JP2010136886A - Mixed discharge container - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mixed discharge container with a structure for preventing a load by heat generated in manufacturing from being imposed on a fluid which makes a medical agent. <P>SOLUTION: The mixed discharge container includes first and second container parts 6a, 6b for storing first and second medical agents 7a, 7b by vertically isolating the inner part of a cylindrical container part 2 with the use of a partitioning wall 5. First and second openings 3a, 3b arranged in opposing first and second end surfaces 2a, 2b respectively in the container part 2 are clogged by first and second lids 8a, 8b respectively. The first lids 8a and the partitioning wall 5 are formed of a penetrating material, and pressurized against a blade 11. Thus, a discharge port is formed, thereby discharging the first and second medicinal agents 7a, 7b. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a mixed discharge container that mixes and discharges each fluid from a common discharge port to a target device side from a state in which fluids having different characteristics are stored separately.

  Due to stability problems, the two types of fluids may be stored separately from each other and mixed before use.

  For example, in JP-A-2007-54643, two kinds of infusion constituents (specifically, a solubilizer and a solid powder) are separately stored in one container, and spikes are inserted into these two kinds. The mixed discharge container which mixes and injects the infusion component of this is disclosed.

  In this case, since it is an integrated type and has a structure in which two kinds of infusion constituents are separated and stored in a single container by a separating thin film, after first storing one medicine, the container is heated to heat the container. By deforming, a storage space for storing the other medicine is formed in the vicinity of the outlet.

On the other hand, in Japanese Patent Application Laid-Open No. 2006-263261 as a second conventional example, two types of chemical solutions are mixed by blocking and storing two types of chemical solutions separately in one container and applying external stress. A mixed infusion container is disclosed.
JP 2007-54643 A

  However, in the conventional example, as described above, after storing one medicine, it is necessary to thermally deform the container by heating. Therefore, when the chemical liquid already stored is heated by the heating or thermal deformation, There is a possibility of deterioration of the characteristics, disappearance of a part of the chemical liquid due to vaporization during heating, and contamination of impurities from the container when heated to the chemical liquid side.

  In addition, in this conventional example, after storing one medicine, through a process of thermally deforming the container by heating, a storage space isolated from this medicine is formed, and then the other medicine is stored. Manufacturing cost increases. Moreover, since a heating is required, there exists a fault to which the chemical | medical agent which can be applied is restrict | limited.

  The present invention has been made in view of the above-described points, and an object thereof is to provide a mixed discharge container having a structure in which a load due to heat generated during manufacturing is not given to a fluid forming a medicine.

A mixed discharge container according to one embodiment of the present invention includes a first container part capable of storing a fluid,
A first opening provided in the first container portion;
A first lid that closes the first opening and allows penetration;
A second container part capable of storing fluid;
A second opening portion provided in the second container portion;
A second lid for closing the second opening;
A partition wall separating the first container part and the second container part;
Including
The first opening part and the partition are arranged on the same straight line and arranged perpendicular to the straight line.

A mixed discharge container according to one embodiment of the present invention includes a first container part capable of storing a fluid,
A first opening provided in the first container portion;
A screw portion having a male screw shape or a female screw shape provided in the first container portion;
A first lid that closes the first open portion and allows penetration;
A second container part capable of storing fluid;
A threaded portion that is threadedly engaged with the threaded portion provided in the second container portion;
A second opening provided in the threaded portion;
A partition wall separating the first container part and the second container part;
The first opening and the partition are arranged coaxially and perpendicular to the axis.

  ADVANTAGE OF THE INVENTION According to this invention, the mixing discharge container of the structure which does not give the load by the heat which generate | occur | produces at the time of manufacture to the fluid which forms a chemical | medical agent can be provided.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(First embodiment)
1A to FIG. 7 relate to the first embodiment of the present invention, FIG. 1A shows the appearance of the mixed discharge container of the first embodiment of the present invention, FIG. 1B shows the mixed discharge container in a sectional view, FIG. 2 shows a blade for forming a discharge port in the mixed discharge container, FIG. 3 shows a state in which the mixed discharge container is set to a state of being mixed and discharged through the blade from the state of FIG. 2, and FIG. An example of the shape is shown. FIG. 5 shows a schematic configuration of an endoscope cleaning / disinfecting apparatus used as a disinfecting drug bottle by this mixed discharge container. FIGS. 6A and 6B show a structure near the mounting part of the mixed discharge container. FIG. 7 shows an example of a processing procedure for cleaning and disinfecting with an endoscope cleaning and disinfecting apparatus.
As shown in FIGS. 1A and 1B, the mixed discharge container 1 according to the first embodiment of the present invention has a cylindrical storage portion (or storage portion) formed therein, for example, by a cylindrical exterior body. It is formed using the container part 2.

The container portion 2 is preferably formed of a member having an appropriate strength, and is formed of a transparent material so that the internal state can be easily confirmed. As the material, for example, hard plastic or glass can be used. In addition, about the container part 2, hatching on drawing in sectional structures, such as FIG. 1A, is abbreviate | omitted.
For example, the center position of the first end surface 2a serving as one end surface of the cylinder of the container portion 2 and the second end surface 2b serving as the other end surface opposite to the first end surface is, for example, circular. The first opening 3a and the second opening 3b are provided. In FIG. 1A and FIG. 1B, the first end surface 2 a is shown as the upper surface of the container portion 2, and the second end surface 2 b is shown as the bottom surface of the container portion 2.

In addition, a partition wall 5 is provided inside the container portion 2 so as to be divided into the first end surface 2a side and the second end surface 2b side, in other words, vertically. The partition 5 separates or separates the container part 2 forming the cylindrical storage part into a first container part 6a serving as a first storage part and a second container part 6b serving as a second storage part. And formed. In addition, this partition 5 is formed with the material which can penetrate like the 2nd lid | cover 8b mentioned later.
The first container portion 6a and the second container portion 6b thus formed can store the first medicine 7a as the first fluid having different characteristics and the second medicine 7b as the second fluid, respectively. ing. In the present specification, the fluid is used in a concept including a liquid case and a powder case. In other words, the first drug 7a and the second drug 7b may be liquid, powder, or gas.

