JPH0322170B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an endoscope cleaning device that can selectively supply cleaning water and chemical solutions to a cleaning tank.

Generally, endoscope cleaning devices are known that are capable of not only simply cleaning the endoscope with cleaning water, but also disinfecting it with a chemical solution after cleaning. In such a cleaning device, it is necessary to be able to selectively supply the cleaning tank and the chemical solution to the cleaning tank in which the endoscope is accommodated. Therefore, the cleaning tank is connected via piping to a water supply tank containing cleaning water and a chemical solution tank containing a chemical solution via a fluid control device such as a pump or a switching valve.

Further, since the chemical liquid is used repeatedly, the outlet of the cleaning tank and the chemical liquid tank are connected via a switching valve so that the chemical liquid can be recovered from the cleaning tank. Therefore, when a predetermined amount of chemical solution is stored in the cleaning tank and the endoscope is immersed in the chemical solution for sterilization, the switching valve installed between the cleaning tank and the chemical tank may be malfunctioning, causing the chemical solution to flow into the chemical tank. If there is a leak, the water level of the chemical solution in the cleaning tank will drop and the endoscope will not be immersed in the chemical solution, or if the water solenoid valve commonly connected to the chemical pump is left open, the water level of the chemical solution in the cleaning tank will drop. The liquid that entered the container was water, and no disinfecting effect could be expected.

However, in conventional cleaning devices, after the chemical liquid is supplied to the cleaning tank, it is not detected that the chemical liquid is leaking from the cleaning tank to the chemical liquid tank, so the endoscope is not reliably immersed in the chemical liquid. This could lead to serious problems such as people using the endoscope without knowing that it is unsanitary.

This invention was made based on the above circumstances, and its purpose is to detect whether or not the water level of the chemical tank rises after the chemical liquid in the chemical tank is supplied to the cleaning tank. To provide an endoscope cleaning device capable of detecting leakage of a chemical solution from a cleaning tank into a chemical tank during disinfection.

An embodiment of the present invention will be described below with reference to the drawings. Reference numeral 1 in FIG. 1 is a main body of an endoscope cleaning apparatus, and inside the main body 1 of the apparatus there is provided a cleaning tank 2 (shown in FIG. 4) having an open top surface. The opening of the cleaning tank 2 is closed by a cover 3 that can be opened and closed. Then, by installing an endoscope (not shown) inside the cleaning tank 2,
This endoscope can be automatically cleaned and disinfected using cleaning water and chemical solutions, as will be described later.

An endoscope fixing site 4 consisting of a recess is provided at the left end of the front end of the top surface of the device body 1, and this fixing site 4 is used to clean and disinfect an endoscope whose insertion section can only be cleaned. When doing so, the operating section is installed. In addition, near the fixed part 4, there are a plurality of supply ports 5 connected to the operation part installed in the fixed part 4 by a tube (not shown) for supplying cleaning water and chemical solutions to the channels of the endoscope. ...is provided. Furthermore, in endoscopes that can be completely washed, the operating section is also placed in the cleaning tank.
Since the cleaning tank 2 is installed inside the cleaning tank 2, the supply ports 5 used at that time are installed inside the cleaning tank 2.

In addition, a main panel section 6 constituting an operation panel is provided at the right end portion of the front end of the top surface of the device main body 1.
A sub-panel section 8 is installed below the main panel section 6 at the upper front of the main body 1 of the apparatus. As shown in FIG. 2, the main panel section 6 is provided with switches and displays that are used relatively frequently. As switches, a detergent switch 10, a disinfection switch 11, an overnight switch 12, a stop switch 13, a start switch 14, and a leakage test switch 15 are provided. Additionally, display lamps 16, 17, 1 are provided near the top of each switch 10, 11, 12, 14, 15 except for the stop switch 13 to indicate when each switch is operated.
8, 19, and 20 are provided. The main panel section 6 is also provided with display sections 21a and 21b that display the water washing process and air blowing process during cleaning, and display sections 21c and 21d that display the water washing process and air blowing process during disinfection. Display lamps 22, 23, 24, 25, and 26 are provided above the display sections 21a to 21d. Note that the display lamp 24 is for displaying the disinfection process. Furthermore, the main panel section 6 is provided with a time display 27 consisting of a 4-digit LED that displays the remaining time of the process operation, and the upper right side displays the information when an abnormal situation occurs during the process operation. An abnormality lamp 28 is provided.
All of the switches mentioned above are touch-type switches that can be operated simply by touching them, and are also seat-type switches whose external shapes do not protrude from the surface of the main panel section 6. Further, the display devices are also provided so as not to protrude from the surface of the main panel section 6. In other words, the surface of the main panel section 6 has a flat shape as a whole.

