KR101311820B1 - Endoscope cleaning and disinfecting device - Google Patents

Abstract

The present invention relates to a circulating vortex injection endoscope cleaning sterilizer, the main body having a cleaning sterilization chamber is installed on the bottom of the cleaning sterilization tank supplied with direct water; A stacking multi-stage rack on which an article including an endoscope that is slid out and received into the cleaning disinfection chamber is loaded; A front door installed on the main body and serving as a base of the stacked multi-stage rack, which is pulled out at the time of opening; It has a washing nozzle and a thrust generating nozzle, and the washing, cleaning, and disinfecting water is sprayed from the upper and lower parts of the stacked multi-stage rack, which is installed in the cleaning disinfection chamber and stored in the cleaning disinfection chamber, by the washing nozzle. A plurality of impellers for forming a vortex by spraying washing, washing and disinfecting water while rotating horizontally; A circulation pump for supplying the washing, washing and disinfecting water of the washing and disinfecting tank to the impeller, and receiving the washing, washing and disinfecting water rotated by the impeller back into the washing and disinfecting tank for circulation for a predetermined time with the impeller; And a controller which drives the circulating pump for a predetermined time to perform the washing, washing and disinfection process.

Description

Endoscopic cleaning sterilizer with circulating vortex injection and its disinfection process {Endoscope cleaning and disinfecting device}

The present invention relates to an endoscope cleaning sterilizer, and in particular, the circulating vortex injection method using a circulating vortex injection method for cleaning, cleaning and disinfecting the endoscope, and using a certain amount of a disinfectant (disposable disinfectant) once. It relates to a sterilizer and its cleaning and disinfection process.

Looking at the conventional endoscope cleaning process, the first washing → cleaning (processing using detergent) → disinfection (disinfection for a certain time by immersion using recycle disinfectant) → secondary cleaning → drying (especially endoscope Drying inside the channel) cleaning, disinfection and drying of the endoscope inside and outside proceed simultaneously.

Looking at the problems of such a conventional endoscope sterilizer as follows.

(1) There is always the risk of cross-infection because water and disinfectant mixtures are recovered and reused. Conventional reused disinfectant water is generally used 30 ~ 60 times and discarded, because the disinfectant is used repeatedly because the disinfectant is diluted to an appropriate concentration, the disinfection effect may be difficult to expect the desired disinfection effect. In addition, the disinfection water recovery tank should be installed in the apparatus for repeated use of disinfection water, and the foreign substances contained in the disinfection water recovered for reuse are collected together and accumulated in the disinfection water recovery tank. This can lead to other unexpected infections or malfunctions and malfunctions of the device.

(2) The endoscope is installed in the disinfection tank and the disinfecting water is supplied, so that the endoscope is immersed in the disinfecting water for a certain time, which is required to disinfect the volume of the endoscope. That is, a considerable amount (about 10-15 l) is required, which increases the user's cost burden.

(3) Since cleaning disinfection is an immersion type (immersion type) that immerses the endoscope in the cleaning disinfection tank, water, detergents, disinfectants, etc. may flow into the endoscope and cause expensive endoscopes to fail.

(4) In order to increase the efficiency of disinfection, the second wash requires a full wash than the first wash. In order to increase the wash efficiency, since the washing and drainage must occur at the same time, waste of water for washing is severe.

(5) For the smooth supply of the washing water used for washing (some users may have difficulty in washing as direct water because the water pressure of the washing water supplied from the outside is weak), the water tank in which the washing water is stored is used. The water tank itself is decayed (spoiled) and always has a factor that can cause another infection when washed after disinfection. For this purpose, self-disinfection function should be implemented. If self-disinfection is not carried out through a proper procedure within a reasonable period of time, contamination and infection will occur. There is always a possibility of. In addition, the implementation of these functions will inevitably lead to an increase in manufacturing costs.

