JP6726540B2 - Endoscope reprocessor - Google Patents

Description

The present invention relates to an endoscope reprocessor that includes a chemical liquid bottle connecting portion for connecting a chemical liquid bottle and a chemical liquid tank that stores a chemical liquid.

An endoscope used in the medical field is subjected to a regeneration treatment using a chemical solution such as an antiseptic solution after use. Further, an endoscope reprocessor that includes a treatment tank in which an endoscope can be arranged and a chemical liquid tank that stores a chemical liquid and that automatically performs a regeneration process using the chemical liquid in the treatment tank on the endoscope is provided. Are known.

For example, Japanese Patent Application Laid-Open No. 11-113840 includes a cleaning tank in which an endoscope can be installed, a disinfectant solution tank for storing a disinfectant solution, and a pump for transferring the disinfectant solution into the cleaning tank. An endoscope cleaning/disinfecting apparatus that executes a process of reproducing an endoscope is disclosed.

It is preferable that the chemical solution used in the endoscope regeneration treatment has no unevenness in temperature distribution and concentration distribution in order to enhance the effect exerted in the regeneration treatment. For example, in the endoscope cleaning and disinfecting apparatus shown in FIG. 1 of JP-A-11-113840, when the disinfectant solution stored in the disinfectant solution tank 33 is stirred, the disinfectant solution injection pump 37 is used. Then, the disinfectant solution is moved so as to pass through the disinfectant solution supply conduit 35, the washing tank 1 and the return conduit 47.

Further, when exchanging the drug solution stored in the endoscope reprocessor, the drug solution is supplied to the endoscope reprocessor from the drug solution bottle storing a new drug solution. For example, in the endoscope cleaning/disinfecting apparatus shown in FIG. 1 of JP-A-11-113840, when the disinfectant solution is transferred from the disinfectant solution bottle 39 storing a new disinfectant solution to the disinfectant solution tank 33, The disinfectant solution is moved through the disinfectant solution injection pipe 36, the disinfectant solution supply conduit 35, the cleaning tank 1 and the return conduit 47 using the disinfectant solution injection pump 37.

That is, in the endoscope cleaning/disinfecting apparatus shown in FIG. 1 of Japanese Patent Application Laid-Open No. 11-113840, when the disinfectant solution is agitated and when a new disinfectant solution is supplied from the disinfectant solution bottle 39, The chemical solution flows in the cleaning tank 1. Therefore, in the endoscope cleaning/disinfecting apparatus shown in FIG. 1 of Japanese Patent Application Laid-Open No. 11-113840, cleaning is performed after stirring the disinfectant solution and after receiving a new supply of the disinfectant solution from the disinfectant solution bottle 39. It is necessary to rinse the inside of the tank 1 with water.

Further, the endoscope cleaning/disinfecting apparatus shown in FIG. 2 of Japanese Patent Laid-Open No. 11-113840 discloses a disinfecting solution injection pipe line 55 for transferring the disinfecting solution from the disinfecting solution bottle 53 to the disinfecting solution tank 33 and disinfection. A liquid injection pump 56 is provided. Therefore, in the endoscope cleaning/disinfecting apparatus shown in FIG. 2 of Japanese Patent Laid-Open No. 11-113840, the disinfecting solution does not flow in the cleaning tank 1 when a new disinfecting solution is supplied from the disinfecting solution bottle 53. Therefore, it is not necessary to rinse the inside of the cleaning tank 1 with water thereafter.

JP-A-11-113840

The endoscope cleaning/disinfecting apparatus shown in FIG. 2 of Japanese Patent Laid-Open No. 11-113840 has a complicated structure because it is provided with a disinfecting solution injecting pump 56 for sucking the disinfecting solution from the chemical solution bottle 53. Further, also in the endoscope cleaning and disinfecting apparatus shown in FIG. 2 of JP-A-11-113840, when the disinfectant solution in the disinfectant solution tank 33 is agitated, the disinfectant solution supply pump 51 is used. Since the disinfectant solution is moved so as to pass through the disinfectant solution supply pipe line 35 and the cleaning tank 1, the rinse operation of the cleaning tank 1 after stirring is necessary.

In the endoscope cleaning and disinfecting apparatus shown in FIG. 1 of Japanese Patent Application Laid-Open No. 11-113840, one disinfectant injection pump 37 is used to stir the disinfectant and suck the disinfectant from the disinfectant bottle 39. Although it is possible to perform it, the rinsing operation of the cleaning tank 1 is necessary after performing either of them.

The present invention solves the above-mentioned problems, and an object of the present invention is to eliminate the rinsing operation of the processing tank with a simple configuration in the endoscope reprocessor that receives the supply of the chemical liquid from the chemical liquid bottle.