On the other hand, as shown in FIG. 3, the sub-panel section 8 has switches such as a push-button power switch 31, a flush time setting timer 32 consisting of a click-type dial switch, and a disinfection time setting timer 3.
3. A manual water flushing switch 34 consisting of a two-action switch, an air switch 35, and a discharge switch 36 for discharging the chemical solution in the cleaning tank 2 are provided. The two-action switch is turned on by the first operation and turned off by the second operation. In this way, since the sub-panel section 8 is mainly installed with items that are used less frequently, even if the sub-panel section 8 is located in a deep part of the front part of the main body 1 of the device, it will not cause any trouble in use. do not have.

Next, the internal structure of the device main body 1 will be explained based on FIG. 4. There is a water tank 4 inside the device body 1.
0, a detergent tank 41 and a chemical tank 42 are provided. The upper part of the water supply tank 40 is connected to a tap water faucet 45, which is a water supply source, via a filter 43 and a first switching valve 44. Furthermore, a first water level detection device 46 is provided within the water supply tank 40 . This first water level detection device 46 is
It has first to third contact sections 47a, 47b, and 47c for detecting water levels at different heights, and various devices are controlled as described later by the on/off states of these contact sections 47a, 47b, and 47c. ing. Additionally, a communication pipe 4 is provided at the top of the water supply tank 40.
8 connects one end. The other end of this communication pipe 48 communicates with the cleaning tank 2, and the water supply tank 40
When too much cleaning water is supplied to the air vent and water supply tank 40, it is released to the cleaning tank 2. Further, a water supply pipe 49 is connected to the bottom of the water supply tank 40. This water supply pipe 49 is connected to a first liquid pump 51 via a second switching valve 50.
is connected to. In addition, the middle part of the water supply pipe 49 is
It is connected to the detergent tank 41 via a third switching valve 52 and an orifice 53, and further connected to a rotary nozzle 55 provided in the cleaning tank 2 via a second liquid pump 54 and a filter 55.
This rotating nozzle 55 is adapted to be rotationally driven by a first motor 56.

Furthermore, a second water level detection device 57 is provided within the chemical tank 42 . This second water level detection device 57 has first to third contact portions 58a, 58b, and 58c that detect water levels of different heights of the chemical liquid stored in the chemical liquid tank 42, and these contact portions 5
Various devices are controlled as described later by the on/off states of 8a, 58b, and 58c. The bottom of the chemical solution tank 42 is connected to a fourth switching valve 5.
It communicates with the first liquid pump 51 via 9. Further, a third switching valve 61 having three positions is connected to the upper part of the chemical tank 42 and is switched by a second motor 60 via a cam (not shown). That is, the fifth switching valve 61 is formed with two outflow ports and one inflow port, and the chemical solution tank 42 is connected to one of the outflow ports. A drain pump 62 is connected to the other outlet, and the inlet is connected to the bottom of the cleaning tank 2. The fifth switching valve 61 is in the first state in which the cleaning tank 2 and the chemical tank 42 are in communication with each other, and in the cleaning tank 2
A second state in which outflow of liquid from the drain pump 62 is blocked and a third state in which the cleaning tank 2 and the drain pump 62 are communicated are switched.

Further, a sixth switching valve 63 is connected to the discharge side of the first liquid pump 51. This sixth switching valve 63 has two outlet ports, one of which communicates with the cleaning tank 2 and the other of which is connected to the mixing header 65 via the first check valve 64 . The mixing header 65 is connected to the discharge side of the second liquid pump 54 via a second check valve 66 and to a first air pump 68 via a third check valve 67. has been done. A seventh switching valve 69 is connected between the first air pump 68 and the third check valve 67, and only when the seventh switching valve 69 is operated to the closed state. Compressed air is supplied to the mixing header 65. Further, the mixing header 65 is provided with a supply port 5 similar to the supply port 5 provided outside the device main body 1, and the supply port 5 is used when cleaning the endoscope, which is entirely washable. An endoscope channel 70 is adapted to be connected.