In the first opening 3a and the second opening 3b, for example, a base for facilitating injection of the first medicine 7a and the second medicine 7b is formed. And the 1st chemical | medical agent 7a is stored in the 1st container part 6a from the 1st opening part 3a, the 1st lid | cover (or 1st stopper) 8a is press-fitted in the 1st opening part 3a which opens, etc. It can be sealed.
Similarly, the second medicine 7b is stored in the second container portion 6b from the second opening 3b, the second opening 3b to be opened, and the second lid (or second plug) 8b is press-fitted into the base thereof. So that it can be sealed.
Thus, by sealing the 1st opening part 3a and the 2nd opening part 3b with the 1st cover 8a and the 2nd cover 8b, respectively, the 1st container part 6a and the 2nd container part 6b are respectively 1st. In a state where the medicine 7a and the second medicine 7b are separated and stored, the airtightly closed mixed discharge container 1 can be formed.

As a method of forming the partition wall 5, for example, the partition wall 5 can be formed in a state in which, for example, a silicon resin having the same disk shape as the partition wall 5 can be bent and inserted from the first opening 3a side and attached to the tip of the stick. Place it at the position.
Then, as a method of forming the partition wall 5 from the other second opening 3b side, for example, a stick in which the partition wall 5 is formed by pouring the resin in a solvent state and vaporizing the solvent, and then attaching the silicon resin Can be easily formed by taking out from the first opening 3a.
As another method, a flexible partition-forming disk for forming the partition wall 5 at the tip of the stick is bent and inserted, for example, from the first opening 3a side, and disposed at a position where the partition wall 5 is to be formed. The partition wall 5 is formed by applying an adhesive or the like to the part of the partition wall forming disk that contacts the inner peripheral surface of the container portion 2 from the other second opening 3b and fixing the partition wall forming disk with the adhesive. May be. Thus, the partition wall 5 can be formed easily.

As another method, for example, when creating a container by a blow molding method, for example, an inner rib is created in the container, the inner rib is a partition wall 5, and each part of the container separated by the inner rib is a first container part 6a, A partition wall 5 may be formed as the second container portion 6b.
Therefore, the mixed discharge container 1 of the present embodiment has a simple configuration and can be manufactured at a low cost. Moreover, it is possible to easily isolate and seal drugs having different characteristics. Moreover, the mixing / discharging container 1 of this embodiment does not require the process of heating in a state where the fluid forming the medicine is stored. That is, the mixed discharge container 1 of the present embodiment can be realized with a structure that does not apply a load due to heat generated during manufacturing to the fluid. Therefore, the mixed discharge container 1 of the present embodiment can be used even when a medicine (fluid) having low heat resistance is stored.

Further, the mixed discharge container 1 has a first opening 3a and a second opening 3b sealed with a first lid 8a and a second lid 8b, respectively, and the first lid 8a and the second lid in normal handling. There is no such thing as opening 8b.
For this reason, handling by the user is also facilitated. More specifically, the first lid 8a and the second lid 8b do not open even if the user grips the mixing / discharging container 1 to move the mixing / discharging container 1 or the like. The side wall is not greatly deformed and the partition wall 5 is not destroyed.
Moreover, the container part 2 is made into a transparent member, so that the state of the internal first medicine 7a and second medicine 7b can be grasped. In addition, you may color with a specific color according to the chemical | medical agent to store.
Further, as means for closing the first opening 3a and the second opening 3b so as to be freely opened and closed, the first lid 8a and the second lid 8b each having a disk or short column shape as shown in FIGS. 1A and 1B can be used. It is not limited. For example, a structure may be adopted in which a screw part is provided on the base and closed by a lid screwed into the screw part. Further, other closing means may be employed.

Further, in the present embodiment, one lid, here the first lid 8a, penetrates so that the first medicine 7a and the second medicine 7b stored separately in the mixed discharge container 1 can be easily discharged. By applying a blade 11 with a sharpened tip as a member, the material can be penetrated to form a discharge port as a first discharge opening that discharges the first medicine 7a inside. Is formed.
Also, the partition wall 5 is made of a material that can be pierced or mechanical strength that can be pierced by applying the blade edge 11a at the tip of the blade 11 as the piercing member, as in the case of the first lid 8a. It is formed with.
Therefore, as shown on the lower side in FIG. 2, the user pushes the upper end side of the mixed discharge container 1 downward with the first lid 8 a being applied to the sharp blade edge 11 a at the tip of the blade 11. As shown in FIG. 3, it is possible to form a first discharge port serving as a through port through which the first lid 8a is pierced and the first medicine 7a inside is discharged.

When the first discharge port is formed, the first medicine 7a in the first container portion 6a is discharged to the outside of the mixed discharge container 1 through the first discharge port.
In FIG. 3, after the blade 11 has pierced the first lid 8a, the user further applies a force to push down the upper end side of the mixed discharge container 1 and penetrates the partition wall 5 by the blade edge portion 11a. 2 shows a state where two discharge ports are formed.
When the partition 5 is pierced by the blade 11 and a second discharge port serving as a through-hole is formed, the second medicine 7b flows into the first container part 6a side through the second discharge port. In this case, since the 1st discharge port has already been formed in the 1st container part 6a side, it discharges outside the mixing discharge container 1 through the 1st discharge port.

In this case, as shown in FIG. 3, the surface of the partition wall 5 is formed to face the opening in the first opening 3a. Accordingly, the surface of the first opening 3a including the opening and the surface of the partition wall 5 are arranged so as to be positioned on a perpendicular line passing through the center of the opening of the first opening 3a, for example. In other words, the first opening 3a and the partition wall 5 are arranged on the same straight line (or coaxial), and both surfaces are formed to be perpendicular to the straight line (or axis).
Note that the vertical in this case is not strictly limited to 90 °, and may be arranged at an angle close to the vertical.
With respect to the first lid 8a, the second lid 8b is set to a material or strength that cannot be easily penetrated by the blade edge portion 11a at the tip of the blade 11. Further, the second end surface 2b of the blade edge portion 11a is also set to the same material or strength as that of the second lid 8b.

In addition, in FIG. 2, the arrangement | positioning just before applying the 1st lid | cover 8a of the upper side to the blade edge | tip part 11a with the blade edge | tip part 11a of the blade 11 arrange | positioned at the downward side upward is shown. For this reason, the mixed discharge container 1 of FIG. 2 is shown in a state where the vertical direction of the mixed discharge container 1 of FIG. 1 is reversed. In the present embodiment, the diameter Da of the first opening 3a closed by the first lid 8a is substantially larger than the maximum width or diameter W of the blade 11. Yes.
On the other hand, the diameter Db of the second opening 3a closed by the second lid 8b is made smaller than the maximum width or diameter W of the blade 11. That is, the relationship Da>W> Db is set. For this reason, naturally, the relationship of Da> Db is set.
Therefore, the user can pierce the blade 11 through the first lid 8a rather than pressing the mixed discharge container 1 against the blade edge portion 11a of the blade 11 from the state of FIG.

