JP2017205396A - Endoscope washing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an endoscope washing device that can inhibit water remaining in a water supply pipe and a filter from dripping when the filter is changed, in an endoscope washing device having a filter on a water supply route.SOLUTION: A washing sterilization tank with a water filter Fr1 provided on a water supply pipe 29 includes: an air pump AP1; and an air supply passage (bypass tube 28 and the like) from the air pump AP1 to the water filter Fr1, thereby allowing air blow with respect to the water filter Fr1.SELECTED DRAWING: Figure 6

Description

  The present invention relates to an endoscope cleaning apparatus for cleaning and disinfecting a medical endoscope.

A medical endoscope is used by being inserted into a body for the purpose of observing the inside of a human body. Therefore, it is necessary to perform cleaning and disinfection after use, and an endoscope cleaning apparatus is used as an apparatus for that purpose.
Japanese Patent Application Laid-Open No. 2004-151867 discloses a conventional technique related to such an endoscope cleaning apparatus.

JP 2005-287581

As described in Patent Document 1 as the filtering means 13, a filter is provided in a water supply path (basically, a water supply pipe having a water supply as a supply source) for the endoscope cleaning apparatus. It is normal.
The said filter filters the water supplied from a water supply source (water supply), and is replaced | exchanged for every fixed use period.
In the replacement process of the filter, the water supply pipe is naturally closed, but there is a problem that water remaining in the water supply pipe or the filter may drip when removing the filter.

  In view of the above points, the present invention provides an endoscope cleaning apparatus having a filter on a water supply path, and an endoscope capable of suppressing dripping of water remaining in the filter when the filter is replaced. An object is to provide a cleaning device.

(Configuration 1)
A cleaning / disinfecting tank that is a tank for cleaning / disinfecting the endoscope, a water supply line for supplying water to the cleaning / disinfecting tank from a water supply source, a filter provided on the water supply line, and an air blow to the filter An endoscope cleaning apparatus comprising: an air supply unit to perform.

(Configuration 2)
The endoscope cleaning apparatus according to Configuration 1, wherein in the filter replacement process, the air supply unit performs an air blow on the filter before the filter is removed.

(Configuration 3)
The air supply unit is configured by an air pump and an air supply pipe connecting the air pump and the water supply pipe, and a valve for controlling water supply from the water supply source is provided on the water supply pipe, The endoscope cleaning apparatus according to Configuration 1 or Configuration 2, wherein the air supply pipeline is connected to the water supply pipeline between the valve and the filter.

(Configuration 4)
The endoscope cleaning apparatus according to Configuration 3, further comprising a pressure relief valve for the water supply pipe line between the valve and the filter.

(Configuration 5)
The endoscope cleaning apparatus according to Configuration 4, wherein the water supply conduit is depressurized by opening the depressurization valve after air blow to the filter.

(Configuration 6)
The endoscope cleaning apparatus according to any one of the first to fifth aspects, further comprising a disinfecting liquid supply unit that supplies a disinfecting liquid to the water supply pipe line.

(Configuration 7)
The structure 6 is configured such that an air blow is performed on the filter before, after, or before or after the process of supplying the disinfecting liquid from the disinfecting liquid supply unit to the water supply pipe line. Endoscope cleaning device.

  According to the endoscope cleaning apparatus of the present invention, since the air supply unit that blows air to the filter is provided, in the filter replacement process, water can be drained by the air blow to the filter, and water droops during replacement work. Can be deterred.

The perspective view which shows the external appearance of the endoscope cleaning apparatus of embodiment which concerns on this invention. It is a figure which shows the washing | cleaning disinfection tank part of the endoscope cleaning apparatus which concerns on embodiment, (a) is a top view, (b) is sectional drawing along the AA line of Fig. (A). Fluid system diagram related to the present invention of an endoscope cleaning apparatus according to an embodiment The flowchart which shows the outline of the processing operation | movement of the water filter replacement | exchange process in the endoscope cleaning apparatus which concerns on embodiment. The flowchart which shows the outline of the process operation | movement of the all-pipe disinfection process in the endoscope cleaning apparatus which concerns on embodiment. Fluid system diagram showing the air supply path during air blow to the water supply pipeline (including water filter)

  Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings. In addition, the following embodiment is one form at the time of actualizing this invention, Comprising: This invention is not limited within the range.