Further, a third water level detection device 71 is provided within the cleaning tank 2. This third water level detection device 71 has a first contact part 72a and a second contact part 72b that detect water levels at different heights, and various devices will be described later depending on the on/off state of these contact parts 72a and 72b. It's becoming more and more controlled.

Furthermore, a second air pump 73 is provided within the device main body 1. Compressed air from the second air pump 73 is supplied to the inside of the endoscope via a relief valve 74 from a connection port (not shown) provided in a connector 75 of a universal cord of the endoscope. Therefore, the entire endoscope is placed in cleaning tank 2.
By supplying compressed air while the endoscope is immersed in cleaning water, it is possible to detect if there is a hole in the outer skin of the endoscope by detecting the air leaking from the hole. In addition, if compressed air is supplied when cleaning or disinfecting the endoscope, even if there is a hole in the outer skin of the endoscope, cleaning water or chemicals can be prevented from entering the inside through the hole. can.

On the other hand, the first to third contact portions 47a, 47b, and 47c of the first water level detection device 46 are connected to a CPU 76 as a control portion, as shown in FIG. If the first contact portion 47a is on before starting the cleaning device, it means that the water supply tank 40 is sufficiently supplied with cleaning water. The switching valve 44 is closed. When the cleaning device is started and the cleaning process begins, the water level in the water tank 40 decreases. Then, when the second contact portion 47b is turned off, the first switching valve 44 is opened by the CPU 76 in response to the signal, and cleaning water is supplied to the water supply tank 40. That is, the water level of the water supply tank 40 is between the first contact portion 47a and the second contact portion 47b.
controlled between. Further, when the second contact portion 47b is off before starting the cleaning device, it means that the cleaning water necessary for the cleaning process is not stored in the water supply tank 40 in advance.
The cleaning device cannot be started by a signal from the CPU 76. Furthermore, when the third contact portion 47c is turned off during the cleaning process etc., it indicates that the water supply tank 40 has run out of cleaning water.
A signal is output from the CPU 76 to drive the first liquid pump 51, second liquid pump 54, and first motor 5.
6. The drain pump 62 and the first air pump 68 are stopped, and the second motor 60 causes the fifth switching valve 61 to shut off the cleaning tank 2.
The second switching valve 50, the third switching valve 52, and the fourth switching valve 59 are switched to the closed state. That is, the cleaning device is stopped. Further, at this time, the abnormality lamp 28 provided on the main panel section 6 lights up, and a buzzer (not shown) sounds to indicate this.

Further, the first to third contact portions 58a, 58b, and 58c of the second water level detection device 57 are connected to the CPU 76, which is a control portion, as shown in FIG. This first contact portion 58a detects an abnormal rise in the water level in the chemical tank 42 (due to inflow of cleaning water, etc.), and this first contact portion 58a is turned on before operating the cleaning device. In some cases, a signal from the CPU 76 cannot be used to start the disinfection process. Also, when turned on during chemical liquid collection in the middle of the cleaning process, the first liquid pump 51, the second liquid pump 54,
The first motor 56, the drain pump 62, and the first air pump 68 are stopped, and the second motor 60 causes the fifth switching valve 61 to shut off the cleaning tank 2, and the second The switching valve 52 and the fourth switching valve 59 are switched to the closed state. That is, the cleaning device is stopped. Further, at this time, the abnormality lamp 28 provided on the main panel section 6 lights up, and a buzzer (not shown) sounds to indicate this. Further, the second contact portion 58b is connected to the chemical liquid tank 4.
It is normal when it is turned on before transferring the chemical solution No. 2 to cleaning tank 2 and starting the immersion sterilization process, but when it is turned on after the immersion sterilization process has started, except during the recovery process of the chemical solution. When the chemical liquid leaks from the cleaning tank 2 into the chemical liquid tank 42 and the water level rises, and when the second switching valve 50 (water level) commonly connected to the first liquid pump 51 (chemical liquid pump) Since this is the case when the electromagnetic valve (electronic solenoid valve) is left open, various devices are controlled in the same way as when the first contact part 58a is turned on midway, the cleaning device is stopped, the abnormality lamp 28 is lit, and the buzzer is activated. It rings. However, at this time, the drain pump 62 stops,
The fifth switching valve 61 is in a state where the cleaning tank 2 and the chemical solution tank 42 are communicated with each other, that is, a state where the disinfection process is interrupted and the chemical solution is recovered. Furthermore, if the second contact portion 58b is off from the beginning, it means that there is not enough chemical solution in the chemical solution tank 42 to sterilize the endoscope by immersing it. Disinfection process cannot be started. Furthermore, the third contact portion 58c is turned on when the water level of the chemical solution tank 42 is above a predetermined level during the disinfection process, that is, after a predetermined amount of the chemical solution is supplied to the cleaning tank 2 and turned off once. When the chemical liquid leaks from the cleaning tank 2 into the chemical liquid tank 42, various devices are controlled by signals from the CPU 76 in the same way as when the first contact part 58a is turned on midway.
The operation of the cleaning device is stopped.