An endoscope reprocessor according to an aspect of the present invention is a treatment tank in which an endoscope is arranged, a chemical liquid tank for storing a chemical liquid, a chemical liquid bottle connecting portion for connecting a chemical liquid bottle storing the chemical liquid, and the chemical liquid. A first pipeline connecting the tank and the chemical solution bottle connecting portion, a second pipeline connecting the processing tank and the midway position of the first pipeline, and a second pipeline connecting the chemical solution tank and the midway position of the second pipeline. 3 pipe lines, a first three-way valve arranged at a connection part between the first pipe line and the second pipe line, and a first three-way valve arranged at a connection part between the second pipe line and the third pipe line 2 three-way valve, and a pump arranged at a portion of the second conduit between the first three-way valve and the second three-way valve.

According to the present invention, in the endoscope reprocessor that receives the supply of the chemical liquid from the chemical liquid bottle, the rinsing operation of the processing tank can be omitted with a simple configuration.

It is a figure which shows the structure of an endoscope reprocessor. It is the figure which extracted and showed the structure which takes in and out the chemical|medical solution to the chemical|medical solution tank of an endoscope reprocessor. It is a figure for demonstrating the operation|movement which transfers the chemical|medical solution in a chemical|medical solution bottle in a chemical|medical solution tank in an endoscope reprocessor. It is a figure for demonstrating the operation|movement which stirs the chemical|medical solution stored in the chemical|medical solution tank in an endoscope reprocessor. It is a figure for demonstrating the operation|movement which transfers the chemical|medical solution stored in the chemical|medical solution tank in a processing tank in an endoscope reprocessor. It is a figure for demonstrating the operation|movement which collect|recovers the chemical|medical solution stored in the processing tank in a chemical|medical solution tank in an endoscope reprocessor.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. In each of the drawings used in the following description, the scale is made different for each component in order to make each component recognizable in the drawings. It is not limited only to the number of components, the shape of the components, the ratio of the sizes of the components, and the relative positional relationship of the components described in 1.

An example of the embodiment of the present invention will be described below. The endoscope reprocessor 1 shown in FIG. 1 is a device that performs a reproduction process on an endoscope. Regeneration treatment here is not particularly limited, rinse treatment with water, cleaning treatment to remove stains such as organic substances, disinfection treatment to invalidate predetermined microorganisms, sterilization treatment to eliminate or kill all microorganisms, Alternatively, any of these combinations may be used.

In the following description, “upper” means a position farther from the ground than the comparison target, and “lower” means a position closer to the ground than the comparison target. In addition, the height in the following description indicates a height relationship along the gravity direction.

The endoscope reprocessor 1 includes a control unit 5, a power supply unit 6, a processing tank 2, a chemical liquid tank 20, and a chemical liquid bottle connecting unit 60.

The control unit 5 can be configured by including an arithmetic device (CPU), a storage device (RAM), an auxiliary storage device, an input/output device, a power control device, and the like, and executes a predetermined program according to an instruction from a user. However, the endoscope reprocessor 1 is configured to control the operation of each part. The operation of each component included in the endoscope reprocessor 1 in the following description is controlled by the control unit 5 even if there is no particular description.

The operation unit 7 and the display unit 8 constitute a user interface for exchanging information between the control unit 5 and the user. The operation unit 7 includes an operation member such as a push switch or a touch sensor that receives an operation instruction from a user. The operation instruction from the user is converted into an electric signal by the operation unit 7 and input to the control unit 5. The operation instruction from the user is, for example, an instruction to start the reproduction process. The operation unit 7 may be provided in an electronic device that is separate from the main body unit 1a of the endoscope reprocessor 1 that performs wired communication or wireless communication with the control unit 5.

Further, the display unit 8 includes, for example, a display device that displays images and characters, a light emitting device that emits light, a speaker that emits sound, a vibrator that emits vibration, or a combination thereof. The display unit 8 outputs information from the control unit 5 to the user. The display unit 8 may be provided in an electronic device that is separate from the main body unit 1a of the endoscope reprocessor 1 that performs wired communication or wireless communication with the control unit 5.

The power supply unit 6 supplies electric power to each part of the endoscope reprocessor 1. The power supply unit 6 distributes electric power obtained from the outside such as a commercial power supply to each part. The power supply unit 6 may include a power generator and a battery.

The processing tank 2 has a concave shape having an opening, and can store the liquid inside. An endoscope (not shown) can be arranged in the processing tank 2. A plurality of endoscopes may be arranged in the processing tank 2.

A lid 3 for opening and closing the opening of the processing bath 2 is provided on the upper portion of the processing bath 2. When the endoscope is regenerated in the treatment tank 2, the opening of the treatment tank 2 is closed by the lid 3.

The treatment tank 2 is provided with a chemical liquid nozzle 12, a drainage port 11, a circulation port 13, a circulation nozzle 14, a cleaning liquid nozzle 15, an endoscope connection portion 16 and an accessory case 17.