FIG. 1 is a perspective view showing an appearance of an endoscope cleaning apparatus according to an embodiment of the present invention. As shown in the figure, the endoscope cleaning apparatus 1 includes a cleaning / disinfecting tank 11 on an upper part of a rectangular parallelepiped main body, and an endoscope (not shown) is set in the cleaning / disinfecting tank 11. After the cleaning tank cover 13 is closed (when the cleaning tank cover 13 is opened, it is opened by stepping on the opening / closing pedal 14), and the touch panel 15 that is an input / output unit for the user is operated to clean the endoscope. -It is a device where disinfection is performed.
When the endoscope is set in the cleaning / disinfecting tank 11, the piping (cleaning liquid / disinfecting liquid / rinsing liquid) of the cleaning / disinfecting tank 11 is connected to the suction channel, the air / water supply channel, the forceps channel, and the forceps raising channel of the endoscope. A tube for supplying water or air into the endoscope is connected, and the endoscope is placed so as to be wound around the island 111 in the center.
As a result, the outside of the endoscope is cleaned and disinfected while the cleaning liquid and the disinfecting liquid are accumulated in the cleaning / disinfecting tank 11, and the inside is also cleaned and disinfected at the same time.

FIG. 2 is a view mainly showing the vicinity of the cleaning / disinfecting tank 11 of the endoscope cleaning apparatus 1. FIG. 2 (a): top view, FIG. 2 (b): along line AA in FIG. 2 (a). FIG.
As shown in FIG. 2, the cleaning / disinfecting tank 11 includes an island 111 formed in the vicinity of the center, and an operation section and a connection section of an endoscope formed mainly on the front side of the apparatus (left side in FIG. 2). A deep bottom portion 112 to be placed, and a shallow bottom portion 113 to be formed on the back side of the apparatus (right side in FIG. 2), on which mainly the insertion portion of the endoscope is placed.
Although the operation section and the connection section of the endoscope are bulky, the insertion section is basically a simple tube, and therefore has a depth that is necessary and sufficient to accommodate (immerse) each. In addition, when the endoscope having a basically long tube shape is stored in the cleaning / disinfecting tank 11, it is wound in a circular shape, and a space is formed at the center thereof. Fill the space. Accordingly, in the endoscope cleaning apparatus 1 of the present embodiment, the amount of liquid for immersing the endoscope can be minimized, and the running cost (the amount of necessary disinfectant, etc.) can be reduced. In addition, the cleaning and disinfection time can be shortened (water injection and drainage time can be shortened).
In the cleaning / disinfecting tank 11, the circulating nozzle 20 (forward rotating nozzle 201, reverse rotating nozzle 202) for supplying a circulation to the cleaning liquid and the like stored in the cleaning / disinfecting tank 11 in the cleaning process and the back surface of the cleaning tank cover 13 are cleaned. A lid back nozzle 21 for disinfection, a disinfection faucet 18 for supplying a disinfectant solution to the cleaning / disinfecting tank 11, and a water supply port 19 for supplying water (tap water supplied from a water supply source) to the cleaning / disinfecting tank 11 are provided.
A circulation port 114 is formed in the deep bottom portion 112 of the cleaning / disinfecting tank 11, and a float switch 17 for detecting the liquid level of the cleaning / disinfecting tank is disposed in the shallow bottom portion 113.
Furthermore, each of the couplers 26 (suction coupler 261, forceps) for connecting to the cleaning / disinfecting tank 11 via the tube with the suction channel of the endoscope, the forceps raising channel, the air / water feeding channel, and the forceps channel, respectively. A rising coupler 262, an air / water coupler 263, and a forceps coupler 264) are provided, and an all-channel disinfecting connection port 27 connected to any one of these via the bypass tube 28 is provided.

The circulating nozzle 20 has a forward rotating nozzle 201 which is a first rotating nozzle that gives a first rotating flow to the liquid in the cleaning / disinfecting tank 11 by a jet flow, and a second rotating flow whose rotation direction is opposite to that of the first rotating flow. And a reverse flow nozzle 202 which is a second flow nozzle to be provided.
As shown in FIG. 2B, the forward recirculation nozzle 201 and the reverse recirculation nozzle 202 have their injection ports lower than the liquid level LL of the cleaning liquid in the endoscope cleaning process, and are cleaned and disinfected. It arrange | positions so that it may become higher than the shallow bottom part 113 of the tank 11. FIG. On the other hand, the disinfection faucet 18 and the water supply port 19 are disposed so as to be higher than the liquid level LL.