The present invention changes the cleaning disinfection to the chamber method, not the water tank method in consideration of the above-described problems, and the endoscope is cleaned and disinfected by the vortex injection method while circulating the washing water, the washing water and the disinfecting water in the chamber by a circulation pump, Its purpose is to save money by increasing the efficiency of cleaning and disinfection by reducing the time required to complete the cleaning and disinfection process by improving the implementation of the cleaning disinfection function by using a single disinfectant (disposable disinfectant) once. have.

An object of the present invention described above and the main body having a cleaning sterilization chamber is installed on the bottom of the washing sterilization tank is supplied with water; A stacking multi-stage rack on which an article including an endoscope that is slid out and received into the cleaning disinfection chamber is loaded; A front door installed on the main body and serving as a base of the stacked multi-stage rack, which is pulled out at the time of opening; It has a washing nozzle and a thrust generating nozzle, and the washing, cleaning, and disinfecting water is sprayed from the upper and lower parts of the stacked multi-stage rack, which is installed in the cleaning disinfection chamber and stored in the cleaning disinfection chamber, by the washing nozzle. A plurality of impellers for forming a vortex by spraying washing, washing and disinfecting water while rotating horizontally; A circulation pump for supplying the washing, washing and disinfecting water of the washing and disinfecting tank to the impeller, and receiving the washing, washing and disinfecting water rotated by the impeller back into the washing and disinfecting tank for circulation for a predetermined time with the impeller; And a controller for driving the circulation pump for a predetermined time to perform the washing, washing and disinfection process.

The endoscope cleaning sterilizer of the circulating vortex injection method of the present invention further includes a plurality of magnets arranged in a stacking multi-stage rack and a plurality of magnetic field sensors installed at positions of a body corresponding to the magnets. The controller receives the detection signal of the magnetic field sensor according to the type of stacked multi-stage rack by the arrangement of magnets, and the controller controls the time and the number of times according to the cleaning sterilization process set according to the detected type of stacked multi-stage rack. And a plurality of magnetic field sensors installed at a position of a magnet installed at an end of the magnet and a body corresponding to the magnet, and when the controller receives a detection signal of the magnetic field sensor according to the rotation of the impeller, the rotation of the impeller is less than the set speed. It emits a warning sound or a warning light.

In the circulating vortex injection endoscope cleaning sterilizer of the present invention, further comprising an ultraviolet lamp for removing moisture in the cleaning disinfection chamber and a hot air dryer for drying the article, and detects the human body to automatically open the front door by the controller. It further comprises a proximity sensor.

In addition, in the present invention, the direct water flows into the washing sterilization tank at the bottom of the cleaning sterilization chamber, and the direct water is supplied to the plurality of impellers installed inside the cleaning sterilization chamber by a circulation pump, and the washing water of the vortex formed by spraying the direct water while the impeller is horizontally rotated. A first washing step of discharging the washing water after the first washing of the article including the endoscope by the controller is completed several times by a controller for a set time; After the first washing process, the direct water and the cleaner are introduced into the washing sterilization tank at the bottom of the washing sterilization chamber, and the washing water is supplied to the plurality of impellers installed inside the washing sterilization chamber by a circulation pump, and the washing water is sprayed while the impeller is rotated horizontally. A washing step of discharging the washing water after the washing of the article including the endoscope by the vortex washing water is completed several times by the controller for a predetermined time; After the cleaning process, direct water, disposable disinfectant, and activator flow into the cleaning disinfection tank at the bottom of the cleaning disinfection chamber, and disinfection water is supplied to a plurality of impellers installed inside the cleaning disinfection chamber by a circulation pump, and disinfection water is injected while the impeller is rotated horizontally. A disinfection step of discharging disinfecting water after disinfecting the article including the endoscope by the disinfecting water formed by the controller for several times by a controller for a predetermined time; And after the disinfection process, the direct water flows into the cleaning disinfection tank at the bottom of the cleaning disinfection chamber, and the direct water is supplied to a plurality of impellers installed inside the cleaning disinfection chamber by a circulation pump, and the washing water of the vortex formed by spraying the direct water while the impeller is horizontally rotated. By the cleaning and disinfection process of the endoscope cleaning sterilizer of the circulating vortex injection method comprising a second washing step of discharging the washing water after the second washing of the article containing the endoscope by the controller for a predetermined time for a set time Is achieved.