The chemical liquid nozzle 12 has an opening for introducing the chemical liquid supplied from the chemical liquid tank 20 into the processing tank 2. The chemical liquid tank 20 stores the chemical liquid. The chemical liquid tank 20 is located below the processing tank 2 in the gravity direction. The configuration for introducing the chemical liquid stored in the chemical liquid tank 20 into the processing tank 2 will be described later.

The type of the chemical liquid stored in the chemical liquid tank 20 is not particularly limited, but in the present embodiment, as an example, the chemical liquid is a disinfecting liquid used for the disinfection treatment or a sterilizing liquid used for the sterilization treatment. Examples of the disinfecting solution or sterilizing solution include an aqueous solution of peracetic acid. However, the present invention is not limited to this, and as the chemical liquid, a cleaning liquid used for cleaning treatment, a highly volatile solution used for drying, and the like can be appropriately selected according to the purpose.

Further, in the present embodiment, as an example, the chemical liquid can be reused if it has a medicinal effect even after being used for the regeneration treatment. Therefore, the endoscope reprocessor 1 has a configuration in which the chemical solution in the processing tank 2 is collected and returned to the chemical solution tank 20. The configuration for recovering the chemical liquid in the processing tank 2 and returning it to the chemical liquid tank 20 will be described later.

When a predetermined condition is satisfied, such as when the drug solution loses a predetermined drug effect, the drug solution stored in the drug solution tank 20 is replaced with a new unused drug solution. The unused drug solution is supplied from inside the drug solution bottle 18 that stores the unused drug solution. The drug solution bottle 18 can be connected to a drug solution bottle connection unit 60 included in the endoscope reprocessor 1.

In the state where the chemical liquid bottle 18 is connected to the chemical liquid bottle connecting portion 60, the inside of the chemical liquid bottle 18 and the inside of a first pipe line 61 described later communicate with each other. The chemical solution bottle 18 may be connected to the chemical solution bottle connection portion 60 in a form in which the chemical solution bottle 18 is directly connected, or the chemical solution bottle 18 via a tubular member separable from the chemical solution bottle 18. May be connected. Further, the chemical liquid bottle 18 may be any container that stores the chemical liquid, and may have a variable shape such as a bag.

The configuration for transferring the chemical liquid from the chemical liquid bottle 18 connected to the chemical liquid bottle connecting portion 60 into the chemical liquid tank 20 will be described later.

In addition, the used chemical solution stored in the chemical solution tank 20 is discharged from the chemical solution tank 20 by discharging the used chemical solution from the chemical solution nozzle 12 using a configuration described later. The used chemical liquid discharged from the chemical liquid nozzle 12 is collected by a container or is discharged to the outside of the endoscope reprocessor 1 via a liquid discharge port 11 described later provided in the processing tank 2. It The drainage port 11 is an opening provided at the lowest position in the processing tank 2. The chemical liquid tank 20 may be provided with a cock for draining the liquid from the bottom of the chemical liquid tank 20.

The circulation port 13 is an opening provided near the bottom surface of the processing tank 2. The circulation port 13 communicates with the circulation pipe line 13a. The circulation conduit 13a branches into two conduits, an endoscope circulation conduit 30 and a processing tank circulation conduit 40.

The endoscope circulation conduit 30 communicates the circulation conduit 13a with a channel block 32 described later. A circulation pump 33 is provided in the endoscope circulation line 30. The circulation pump 33 transfers the fluid in the endoscope circulation conduit 30 toward the channel block 32 by operating.

To the channel block 32, an intake pipe line 34, an alcohol pipe line 38, and a delivery pipe line 31 are connected in addition to the endoscope circulation pipe line 30 described above. The channel block 32 connects the delivery conduit 31, the endoscope circulation conduit 30, the intake conduit 34, and the alcohol conduit 38. The channel block 32 is provided with a check valve that allows a fluid flow only in a direction toward the inside of the channel block 32 from each of the endoscope circulation conduit 30, the intake conduit 34, and the alcohol conduit 38. That is, the fluid does not flow from the inside of the channel block 32 to the endoscope circulation conduit 30, the intake conduit 34, and the alcohol conduit 38.

The intake pipe line 34 has one end open to the atmosphere and the other end connected to the channel block 32. Although not shown, a filter for filtering the passing gas is provided at one end of the intake pipe line 34. The air pump 35 is provided in the intake conduit 34, and transfers gas in the intake conduit 34 toward the channel block 32 by operating.

The alcohol conduit 38 connects the alcohol tank 37 that stores alcohol and the channel block 32. Examples of alcohol stored in the alcohol tank 37 include ethanol. The alcohol concentration can be appropriately selected. The alcohol pump 39 is provided in the alcohol conduit 38, and transfers the alcohol in the alcohol tank 37 toward the channel block 32 by operating.