Further, the first contact section 72a and the second contact section 72b of the third water level detection device 71 are connected to a CPU 76 which is a control section, as shown in FIG. The first contact part 72a detects when the water level in the cleaning tank 2 has risen abnormally. When the first contact part 72a is turned on during the disinfection process, the second motor 60 The fifth switching valve 61 is connected to the cleaning tank 2.
At the same time, the drain pump 62 is activated to discharge the liquid in the cleaning tank 2. Also, at this time, among other devices,
The first liquid pump 51 stops and the fourth switching valve 59
is closed. Furthermore, the second contact portion 72b detects the appropriate water level of the cleaning tank 2, and when turned on during the disinfection process, it means that the chemical solution has been supplied to the cleaning tank 2 at the appropriate water level, so the fourth switching valve 59 and the first liquid pump 51 is stopped. Also, when a predetermined amount of chemical solution is supplied to the cleaning tank 2 during the disinfection process, it is turned on, and then turned off.
Since the chemical liquid is leaking from the cleaning tank 2 to the chemical liquid tank 42 or the drain pump 62 side, in this case, the first contact part 58a of the second water level detection device 57 is turned on during the disinfection process. Similarly, various devices are controlled to stop the cleaning equipment.

Next, a process of cleaning and disinfecting an endoscope using the cleaning device will be described. First, an endoscope is installed in the cleaning tank 2, and if the entire endoscope can be cleaned and disinfected, the entire endoscope is installed in the cleaning tank 2. Then, the various channels 70 of the endoscope and the supply port 5 are connected with a tube (not shown). Further, a second air pump 73 is connected to a connection port provided in a connector 75 for leakage testing of the endoscope through a tube (not shown). When such preparations are completed, the power switch 31 of the sub-panel section 8 is turned on with the cover 3 open to make it ready for operation.
Next, turn on the leakage test switch 1 on the main panel section 6.
When 5 is pressed, the indicator lamp 20 on the main panel section 6 lights up immediately, indicating that a leak test is in progress. This display will remain lit until all leak tests are completed. At the same time, the second motor 60 operates to close the fifth switching valve 61, and the cleaning tank 2
cut off. Note that the switching operation of this fifth switching valve 61 is properly regulated by a limit switch incorporated therein. In this way, cleaning tank 2
Immediately after the outflow of air is completely blocked, the second air pump 73 starts operating and supplies compressed air to the internal space of the endoscope. On the other hand, when a certain period of time _T1 has elapsed after the second air pump 73 is activated, the second switching valve 50 opens and the sixth switching valve 6
3 is switched to the state where it communicates with the cleaning tank 2 side, and the first liquid pump 51 is further activated. Therefore,
The second detection unit 72b of the third water level detection device 71 provided in the cleaning tank 2 detects the cleaning water in the water supply tank 40.
is supplied until it turns on. In this way, when water is poured into the cleaning tank 2, the entire endoscope installed in the cleaning tank 2 is submerged in water. Since the inside of this endoscope is pressurized with compressed air as described above, if there is a leakage point such as a crack or pinhole in the outer skin of the endoscope, air bubbles will be ejected from there.
Therefore, by observing and confirming this, the location of the leak can be discovered.

