JP3566053B2 - Bolus dosing device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a bolus administration device used for administering a medical solution to a patient, and the like.
[0002]
[Prior art]
Heretofore, as this kind of bolus administration apparatus, those described in Japanese Patent Publication No. 5-37072, Japanese Patent Publication No. 3-505538, and the like are known.
These bolus administration devices are used by connecting a drug solution supply device such as a balloon type or a syringe type capable of continuously sending out a drug solution over a predetermined time, and a tube connected to a patient, In principle, a button is provided for the drug solution tube provided in the main body case, which is crushed by the spring force and is normally closed, and this button is pressed against the spring force. Only when is the medical solution tube allowed to pass through.
[0003]
[Problems to be solved by the invention]
In this bolus administration device, a doctor, a nurse, a patient, or the like must keep pressing the button during the supply of the drug solution as described above, and there is a problem that the administration operation is troublesome. . In particular, when the drug solution is like an analgesic and the patient performs administration by his / her own judgment when he / she feels discomfort or pain, the operation of keeping the button pressed itself may cause discomfort or pain. And the burden on the patient becomes very heavy.
[0004]
On the other hand, the tube connecting the bolus administration device and the patient is often provided with various instruments such as a filter and a catheter, etc., which provide conduit resistance in the middle of the tube. In short, the time during which the button is kept pressed in the bolus administration device tends to be long, which also promotes the various inconveniences described above. For example, in one example, it may take as long as three minutes to administer 3 ml of the drug solution.
[0005]
In view of such circumstances, an object of the present invention is to eliminate the trouble of the bolus administration operation by enabling continuous administration of a predetermined amount of a chemical solution by only one-shot operation.
[0006]
[Means for Solving the Problems]
In the present invention, the following technical measures have been taken to achieve the above object.
In other words, the bolus administration device of the present invention has a function of gradually releasing the repulsive force (restoring force) to this operation force when the one-shot operation in the compression direction is performed, thereby temporarily The basic technical idea is to provide a mechanism that allows a stored predetermined amount of a drug solution to continuously flow toward a patient.
[0007]
As a structure of a bolus administration device that embodies such a technical idea, a bolus administration device provided between a drug solution supply device and a connector such as a catheter includes a primary side including an inflow port connected to the drug solution supply device. A container, a secondary container having an outlet, and an intermediate container connecting these two containers, wherein the primary container has a primary device capable of discharging an internal chemical solution by a compression operation. A tank, comprising a movable body that performs the compression operation in a one-shot manner, the secondary side body includes a secondary tank capable of storing a chemical solution from the primary tank inside, the intermediate body, wherein comprising a chemical tank connecting portion for supplying the secondary tank in the primary tank when the compression operation of the primary tank, and a check valve mechanism for restricting the the chemical liquid return from the secondary tank to the primary tank, the secondary tank, said It can be adopted with a extrusion driving hands stage which enables continuous addition of repulsive force stored repulsive force with respect to the secondary tank when the next tank expanded.
[0008]
In this case, initially, both the primary tank and the secondary tank are in a contracted state, and from this state, when a predetermined amount of the chemical is supplied to the primary tank by an appropriate chemical liquid supplier, the primary tank expands. Therefore, when the primary tank is compressed, the chemical liquid in the primary tank is transferred to the secondary tank, and replaces the primary tank, thereby expanding the secondary tank.
When the secondary tank expands, the extruding driving means stores a repulsive force against the expanding operation, and gradually adds the repulsive force to the secondary tank. Therefore, the secondary tank is gradually compressed, and the liquid medicine inside is pushed to the patient side.
[0009]
As the extruding driving means, an elastic material such as a spring may be made to abut on the secondary tank, but an elastic material is used as a material for forming the secondary tank (that is, the secondary tank is It is also possible to configure the secondary tank integrally with the secondary tank.
On the other hand, as another configuration example of the bolus administration device according to the present invention, in a bolus administration device provided between a drug solution supply device and a connector such as a catheter, a part of the drug solution in the drug solution supply device can be stored. A liquid medicine tank part, a piston part that is held movably in the liquid medicine tank part and that discharges the stored liquid medicine by movement, and a repulsive force generating part that urges the piston part in a liquid medicine discharge direction, the repulsive force generator repulsive force can one-shot manner press operation to impart to, and, and a fixable operating member in the pushing position, fixed one-shot manner pushing operation of the operation member by the operation, the repulsive force repulsive force generating member is applied, that is the piston is pushed by the repulsive force, and that enables continuous outflow of the chemical liquid stored in the chemical liquid tank portion Kill.