On the other hand, when the mixing / discharging container 1 is pressed against the cutting edge portion 11a of the blade 11 indicated by a two-dot chain line in the state of FIG. 1B, the second opening 3b in which the cutting edge portion 11a is closed by the second lid 8b. It is set so that it can be easily understood that the user cannot penetrate through the outside.
The mixed discharge container 1 of the present embodiment can thus form a discharge port by applying one first lid 8a side to the blade 11 as a member having a sharp tip, and on the other second lid 8b side. The structure is such that it is difficult to form the discharge port, so that erroneous operation when the user forms the discharge port can be reduced.
Moreover, by setting it as such a structure, in the 1st chemical | medical agent 7a and the 2nd chemical | medical agent 7b which are respectively stored in the 1st container part 6a and the 2nd container part 6b in the mixing discharge container 1, the 1st chemical | medical agent 7a is It is possible to select (set) the medicine to be discharged first and the second medicine 7b to be discharged thereafter.

As described above, the mixed discharge container 1 of this embodiment has an effect that it can be manufactured at a low cost with a simple configuration and is easy to handle.
Furthermore, the mixed discharge container 1 of this embodiment mixes the 1st chemical | medical agent 7a and the 2nd chemical | medical agent 7b which were separated and stored by the 1st container part 6a and the 2nd container part 6b by using a penetration member. It is possible to easily make a discharge port for discharging.
In this case, the first medicine 7a (as the first fluid) can be discharged first, and then the second medicine 7b (as the second fluid) can be discharged.
When the mixed discharge container 1 is used as a disinfecting drug bottle of an endoscope cleaning / disinfecting apparatus 21 to be described later, the main agent having disinfecting ability as the first agent 7a and the secondary agent for stabilizing the disinfecting ability as the second agent 7b. It is good.

FIG. 4 shows a specific shape example of the blade 11 used for forming the discharge port in the mixed discharge container 1 as described above.
The blade 11 shown in FIG. 4 has a sharp blade edge portion 11a formed at the tip of a cylindrical blade body 11b. Moreover, the front end side of the blade body 11b is V-shaped, and a protruding blade edge portion 11a is formed. Moreover, the some opening 11c is provided in the side surface or cylindrical surface of the rear end side rather than the blade edge | tip part 11a. Therefore, when the blade 11 penetrates the first lid 8a, for example, the first medicine 7a can be discharged through the plurality of openings 11c in addition to the inside of the blade.
As described above, in the present embodiment, the user pushes the first lid 8a of the mixed discharge container 1 against the blade 11, thereby penetrating the first lid 8a with the blade edge portion 11a of the blade 11, and further mixing. By performing an operation of pressing the discharge container 1, the blade 11 that has penetrated the first lid 8a of the mixed discharge container 1 can be moved to the deep side of the first container part 6a, and the partition wall 5 can be penetrated by the blade edge part 11a. I am doing so.

In this way, the first medicine 7 a and the second medicine 7 b can be easily mixed and discharged from the discharge port formed by the blade 11 to the outside of the mixed discharge container 1.
Next, a schematic configuration of the endoscope cleaning / disinfecting apparatus 21 that uses the mixed discharge container 1 of the present embodiment for disinfecting an endoscope will be described with reference to FIG.
The endoscope cleaning / disinfecting apparatus 21 includes an endoscope cleaning / disinfecting apparatus main body (hereinafter referred to as “cleaning tank”) 23 provided with a cleaning / disinfecting tank (hereinafter simply referred to as “cleaning tank”) 23 in which an endoscope 22 to be cleaned and disinfected is stored. 24).
The upper surface side of the cleaning tank 23 of the main body 24 is opened, and this opening is covered with a cleaning lid 25 during cleaning and disinfection so that the cleaning liquid and the disinfecting liquid are not scattered outside the cleaning tank 23.
The endoscope 22 placed in the cleaning tank 23 includes, for example, an elongated insertion portion 26, an operation portion 27 provided at the rear end of the insertion portion 26, and a universal cable (not shown).

In addition, in the insertion portion 26, a conduit called a channel through which the treatment tool is inserted and a conduit for air supply and water supply are provided, and these conduits open at the base portion of the operation portion 27. And it connects with the pipe line connector 29 provided in the upper surface of the main body 24 through the connection tube 28 provided with the nozzle | cap | die connector 28a connected detachably to a nozzle | cap | die part.
Further, a water supply valve 30 is provided on, for example, the upper surface of the main body 24, and the water supply valve 30 is connected to a water supply source such as a water tap 32 through a water supply hose 31.
Further, the water supply valve 30 is connected to a nozzle 38 facing the upper surface via a tube 34 provided with a water filter 33 in the middle. A switching valve 35 is provided in the middle of the tube 34, and the switching valve 35 is connected to a water filter 33 and is connected to a pump 37 that mainly pumps a disinfectant solution through the tube 36. The switching valve 35 is set so as to communicate with the water filter 33 side in the cleaning process for cleaning.

Then, water for cleaning (also referred to as cleaning water) supplied from the water tap 32 side is sent to the water filter 33 through the water supply valve 30, and after the water filter 33 removes chalk, bacteria, etc., the nozzle 38 is discharged to the cleaning tank 23 side. The water supply valve 30 is provided with a check valve that prevents backflow.
The circulation port 39 provided on the bottom surface of the cleaning tank 23 is connected to the switching valve 41 via the opening / closing valve 41a by the tube 40, and via the pump 42 provided in the middle of the branched tube 40a. It is connected to the pipe connection connector 29.
The pump 42 pumps up the cleaning water or the disinfecting liquid in the cleaning tank 23 flowing in from the circulation port 39 side, and the tube of the endoscope 22 through the connection tube 28 connected to the pipe line connector 29. Send cleaning water or disinfectant into the road. The on-off valve 41a is normally opened, and is closed during a cleaning process described later.