In the cleaning and disinfection process of the endoscope cleaning sterilizer of the circulating vortex injection method of the present invention, after the second cleaning step further comprises an ultraviolet irradiation step of removing moisture in the cleaning disinfection chamber or the ultraviolet irradiation step at the same time during the entire process Characterized in that made.

By the use of a certain amount of disinfectant (disposable disinfectant) only once by the technical configuration of the present invention described above, it is possible to prevent cross-infections that may occur between users, and also to increase the effectiveness of cleaning and disinfection by applying a vortex injection method. Of course, it can be used as a versatile device that can also serve as a general instrument cleaner rather than endoscopy disinfection, and it can be used as a versatile device in a hospital. In addition to providing a cost reduction factor, the structure of the manufacturer is simpler than that of a conventional disinfectant reuse sterilizer, which can reduce the manufacturing cost by 20 to 30%.

1 is a perspective view of the endoscope cleaning sterilizer of the present invention.
Figure 2 is a perspective view showing the withdrawal and storage of the loading rack containing the endoscope into the chamber open the front door in Figure 1;
Figure 3 is a front conceptual view showing a chamber installation state of the eddy dispersing impeller and cleaning disinfection tank of the endoscope cleaning sterilizer of the present invention.
Figure 4 is a conceptual diagram showing a chamber installation state of the loading rack of the endoscope cleaning sterilizer of the present invention.
Figure 5 is a side conceptual view showing the supply flow of washing water and disinfection water of the endoscope cleaning sterilizer of the present invention.
Figure 6 is a conceptual view showing a perspective view of the vortex injection impeller of the endoscope cleaning sterilizer of the present invention and the rotation operation of the impeller.
Figure 7 is a conceptual diagram showing the spraying state of the washing water and disinfecting water by the vortex injection impeller of the endoscope cleaning sterilizer of the present invention.

The present invention relates to an endoscope cleaning sterilizer of the circulating vortex injection method and a cleaning disinfection process, and receives a direct water, a cleaning agent, a disinfectant, and an activator by a corresponding process to a cleaning disinfection tank (Reservoir) by using a circulation pump and an impeller. The present invention relates to an apparatus and a process for washing, cleaning, disinfecting and drying the apparatus.

Endoscopic cleaning sterilizer of the circulating vortex injection method of the present invention is contained in the endoscope movable rack (rack) to be stored in or taken out of the cleaning disinfection chamber (Chamber), two or three impellers (Impellers) in the cleaning disinfection chamber ), Ports for cleaning and disinfecting the endoscope channel and ports for discharging the activator, disinfectant, and activator, UV lamp, hot air dryer, exhaust port and impeller sprayed water, cleaning water, disinfection The disinfection of the endoscope is repeated several times by the controller during the set time by a circulation pump and an impeller composed of a reservoir where water is collected and circulating the washing water, the washing water, and the disinfecting water.

The impeller is horizontally rotated by the thrust of the washing water, the washing water, and the disinfecting water discharged into the washing sterilization chamber to clean, clean, and disinfect the surface of the endoscope.

On the other hand, the cleaning disinfection of the present invention can clean and disinfect various items such as surgical instruments, hoses, laboratory props, and other containers used in the hospital as well as the endoscope, the shape of the loading rack also varies depending on the article including the endoscope. This is because various items do not move by the washing water, the washing water, and the disinfecting water sprayed by the impeller in the cleaning disinfection chamber, and therefore, they must be fixed in the loading rack.

One of the major differences of the present invention compared to the prior art is that the prior art is to recover the disinfectant water containing the disinfectant and reuse it in a plurality of endoscope cleaning disinfection, the present invention does not use a reusable disinfectant water as in the prior art (1) Disinfectant water containing a disposable disinfectant) is used and discarded once per endoscope.

Hereinafter, the technical configuration of the present invention will be described in detail with reference to the accompanying drawings.

Endoscope cleaning sterilizer of the circulating vortex injection method of the present invention and the main body (10); A stacking multi-stage rack 20; A front door 30; A plurality of impellers 40; Circulating pump 50; And a controller 60.