[0010]
In this configuration, when a predetermined amount of the chemical solution is supplied to the chemical solution tank by an appropriate chemical solution supply device, the piston is pushed out in the chemical solution tank. Therefore, when the operating member is operated so as to move closer to the chemical liquid tank portion from the above state, an extruding pressure is applied to the piston portion from the operating member toward the chemical liquid tank portion via the repulsive force generating portion. Become like
[0011]
The above-mentioned appropriate operation member is capable of self-holding this proximity state when the predetermined proximity movement toward the chemical liquid piston portion is performed, so that the repulsive force generation portion applies the pushing pressure to the piston portion. The state to be added is held for a predetermined time, and this is made continuous. In this way, the liquid medicine in the liquid medicine tank is pushed out to the patient side.
Further, as another configuration example of the bolus administration device according to the present invention, in a bolus administration device provided between a drug solution supply device and a connector such as a catheter, a part of the drug solution in the drug solution supply device can be stored. A primary tank capable of discharging the stored chemical liquid by a one-shot pressing operation, and a secondary tank storing the chemical liquid discharged by a one-shot pressing operation of the primary tank, The tank has a bellows structure for storing a medicinal solution, and an elastic body for compressing the bellows structure, and continuously discharges the medicinal solution contained in the bellows structure by being pressed by the elastic body. It can be configured as follows.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 and 2 show a first embodiment of a bolus administration device 1 according to the present invention.
The bolus administration device 1 includes a primary body 3 having an inlet 2, a secondary body 5 having an outlet 4, and an intermediate body 6 connecting these two bodies 3, 5. And
[0013]
In the bolus administration device 1, as shown in an example in FIG. 3, an appropriate chemical solution feeder 9 is connected to the inlet 2 of the primary body 3 via a tube 8, and the flow of the secondary body 5 is controlled. An intermediate device 11 such as a filter or a flow controller and a connector 12 such as a catheter are connected to the outlet 4 via a tube 10.
The primary side body 3 has a cylindrical main body 14 provided with the inlet 2 at one end and an open end at the other end, and a movable body inserted into the open end of the main body 14. 15.
[0014]
The container body 14 is provided with a relay outlet 16 at an intermediate portion of the side wall.
The movable body 15 includes a plunger portion 18 that is slidable by being inserted into the container body 14, a check valve portion 19 built in at the tip end side of the plunger portion 18, and a movable member 15 at the other end side of the plunger portion 18. And an operation cap section 20 provided.
The sliding stroke of the plunger portion 18 in the container main body 14 is regulated by an axial engagement structure between the open end of the container main body 14 and the operation cap portion 20.
[0015]
The plunger section 18 is provided with a communication path 22 that extends from the distal end surface to the outer peripheral surface via the check valve section 19. The opening on the outer peripheral surface side of the communication path 22 is formed by the plunger section 18. By sliding, it is positioned so as to cross the relay outlet 16. Further, O-rings 23 and 24 are provided on the outer peripheral surface of the plunger portion 18 so that a sliding stroke area facing the relay outlet portion 16 can be defined.
[0016]
The check valve portion 19 is provided in a direction that allows only the flow from the distal end surface side of the plunger portion 18 toward the outer peripheral surface side.
Accordingly, when a chemical solution is supplied to the primary side body 3 from the inflow port 2, the movable body 15 moves in a direction in which the movable body 15 is pushed out from the body main body 14, and at this time, the plunger 18 The primary tank 25 (see FIG. 1) will be formed further ahead.
[0017]
Then, in this state, for example, after closing the inflow port 2 or the like, if the operation cap section 20 of the movable body 15 is pressed, the chemical in the primary tank 25 is transferred to the communication path 22 in the plunger section 18 and the relay outlet section. It can be drained out of the vessel via 16.
On the other hand, the secondary side body 5 is formed in a hose shape by an elastic material such as rubber or soft resin, and is capable of being inflated and contracted, and is provided with connection portions provided at both ends of the balloon portion 27. Tubes 28 and 29 are provided.