The circulation pump 33, the air pump 35, and the alcohol pump 39 are connected to the control unit 5, and their operations are controlled by the control unit 5. When the liquid is stored in the processing tank 2 and the operation of the circulation pump 33 is started, the liquid in the processing tank 2 passes through the circulation port 13, the circulation pipeline 13 a and the endoscope circulation pipeline 30. Then, it is sent to the delivery conduit 31. Further, when the operation of the air pump 35 is started, air is sent to the delivery pipe line 31. Further, when the operation of the alcohol pump 39 is started, the alcohol in the alcohol tank 37 is sent to the delivery pipe line 31.

The delivery conduit 31 branches into an endoscope connection conduit 31b and a case connection conduit 31c. The endoscope connection conduit 31b is connected to the endoscope connection section 16. The case connection conduit 31c is connected to the accessory case 17.

In addition, the delivery conduit 31 is provided with a flow path switching unit 31a. The flow path switching unit 31a is a relief valve that constantly connects the delivery conduit 31 and the endoscope connection conduit 31b, and when the pressure in the endoscope connection conduit 31b exceeds a predetermined value, The fluid flowing from the delivery conduit 31 is released to the case connection conduit 31c. That is, the flow path switching unit 31a keeps the pressure in the endoscope connection conduit 31b constant.

The endoscope connecting portion 16 is connected to a base provided on the endoscope. The endoscope connecting portion 16 may be directly connected to the base or may be connected to the base via a connection tube. The accessory case 17 is a cage-shaped member that accommodates accessories (not shown) of the endoscope.

The fluid delivered from the channel block 32 to the delivery conduit 31 is introduced into the conduit communicating with the mouthpiece of the endoscope via the endoscope connecting portion 16. The endoscope connection unit 16 and the endoscope may be directly connected, or may be connected via a detachable tube between them. When the pressure of the fluid introduced into the pipeline exceeds a value at which the flow path switching unit 31a, which is a relief valve, operates, the fluid flows through the case connection pipeline 31c in addition to the inside of the endoscope pipeline. It is also introduced into the accessory case 17 via the via.

The processing tank circulation pipe 40 communicates the circulation pipe 13 a with the circulation nozzle 14. The circulation nozzle 14 is an opening provided in the processing tank 2. A liquid flow pump 41 is provided in the processing tank circulation line 40. The liquid flow pump 41 is connected to the control unit 5, and the operation of the liquid flow pump 41 is controlled by the control unit 5.

Further, a three-way valve 42 is provided between the liquid flow pump 41 and the circulation nozzle 14 of the processing tank circulation pipe 40. A water supply conduit 43 is connected to the three-way valve 42. The three-way valve 42 can be switched between a state in which the circulation nozzle 14 and the treatment tank circulation pipe 40 are communicated with each other, or a state in which the circulation nozzle 14 and the water supply pipe 43 are communicated with each other.

The water supply conduit 43 communicates the three-way valve 42 with the water supply source connecting portion 46. The water supply conduit 43 is provided with a water introduction valve 45 that opens and closes the water supply conduit 43 and a water filter 44 that filters water. The water supply source connection unit 46 is connected to a water supply source 49 such as a water supply facility that sends out water, for example, via a hose or the like.

The three-way valve 42 and the water introduction valve 45 are connected to the control unit 5, and their operations are controlled by the control unit 5.

When the liquid is stored in the processing tank 2, if the three-way valve 42 is in a state where the circulation nozzle 14 and the processing tank circulation pipe 40 are in communication with each other, and the operation of the flow pump 41 is started, The liquid is discharged from the circulation nozzle 14 via the circulation port 13, the circulation pipeline 13a, and the processing tank circulation pipeline 40.

Further, when the three-way valve 42 is in a state in which the circulation nozzle 14 and the water supply conduit 43 are in communication with each other and the water introduction valve 45 is in an opened state, the water supplied from the water supply source 49 is discharged from the circulation nozzle 14. .. The water discharged from the circulation nozzle 14 is introduced into the processing tank 2.

The cleaning liquid nozzle 15 is an opening that communicates with the cleaning liquid tank 50 that stores the cleaning liquid via the cleaning liquid conduit 51. The cleaning liquid is used for the cleaning process. A cleaning liquid pump 52 is provided in the cleaning liquid pipe 51. The cleaning liquid pump 52 is connected to the control unit 5, and the operation of the cleaning liquid pump 52 is controlled by the control unit 5. By operating the cleaning liquid pump 52, the cleaning liquid in the cleaning liquid tank 50 is transferred into the processing tank 2.

FIG. 2 is a diagram showing, out of the configuration of the endoscope reprocessor 1, a chemical liquid tank 20 and a configuration for taking a chemical liquid in and out of the chemical liquid tank 20.

As shown in FIG. 2, the endoscope reprocessor 1 includes a drug solution bottle connecting portion 60, a first pipe line 61, a second pipe line 62, a third pipe line 63, a first three-way valve 71, and a second three-way valve 72. , And a pump 70.

