted from moving upward in the axial direction by the stopper member 104. Thereby, it can prevent that the opening by the side of the main-body part 71 in the communicating hole 73a is obstruct | occluded with the float member 103. FIG.

  In addition, the liquid supply port 62b through which air is sucked in the chemical liquid storage unit 62 is disposed above the filling port 62a into which the chemical liquid M1 is injected in the vertical direction. Furthermore, the air in the chemical solution storage unit 62 is sucked by the suction mechanism 13 of the chemical solution filling apparatus 1, so that the air in the chemical solution storage unit 62 can be discharged without leaving the liquid feeding port 62 b. As a result, it is possible to omit the operation of operating the pusher member 64 provided in the chemical solution storage device 2 after the chemical solution filling operation to remove the remaining air from the chemical solution storage unit 62. Further, since there is no need to operate the pusher member 64, the capacity of the chemical solution storage unit 62 does not change, and an appropriate amount can be filled in the chemical solution storage unit 62, and the chemical solution M1 generated when the air is vented is obtained. Emissions can be eliminated.

  Furthermore, the filling operation can be performed in the state in which the liquid feeding port 62b and the filling port 62a are arranged above the gasket 64a of the pusher member 64 in the vertical direction by the chemical solution filling apparatus 1.

  Next, the chemical solution filling unit 5 is removed from the chemical solution filling apparatus 1. Specifically, the release button 42 is pressed. As a result, the guide member 37 rotates around a swing pin (not shown). As a result, the engagement between the engagement piece 43 and the outer case 61 is released, and the engagement between the hook piece 38a and the nut piece 64c is released.

  Next, the chemical solution filling unit 5 is pulled upward. As a result, the second connection port 74 is pulled out from the suction side connection hole 27, and the drug solution storage device 2 is removed from the mounting portion 21. As a result, external air enters the syringe 47 from the suction side connection port 55 and the suction tube 46, and the pressure of the syringe 47 returns to atmospheric pressure. Thereby, the chemical solution filling operation into the chemical solution storage unit 62 is completed. Note that the vial 4 may be removed from the filling adapter 3 before removing the chemical filling unit 5 from the chemical filling device 1.

<Modification of the notification unit>
Next, a modification of the notification unit will be described with reference to FIG.
FIG. 10 is an explanatory diagram illustrating a modification of the notification unit.

  As shown in FIG. 10, the notification unit 201 includes a visual window 202 provided in the first connection port 73 and water sensitive paper 203 disposed in the communication hole 73a. The water sensitive paper 203 is a paper whose color changes as the chemical solution M1 adheres. Further, the water sensitive paper 203 is disposed at a position where the water sensitive paper 203 is visible from the viewing window 202.

  According to the notification unit 201 according to this modified example, the chemical liquid M1 adheres to the water-sensitive paper 203, and the color of the water-sensitive paper 203 changes, whereby it is possible to determine the completion of the filling of the chemical liquid M1. Moreover, according to the alerting | reporting part 201 concerning a modification, the completion of the filling of the chemical | medical solution M1 can be discriminate | determined irrespective of the direction in which the chemical | medical solution filling apparatus 1 is mounted.

  The present invention is not limited to the embodiment described above and shown in the drawings, and various modifications can be made without departing from the scope of the invention described in the claims. For example, in the above-described embodiment, the example in which the syringe 47, the suction side pusher 49, and the link member 50 are used as the suction mechanism 13 has been described. However, the present invention is not limited to this. As the suction mechanism, for example, an electric pump or the like may be used, and various other suction mechanisms may be applied. Further, the ventilation filter 77 may be provided on the suction tube 46 in the suction mechanism 13.

  Moreover, you may comprise a mounting part so that the exterior case 61 whole of the chemical | medical solution storage tool 2 may be covered. In this case, it is preferable to provide a visual recognition window in which the state of the chemical solution storage part 62 can be visually recognized in the mounting part.

  Furthermore, although the example which provided the alerting | reporting part in the 1st connection port of the filling adapter was demonstrated in embodiment mentioned above, it is not limited to this, The chemical | medical solution of a chemical | medical solution storage tool in a filling adapter and a chemical | medical solution filling apparatus What is necessary is just the location where the chemical | medical solution M1 overflowed from the storage part passes. For example, you may provide in the 2nd connection port of a filling adapter. In this case, the ventilation filter may be disposed on the downstream side of the notification unit in the suction passage, or the ventilation filter may not be provided.

  DESCRIPTION OF SYMBOLS 1 ... Chemical solution filling apparatus, 2 ... Chemical solution storage device, 3 ... Filling adapter, 4 ... Vials (chemical solution container), 5 ... Chemical solution filling unit, 10 ... Chemical solution filling set, 11 ... Housing, 12 ... Filling amount adjustment mechanism, DESCRIPTION OF SYMBOLS 13 ... Suction mechanism, 16 ... 1st case, 17 ... 2nd case, 18 ... Base part, 21 ... Mounting part, 27 ... Suction side connection hole, 49 ... Suction side pusher, 50 ... Link member, 51 ... 1st Check valve 52 ... Second check valve 55 ... Suction side connection port 61 ... Exterior case 62 ... Chemical solution storage part 62a ... Filling port 62b ... Liquid feeding port 73 ... First connection port 74 ... Second connection port, 75 ... Needle tube for liquid feeding, 76 ... Needle tube for ventilation, 77 ... Ventilation filter, 78 ... Protection mechanism, 95 ... Suction passage, 101, 201 ... Notification section, 102, 202 ... Viewing window, 103 ... Flow Sheet member, 203 ... water sensitive paper, M1 ... chemical solution

Claims (6)

A main body unit detachably attached to a chemical liquid storage unit having a filling port into which the chemical liquid is injected and a liquid feeding port for sending out the filled chemical liquid;
A suction passage that communicates with the liquid feeding port and communicates with a suction mechanism that sucks the gas in the chemical solution storage unit;
An informing unit that is provided in the suction passage and displays the chemical liquid passing through the suction passage in a visible manner;
With filling adapter. The notification unit
A viewing window capable of viewing the inside of the suction passage;
The filling adapter according to claim 1, further comprising: a float member that is movably provided in the suction passage and floats by the chemical liquid that passes through the suction passage. The filling adapter according to claim 2, wherein a stopper member that restricts movement of the float member is provided at a position where the float member floats in the suction passage. The notification unit
A viewing window capable of viewing the inside of the suction passage;
The filling adapter according to claim 1, further comprising water-sensitive paper whose color is changed by the chemical liquid passing through the suction passage. The suction passage is provided with a ventilation filter that allows only gas to pass and does not allow the chemical to pass through.
The filling adapter according to any one of claims 1 to 4, wherein the ventilation filter is disposed downstream of the notification unit. A main body unit detachably attached to a chemical liquid storage unit having a filling port into which the chemical liquid is injected and a liquid feeding port for sending out the filled chemical liquid;
A suction-side connection port communicating with the liquid feeding port;
A suction mechanism for sucking the gas inside the chemical storage part through the suction side connection port;
A suction passage communicating the liquid feeding port and the suction mechanism;
An informing unit that is provided in the suction passage and displays the chemical liquid passing through the suction passage in a visible manner;
A chemical solution filling set in which the chemical solution is filled into the chemical solution storage unit from a chemical solution container connected to the filling port when the gas in the chemical solution storage unit is aspirated by the suction mechanism.

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