The main body 10 includes a cleaning disinfection chamber 11, and a washing disinfection tank 111 is provided at the bottom of the cleaning disinfection chamber 11 to supply water directly from a water pipe instead of a water tank. Heater 112 is installed in the cleaning disinfection tank 111 may be used to heat the washing water, washing water, disinfection water.

As shown in FIGS. 2 and 4, the stacked multi-stage rack 20 is loaded with an article including an endoscope that is slid out and received into the cleaning sterilization chamber. It is slid and taken out by the rail 12 provided in the side wall.

The stacking multi-stage rack 20, as described above, the shape of the stacking multi-stage rack 20 also varies according to the type of the article, as shown in Figure 4 stacked multi-stage rack 20, stacked multi-stage rack 20 The plurality of magnets 71 are arranged in accordance with the type, and the plurality of magnetic field sensors 70 are installed at positions of the main body 10 corresponding to the magnets 71 so that the magnets 71 are stacked in a multi-stage manner. When the magnetic field sensor 70 detects the type of the rack 20, the magnetic field sensor 70 transmits the detection signal to the controller 60, and the controller 60 is set according to the detected type of stacked multi-stage rack. Control the time and frequency of each disinfection process.

1 and 2, the front door 30 is a pedestal of the stacked multi-stage rack 20 drawn out at the time of opening, the transparent window 31 and the handle 32 to see the inside is installed When the front door 30 is opened by the handle 32 when the article including the endoscope is cleaned after disinfection, the front door 30 to prevent contamination due to the contamination of the handle 32 A proximity sensor (photocoupler) 14 for automatically opening the door is installed in the main body. Positioning the hand on the proximity sensor 14 detects that the front door 30 is automatically opened slowly by the controller.

As shown in FIG. 6, the impeller 40 has a plurality of cleaning nozzles 41 installed above and below the body, and thrust generating nozzles 42 for horizontally rotating the impeller 40 are installed at both ends. 3, 5, and 7, as shown in the upper and lower portions of the cleaning disinfection chamber 11, for washing in the upper and lower portions of the stacked multi-stage rack (20) housed in the cleaning disinfection chamber (11) Washing, washing and disinfecting water are sprayed by the injection hole, and washing, washing and disinfecting water are sprayed while horizontal rotation is performed by the thrust generating nozzle 42 to form a vortex.

As shown in FIG. 7, a magnet 81 is installed at an end of the impeller 40, and a plurality of magnetic field sensors 80 are installed at positions of the main body 10 corresponding to the magnet 81 to rotate the impeller 40. When the controller receives the detection signal of the magnetic field sensor 80 according to the controller, if the rotation speed of the impeller 40 is less than the set speed, a warning sound or a warning lamp is issued or a warning phrase is displayed on the control panel 13. Instead of using magnets and magnetic field sensors, proximity sensors can be used.

When the impeller 40 rotates, a pulse of a predetermined pattern is generated according to the rotation of the impeller 40. The controller 60 detects this and determines whether the impeller 40 is rotated. The controller 60 recognizes that a pulse of 1 pulse / 5 seconds or more is normal, but if it is 1 pulse / 5 seconds or less, the controller 60 determines that the impeller 40 is rotating improperly and emits a warning sound or a warning lamp or a warning phrase. (13).

3 and 5, the circulation pump 50 supplies the washing, washing and disinfecting water of the washing and disinfecting tank 11 to the impeller 40 at the upper and lower positions by the distributor 51, respectively, and the impeller 40 The washing, washing and disinfecting water sprayed by the water is received by the washing and disinfection tank 111 and circulated for a predetermined time by the impeller 40 again.

The controller 60 drives the circulation pump 50 for a set time to perform the washing, washing and disinfection process, and quantitatively controls water, disinfectant, detergent and activator by a flow sensor (not shown). On the other hand, the controller is controlled by the control panel 13 provided in the main body, and manual operation is also possible.