[0018]
Therefore, when a chemical solution is supplied from the other connecting pipe 28 after closing one connecting pipe 29 or the like with respect to the secondary side body 5, the balloon portion 27 expands in a spherical shape, and the secondary A tank 30 (see FIG. 2) will be formed.
Further, a repulsive force (elastic restoring force) is generated in the balloon portion 27 to contract it against the inflation action. By providing the repulsive force, the chemical solution in the secondary tank 30 is removed. This constitutes an extruding driving means for causing an outflow.
[0019]
The intermediate container 6 that connects the primary container 3 and the secondary container 5 has a tank connecting portion 33 that guides a chemical solution flow from the primary tank 25 to the secondary tank 30, and a tank connecting portion 33. And a passage opening / closing portion 34 provided for the passage 33.
In the first embodiment, the tank connecting portion 33 is formed integrally with the one connection pipe 28 of the secondary container 5 described above.
[0020]
The passage opening / closing portion 34 is formed by inserting a plug 37 having O-rings 36 at two locations in the axial direction into a portion where the connection pipe 28 communicates with the tank connecting portion 33, and inserts the plug 37. Depending on the difference (stop position of the front-side O-ring 36), the communication portion is closed (see FIG. 1), or a communication state is made around the outer peripheral surface of the plug 37 (see FIG. 2).
[0021]
The plug 37 has a structure in which the communication portion is closed and biased and held by the spring 40, and the communication state inserted from this state is held by the sliding resistance of the O-ring 36 and the like.
In the bolus administration device 1 of the first embodiment having such a configuration, the primary tank 25 and the secondary tank 30 are initially empty and both contracted, and as shown in FIG. , 10 are used to connect with the chemical solution supply device 9, the intermediate device 11, the connecting device 12, and the like.
[0022]
Then, after confirming that the passage opening / closing section 34 is in the closed state as shown in FIG. 1, the chemical liquid supply device 9 is operated to supply a predetermined amount of the chemical liquid to the primary tank 25. Therefore, the primary tank 25 is filled with the chemical solution and becomes an expanded state (a state in which the movable body 15 is pushed out), whereby the preparation is completed.
Next, as shown in FIG. 2, the passage opening / closing section 34 is opened, and the operation cap section 20 of the movable body 15 is pushed in to compress the enlarged primary tank 25. As a result, the chemical in the primary tank 25 is transferred into the secondary tank 30 via the tank connecting portion 33, and the secondary tank 30 is expanded with the expansion of the balloon portion 27 this time.
[0023]
At this time, the extruding driving means integrally formed with the secondary tank 30 (balloon portion 27) stores a repulsive force (elastic restoring force) for contracting the secondary tank 30 and continues this to the secondary tank 30. Thereafter, the chemical solution in the secondary tank 30 is continuously pushed out toward the patient or the like.
4 and 5 show a second embodiment of the bolus administration device 1 according to the present invention.
[0024]
In the second embodiment as well, the basic configuration is the same as that of the first embodiment described above, and a primary container 3 having an inlet 2 and a secondary container having an outlet 4. 5 and an intermediate container 6 connecting the two containers 3 and 5 to each other.
However, in the second embodiment, the primary side body 3 is provided with a bellows structure 50 instead of a piston structure, and when the bellows structure 50 is extended (see FIG. 4), the inside of the primary body 3 is formed. The primary tank 25 is formed at the bottom.
[0025]
Also, the secondary side container 5 is provided with a bellows structure 51 instead of a balloon structure, and when the bellows structure 51 is extended (see FIG. 5), the secondary tank 30 is provided therein. Is formed.
Further, the bellows structure 51 forming the secondary tank 30 includes a main casing 52 formed so as to surround the primary container 3, the secondary container 5, and the intermediate container 6 in an interconnected state. It is housed in a tank casing part 53, and in this tank casing part 53, there is provided an extruding driving means 57 for generating an external pressure compressing action via a pressing down plate 56 by an elastic body 55 such as a coil spring. ing.
[0026]
That is, when the secondary tank 30 expands with the extension of the bellows structure 51, the elastic body 55 stores a compressive force while repelling the elastic tank 55. As described above, in the second embodiment, the extruding driving means 57 is configured separately from the secondary tank 30 (the bellows structure 51).
As described above, the second embodiment is different from the first embodiment in several points.