The island 111 formed in the vicinity of the center of the cleaning / disinfecting tank 11 is formed in a substantially cylindrical shape, and an overflow port having an open / close lid (OF valve 121) is provided on the upper surface thereof. As shown in FIG. 2B, an OF valve unit 12 including an OF valve 121 serving as an opening / closing lid is provided on the device 111 side of the island 111. The OF valve unit 12 is provided with an opening / closing mechanism for opening / closing the OF valve 121 (a mechanism for opening / closing the OF valve in response to an instruction from a control unit (microcomputer or the like) by providing a solenoid or the like), and overflow. A drainage path for the liquid flowing out from the mouth is formed (connected to a drainage pipe connecting the drainage tank).
In addition, on the island 111, a lid back nozzle 21 is provided for ejecting a cleaning liquid, a disinfecting liquid, or the like to the back surface of the cleaning tank cover 13 in order to clean and disinfect the back surface of the cleaning tank cover 13.

FIG. 3 is a fluid system diagram relating to the present invention of the endoscope cleaning apparatus 1.
As shown in the figure, the endoscope cleaning apparatus 1 includes a disinfecting tank 22 in which a disinfecting liquid (disinfectant) is stored, a drain tank 23 that is a buffer for temporarily storing drained liquid, and a cleaning liquid (detergent). A detergent tank 24, and an alcohol tank 25 in which alcohol is stored.
In addition, various valves (electromagnetic valves, motor valves, hand valves, check valves, pressure adjusting valves) represented by SV, MV, HV, CV, and RV, and pumps represented by P (P and YP are liquid pumps) AP is an air pump), each filter represented by Fr, each float switch (liquid level sensor) represented by Fts, each pressure sensor represented by PsM, and the like.
In addition, each valve (except a manual valve) and a pump are controlled by a control unit (microcomputer or the like) (not shown), and a signal from each sensor is input to the control unit. Similarly, the touch panel 15 serving as an input / output unit for the user is also connected to a control unit (not shown) to exchange information.

The endoscope cleaning apparatus 1 has a water supply line 29 for supplying water to a cleaning / disinfecting tank 11 from a connection port (not shown) connected to a water supply source (water supply). Is provided with a valve SV1 for controlling water supply from the water supply source, a water filter Fr1, a pressure sensor PsM2, a pressure adjustment valve RV1, and the like (the valve SV1 is provided on the water supply source side with respect to the water filter Fr1). The water filter Fr1 is provided on the water supply line 29 in order to filter tap water (supplement foreign matter and bacteria).
The endoscope cleaning apparatus 1 is provided with an air supply unit that can perform air blowing on the water filter Fr1. The air supply unit includes an air pump AP1 and an air supply pipe line that connects the air pump AP1 and the water supply pipe line 29. The air pump AP1 uses an air supply device for supplying air into the endoscope. Therefore, the air supply line extends from the air pump AP1 to any one of the connection couplers 26 (in this embodiment, the air supply / water supply coupler 263). A bypass tube 28 connected to the pipe line and any one of the connection couplers 26 (the air / water supply coupler 263 in this embodiment), and the valve HV1 from the all-pipe disinfection connection port 27 to which the other end of the bypass tube 28 is connected. And a pipe line 30 connecting the valve HV1 to the water supply pipe line 29 between the valve SV1 and the water filter Fr1.
In addition, a pipe line 32 that forms a drainage path from the valve HV1 (connects to the drainage tank 23) is provided (forms the flow path 1), and a water supply pipe line 29 (air supply pipe) that is between the valve SV1 and the water filter Fr1. The section 31 to which the path is connected is also provided with a pipe 31 that constitutes the drainage (connected to the drainage tank 23) (the pipe 30 and the pipe 31 form the flow path 2). That is, the valve HV1 switches between the flow paths 1 and 2. A valve SV13 (pressure relief valve) is provided on the pipe line 31 so that the flow path 2 can be opened and closed.
As described above, the pipes 33 and 30 are connected to any one of the connection couplers 26 (in this embodiment, the air / water supply coupler 263) via the bypass tube 28. It is also possible to supply a disinfectant solution to the paths 33 and 30. That is, the endoscope cleaning apparatus 1 includes a disinfecting liquid supply unit that supplies a disinfecting liquid to the water supply pipe 29, and the disinfecting liquid supplying unit includes the disinfecting tank 22 and the disinfecting tank 22 to the connection coupler 26. A flow path (including the pump P1, the cleaning / disinfecting tank 11, the pump P3, etc.) to any one (in this embodiment, the air / water supply coupler 263), the bypass tube 28, and the pipelines 33 and 30 are configured.