Also, turn on the leak test switch 1 again within the predetermined time.
If 5 is pressed, the operating time will be extended, but if it is not pressed, the second motor 60 will automatically operate after a predetermined period of time has passed, and the fifth switching valve 61 will be switched to the discharge side, and this switching will be completed. After drain pump 6
2 is activated and the water in the cleaning tank 2 is discharged. Also,
Although the second air pump 73 also stops, the pressurized state of the internal space of the endoscope continues for a while. When all of the water in the cleaning tank 2 has been drained, an end buzzer sounds to notify you of this.

Next, the operations of the cleaning process using cleaning water and the disinfection process using chemical solution will be explained. When only the cleaning process is selected, only that cleaning process is performed, but when the disinfection process is selected, the cleaning process is performed as a pre-process. Therefore, the case where the disinfection process is selected will be explained.

First, after setting the water washing time setting timer 32 and the disinfection time setting timer 33 to predetermined times, when the start switch 14 is turned on, the display lamp 1
9 lights up, and the remaining time for the entire process is displayed on the time display 27. Further, the second motor 60 operates to switch the fifth switching valve 61 to the discharge side. Immediately thereafter, the second liquid pump 51 is activated, and the first motor 56 is activated to operate the rotary nozzle 55.
Rotate. At the same time, the seventh switching valve 69 is switched to close and the first air pump 68 is activated. Therefore, the cleaning water sent from the water supply tank 40 by the second liquid pump 54 and the compressed air sent from the first air pump 68 are sent to the various channels 70 of the endoscope at the mixing header 65. It is sent in a mixed state. That is,
Since a so-called bubble flow is fed into the channel 70, the channel 70 can be effectively cleaned. In addition, the cleaning water in the water tank 40 is supplied to the first
The cleaning water is also sent to the rotary nozzle 55 by the air pump 68, and is sprayed onto the surface of the endoscope in the cleaning tank 2.

On the other hand, a detergent can also be added to the washing water in this washing step. When adding detergent, turn on the detergent switch 10 before turning on the start switch 14. Then, the third switching valve 52 is opened for a predetermined time according to the washing time set by the washing time setting timer 32, and the detergent in the detergent tank 41 is added to the washing water, so that so-called detergent washing is performed. For example, flush time setting timer 3
When 2 is set to 3 minutes, detergent is added for the first minute at the same time as the washing starts, and when it is 5 minutes, detergent is added for 2 minutes after 1 minute has passed from the start of washing. Furthermore, at the time of 6 minutes, the detergent is added for 3 minutes after 1 minute has passed from the start of washing. That is, when the detergent switch 10 is turned on, the time for adding detergent is automatically set according to the washing time set by the washing time setting timer 32, and only washing water is always supplied after washing with detergent. A so-called rinsing process is performed for a certain period of time to remove detergent.

When this rinsing process is completed, the second liquid pump 54 is stopped, and the supply of washing water is stopped. At the same time, the first motor 56 stops, and the rotation of the rotary nozzle 65 stops. However, the first air pump 68 continues to operate for a certain period of time to supply only air into the channel 70 of the endoscope and discharge the cleaning water remaining therein. In addition, the drain pump 62
operates until the cleaning water in the cleaning tank 2 is completely exhausted and then stops automatically.

The above is the cleaning process, and if only the cleaning process is selected, the process ends here. However, when the disinfection switch 11 is pressed to select the disinfection process, the disinfection process is performed following the cleaning process.

That is, the second motor 60 is operated and the fifth switching valve 61 is switched to the cutoff state. Immediately after this, the fourth switching valve 59 opens, and the first liquid pump 5
1 is activated, the chemical liquid in the chemical liquid tank 42 is supplied to the cleaning tank 2. When the endoscope is sufficiently immersed in the chemical solution, the second contact portion 72b of the third water level detection device 71 turns on and detects this, and this detection signal is input to the CPU 76.
This causes the sixth switching valve 63 to switch, supplying the chemical solution to the channel 70 of the endoscope. and,
When the channel 70 is filled with the chemical liquid and the third contact portion 58c of the third water level detection device 57 is turned off, the fourth switching valve 59 is closed and the first liquid pump 51 is stopped. That is, not only the outer surface of the endoscope but also the inside of the channel 70 is immersed and sterilized in the chemical solution.