[0027]
Although the second embodiment differs from the first embodiment in the structure of other details, it is not basically different from the first embodiment in terms of use examples and operating conditions. Detailed description is omitted.
6 to 8 show a third embodiment of the bolus administration device 1 according to the present invention.
[0028]
In the bolus administration device 1 according to the third embodiment, a pair of container-shaped halves 60 and 61 having bottomed cylinders having different diameters are fitted with their open ends facing each other, and a container having a smaller diameter is used. The piston portion 63 is housed in the half 61, and the repulsive force generating portion 65 is housed in the container half 60 on the larger diameter side.
A hook-shaped rail groove 69 formed by combining the circumferential groove 67 and the vertical groove 68 is formed in the outer peripheral surface of the small-diameter container half 61, and is formed in the large-diameter container half 60. Has an engaging piece 70 which is fitted into the rail groove 69 and protrudes therefrom.
[0029]
Accordingly, the two half body parts 60 and 61 are relatively rotatable within a range in which the engaging piece 70 is moved along the circumferential groove 67, and a range in which the engaging piece 70 is moved along the vertical groove 68. Is relatively stretchable.
When the large-diameter container half 60 contracts with respect to the small-diameter container half 61, the large-diameter container half 60 functions as an operation member. (Accordingly, hereinafter, the large-diameter half-body half 60 is referred to as an “operation member 60”, and the small-diameter half-body half 61 is simply referred to as a “half-body 61”).
[0030]
The vertical groove 68 of the container half 61 is provided with a stopper projection 71 that can be engaged with the engaging piece 70 when the engaging piece 70 is moved with the contraction of the operating member 60. As a result, the mutual contraction state between the container half 61 and the operation member 60 can be maintained without releasing.
The container half 61 is provided with an inlet 72 and an outlet 73 at the bottom thereof, and can be connected to tubes 76, 77 having check valves 74, 75 oriented in predetermined directions. I have to.
[0031]
The piston portion 63 can move forward and backward in the axial direction while maintaining a watertight state in the container half 61. A transmission plate 81 housed in the operation member 60 is connected to the piston portion 63 via a connection shaft 80. The transmission board 81 can freely move back and forth in the operation member 60 without rattling.
In addition, air vent holes 83 and 84 are provided at appropriate places of the transmission board 81 and the operation member 60, so that the relative movement between the two can be smoothly performed.
[0032]
The repulsive force generating section 65 is formed of a coil spring or the like, and contacts the transmission plate 81 even when the container half 61 and the operating member 60 are in the mutually extended state (see FIG. 7), and the piston section A pressing biasing force toward the inside of the container half 61 is transmitted to 63.
In the bolus administration device 1 of the third embodiment having such a configuration, the engagement piece 70 of the operation member 60 is first moved into the circumferential groove 67 of the container half 61 as shown in FIGS. 6 and 7. In this state, the liquid medicine is supplied from the inlet 72.
[0033]
It should be noted that a cock (not shown) or the like can be connected to the tube 77 connected to the outlet port 73 to be in a stoppered state, and this cock is to be stoppered at this stage.
In this way, as shown in FIG. 8, in the container half 61, the piston 63 is displaced by the chemical solution, and the chemical solution tank portion 87 is enlarged and formed, and the preparation is completed.
[0034]
Next, the cock (not shown) is opened, and the container half 61 and the operation member 60 are relatively rotated and relatively retracted (proximity) in accordance with the moving direction of the engagement piece 70 with respect to the rail groove 69. Move) to engage the engagement piece 70 with the stopper projection 71.
At this time, the repulsive force generating portion 65 stores the repulsive force against the transmission plate 81, so that the action of continuously contracting the chemical solution tank portion 87 by the piston portion 63 through the transmission plate 81 is set. Become.
[0035]
Therefore, the chemical in the chemical tank 87 is continuously pushed out to the patient or the like thereafter.
9 and 10 show a fourth embodiment of the bolus administration device 1 according to the present invention. The fourth embodiment is different from the third embodiment in that the repulsive force generating portion 65 uses a pneumatic pressure instead of a coil spring.
[0036]
That is, the operation member 60 and the transmission board 81 are not provided with air vent holes or the like, and the transmission board 81 can be moved in and out of the operation member 60 in an airtight manner.