  Next, an outline of the processing operation of the endoscope cleaning apparatus 1 having the above configuration when the water filter Fr1 is replaced will be described. In addition, although description of the process main body is abbreviate | omitted in each process, control of each valve | bulb, each pump, etc. are controlled by the control parts (microcomputer etc.) which are not shown in figure as above-mentioned.

FIG. 4 is a flowchart showing an outline of the entire processing operation of the water filter replacement process.
When water filter replacement processing is selected from the operation menu by the user's operation on the touch panel 15, a screen prompting the user to switch the valve HV1, which is a hand valve, connect the bypass tube 28, and close the water supply main tap is displayed on the touch panel 15. A display process is performed (step 401).
On the other hand, the user performs an operation of switching the valve HV1 to the flow path 2 side, an operation of connecting the air / water supply coupler 263 and the all-pipe disinfection connection port 27 with the bypass tube 28, and an operation of closing the water supply main plug, An OK button indicating the end of the switching operation is input on the touch panel 15.
In the endoscope cleaning apparatus 1 that has been waiting for the input of the OK button (the loop of Step 402: No → Step 401 has been executed), the process proceeds to Step 403 by the input of the OK button (Step 402: Yes). Check whether the water supply main plug is closed. The confirmation is made by opening the valve SV1 and determining whether or not the value of the pressure sensor PsM2 exceeds a threshold value (or whether or not the value fluctuates) (the valve SV1 is closed when the confirmation process is completed). Although not shown, error processing (such as warning display) is performed when the threshold value is exceeded.

When pipeline switching (formation of an air supply pipeline for performing air blow to the water filter Fr1) is performed in steps 401 to 403, the valves SV7 and 9 are opened, and the valves SV1, 6, 8, 10, 11, 13, 14 is closed. (Each valve is basically controlled to open when necessary and closed otherwise. Therefore, unless otherwise specified, the description is to be closed control for a valve that is already closed.) By omitting the description of closing the opened valve after processing), an air supply path from the air pump AP1 to the water supply port 19 is formed, the air pump AP1 is activated to perform air blow, and the water supply line 29 (water The water in the filter Fr1 is pushed into the cleaning / disinfecting tank 11. Thereby, the water remaining in the water supply conduit 29 and the water filter Fr1 is discharged. FIG. 6 is a fluid system diagram showing an air supply path at the time of air blow to the water supply pipe line 29 (including the water filter Fr1).
Although not shown in the flowchart of FIG. 4, the value of the pressure sensor PsM2 is monitored at the time of the air blow, and if this does not reach a predetermined value, the air supply from the air pump AP1 or the air pump AP1 to the water supply line 29 is performed. Judge that there is an abnormality in the road, stop the air blow and perform error processing (warning display etc.).

  After the air blow is performed for a predetermined period, the air pump AP1 is stopped to end the air blow, the valves SV9, 13, 14, and MV1 and 2 are opened, and the pressure relief processing of the pipe line is performed (step 405). The depressurizing process is to release the pressure remaining in each pipeline according to the bubble point of the filter. Speaking of the water supply line 29, since the pressure is increased by an amount corresponding to the bubble point of the water filter Fr1 with respect to the atmospheric pressure (water supply port 19), by opening the valve SV13 which is a pressure release valve, The residual pressure in the water supply pipe 29 (between the water filter Fr1 and the valve SV1) is opened.