On the other hand, as shown in Figure 2 the upper portion of the main body 10, the exhaust port for discharging the heat of the cleaning sterilization chamber 11 by the hot air dryer 15 and the hot air dryer 15 for drying the article including the endoscope ( 16 is installed, and as shown in FIG. 3, an ultraviolet lamp is installed at the top of the cleaning disinfection chamber 11 to remove moisture from the cleaning disinfection chamber 11.

And the lower drawer 90 of the main body is installed in the drawer 90 is a stock solution container containing a detergent, a disinfectant, and an activator.

As described above, the present invention proceeds to the cleaning disinfection by the circulating vortex injection method, the term circulating is the impeller (40) in the washing disinfection tank 111, washing water, washing water, disinfection water by the circulation pump 50 The vortex injection term is defined as circulating, and the term vortex injection is used because the plurality of impellers 40 installed in the upper and lower and middle portions of the inside of the cleaning disinfection chamber 11 are rotated and the washing water, the washing water, and the disinfecting water are sprayed in all directions. It is the definition of forming.

Endoscope cleaning disinfection process by the endoscope cleaning sterilizer of the circulating vortex injection method of the present invention described above is made in the order of the first washing step, washing step, disinfection step, secondary washing step, drying step. Is the same as

(1) 1st washing process

As shown in FIG. 3, the impeller 40 is installed in the washing sterilization chamber 111 at the bottom of the washing sterilization chamber 11 and installed in the washing sterilization chamber 11 by the circulation pump 50 and its distributor 51. 5 is supplied to the direct water as shown in FIG. 5, and as shown in FIGS. 6 and 7, the first washing of the article including the endoscope is performed by the washing water of the vortex formed by spraying the direct water while the impeller 40 is rotated horizontally. 60) Drain the wash water after completing several repetitions.

(2) cleaning process

After the first washing process, the direct water and the cleaning agent flow into the washing sterilization tank 111 at the bottom of the washing sterilization chamber 11, as shown in FIG. 3, and the inside of the washing sterilization chamber 11 by the circulation pump 50 and its distributor 51. As shown in FIG. 5, the washing water is supplied to the impeller 40 disposed at the upper and lower sides, and as shown in FIGS. 6 and 7, the washing machine is sprayed while the impeller 40 is rotated horizontally. The washing water is discharged after the washing is completed several times by the controller 60 for the washing time.

(3) disinfection process

After the cleaning process, water, a disinfectant, and an activator flow into the cleaning disinfection tank 111 at the bottom of the cleaning disinfection chamber 11, as shown in FIG. 3, and the inside of the cleaning disinfection chamber 11 by the circulation pump 50 and its distributor 51. Disinfection water is supplied to the plurality of impellers installed in the upper and lower sides as shown in FIG. 5, and disinfection of the article including the endoscope by disinfecting water formed by disinfecting water sprayed while the impeller 40 is horizontally rotated as shown in FIGS. Disinfectant water is discharged after completion of several repetitions by the controller 60 for a set time.

(4) 2nd washing process

After the disinfection process, the direct water flows into the washing sterilization tank 111 at the bottom of the washing sterilization chamber 11 as shown in FIG. 3, and is disposed at the upper and lower sides of the washing sterilization chamber 11 by the circulation pump 50 and its distributor 51. Direct water is supplied to the installed impeller 40 as shown in FIG. 5, and the second washing of the article including the endoscope is set by the vortex washing water formed by spraying the direct water while the impeller 40 is horizontally rotated as shown in FIGS. 6 and 7. The washing water is discharged after completing several repetitions by the controller 60 during the time.

(5) drying process

After the secondary washing process, the outside of the endoscope is made by the hot air dryer (blower and heater) 15, and the inside of the channel of the endoscope is dried by an air pump.

(6) UV irradiation process

After the drying process, an ultraviolet irradiation step of removing moisture in the cleaning and disinfection chamber is further included, or the ultraviolet irradiation step is simultaneously performed during the entire process.

The above-described cleaning disinfection process is a process of washing the outside of the endoscope, but at the same time through the port for washing and drying the channels (washing channel, suction channel, air channel, biopsi channel) that are inside the endoscope, Washing water, disinfecting water and air are supplied to clean and sterilize and dry the inside and outside of the endoscope.