Then, when the time set by the disinfection time setting timer 33 has elapsed, the chemical solution recovery operation is performed. That is, the second motor 60 operates to switch the inlet of the fifth switching valve 61 to the chemical tank 42, and the chemical in the cleaning tank 2 is returned to the chemical tank 42, and the first air pump 6
8 is activated to discharge and collect the chemical liquid that has entered the channel 70 of the endoscope.

When this collection is completed, the second motor 60 operates again, the fifth switching valve 61 is switched to the discharge side, and the drain pump 62 starts operating. At the same time, the first air pump 68 and the second liquid pump 54 are activated to perform the same rinsing operation as described above, that is, to perform water rinsing using a bubble flow without adding detergent. Not only the outer surface of the channel 70 but also the inside of the channel 70 is rinsed. When this rinsing step is completed, the second liquid pump 54 is stopped and only the first air pump 68 continues to operate to drain the channel 70.

In addition, in the above disinfection process, the disinfection switch 11
When the overnight switch 12 is turned on instead, the endoscope is immersed in the chemical solution for a long time, for example, about 10 hours, and then the above-mentioned rinsing step and draining step are performed. Such overnight disinfection is used to reliably disinfect endoscopes with excellent chemical resistance.

On the other hand, the above-mentioned washing and draining can be carried out by turning on the manual flushing switch 34 or air switch 35 provided on the sub-panel section 35, and when replacing the chemical in the chemical tank 42, the drain switch 36 can be turned on. When turned on, the first liquid pump 51 and the drain pump 6 are turned on.
2, fourth, fifth, and sixth switching valves 59, 61, 63
is activated and the chemical solution is discharged.

By the way, according to the cleaning device having the above configuration, the first to third contact portions 58a, 58 are provided in the chemical tank 42.
A second water level detection device 57 having a contact point 58a, 58b, and 58c is provided, and the water level in the chemical tank 42 is detected by the contact portions 58a, 58b, and 58c. That is, the first contact portion 58a detects that the water level in the chemical liquid tank 42 has risen abnormally.
Therefore, if the fifth switching valve 61 is malfunctioning and is not reliably switched to the discharge side during the cleaning process that is performed before the disinfection process, cleaning water leaks into the chemical tank 42. In such a case, the first contact portion 58a is turned on before the disinfection process is started, so in such a case, the signal is not transmitted to the CPU 7.
Since the sterilization process cannot be started by inputting the information to 6, there is no possibility of immersion disinfection using a diluted chemical solution.
Furthermore, if the first switching valve 44 that controls water supply to the water supply tank 40 or the like fails and the cleaning water flows into the cleaning tank 2 through the communication pipe 48 during the chemical solution recovery during the disinfection process, Since the cleaning water is also collected together with the chemical solution, in such a case, the water level in the chemical solution tank 42 will rise abnormally, which will be detected by the first contact portion 58a, and the cleaning device will be stopped. . When the first contact portion 58a is turned on as described above, this is indicated by lighting the abnormality lamp 28 or sounding the buzzer, so that subsequent processing can be performed quickly and reliably. That is, since the first contact portion 58a can reliably detect that the chemical solution is diluted by mixing cleaning water into the chemical solution, unreliable immersion sterilization with the diluted chemical solution is performed. This danger can be prevented.