After the depressurization process of the pipe line, a process of replacing the water filter Fr1, switching to the flow path 1 side of the valve HV1, which is a hand valve, and displaying a screen for prompting an operation for opening the water supply source plug on the touch panel 15 is performed. (Step 406).
On the other hand, the user performs the operation of replacing the water filter Fr1, the operation of switching the valve HV1 to the flow path 1 side, and the operation of opening the water supply main plug, and inputs an OK button indicating the end of the operation on the touch panel 15.
In the endoscope cleaning apparatus 1 that has been waiting for the input of the OK button (the loop of Step 407: No → Step 406 has been executed), the process proceeds to Step 408 by the input of the OK button (Step 407: Yes). By opening the valves SV7 and SV9 and starting the air pump AP1, it is determined whether or not the value of the pressure sensor PsM2 exceeds a predetermined value (or whether or not the value fluctuates). The pressure relief process (opens the valves SV9, 13, 14) is executed after the confirmation is completed (if the valve HV1 is not switched, the water supply line is 29, the pressure remains, so this is removed). Although illustration is omitted, if it is determined that the valve HV1 is not switched, error processing (warning display or the like) is performed.

In the subsequent step 409, it is confirmed whether or not the water supply main tap is correctly opened by opening the valve SV1 and checking whether or not the value of the pressure sensor PsM2 exceeds the threshold value (or whether or not the value fluctuates). In the case of error handling (warning display etc.)).
In the last step 410, rinsing / drainage treatment is performed. The rinsing is performed as air bleeding for the water supply pipe 29 and the water filter Fr1.
Rinsing is performed by circulating the water in the cleaning / disinfecting tank 11 through the pipe line by the pump P3. Water injection is performed by setting the valve SV1 as it is when it is determined in step 409 that the water supply main tap is correctly opened.
When the liquid level in the cleaning / disinfecting tank 11 measured by the float switch 17 reaches a predetermined level, the pump P3 is activated, and the valves SV2 to 5 and 8 to 11 are alternately opened and closed as appropriate. Rinse water is sent alternately to the nozzle 20 and the lid back nozzle 21. During the rinsing, the “flowing” method is performed by opening the OF valve 121 while continuing the supply of water (SV1 opening). By feeding the liquid to each coupler 26 (air / water coupler 263), the inside of the bypass tube 28 is also rinsed (this rinse water is discharged from the flow path 1).
After rinsing (air bleeding process) for a predetermined period, the valves SV6, 8-11 and the OF valve 121 are opened, the air pump AP1 is activated to drain the pipe (air blow), and the valve MV2 is driven while the pump P3 is driven. Opening and draining the cleaning / disinfecting tank 11 (further draining the drain tank 23 by driving the pump P2). The opening of the OF valve 121 during air blowing is to function as a release valve.
When the rinsing / drainage process is completed, an instruction to remove the bypass tube 28 is displayed on the touch panel 15 and the process is terminated.

As described above, according to the endoscope cleaning device 1 of the present embodiment, in the water filter replacement process, water is cut by air blow to the water supply line 29 and the water filter Fr1, so that water is replaced in the water filter replacement operation. The drooping is suppressed.
In addition, in the water supply pipe line where the water filter is provided by this air blow process, the pressure may be higher than the atmospheric pressure by an amount corresponding to the bubble point of the water filter. Although there are cases where water droplets and air are ejected, according to the endoscope cleaning apparatus 1 of the present embodiment, since air is vented after air blowing, ejection during water filter replacement is suppressed.

  Next, an outline of the processing operation for the entire line disinfection of the endoscope cleaning apparatus 1 of the present embodiment will be described. All-pipe disinfection is mainly intended to disinfect the water supply line 29 that is not disinfected during normal use (no disinfectant is supplied).

FIG. 5 is a flowchart showing an outline of the processing operation of the all-pipe disinfection processing (Note that the same description is omitted for the components having the same processing concept as FIG. Simplify).
When the all-pipe disinfection process is selected from the operation menu by the user's operation on the touch panel 15, the pipe switching to the air blow process are performed (step 501). The said process is the same as that of steps 401-405 of a water filter exchange process (FIG. 4) (it abbreviate | omits description here). Thereby, the bypass tube 28 is connected and the valve HV1 is switched to the flow path 2 side.

In the subsequent step 502, drainage treatment of the pipe line and the cleaning / disinfecting tank 11 is performed. The water pushed out by the air blow after the bypass tube 28 is connected in step 501 and drained in the cleaning / disinfecting tank 11 is drained. The drainage of the pipe line and the cleaning / disinfecting tank 11 is the same as the drainage in Step 410 of FIG. 4, but here, the air supply to the bypass tube 28 is not performed (SV9 closed).
By draining each pipe line by air blow after connecting the bypass tube 28 and draining the cleaning / disinfecting tank 11 by the processing of steps 501 to 502, the disinfectant passing through these channels is diluted in the subsequent disinfection process. Can be suppressed.