The cleaning agent, disinfectant, and active agent are quantitatively controlled by the controller 60 and discharged to the cleaning disinfection tank 111 through the port.

As described above, the endoscope cleaning disinfection process of the present invention is made of a first washing process, a washing process, a disinfection process, a second washing process, and a drying process, wherein the endoscope leakage inspection process is performed once before the first washing process. In real time during the entire process.

The contents of the above-described cleaning process, cleaning process, and disinfection process will be described with reference to the related art.

(1) washing process

According to the present invention, water can be quantitatively supplied through control by a flow sensor as much as the capacity of the washing and disinfection tank 111 using water without a water tank, and the washing can be repeated several times using the circulation pump 50. .

On the other hand, the prior art uses water stored in a water tank, and wastes water by washing and discharging simultaneously for a predetermined time.

(2) cleaning process

The present invention is supplied by diluting the quantitatively controlled cleaning agent while receiving the quantitatively controlled direct water through the flow sensor, and circulating and washing the washing water diluted and stored in the washing and disinfecting tank 111 through the circulation pump 50 for a predetermined time, and In some cases, the process of dilution and circulation washing is repeated several times.

On the other hand, in the prior art, since the supply of the cleaning agent is not quantitatively controlled in comparison with the amount of the washing water supplied, it is discarded while washing without the circulation function, and thus there is no repetitive function, and thus, the waste of the cleaning agent and water is severe.

(3) disinfection process

The present invention is supplied by diluting a predetermined amount of disinfectant (disposable disinfectant) while receiving a quantitatively controlled direct water through a flow sensor, and circulating the disinfectant water diluted in the washing disinfection tank 111 for a set time using a circulation pump. Disinfect and discard.

On the other hand, the prior art is sterilized by immersion in reusable disinfectant water is a risk of cross-infection by disinfecting water is recovered and reused in the disinfection water container.

According to the technical configuration of the present invention described above has the following effects.

(1) Disinfectant There is no danger of cross-infection because a certain amount of disinfectant (disposable disinfectant) is dispensed from the stock solution container and used only once. Because it is a disinfectant that is used once and discarded, it is safer to use than a conventional reusable disinfectant, and since it is used only once by diluting quantitatively, the disinfection effect is ensured if only the dose usage is kept. There is no fear of dilution, such as reuse disinfectant, the prior art requires a disinfectant recovery container, but the present invention does not need a separate disinfectant recovery container because only one time by discharging the disinfectant from the disinfectant solution container.

(2) In order to increase the disinfection efficiency, it is possible to obtain the effect of cleaning as well as cleaning by circulating several times during the first washing. Because washing water is circulated and washed in the disinfection tank, washing can be done more efficiently than washing and discharging at the same time.

(3) In the prior art, the volume of the disinfectant required when the endoscope is immersed in the disinfectant (immersion method) should be about 10-15 L because the volume of the endoscope installed in the disinfection tank is required, while a certain amount of disinfectant (1 Disposable disinfectant) is used only once to discharge the disinfectant in the washing sterilization tank is used because the circulating vortex injection method is required only about 5L of circulating disinfectant solution. This can reduce the cost of the user.

(4) In the present invention, since the cleaning and disinfection method is a circulating vortex injection method, when the endoscope is broken, the washing water, the washing water, and the disinfecting water flow into the washer when the endoscope is broken. Relatively less likely to fail.

(5) It can be free from contamination of water tank because it receives direct water and discharges it after circulation washing without water tank storing washing water as in the prior art. In addition, since the washing sterilization tank receiving the washing water is used in the same way as the disinfectant is used, it can be sterilized by itself to obtain the effect of disinfecting the washing sterilization tank and does not require self-disinfection. Eliminating the need for new functionality means that manufacturing costs are reduced and the product is simplified, safer and easier to use. This is also very beneficial for the user.