Therefore, the half body 61 and the operating member 60 are relatively rotated and relatively retracted (close movement) in accordance with the moving direction of the engagement piece 70 with respect to the rail groove 69, and the engagement piece 70 is engaged with the stopper projection 71. When they are combined, the air (see FIG. 9) that has been trapped between the operating member 60 and the transmission board 81 is compressed (see FIG. 10), thereby causing an increase in the internal pressure. The pressing force acts on
[0037]
Other configurations and operations are the same as those in the third embodiment.
FIG. 11 and FIG. 12 show a fifth embodiment of the bolus administration device 1 according to the present invention. In the bolus administration device 1 of the fifth embodiment, as shown in FIG. 12, all of the primary body 3, the secondary body 5, and the intermediate body 6 are housed in one casing 90, This is advantageous in that the whole is more compact than the administration device 1 of the first and second embodiments.
[0038]
That is, in this embodiment, the cylindrical main body 14 of the vertically arranged primary body 3 is housed in a position close to the left side of the casing 90, and the lower end of the main body 14 is provided with the relay outlet 16. A cylindrical tank connecting portion 33 is integrally connected laterally through the connecting portion. A balloon portion 27 as the secondary tank 30 is connected to a connecting pipe 28 protruding upward at a middle portion of the tank connecting portion 33.
[0039]
Thus, the container body 14 is arranged on the left side of the casing 90, the tank connecting part 33 is arranged on the right side of the casing 90 and from the lower part, and the balloon part 27 is arranged on the right side of the casing 90 and from the upper part. Thereby, the three parts, the container body 14, the tank connecting part 33 and the balloon part 27 are compactly stored in the casing 90.
[0040]
The tank connecting portion 33 has an enlarged diameter from the relay outlet portion 16 at the lower portion of the container body 14, and includes a moving valve body 91 formed of a thick circular rubber stopper from the left side in the enlarged diameter portion. A plug 92 connected to a connection pipe 29 forming the outlet 4 is covered with a seal ring 93 made of an O-ring at the right open end of the enlarged diameter portion of the tank connecting portion 33. .
[0041]
The moving valve body 91 is housed so as to be movable in the axial direction of the tank connecting portion 33, has an outer diameter slightly smaller than the inner peripheral diameter of the tank connecting portion 33, and has a stepped surface 33 A of the tank connecting portion 33. The length in the axial direction is substantially equal to the distance from the balloon portion 27 to the connection tube 28.
For this reason, when the liquid is press-fitted from the relay outlet 16, the moving valve body 91 separates from the step surface 33 </ b> A of the tank connecting part 33 and the liquid flows into the balloon 27, but on the contrary, flows out of the balloon 27. The liquid to be transferred is prevented from returning to the relay outlet 16 by the movable valve element 91 abutting against the step surface 33A of the tank connecting portion 33 to seal.
[0042]
In this case, the moving valve body 91 has a check valve function that allows the liquid to flow to the balloon 27 side in the tank connecting portion 33 but restricts the liquid to flow to the relay outlet portion 16 side. .
An opening 94 is formed on the upper surface of the casing 90 so that an upper end opening of the container main body 14 projects. A cover member having a bellows structure for preventing bacteria from entering the casing 90 is formed in the opening 94. 95 are provided. That is, the cover member 95 is covered so that the bottom portion thereof is in contact with the upper surface of the movable body 15 which is inserted into and retracted from the container body 14, and the lower end opening portion is fixed to the opening portion 94 of the casing 90. Have been.
[0043]
Also in the fifth embodiment, when the liquid is pressure-fed to the inflow port 2, the moving body 15 projects upward and the primary tank 25 is formed in the container body 14 (the state of FIG. 12). Therefore, when the moving body 15 is pushed, the liquid in the primary tank 25 is transferred to the secondary tank 30 including the balloon section 27 via the relay outlet 16 and the tank connecting section 33, and thereafter, the elasticity of the secondary tank 30 is restored. The liquid in the tank 30 is gradually supplied to the patient from the connection pipe 29 (outflow port 4) by the force.
[0044]
Note that the present invention is not limited to the above embodiment, and a detailed configuration, a member shape, a structure, and the like can be appropriately changed.