When the drainage of each pipeline and the cleaning / disinfecting tank 11 is completed, the entire pipeline is sterilized (step 503).
The disinfecting process is performed by circulating the disinfecting liquid stored in the cleaning / disinfecting tank 11 through the pipe using the pump P3. Specifically, first, the pump P1 is driven, and the disinfectant is stored in the cleaning / disinfecting tank 11 (the pump P1 is stopped at a predetermined level based on the float switch 17). Next, the pump P3 is started, and the valves SV2 to 5 and 8 to 11 are appropriately opened and closed, so that the disinfecting liquid is alternately ejected from each coupler 26, the circulating nozzle 20, and the lid back nozzle 21. By disinfecting the disinfectant from each coupler 26 (air / water coupler 263) to the bypass tube 28, the disinfectant is also supplied to the water supply pipe 29 (including the water filter Fr1). At this time, since the valve SV1 is closed (or the check valve in the RV1) and the valve SV13 is also closed, the disinfecting liquid supplied to the water supply line 29 returns from the water supply port 19 to the cleaning / disinfecting tank 11.
When the entire pipe disinfection process is performed for a predetermined time, the process proceeds to step 504, the valves SV7 and 9 are opened, and the air pump AP1 is activated to perform air blow to the water supply pipe 29 and the water supply pipe 29 (including the water filter Fr1). ) The disinfecting liquid inside is pushed out into the cleaning disinfecting tank 11 (disinfecting liquid recovery).

After pushing out the disinfectant solution in the water supply line 29 (including the water filter Fr1), a process for displaying on the touch panel 15 a screen for prompting the switching to the flow path 1 side of the valve HV1 which is a hand valve and opening the water supply source plug. Perform (step 505).
On the other hand, the user performs an operation of switching the valve HV1 to the flow path 1 side and an operation of opening the water supply main plug, and inputs an OK button indicating the end of the operation on the touch panel 15.
In the endoscope cleaning apparatus 1 waiting for the input of the OK button (the loop of Step 506: No → Step 505 was executed), the process proceeds to Step 507 by the input of the OK button, and the disinfectant is discarded. A screen for requesting whether to collect is displayed on the touch panel 15 (step 507).

If the instruction from the user to step 507 is “discard”, the process proceeds to the disinfectant disposal process of steps 508 to 510.
In the disinfecting liquid disposal process, first, the disinfecting liquid waste in the cleaning / disinfecting tank 11 is performed (step 508). The processing contents are the same as the waste water treatment in step 502.
After disinfecting the disinfectant, processing is performed to confirm whether the valve HV1 has been switched to the flow path 1 side and to confirm that the water supply source plug is open. This processing is the same as steps 408 and 409 in FIG.
Next, the pump P1 is driven to send all the disinfecting liquid remaining in the disinfecting tank 22 into the cleaning / disinfecting tank 11, and this is drained (step 509). As a result, the entire amount of the disinfectant is discarded, and then the sterilization process of the sterilized tank 22 which has been emptied is performed (step 510).
In the rinsing process of the sterilization tank 22, the valve SV1 is opened to inject water into the cleaning / disinfecting tank 11, and the water stored in the cleaning / disinfecting tank 11 is supplied to the disinfection tank 22 by opening the valve MV1 and driving the pump P3. Further, the pump P1 is driven to send all the water supplied to the sterilization tank 22 into the cleaning sterilization tank 11, and the rinsing process of the sterilization tank 22 is completed by draining the water.
Through the processing in these steps 508 to 510, the entire amount of the disinfecting liquid is discarded and the disinfecting tank 22 is rinsed.

On the other hand, if the instruction from the user to step 507 is “collection”, the process proceeds to the disinfectant collection process of steps 511 to 409.
In the disinfectant recovery process, first, the disinfectant in the cleaning / disinfecting tank 11 is recovered (step 511). To collect the disinfectant, the valves SV6 to 8, 10 and 11 are opened, the air pump AP1 is activated, the disinfectant in the pipeline is pushed into the cleaning disinfecting tank 11, and the valve MV1 is opened while the pump P3 is driven to disinfect the disinfectant. By returning to the disinfection tank 22.
After collection of the disinfectant solution, processing is performed to check whether the valve HV1 has been switched to the flow path 1 side and to confirm that the water supply source plug is open. This processing is the same as steps 408 and 409 in FIG.