One tube 43 connected to the switching valve 41 is connected to a disinfecting liquid tank 44, and the tube 36 connected to the bottom surface side of the disinfecting liquid tank 44 is switched via a pump 37 provided in the middle thereof. Connected to the valve 35.
This switching valve 41 is normally set in a state of communicating with the disinfecting liquid tank 44. The other tube 45 connected to the switching valve 41 is used for drainage (discharge). That is, the cleaning water used for cleaning in the cleaning process and the disinfecting liquid that has been used repeatedly a predetermined number of times and has a reduced disinfecting function are discharged from the tube 45 to the outside of the main body 24.
The operations of the water supply valve 30, the switching valves 35 and 41, the opening / closing unit 46 a, and the pumps 37 and 42 are controlled by a control unit 46 that controls each unit provided in the main body 24.

The cleaning lid 25 is provided with a small opening 25a (see FIGS. 6A and 6B), and the disinfectant bottle 1A formed by the mixed discharge container 1 of the present embodiment is attached to the opening 25a. It is detachably attached via the part 51.
This disinfectant drug bottle 1A stores a main agent having disinfecting ability as the first agent 7a and a secondary agent for stabilizing the disinfecting ability as the second agent 7b in the mixed discharge container 1 described with reference to FIGS. 1A to 4. It is a thing. In the following description relating to FIG. 5 to FIG.
The attachment portion 51 is provided with a blade 11 that forms a discharge port for discharging the main agent and the auxiliary agent to the disinfectant bottle 1A attached to the attachment portion 51.

Then, the user sets the disinfectant drug bottle 1 </ b> A on the attachment part 51 and performs an operation of pressing the disinfectant drug bottle 1 </ b> A downward, whereby the first disinfection drug bottle 1 </ b> A of the disinfectant drug bottle 1 </ b> A is provided by the blade 11 provided on the attachment part 51. A first discharge port is formed in the lid 8a, and a second discharge port is also formed in the partition wall 5 by pushing down the disinfectant drug bottle 1A, and the main agent and the auxiliary agent are washed from these discharge ports into the washing tank 23. It can be mixed and injected.
6A and 6B show one configuration example of the attachment portion 51. FIG. 6A shows a state in which the disinfecting drug bottle 1A is set in the attachment portion 51, and FIG. 6B shows a state in which the disinfecting drug bottle 1A is pushed down to a predetermined position.
As shown in FIG. 6A, a disc-shaped fitting portion 52a on the bottom surface of the cylindrical mounting portion main body 52 is fitted into the opening 25a and is detachably attached to the opening 25a provided in the cleaning lid 25. .

At the center of the bottom surface of the mounting portion main body 52, for example, the base end side of the blade 11 having a substantially cylindrical shape as shown in FIG.
The blade 11 protrudes upward from the bottom surface of the mounting portion main body 52 along the central axis in the cylinder. The blade 11 is set so that the height of the blade 11 protruding upward from the bottom surface of the attachment main body 52 is greater than the distance from the first lid 8a to the partition wall 5 in the disinfectant drug bottle 1A.
Further, the inner diameter of the cylinder of the attachment main body 52 is set to an inner diameter slightly larger than the outer diameter so that the disinfectant drug bottle 1A can be inserted, and a guide part 52b for setting the disinfectant drug bottle 1A at a predetermined position is formed. Has been. Then, the disinfectant drug bottle 1A can be set at a predetermined position by inserting it from an attachment port (insertion port) opened at the upper end of the attachment portion main body 52.

Since the blade 11 is mounted so as to protrude upward from the bottom surface side of the cylinder of the mounting portion main body 52 as described above, when the disinfectant drug bottle 1A is inserted from the upper mounting port, the first lid 8a that faces the bottom surface Is set at a predetermined position in contact with the blade edge portion 11a of the blade 11, that is, as shown in FIG. 6A. In this case, the rear end of the blade 11 protrudes toward the cleaning tank 23 from the inner surface of the cleaning lid 25.
Then, the user can set the state shown in FIG. 6B by performing an operation of pushing down the disinfectant drug bottle 1A. FIG. 6B shows a state corresponding to FIG.
That is, the user can push down the disinfectant drug bottle 1A from the state of FIG. 6A to form the first discharge port through the first first lid 8a by the blade 11, and further, the disinfectant drug By performing the operation of pushing down the bottle 1A, the state shown in FIG. 6B in which the partition 11 is penetrated by the blade 11 that penetrates the first lid 8a to form the second discharge port can be set.

In FIG. 6B, since the second discharge port is formed after the first discharge port is formed first, the main agent has already been considerably discharged in the state in which the second discharge port is formed. It shows a state that is in the state.
Moreover, since the opening 11c is provided in the blade 11 as shown to FIG. 6B, the 1st chemical | medical agent 7a and the 2nd chemical | medical agent 7b can be discharged | emitted through the opening 11c.
When the disinfectant bottle 1A is set at a predetermined position as shown in FIG. 6A, a pin hole is provided in advance in the mounting portion main body 52 as shown by a two-dot chain line, and positioning is performed so as to be fitted into the pin hole. The pins 54 may be protruded toward the guide portion 52b.
The pin 54 prevents the bottom surface of the disinfectant drug bottle 1A inserted into the guide portion 52b from coming into contact with the pin 54 and moving below the position. That is, the disinfectant drug bottle 1A is maintained in a state set at a predetermined position.

When the user forms the discharge port, the user may perform an operation of pulling out the pin 54 from the pin hole and pushing down the disinfectant drug bottle 1A. In this way, the discharge port can be formed only when the user actually tries to form the discharge port. In addition, you may apply the structure which provides the pin 54 in the case of the other attaching part 51B (refer FIG. 8A).
FIG. 7 shows an example of a processing procedure for cleaning and disinfecting the endoscope 22 using the disinfectant drug bottle 1A according to the present embodiment. Here, in order to explain that disinfection is performed using the disinfectant drug bottle 1A, it is assumed that the disinfecting liquid tank 44 stores the disinfecting liquid that has been repeatedly used a predetermined number of times.
In the first step S <b> 1, the user sets the endoscope 22 in the cleaning tank 23 as shown in FIG. 5, covers the upper part of the main body 24 with the cleaning lid 25, and attaches the mounting portion 51 to the cleaning lid 25. Installing.

In the next step S2, the user sets the disinfectant drug bottle 1A in the mounting portion 51 to the state shown in FIG. 5 or FIG. 6A. In FIG. 7, the disinfectant drug bottle 1A and the like are shown in a simplified manner.
In addition, you may make it perform the operation | work which mounts the attaching part 51 in the washing | cleaning lid | cover 25 in step S1, and the operation | movement of step S2 after step S1, S2 (however, before step S8).
In the next step S 3, the cleaning water can be supplied from the water tap 32, and the user performs an instruction operation to drain the disinfecting liquid in the disinfecting liquid tank 44. In response to this instruction operation, the control unit 46 switches the switching valve 41 to a state in which the switching valve 41 communicates with the drainage tube 45.