The chemical liquid bottle connecting section 60 has a configuration for connecting the chemical liquid bottle 18 storing the chemical liquid as described above. By connecting the chemical liquid bottle 18 to the chemical liquid bottle connecting portion 60, the inside of the chemical liquid bottle 18 and the first conduit 61 are communicated with each other.

The first conduit 61 connects the chemical liquid tank 20 and the chemical liquid bottle connecting portion 60. The first pipe line 61 is open at a height in the chemical liquid tank 20 near the bottom. In addition, in the illustrated embodiment, the first pipe line 61 is opened in the chemical liquid tank 20 on the wall surface of the chemical liquid tank 20, but the first pipe line 61 is the end of the pipe inserted in the chemical liquid tank 20. A part may be opened in the chemical liquid tank 20.

The second conduit 62 connects the processing tank 2 and the middle position of the first conduit 61. In the present embodiment, as an example, the second conduit 62 opens into the processing tank 2 in the chemical liquid nozzle 12 described above. The opening of the second conduit 62 into the processing tank 2 does not have to be a nozzle shape.

The first three-way valve 71 is arranged at a connection portion between the first pipe line 61 and the second pipe line 62. The first three-way valve 71 is in a state in which a portion of the first conduit 61 closer to the drug solution bottle connecting portion 60 than the first three-way valve 71 is in communication with the second conduit 62, and the first three-way of the first conduit 61. The state is switched to one of the state in which the portion on the side of the chemical liquid tank 20 with respect to the valve 71 and the second conduit 62 are in communication.

In the following, for simplification of description, a portion of the first conduit 61 on the chemical solution tank 20 side of the first three-way valve 71 is referred to as an A section 61a, and is located more than the first three-way valve 71 of the first conduit 61. The portion on the chemical liquid tank 20 side is referred to as a B section 61b. That is, the first three-way valve 71 communicates the A section 61a of the first conduit 61 with the second conduit 62, and the B section 61b of the first conduit 61 with the second conduit 62. The state switches to either.

The first three-way valve 71 is connected to the control unit 5, and the operation of the first three-way valve 71 is controlled by the control unit 5. When the first three-way valve 71 is in a state in which the A section 61a of the first conduit 61 and the second conduit 62 are in communication with each other, the B section 61b of the first conduit 61 corresponds to the first conduit 61 of the first conduit 61. Neither the A section 61a nor the second pipeline 62 communicates. Further, when the first three-way valve 71 is in a state where the B section 61b of the first pipeline 61 and the second pipeline 62 communicate with each other, the A section 61a of the first pipeline 61 has the first pipeline 61a. Neither the B section 61b of 61 nor the second conduit 62 communicates.

The third conduit 63 connects the chemical solution tank 20 and the middle position of the second conduit 62. In the illustrated embodiment, as an example, the third pipe line 63 opens into the chemical liquid tank 20 at the end of the pipe inserted into the chemical liquid tank 20, but the third pipe line 63 corresponds to the chemical liquid tank 20. The wall surface may be open to the inside of the chemical liquid tank 20.

The second three-way valve 72 is arranged at the connection portion between the second pipe line 62 and the third pipe line 63. The second three-way valve 72 has a portion of the second pipeline 62 closer to the first pipeline 61 than the second three-way valve 72 and a portion of the second pipeline 62 closer to the processing tank 2 than the second three-way valve 72. The communication is switched to either a communication state or a communication state between a portion of the second pipeline 62 closer to the first pipeline 61 than the second three-way valve 72 and the third pipeline 63.

In order to simplify the description below, a portion of the second pipeline 62 closer to the first pipeline 61 than the second three-way valve 72 is referred to as a C section 62c, and the second three-way valve 72 of the second pipeline 62 is called. The portion closer to the processing tank 2 side than that is referred to as a D section 62d. That is, the second three-way valve 72 is in a state where the C section 62c and the D section 62d of the second pipeline 62 are in communication, and a state in which the C section 62c of the second pipeline 62 and the third pipeline 63 are in communication, Switch to one of.

The second three-way valve 72 is connected to the control unit 5, and the operation of the second three-way valve 72 is controlled by the control unit 5. When the second three-way valve 72 is in a state where the C section 62c and the D section 62d of the second pipeline 62 are in communication, the third pipeline 63 is not in communication with the second pipeline 62. Further, when the second three-way valve 72 is in a state of communicating the C section 62c of the second pipeline 62 and the third pipeline 63, the D section 62d of the second pipeline 62 is the second pipeline. Neither the C section 62c of 62 nor the third conduit 63 communicates.

The pump 70 is arranged in the C section 62c of the second conduit 62. That is, the pump 70 is arranged at a portion of the second conduit 62 between the first three-way valve 71 and the second three-way valve 72. The pump 70 operates to transfer the fluid in the C section 62c of the second conduit 62 in the direction from the first three-way valve 71 to the second three-way valve 72. The pump 70 is connected to the control unit 5, and the operation of the pump 70 is controlled by the control unit 5.