  When the disinfectant disposal process in steps 508 to 510 or the disinfectant recovery process in steps 511 to 409 is completed, the rinsing / drainage process is finally performed. This process is the same as step 410 in FIG. 4. When the rinsing / drainage process is completed, an instruction to remove the bypass tube 28 is displayed on the touch panel 15 and the process ends.

As described above, according to the endoscope cleaning apparatus 1 of the present embodiment, the water supply line 29 that is not sterilized during normal use (no sterilizing solution is supplied) can also be sterilized.
Further, in the running cost of the endoscope cleaning apparatus 1, the proportion of the cost of the disinfecting liquid that must be replaced a predetermined number of times is high, and therefore an endoscope cleaning apparatus that does not waste the disinfecting liquid as much as possible is required. However, according to the endoscope cleaning apparatus 1 of the present embodiment, the disinfectant liquid collected in the water supply line 29 and the water filter Fr1 is collected by air blow to the water supply line 29 and the water filter Fr1 after the disinfection process. Therefore, the recovery rate of the disinfectant can be increased.
In addition, since each pipe is drained by air blow before the disinfection treatment, dilution of the disinfectant passing through these channels is suppressed by the disinfection treatment.

  In this embodiment, the air blow air pump for the water supply pipe and the water filter is shared with the air pump used for supplying air into the endoscope (some pipes are also shared), reducing costs. Although it is excellent because it can be miniaturized, an air pump for air blow to the water supply pipe or the water filter may be provided separately from the air pump used for supplying air into the endoscope. Further, the air blow pipe and the water supply pipe are partially shared (for example, the bypass tube 28), but may be independent pipes.

  In the present embodiment, the water filter replacement process and the all-pipe disinfection process are described as independent processes. However, both processes may be integrated. For example, when the disinfectant is passed through the water filter by all-pipe disinfection, it is assumed that the water filter is replaced, and the water filter replacement process is executed following the all-pipe disinfection process (step 410 in FIG. 5). 4 may be used), or the water filter may be replaced in accordance with the disposal of the disinfectant (during the disinfectant disposal process (continuing to step 510 in FIG. 5)). 4).

  In the embodiment, a hand valve is described as an example of a valve (HV1) that switches between the flow paths 1 and 2, but switching may be automated by using a three-way valve or the like. That is, instead of the process instructing manual switching of the valve HV1 in steps 401, 406, S505, etc., a process of automatically switching between the flow paths 1 and 2 may be performed by the apparatus.

1. . . Endoscope cleaning device 11. . . Cleaning / disinfecting tank 28. . . Bypass tube (supply line)
29. . . Water supply line AP1. . . Air pump (air supply part)
Fr1. . . Filter P1. . . Pump (disinfectant supply unit)
SV1. . . Valve (valve that controls water supply from the water supply source)
SV13. . . Valve (pressure relief valve)

Claims (7)

A cleaning and disinfecting tank that is a tank for cleaning and disinfecting the endoscope;
A water supply line for supplying water from a water supply source to the cleaning / disinfecting tank;
A filter provided on the water supply pipeline;
An air supply section for performing air blow on the filter;
An endoscope cleaning apparatus comprising: In the filter replacement process,
The endoscope cleaning apparatus according to claim 1, wherein an air blow is performed on the filter by the air supply unit before the filter is removed. The air supply unit is constituted by an air pump, and an air supply line connecting the air pump and the water supply line,
A valve for controlling water supply from the water supply source is provided on the water supply pipeline,
The endoscope cleaning apparatus according to claim 1 or 2, wherein the air supply pipe is connected to the water supply pipe between the valve and the filter.   The endoscope cleaning apparatus according to claim 3, wherein a pressure release valve is provided for the water supply pipe line between the valve and the filter.   The endoscope cleaning apparatus according to claim 4, wherein the air supply pipe is depressurized by opening the depressurization valve after air blow to the filter.   The endoscope cleaning apparatus according to any one of claims 1 to 5, further comprising a disinfectant supply unit that supplies a disinfectant to the water supply pipe.   The air blow to the filter is configured to be executed before, after, or before and after the process of supplying the disinfecting liquid from the disinfecting liquid supply unit to the water supply pipe. The endoscope cleaning apparatus described.

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