Further, the control unit 46 operates the pump 37 to pump the disinfecting liquid in the disinfecting liquid tank 44 into the cleaning tank 23 through the switching valve 35. In this way, the disinfecting liquid draining process for discharging the disinfecting liquid in the disinfecting liquid tank 44 to the outside of the main body 24 through the cleaning tank 23 is performed.
In addition, after the process of this draining process is complete | finished, the control part 46 performs the process of a rinse process, rinse the washing tank 23 and the disinfection liquid tank 44 with a wash water, as shown to step S4.
In this rinsing process, the control unit 46 switches the switching valve 41 to the disinfecting liquid tank 44 side, and the cleaning water from the water tap 32 passes through the water filter 33, the switching valve 35, and the nozzle 38 to the cleaning tank 23. The cleaning water is stored in the disinfectant tank 44 through the circulation port 39. Thereafter, the control unit 46 switches the switching valve 35 to a state in which the switching valve 35 communicates with the pump 37, and pumps the rinse water stored in the disinfectant tank 44 by the pump 37 and returns it to the cleaning tank 23. In this way, after performing the rinsing step, the washing water used in the rinsing step is drained. By this rinsing process, the cleaning tank 23 and the disinfectant tank 44 are set in a clean state.

After the rinsing process is completed, the control unit 46 starts the cleaning process in step S5. In this cleaning process, the controller 46 controls the cleaning water that has passed through the water supply valve 30 to be discharged from the nozzle 38 into the cleaning tank 23 through the water filter 33.
After a predetermined amount of cleaning water is stored in the cleaning tank 23, the control unit 46 operates the pump 42, and the endoscope 22 is cleaned with the cleaning water including the inside of the conduit. That is, a cleaning process is performed. In this cleaning process, the on-off valve 41a is closed.
After the cleaning process is performed for a predetermined time, the control unit 46 closes the water supply valve 30, opens the on-off valve 41a, switches the switching valve 41 to the drainage tube 45 side, and is used for cleaning. The cleaning water is discharged from the cleaning tank 23 to the outside. Then, the cleaning process ends.

When the cleaning process is completed, the control unit 46 starts the disinfection process. In step S6, the control unit 46 opens the water supply valve 30 from the closed state to open a predetermined amount of water used for dilution in the cleaning tank 23. Store.
The control unit 46 closes the water supply valve 30 after a predetermined amount of dilution water is stored in the cleaning tank 23. In step S7, the control unit 46 notifies the user that the disinfecting chemical solution is to be injected into the cleaning tank 23 by the disinfecting chemical bottle 1A by using a not-illustrated notification device or the like.
In response to this notification, in the next step S8, the user pushes down the disinfectant drug bottle 1A in the state of FIG. 6A, thereby creating a first discharge port in the first lid 8a of the disinfectant drug bottle 1A. The user can create a second outlet as shown in step S9 by further pressing down the disinfectant drug bottle 1A. That is, as shown in FIG. 6B, a discharge port for discharging the main agent and the auxiliary agent to the disinfectant drug bottle 1A can be created.

As described above, when the state shown in FIG. 6B is set, the main agent and the auxiliary agent can be discharged from the discharge port of the disinfectant drug bottle 1A, and the main agent and the auxiliary agent discharged from the discharge port of the disinfectant drug bottle 1A. Is injected into the cleaning tank 23 through the opening 25a of the cleaning lid 25 below the discharge port. Then, a disinfectant solution composed of the main agent and the auxiliary agent is mixed and injected into the cleaning tank 23 in which diluted water is stored.
After the medicine injection into the cleaning tank 23 is completed, the user performs a sterilization process in step S10 by performing a medicine end button or a sterilization process start instruction operation.
In this disinfection process, the control unit 46 operates the pump 42 to control the disinfecting liquid to flow into the pipe line of the endoscope 22, opens the on-off valve 41 a, and opens the switching valve 41 to the disinfecting liquid tank. Control is performed so that the disinfecting liquid passing through the disinfecting liquid tank 44 is pumped by the pump 37 and discharged from the nozzle 38 to the cleaning tank 23 side. Then, the inside of the duct and the outer peripheral surface of the endoscope 22 are sterilized.

After performing the disinfection process in step S10, the control unit 46 stops the pumps 37 and 42, and collects (stores) the disinfectant in the cleaning tank 23 in the disinfectant tank 44 as shown in step S11.
After the disinfecting liquid is collected in the disinfecting liquid tank 44, the control unit 46 performs control so that the rinsing process in step S12 is performed. After the rinsing process, the cleaning / disinfecting process for the endoscope 22 is terminated. In this way, the present embodiment can also be used as a disinfectant drug bottle in the endoscope cleaning / disinfecting apparatus 21 that disinfects the endoscope 22. In this case, the user forms a discharge port by a simple operation of pushing down the disinfectant drug bottle 1A, and mixes the main agent and the auxiliary agent separately stored in the disinfectant drug bottle 1A to disinfect the disinfectant drug (disinfectant liquid). Can be injected into the cleaning tank 23 of the endoscope cleaning / disinfecting device 21.
Thus, the mixed discharge container 1 of this embodiment can also be used as a disinfectant drug bottle in the endoscope cleaning / disinfecting apparatus 21.

In addition, as can be seen from the above description, the present embodiment is not limited to the configuration of the mixed discharge container 1 alone, and the mixed discharge container 1 and a penetration through which the mixed discharge container 1 is detachably attached to form a discharge port. It is good also as a structure provided with the attaching part 51 provided with the member.
As described above, the mixed discharge container 1 of the present embodiment has been described with an example in which the container part 2 has a cylindrical shape. As a first modification of the present embodiment, as shown in FIGS. 8A and 8B, for example, a mixed discharge container 1B having a truncated cone shape may be used. In FIG. 8A and FIG. 8B, the attachment part 51B to which the mixed discharge container 1B of this modification is attached is also shown.
In addition, this attachment part 51B can be attached to the washing | cleaning lid | cover 25 mentioned above. Further, the present invention can also be applied to a lid 25 ′ to be attached other than the cleaning lid 25.