Further, if the second contact portion 58b is off before the disinfection process is started, the signal is transmitted to the CPU 7.
6, the disinfection process cannot be started. That is, the second
The contact portion 58b detects a water level lower than the first contact portion 58a, and if the chemical solution is contained in the chemical solution tank 42 to the point where the second contact portion 58b is turned on, the endoscope can be cleaned. It is designed so that it can be reliably immersed in the chemical solution in the tank 2. Therefore, by preventing the disinfection process from starting when the second contact portion 58b is off before the disinfection process starts, unreliable immersion disinfection is performed with an insufficient amount of chemical solution. This can be prevented. Further, when the second contact portion 58b is turned on while the endoscope is immersed and sterilized by supplying the chemical solution to the cleaning tank 2, the cleaning device is stopped. That is, if the second contact part 58b is turned on during immersion disinfection, it means that the fifth switching valve 61 is malfunctioning and the chemical solution is transferred from the cleaning tank 2 to the chemical solution tank 42.
This detection prevents unreliable disinfection with an insufficient amount of chemical solution. Further, at this time, the occurrence of an abnormality is indicated by lighting up the abnormality lamp 28 or sounding a buzzer, so that subsequent measures can be taken quickly and reliably.

Furthermore, the third contact portion 58c transfers the chemical solution to the cleaning tank 2.
When the cleaning device is turned on while the endoscope is being immersed and sterilized, the signal is input to the CPU 76 and the cleaning device is stopped. That is, the third contact part 58c is adapted to detect a water level lower than that of the second contact part 58b, and when a chemical solution is supplied to the cleaning tank 2 for immersion disinfection, this third contact part 58c detects a water level lower than that of the second contact part 58b. 58c is normally off. Therefore, the fact that the third contact portion 58c is turned on during immersion disinfection means that the fifth switching valve 61 is malfunctioning and does not switch reliably, and the chemical solution is leaking from the cleaning tank 2 to the chemical tank 42. Therefore, by detecting this at the third contact portion 58c, it is possible to prevent unreliable immersion disinfection with an insufficient amount of chemical solution. Further, at this time, the occurrence of the abnormality is indicated by lighting up the abnormality lamp 28 or sounding a buzzer, so that subsequent processing can be carried out quickly and reliably.

Note that the first to third of the second water level detection device 57
When the contact parts 58a, 58b, 58c detect an abnormality, the cleaning device is stopped.
It is also possible to simply issue an alarm such as lighting the abnormality lamp 28 or sounding a buzzer without stopping the cleaning device, or conversely, it is also possible to just stop the cleaning device.

As described above, the present invention provides a water level detection device in a chemical tank in which a chemical solution is stored, and uses this water level detection device to detect the water level of the chemical tank during a disinfection operation, and to detect whether the chemical solution is turned on at that time. If so, the cleaning equipment will either stop operating or issue an alarm. Therefore, when a chemical solution is stored in a cleaning tank and an endoscope is immersed in sterilization, if the chemical solution leaks from the previous cleaning tank into the chemical tank, this will be detected and the endoscope will not be sterilized in the cleaning tank. It is possible to prevent unreliable disinfection without being reliably immersed in the chemical solution.

[Brief explanation of drawings]

The drawings show an embodiment of the present invention, in which Fig. 1 is a perspective view of the cleaning device, Fig. 2 is a plan view of the main panel section, Fig. 3 is a plan view of the sub-panel section, and Fig. 4 is the inside of the cleaning device. Piping system diagram of equipment installed in
Figure 5 is an explanatory diagram of the operation of the first water level detection device;
The figure is an explanatory diagram of the operation of the second water level detector, Figure 7 is an explanatory diagram of the operation of the third water level detector, Figure 8 is a time chart during endoscope leakage inspection, and Figure 9 is the cleaning process. It is a time chart diagram of the disinfection process and the disinfection process. 2... Cleaning tank, 40... Water supply tank, 42... Chemical solution tank, 51... First liquid pump, 54... Second liquid pump, 57... Second water level detection device, 58c...
Third contact section, 76...CPU (control section).

Claims (1)

[Claims] 1. A water supply tank containing cleaning water, a chemical tank containing a chemical solution, a cleaning tank located above the chemical tank to which the cleaning water and the chemical solution are selectively supplied by a pump, and this cleaning tank. a switching valve installed in the middle of a pipe that communicates the discharge port with the chemical tank; a detection device that detects the water level of the chemical tank during disinfection; and a detection device that detects the water level of the chemical tank during disinfection, and a control unit that issues at least one command to stop the operation of the cleaning device or issue an alarm when the detection device is on during the period until the disinfection process is completed. Device.