In addition, the endoscope reprocessor 1 of the present embodiment includes a fourth conduit 64 that connects the processing tank 2 and the chemical liquid tank 20, and an opening/closing valve 74 arranged in the fourth conduit 64.

The fourth conduit 64 opens into the processing tank 2 at the drainage port 11. In the illustrated embodiment, as an example, the fourth conduit 64 opens into the chemical liquid tank 20 at the end of the pipe inserted into the chemical liquid tank 20, but the fourth conduit 64 does not. The wall surface may be open to the inside of the chemical liquid tank 20.

The opening/closing valve 74 opens/closes the fourth conduit 64. The opening/closing valve 74 is connected to the control unit 5, and the operation of the opening/closing valve 74 is controlled by the control unit 5. When the open/close valve 74 is closed, the liquid can be stored in the processing tank 2. Further, when the open/close valve 74 is open, the processing tank 2 and the chemical liquid tank 20 are in communication with each other via the fourth pipeline 64. Since the chemical liquid tank 20 is located below the processing bath 2 in the direction of gravity, if the open/close valve 74 is opened when the chemical liquid exists in the processing bath 2, the chemical liquid in the processing bath 2 is It is collected in the chemical liquid tank 20 via the four pipelines 64.

Further, in the present embodiment, as an example, the opening/closing valve 74 is connected to the discharge pipeline 65. The discharge pipe line 65 is connected to, for example, a drainage facility for receiving the liquid discharged from the endoscope reprocessor 1. The open/close valve 74 can also be switched to a state in which a portion of the fourth pipeline 64 closer to the processing tank 2 than the open/close valve 74 communicates with the discharge pipeline 65.

In the state where the liquid is present in the processing tank 2, if the opening/closing valve 74 establishes a state in which the portion of the fourth conduit 64 on the processing tank 2 side of the opening/closing valve 74 and the discharge conduit 65 are in communication with each other, The liquid inside is discharged to the outside of the endoscope reprocessor 1 through the discharge pipe 65. A pump may be provided in the discharge conduit 65.

Next, operations of the first three-way valve 71, the second three-way valve 72, and the pump 70 included in the endoscope reprocessor 1 will be described.

First, with reference to FIG. 3, the operation of transferring the chemical liquid in the chemical liquid bottle 18 into the chemical liquid tank 20 in the endoscope reprocessor 1 will be described. The operation of transferring the drug solution in the drug solution bottle 18 into the drug solution tank 20 is executed, for example, when a new drug solution is supplied from the drug solution bottle 18 to the drug solution tank 20.

In addition, at the time of starting the operation of transferring the drug solution in the drug solution bottle 18 into the drug solution tank 20, the drug solution tank 20 is assumed to be in a state in which the liquid such as the drug solution or water is discharged. Further, it is assumed that the chemical liquid bottle 18 storing the chemical liquid is connected to the chemical liquid bottle connecting portion 60 at the time of starting the operation of transferring the chemical liquid in the chemical liquid bottle 18 into the chemical liquid tank 20. The user connects the chemical liquid bottle 18 to the chemical liquid bottle connecting portion 60.

When transferring the drug solution in the drug solution bottle 18 into the drug solution tank 20, the control unit 5 connects the first three-way valve 71 to the section A 61a of the first conduit 61 and the second conduit 62. Then, the second three-way valve 72 is switched to a state in which the C section 62c of the second conduit 62 and the third conduit 63 are in communication with each other. By the switching operation of the first three-way valve 71 and the second three-way valve 72, as shown by hatching in FIG. 3, from the inside of the chemical liquid bottle 18, the section A 61a of the first pipeline 61, the second pipeline 61a. A flow path reaching the inside of the chemical liquid tank 20 is formed via the C section 62c of 62 and the third pipeline 63.

Then, after executing the switching operation of the first three-way valve 71 and the second three-way valve 72, the control unit 5 starts the operation of the pump 70. Due to the operation of the pump 70, the chemical solution stored in the chemical solution bottle 18 passes through the A section 61a of the first pipeline 61, the C section 62c of the second pipeline 62, and the third pipeline 63, and the chemical solution tank 20. Be transferred in. The control unit 5 stops the operation of the pump 70 when a predetermined volume of the drug solution is transferred into the drug solution tank 20 or when all the drug solutions in the drug solution bottle 18 are transferred into the drug solution tank 20.

By the operation described above, the operation of transferring the drug solution in the drug solution bottle 18 into the drug solution tank 20 in the endoscope reprocessor 1 is completed.

Next, with reference to FIG. 4, an operation of stirring the chemical liquid stored in the chemical liquid tank 20 in the endoscope reprocessor 1 will be described.