This mixing / discharging container 1B employs a truncated cone-shaped container part 62 instead of the cylindrical container part 2 in the mixing / discharging container 1 described above. In this case, the diameter of the first end surface 62a provided with the first lid 8a is smaller than the second end surface 62b provided with the second lid 8b. Other configurations are the same as those of the first embodiment.
Further, as shown in FIG. 8A, the attachment portion 51B to which the mixed discharge container 1B is attached has an upper side expanded so as to accommodate the frustoconical mixed discharge container 1B set so that the first lid 8a side becomes the bottom surface. The mounting portion main body 63 is provided with a guide portion 63b so as to have a diameter. That is, instead of the columnar guide portion 52b described above, a truncated cone-shaped guide portion 63b is provided. Note that a fitting portion 63 a that fits into the opening 25 ′ a of the lid 25 ′ is provided on the bottom surface of the attachment portion main body 63.

In the state shown in FIG. 8A, the user can form a discharge port by performing an operation of pressing the mixed discharge container 1 </ b> B against the blade 11.
On the other hand, when the first end face 62a and the second end face 62b in FIG. 8A are reversed as shown in FIG. 8B, the mixed discharge container 1B in this state is seen from the vicinity of the upper end of the guide portion 63b. Can not be moved down. For this reason, a discharge port cannot be formed.
Therefore, according to this modification, it is possible to prevent the user from performing an erroneous operation. In addition, it has the same operations and effects as the first embodiment.
8A and 8B, the container portion 62 has been described as having a truncated cone shape. In this case, the same operation and effect as in the case of the truncated cone-shaped container portion 62 are obtained.

In the above-described embodiment and modification, more specifically, the first opening 3a and the second opening 3b have one end face in the container part 2 or 62 and the other end face facing the one end face. Is described in the case of the structure provided on the first end surface 2a and the second end surface 2b which are the upper surface or the bottom surface.
The present embodiment is not limited to such a case. For example, the second opening 3b may be provided on the side surface of the container 2 as shown in FIG.
In the mixed discharge container 1C of the second modification shown in FIG. 9, for example, in the mixed discharge container 1 shown in FIG. 1B, the second opening 3b is provided in the side surface portion of the second container 6b, and this second opening 3b. Is closed by the second lid 8b.
In the case of this modification, it is not necessary to set the maximum opening diameter of the second opening 3b to be smaller than the maximum opening diameter of the first opening 3a.

Further, FIG. 10A shows an attachment portion 51 ′ to which the mixed discharge container 1 </ b> C is attached and used for forming the discharge port. For example, in the guide portion 52b on the cylindrical inner peripheral surface of the attachment portion 51 shown in FIG. 6A, the attachment portion 51 ′ can guide the second opening 3b and the second lid 8b along the longitudinal direction thereof. In this structure, a groove 52c is provided.
The second modified example also has substantially the same operations and effects as the first embodiment. Further, as shown in FIG. 10A, by setting the mounting portion 51 ′ in a state where the state of FIG. 9 is reversed upside down, it can be set at a predetermined position similar to the case shown in FIG. 6A.
In this case, when the mixed discharge container 1 </ b> C is set in the attachment portion 51 ′, the circumferential position and orientation of the first lid 8 a that abuts the blade edge portion 11 of the blade 11 are determined more locally.

For this reason, for example, as shown in FIG. 10B, when a force is locally applied to the portion with which the blade edge portion 11 abuts, an easy-to-pierce portion 69 is provided that makes it easier to penetrate than the other portions. You may do it.
In the example of FIG. 10B, an example of a perforation is shown as an easy-to-penetrate portion 69 provided locally around the portion where the blade edge portion 11 abuts. In this case, even a blade having a lower strength can be pierced as the blade 11 used for piercing. Further, when the user performs the piercing operation, the operation of forming the discharge port by the piercing can be performed with a smaller amount of force.
In addition, although the example provided with the local penetration easy part 69 is shown here, you may form a perforation etc. of a bigger size.

Further, in the blade 11 shown in FIG. 10B, as shown by a two-dot chain line, the rear side of the blade edge portion 11 a at the tip is thinned so that a portion serving as a passage for discharging is also formed on the outer peripheral side of the blade 11. May be. Reference numeral 11c denotes the opening shown in FIG.
Also in this modified example, if the blade 11 is in contact with the second end surface 2b not provided with the lid when set in the mounting portion 51 'in the state shown in FIG. 9, the user has set correctly. It is easy to recognize that there is no.
Further, for example, in the mixed discharge container 1C shown in FIG. 9, as a modification, the first opening 3a may be provided at a position eccentric from the center of the first end face 2a, that is, unevenly distributed (not shown). .
In the above-described embodiment, for example, the discharge port is formed using the blade 11 that is close to a cylinder. However, the discharge port may be formed with a rotating drill blade as described below. .

FIG. 11 shows a drill blade 71 used for forming the discharge port. The drill blade 71 includes a cylindrical drill main body 72 and a drill blade portion 72a formed on the distal end side thereof with a spirally projecting blade. Using such a drill blade 71, a discharge port may be formed as described below.
FIGS. 12A, 12B, and 12C schematically illustrate a configuration in the case where a discharge port is formed in the mixed discharge container 1 of the first embodiment using the drill blade 71, for example. A fitting portion 73a at the bottom of the attachment portion main body 73 constituting the attachment portion 51D is attached to the lid 25 'by fitting it into the opening portion 25'a.
The attachment portion main body 73 has a substantially cylindrical shape, and a guide portion 73b is provided inside the cylinder. The rear end of the drill blade 71 is arranged at the center of the lower part inside the cylinder. The drill blade 71 is fixed to one end of a radially extending arm 74, and a magnet 75 is attached to the other end of the arm 74. It is attached.

The magnet 75 is fitted to the inner peripheral surface of the cylinder and is rotatable and slidable in the axial direction. A coil portion 76 composed of a plurality of coils is embedded in the cylinder outside the magnet 75. The coil of the coil section 76 is also divided in the longitudinal direction and connected to an external motor drive circuit (not shown).
In other words, the drill blade 71 is attached to a rotor-side magnet 75 that forms a motor, and a plurality of coils that generate a rotating magnetic field that rotates the magnet 75 by sequentially applying a drive current in a pulsed manner around the magnet 75. A plurality of coils that generate the rotating magnetic field are also arranged in the axial direction of the cylinder so that the drill blade 71 can be moved in the axial direction while rotating the drill blade 71.