[0045]
【The invention's effect】
As described above, according to the present invention, only a one-shot operation in the compression direction allows a predetermined amount of the drug solution temporarily stored in advance to be repulsive to this operation force continuously toward the patient. Since the medicine is discharged, it is possible to administer a fixed amount of the medicinal solution without continuously pressing the bolus administration device, and it is possible to save trouble of a doctor, a nurse, or a patient.
[Brief description of the drawings]
FIG. 1 is a front sectional view showing a first embodiment of a bolus administration device according to the present invention.
FIG. 2 is a front sectional view showing an operation state from FIG. 1;
FIG. 3 is a diagram illustrating an example of use of the first embodiment.
FIG. 4 is a front sectional view showing a second embodiment of the bolus administration device according to the present invention.
FIG. 5 is a front sectional view showing an operation state from FIG. 4;
FIG. 6 is a front view showing a third embodiment of the bolus administration device according to the present invention.
FIG. 7 is a side sectional view corresponding to a position viewed from an arrow A in FIG. 6;
8 is a side sectional view showing the operation state from FIG. 7 corresponding to the position viewed from the arrow B in FIG. 6;
FIG. 9 is a side sectional view of a fourth embodiment of the bolus administration device according to the present invention, which is drawn for easy comparison with FIG. 7;
FIG. 10 is a side sectional view illustrating the operation state from FIG. 9 for easy comparison with FIG. 8;
FIG. 11 is a front sectional view showing a fifth embodiment of the bolus administration device according to the present invention.
FIG. 12 is a front sectional view showing an operation state from FIG. 11;
[Explanation of symbols]
1 bolus administration device 25 primary tank 30 secondary tank 33 tank connecting part 34 passage opening / closing part 57 extrusion driving means 63 piston part 65 repulsive force generating part 87 chemical liquid tank part

Claims (4)

In a bolus administration device provided between a drug solution supply device (9) and a connector (12) such as a catheter,
A primary body (3) having an inlet (2) connected to the chemical solution feeder (9), and a secondary body (5) having an outlet (4); An intermediate container (6) for connecting the containers (3, 5),
Wherein the primary side instrument body (3) comprises a primary tank can be discharged a chemical internal by the compression operation (25), the movable body to perform the compression operation shot to the (15), the secondary The side container (5) includes a secondary tank (30) capable of storing the chemical solution from the primary tank (25) therein,
The intermediate body (6) includes a tank connecting portion (33) for supplying a chemical solution in the primary tank (25) to the secondary tank (30) when the primary tank (25) is compressed. A check valve mechanism (19) (91) for restricting a chemical solution from returning from the next tank (30) to the primary tank (25) ;
The secondary tank (30) has a repulsive force stored when the secondary tank (30) expands, and can continuously apply the repulsive force to the secondary tank (30). (57 ) A bolus administration device, comprising: 2. The bolus administration device according to claim 1 , wherein the extrusion driving means is configured by using an elastic material as a material for forming the secondary tank (30). 3. In a bolus administration device provided between a drug solution supply device (9) and a connector (12) such as a catheter,
A chemical solution tank (87) capable of storing a part of the chemical solution in the chemical solution supply device (9), and the chemical solution stored and held in the chemical solution tank portion (87) so as to be able to move forward and backward. A piston portion (63) for discharging
A repulsive force generating part (65) for urging the piston part (63) in the direction of discharging the chemical solution;
An operating member (60) capable of one-shot push operation to apply a repulsive force to the repulsive force generating section (65) and being fixed at the push position .
By the one-shot pushing operation and the fixing operation of the operating member (60), a repulsive force is applied to the repulsive force generating member (65), and the repulsive force presses the piston portion (63), and the chemical solution A bolus administration device characterized in that the medicinal solution stored in the tank (87) can be continuously discharged. In a bolus administration device provided between a drug solution supply device (9) and a connector (12) such as a catheter,
A primary tank (25) capable of storing a part of the chemical solution in the chemical solution supply device (9) and discharging the stored chemical solution by a one-shot pressing operation;
A secondary tank (30) for storing the chemical discharged by the one-shot pushing operation of the primary tank (25),
The secondary tank (30) has a bellows structure (50) for storing a chemical solution and an elastic body (55) for compressing the bellows structure (50), and is accommodated in the bellows structure (50). The bolus administration device, wherein the discharged medical solution is continuously discharged by being pressed by the elastic body (55) .

Images