When stirring the chemical liquid in the chemical liquid tank 20, the control unit 5 switches the first three-way valve 71 to a state in which the section B 61b of the first pipe line 61 and the second pipe line 62 communicate with each other, and The three-way valve 72 is switched to a state in which the C section 62c of the second conduit 62 and the third conduit 63 are in communication. By the switching operation of the first three-way valve 71 and the second three-way valve 72, as shown by hatching in FIG. 4, from the inside of the chemical liquid tank 20, the section B 61b of the first pipeline 61, the second pipeline 61b. A flow path that returns to the inside of the chemical liquid tank 20 is formed via the C section 62 c of 62 and the third pipeline 63.

Then, after executing the switching operation of the first three-way valve 71 and the second three-way valve 72, the control unit 5 starts the operation of the pump 70. By the operation of the pump 70, the chemical liquid stored in the chemical liquid tank 20 is sucked out from the chemical liquid tank 20, and then the B section 61b of the first pipeline 61, the C section 62c of the second pipeline 62 and the third section. It flows so as to return to the inside of the chemical liquid tank 20 again via the pipe line 63. As a result, the chemical liquid in the chemical liquid tank 20 flows, and the chemical liquid in the chemical liquid tank 20 is agitated. The control unit 5 stops the pump 70 after continuing the operation of the pump 70 for a predetermined time.

By stirring the chemical liquid in the chemical liquid tank 20, the temperature distribution and the concentration distribution of the chemical liquid stored in the chemical liquid tank 20 can be kept uniform. The control unit 5 executes the stirring operation of the chemical liquid in the chemical liquid tank 20 at predetermined time intervals, for example, when the endoscope reprocessor 1 is on standby.

Next, with reference to FIG. 5, an operation of transferring the chemical solution stored in the chemical solution tank 20 into the processing tank 2 in the endoscope reprocessor 1 will be described. In addition, at the time of starting the operation of transferring the chemical liquid in the chemical liquid tank 20 into the processing bath 2, it is assumed that the liquid has been discharged from the processing bath 2.

When transferring the chemical liquid in the chemical liquid tank 20 into the processing tank 2, the control unit 5 connects the first three-way valve 71 to the B section 61b of the first pipeline 61 and the second pipeline 62. Then, the second three-way valve 72 is switched to a state in which the C section 62c and the D section 62d of the second pipeline 62 are communicated with each other. By the switching operation of the first three-way valve 71 and the second three-way valve 72, as shown by hatching in FIG. 5, from the inside of the chemical liquid tank 20, the section B 61b of the first pipeline 61, the second pipeline 61b. A flow path to the processing tank 2 is formed via the C section 62c and the D section 62d of 62.

Further, the control unit 5 switches the open/close valve 74 to the closed state. Then, the control unit 5 starts the operation of the pump 70. The liquid chemical stored in the liquid chemical tank 20 due to the operation of the pump 70 is sucked out from the liquid chemical tank 20, and then the B section 61b of the first pipeline 61 and the C section 62c and the D section of the second pipeline 62. It is transferred into the processing tank 2 via 62c. Since the open/close valve 74 provided in the fourth pipe 64 is in the closed state, the chemical liquid transferred into the processing tank 2 is stored in the processing tank 2. The control unit 5 stops the operation of the pump 70 when a predetermined volume of the chemical liquid is transferred into the processing tank 2.

By the operation described above, the operation of transferring the chemical liquid in the chemical liquid tank 20 into the processing tank 2 in the endoscope reprocessor 1 is completed.

Next, with reference to FIG. 6, the operation of the endoscope reprocessor 1 for collecting the chemical liquid stored in the processing tank 2 into the chemical liquid tank 20 will be described. It is assumed that the opening/closing valve 74 is closed and the chemical solution is stored in the processing tank 2 at the time of starting the operation of collecting the chemical solution in the processing tank 2 into the chemical solution tank 20.

When recovering the chemical liquid in the processing tank 2 into the chemical liquid tank 20, the control unit 5 switches the open/close valve 74 to the open state. By the switching operation of the opening/closing valve 74, as shown by hatching in FIG. 6, a flow path from the inside of the processing tank 2 to the inside of the chemical liquid tank 20 via the fourth pipeline 64 is formed.

Since the chemical liquid tank 20 is located below the processing tank 2 in the gravity direction, the chemical liquid in the processing tank 2 flows into the chemical liquid tank 20 via the fourth pipe line 64 by its own weight. A pump may be provided in the fourth conduit 64, and the control unit 5 may operate the pump to perform an operation of transferring the chemical liquid from the processing tank 2 toward the chemical liquid tank 20.

The control unit 5 switches the open/close valve 74 to the closed state when a predetermined volume of the chemical liquid is collected in the chemical liquid tank 20 or when a predetermined time has elapsed since the open/close valve 74 was opened.

By the operation described above, the operation of collecting the chemical liquid stored in the processing tank 2 in the endoscope reprocessor 1 into the chemical liquid tank 20 is completed.