Then, the magnet 75 can be rotated by a rotating magnetic field generated by sequentially applying a driving current from a motor driving circuit to a plurality of coils arranged on the outer peripheral side of the magnet 75. By switching to the divided upper side, the magnet 75 can be moved to the upper side in the axial direction.
A lid 78 that can be freely opened and closed is attached to the upper end of the attachment portion main body 73 via a hinge 77, for example. A container pressing member 79 formed of an elastic member or the like is attached to the lid 78. Then, as shown in FIG. 12A, the lid 78 is opened, and the mixed discharge container 1 is inserted into the guide portion 73b.
The guide portion 73b is provided with a positioning projection, and the inserted mixed discharge container 1 is set at a predetermined position where the lower end thereof is positioned in contact with the projection. This positioned state is the state shown in FIG. 12B. In FIG. 12B, the lid 78 is fixed so as to close the upper end opened by engaging a hook provided at its end with a pin. In this state, the container pressing member 79 is fixed to the mixed discharge container 1. Is fixed elastically from above.

Then, by supplying a drive current to the coil section 76 by the motor drive circuit as described above, the magnet 75 moves upward while being rotated, and the first lid 8a is pierced by the tip of the drill blade 71 at that time, Further, the partition wall 5 also penetrates. This state is as shown in FIG. 12C.
And the 1st chemical | medical agent 7a and the 2nd chemical | medical agent 7b in the mixing discharge container 1 flow out below, and are inject | poured in opening part 25'a of lid | cover 25 '.
Here, an example in which the drill blade 71 is moved to the upper side while rotating is described, but the drill blade 71 may be simply moved to the upper side to penetrate the first lid 8a and the like.
As described above, when the electric driving means for moving the drill blade 71 while rotating the drill blade 71 is provided, the discharge port can be formed more easily.

(Second Embodiment)
Next, a second embodiment of the present invention will be described with reference to FIGS. 13A and 13B. FIG. 13A shows a mixed discharge container 1E according to the second embodiment of the present invention, and FIG. 13B shows a state where FIG. 13A is disassembled.
This mixed discharge container 1E is in a state where the first container part 6a 'corresponding to the first container part 6a including the partition wall 5 and the second opening 3b are not provided in the mixed discharge container 1 of the first embodiment, that is, The second end surface 2b is formed to include a container portion 2e including a second container portion 6b ′ corresponding to the second container portion 6b closed.
Further, when the first end surface 2a of the first container portion 6a 'is the top surface, for example, the partition wall 5 at a position facing the first opening 3a on the bottom surface thereof is provided with a screw portion 81 made of, for example, an external screw. ing.

  Further, a screwing portion 82 formed by a female screw that is screwed into the screw portion 81 is provided on the upper end surface of the second container portion 6b ′ that is opened.

That is, when the screwing is released by the screw part 81 and the screwing part 82, the first container part 6a ′ and the second container part 6b ′ can be separated into two bodies as shown in FIG. 13B. In other words, when the two first container parts 6a ′ and the second container part 6b ′ shown in FIG. 13B are integrated by screwing, a mixed discharge container 1E shown in FIG. 13A can be configured.
As shown in FIG. 13B, in the first container portion 6a ′, after the first medicine 7a is injected and stored from the first opening 3a as in the first embodiment, the first container 8a ′ is stored by the first lid 8a. The inside of the part 6a 'can be sealed.
Further, in the second container portion 6b ′, the screwing portion 82 is provided with a second opening 3b ′ that is opened by a female screw hole screwed into the screw portion 81, for example. Then, the second medicine 7b can be injected from the second opening 3b 'and stored inside the second container 6b'. After injecting and storing the second medicine 7b, the screw portion 82 is screwed into the screw portion 81 and integrated, thereby sealing the inside of the second container portion 6b 'and mixing and discharging shown in FIG. 13A. Container 1E can be manufactured. In addition, the screw part 81 in this embodiment is set to the material or mechanical strength which can be penetrated similarly to the partition 5, for example. Moreover, the diameter of the screw part 81 is made larger than the maximum opening part of the 1st opening part 3a, for example.

Then, as described in the first embodiment, when the first discharge port is formed so as to abut the blade 11 with the first lid 8a, the abutment operation is further performed, whereby the partition wall 5 and the screw portion 81 are performed. And a second discharge port can be formed, and the second medicine 7b in the second container portion 6b 'can be discharged through the second discharge port and the first discharge port.
When the material of the screwing portion 82 is a material that can be pierced similarly to the screw portion 81, it is necessary to make the diameter of the screw portion 81 larger than the maximum opening portion of the first opening 3a. It is not something.
The mixed discharge container 1E of the present embodiment having such a configuration can be manufactured at a low cost because it has a simple configuration as in the first embodiment and also has a simple manufacturing process. Therefore, this embodiment also has substantially the same operations and effects as the first embodiment.
Moreover, the mixing discharge container 1E of this embodiment can form a discharge port easily similarly to 1st Embodiment.

In addition, it is not an indispensable condition to set the screw part 81 to the material or mechanical strength which can be penetrated similarly to the partition 5. When the partition wall 5 is destroyed, by further performing an operation of abutting the mixed discharge container 1E against the blade 11, not only the partition wall 5 contacting the blade 11 but also a part other than the contacting partition wall 5 can be destroyed. It is.
Further, for example, when the first opening 3a is provided at an eccentric position, it is only necessary to penetrate only the portion of the partition wall 5 facing the first opening 3a.
As the mixed discharge container 1E of the modification of the present embodiment, for example, a male screw part is formed outside the opening 3b ′ formed on the second container part 6b ′ side as shown in a partly exploded view in FIG. 13C. It may be structured. In this case, the screw portion 81 on the first container portion 6a ′ side has a female screw shape.

Further, in the above description, the example in which the screw part is formed on the first container part 6a 'side where the first opening 8a is provided and the screw part is formed on the other container part has been described. Instead of the screw hole 3b ', a mere opening may be used, and instead of the screw part 81 on the first container part 6a' side, a press-fitting part that is press-fitted and fixed to the opening may be used.
Moreover, it is good also as a structure which makes it the fitting part which fits instead of the press-fit part fixed (sealed) by press fit, and seals and fixes the part to fit with an adhesive agent etc. Therefore, the second opening 3b ′ opened in the second container portion 6b ′ is closed by an opening closing member such as a protruding protrusion or lid provided on the bottom surface of the first container portion 6a ′. good.
Also in this embodiment, the shape of the container portion 2e may be a truncated cone shape, a cone angle shape, or the like as in the first modification of the first embodiment.