As described above, the endoscope reprocessor 1 according to the present embodiment includes the chemical liquid tank 20 that stores the chemical liquid, and the chemical liquid bottle connecting portion 60 that connects the chemical liquid bottle 18, and The chemical liquid tank 20 is configured to receive new chemical liquid supply. Then, in the endoscope reprocessor 1 of the present embodiment, as described with reference to FIG. 3, when a new drug solution is supplied from the drug solution bottle 18 to the drug solution tank 20, the drug is stored in the drug solution bottle 18. The chemical liquid is transferred into the chemical liquid tank 20 via the A section 61a of the first pipeline 61, the C section 62c of the second pipeline 62, and the third pipeline 63. That is, in the endoscope reprocessor 1 of the present embodiment, when a new chemical solution is supplied from the chemical solution bottle 18 to the chemical solution tank 20, the chemical solution does not flow in the processing tank 2.

Further, in the endoscope reprocessor 1 of the present embodiment, as described with reference to FIG. 4, when the chemical solution in the chemical solution tank 20 is agitated, the chemical solution is the B section 61 b of the first pipeline 61, It flows through C section 62c of the 2nd pipeline 62, and the 3rd pipeline 63. That is, in the endoscope reprocessor 1 of the present embodiment, when stirring the chemical liquid in the chemical liquid tank 20, the chemical liquid does not pass through the processing tank 2.

That is, the endoscope reprocessor 1 according to the present embodiment keeps the inside of the processing tank 2 regardless of whether the chemical solution is transferred from the chemical solution bottle 18 to the chemical solution tank 20 or the chemical solution in the chemical solution tank 20 is agitated. Since the chemical does not flow, the rinsing operation of the processing tank 2 can be omitted.

Some conventional endoscope reprocessors have a configuration in which the chemical liquid passes through the treatment tank during at least one of the transfer of the chemical liquid from the chemical liquid bottle to the chemical liquid tank and the stirring of the chemical liquid in the chemical liquid tank. .. Since the treatment tank is the place where the user touches it, in the conventional endoscope reprocessor, in order to prevent the chemical liquid from contacting the user, after the chemical liquid flows through the treatment tank, the water inside the treatment tank is It was necessary to perform a rinse action. Compared with such a conventional endoscope reprocessor, the endoscope reprocessor 1 of the present embodiment can omit at least part of the rinsing operation of the processing tank 2.

Then, the endoscope reprocessor 1 of the present embodiment can transfer the drug solution bottle 18 to the drug solution tank 20 and agitate the drug solution in the drug solution tank 20 by using one pump 70. Therefore, the endoscope reprocessor 1 of the present embodiment can realize the omission of the rinsing operation of the processing tank 2 with a simple configuration.

The present invention is not limited to the above-described embodiments, and can be appropriately modified within the scope not departing from the gist or idea of the invention that can be read from the claims and the entire specification, and an endoscope with such modifications can be used. A processor is also included in the technical scope of the present invention.

1 endoscope reprocessor,
1a body part,
2 treatment tanks,
3 lid,
5 control unit,
6 power supply,
7 operation part,
8 display,
11 drainage port,
12 chemical nozzle,
13 circulation port,
13a circulation line,
14 circulation nozzle,
15 Cleaning liquid nozzle,
16 endoscope connection part,
17 accessory case,
18 chemical bottles,
20 chemical tanks,
30 endoscope circulation line,
31 delivery line,
31a flow path switching unit,
31b endoscope connection line,
31c Case connection line,
32 channel block,
33 circulation pump,
34 Intake line,
35 air pump,
37 alcohol tank,
38 alcohol pipeline,
39 alcohol pump,
40 processing tank circulation line,
41 flow pump,
42 three-way valve,
43 water supply line,
44 water filter,
45 water inlet valve,
46 water supply connection,
49 water supply,
50 cleaning liquid tank,
51 cleaning liquid line,
52 Cleaning liquid pump,
60 chemical bottle connection,
61 first conduit,
61a A section,
61b B section,
62 second conduit,
62c C section,
62d D section,
63 Third line,
64 fourth line,
65 discharge line,
70 pumps,
71 1st three-way valve,
72 Second three-way valve,
74 Open/close valve.

Claims (2)

A processing tank in which an endoscope is placed,
A chemical tank for storing chemicals,
A chemical bottle connecting part for connecting a chemical bottle storing a chemical solution,
A first conduit connecting the chemical liquid tank and the chemical liquid bottle connecting portion;
A second pipeline connecting the treatment tank and the midway position of the first pipeline;
A third conduit connecting the chemical solution tank and the middle position of the second conduit;
A first three-way valve disposed at a connection portion between the first pipeline and the second pipeline,
A second three-way valve arranged at a connection portion between the second pipeline and the third pipeline;
A pump disposed in a portion of the second conduit between the first three-way valve and the second three-way valve;
Endoscope reprocessor including. A fourth conduit connecting the processing tank and the chemical tank,
An on-off valve arranged in the fourth conduit,
The endoscopic reprocessor according to claim 1, further comprising:

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