In the above-described embodiment, it has been described that the discharge port is formed by using a piercing member such as a sharp tip 11 or a sharp blade 11. However, in addition to this, for example, the discharge port is formed using heat. You may make it form.
In this case, the first lid 8a and the partition wall 5 in which the discharge port is formed may be formed of a material having low heat resistance, and other portions such as the second lid 8b may be formed of material having high heat resistance.
Note that embodiments configured by partially combining the above-described embodiments and the like also belong to the present invention.

FIG. 1A is a perspective view showing an appearance of a mixed discharge container according to a first embodiment of the present invention. FIG. 1B is a longitudinal sectional view showing the structure of the mixed discharge container. FIG. 2 is a longitudinal sectional view showing a blade for forming a discharge port in the mixed discharge container by inverting the top and bottom of FIG. 1B. FIG. 3 is a longitudinal sectional view showing a state in which the mixing and discharging container is pierced with a blade and mixed and discharged from the state of FIG. 2. FIG. 4 is a perspective view showing an example of the shape of the blade. FIG. 5 is a configuration diagram illustrating a schematic configuration of an endoscope cleaning / disinfecting apparatus that is used as a disinfecting drug bottle by a mixed discharge container. FIG. 6A is a longitudinal sectional view showing the structure of the mounting portion in a state where the mixed discharge container is set at a predetermined position. FIG. 6B is a longitudinal sectional view showing the structure of the mounting portion in a state where the mixing discharge container is pushed down to form a discharge port. FIG. 7 is a flowchart illustrating an example of a processing procedure for performing cleaning and disinfection with an endoscope cleaning and disinfecting apparatus. FIG. 8A is a longitudinal sectional view showing the structure of the mounting portion in a state where the mixed discharge container of the first modification is set at a predetermined position. FIG. 8B is a longitudinal sectional view showing the structure of the mounting portion in a state in which the mixed discharge container of the first modification is pushed down to form a discharge port. FIG. 9 is a longitudinal sectional view showing the structure of the mixed discharge container of the second modification. FIG. 10A is a longitudinal sectional view showing a state in which the mixed discharge container of the second modified example is set at a predetermined position of the mounting portion. FIG. 10B is a perspective view showing the perforation provided on the first lid together with the tip of the blade. FIG. 11 is a view showing a modified drill blade. FIG. 12A is a diagram showing a state in the middle of setting a mixed discharge container in a mounting portion provided with a drill blade of a modified example. FIG. 12B is a view showing a state in which the mixed discharge container is set at a predetermined position on the mounting portion provided with the drill blade of the modification. FIG. 12C is a view showing a state in which the discharge port is formed by rotating the drill blade of the modified example upward while rotating in the state of FIG. 12B. FIG. 13A is a longitudinal sectional view showing a structure of a mixed discharge container according to a second embodiment of the present invention. FIG. 13B is a longitudinal sectional view showing the mixed discharge container of FIG. 13A in a separated state. FIG. 13C is a longitudinal sectional view showing a part of a mixed discharge container according to a modification of the second embodiment in a separated state.

Explanation of symbols

1 ... Mixed discharge container,
1A ... Disinfectant bottle,
1C ... mixed discharge container,
1E ... Mixing discharge container,
2, 2e, 62 ... container part,
2a, 62a ... 1st end surface,
2b, 62b ... second end face,
3a ... 1st opening part,
3b ... second opening,
5 ... partition wall,
6a, 6a '... 1st container part,
6b, 6b '... the second container part,
7a ... first drug,
7b ... second drug,
8a ... first lid,
8b ... the second lid,
11 ... Blade,
11a ... blade edge part,
11b ... the blade body,
11c ... opening,
21 ... Endoscope cleaning / disinfecting device,
22 ... Endoscope,
23. Cleaning tank,
24 ... body,
25. Cleaning lid,
25 '... lid,
25a ... opening,
25'a ... opening,
26 ... insertion part,
27 ... operation unit,
28 ... Connection tube,
28a ... cap connector,
29 ... Pipe connection connector,
30 ... water supply valve,
31 ... Water supply hose,
32 ... Water tap,
33 ... Water filter,
34 ... Tube,
35 ... switching valve,
36 ... Tube,
37 ... pump,
39 ... circulation port,
40 ... Tube,
40a ... tube,
41 ... switching valve,
41a ... on-off valve,
42 ... pump,
43 ... Tube,
44 ... Disinfectant tank,
45 ... Tube,
46 ... control unit,
51 ... Mounting part,
51 '... mounting part,
51D ... mounting part,
51B ... Mounting part,
52 ... Mounting body,
52b ... guide part,
52c ... guide groove,
54 ... pin,
62a ... 1st end surface,
62b ... 2nd end surface,
63 ... mounting body,
63a ... fitting part,
63b ... guide part,
69 ... easy part,
71 ... Drill blade,
72 ... Drill body,
72a ... drill blade,
73a ... fitting part,
73b ... guide part,
74 ... arm,
75 ... Magnet,
76 ... Coil part,
77 ... Hinge,
78 ... lid,
79 ... container holding member,
81 ... screw part,
82 ... screwing part

Claims (5)

A first container part capable of storing fluid;
A first opening provided in the first container portion;
A first lid that closes the first opening and allows penetration;
A second container part capable of storing fluid;
A second opening portion provided in the second container portion;
A second lid for closing the second opening;
A partition wall separating the first container part and the second container part;
Including
The first discharge part and the partition are arranged on the same straight line and arranged perpendicular to the straight line. The first opening is disposed on the upper surface of the mixed discharge container,
The second opening is disposed on a bottom surface facing the top surface of the mixed discharge container,
The mixed discharge container according to claim 1, wherein the maximum opening diameter of the second opening is smaller than the maximum opening diameter of the first opening. A first container part capable of storing fluid;
A first opening provided in the first container portion;
A screw portion having a male screw shape or a female screw shape provided in the first container portion;
A first lid that closes the first opening portion and allows penetration;
A second container part capable of storing fluid;
A threaded portion that is threadedly engaged with the threaded portion provided in the second container portion;
A second opening provided in the threaded portion;
A partition wall separating the first container part and the second container part;
The mixed discharge container, wherein the first opening and the partition are arranged coaxially and perpendicular to the axis.   The mixed discharge container in which the first opening is formed on the upper surface has a truncated cone shape or a truncated cone shape in which the second opening is formed on the bottom surface. A mixed discharge container according to any claim.   The mixed discharge container according to any one of claims 1 to 4, wherein the mixed discharge container is used in an endoscope cleaning device that cleans an endoscope.

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