10: main body 11: cleaning disinfection chamber
111: disinfection tank 112: heater
113: UV lamp 12: rail
13 control panel 14 proximity sensor
15 hot air dryer 16 exhaust port
20: stacked multi-stage rack 30: front door
40 impeller 41 washing nozzle
42: thrust generating nozzle 50: circulation pump
51: divider 60: controller
70,80: magnetic field sensor 71,81: magnet

Claims (5)

A main body 10 having a washing and disinfection chamber 11 having a washing and disinfection tank 111 to which water is supplied;
A stacking multi-stage rack 20 on which an article including an endoscope that is slid out and received into the washing and disinfecting chamber 11 is loaded;
A front door 30 installed in the main body 10 and serving as a base of the stacked multi-stage rack, which is pulled out at the time of opening;
A washing nozzle 41 and a thrust generating nozzle 42 are installed in the washing sterilization chamber 11 and the washing nozzles at the upper and lower portions of the stacked multi-stage rack 20 housed in the washing sterilization chamber 11 ( 41) a plurality of impellers 40 for jetting washing, washing and disinfecting water, and spraying the washing, washing and disinfecting water while forming a vortex while rotating horizontally by the thrust generating nozzle 42;
The washing, washing and disinfecting water of the washing and disinfecting tank 111 is supplied to the impeller 40 by the distributor 51, and the washing, washing and disinfecting water rotated by the impeller 40 is received again by the washing and disinfecting tank 111. A circulation pump 50 which circulates repeatedly for a set time with the impeller 40; And
And a controller (60) which drives the circulation pump (50) for a predetermined time to perform washing, washing and disinfection processes. The method according to claim 1,
A plurality of magnetic field sensors 70 installed at positions of the main body 10 corresponding to the magnets 71 and the plurality of magnets 71 arranged in the stacking multi-stage rack 20 according to the type of the stacking multi-stage rack 20. It further includes, the type of the stacked multi-stage rack 20 detected by the controller 60 receives the detection signal of the magnetic field sensor 70 according to the type of the multi-stage rack 20 by the arrangement of the magnet 71 The controller 60 controls the time and the number of cleaning sterilization process set according to,
It further comprises a plurality of magnetic field sensors 80 are installed at the position of the magnet 81 and the body 10 corresponding to the magnet 81 is installed at the end of the impeller 40, according to the rotation of the impeller 40 When the controller 60 receives the detection signal of the magnetic field sensor 80 and the rotation of the impeller 40 is less than the set number of revolutions, a warning sound or a warning lamp is issued, and a warning phrase is displayed on the control panel 13. Endoscopic cleaning sterilizer with circulating vortex injection. The method according to claim 1 or 2,
It further includes an ultraviolet lamp 113 for removing moisture in the cleaning and disinfection chamber 11 and a hot air dryer 15 for drying the article, and automatically detects a human body and automatically opens the front door 30 by the controller 60. Endoscope cleaning sterilizer of the circulating vortex injection method characterized in that it further comprises a proximity sensor (14). Direct water flows into the cleaning sterilization tank 111 at the bottom of the cleaning sterilization chamber 11, and the direct water is supplied to the plurality of impellers 40 installed inside the cleaning sterilization chamber 11 by the circulation pump 50, and the impeller 40. A first washing step of discharging the washing water after the controller 60 has completed the first washing of the article including the endoscope by the washing water of the vortex formed by spraying the straight water while rotating horizontally;
After the first washing process, the direct water and the cleaning agent flow into the washing sterilization tank 111 at the bottom of the washing sterilization chamber 11 and are cleaned by a plurality of impellers 40 installed inside the washing sterilization chamber 11 by the circulation pump 50. After the water is supplied and the impeller 40 is rotated horizontally, the washing water is discharged by the controller 60 after completing the washing of the article including the endoscope by the washing water of the vortex formed by the controller 60 for a set time. A washing step of discharging;
After the cleaning process, direct water, a disinfectant, and an activator flow into the cleaning disinfection tank 111 at the bottom of the cleaning disinfection chamber 11 and disinfect by a plurality of impellers 40 installed in the cleaning disinfection chamber 11 by the circulation pump 50. The water is supplied, and disinfecting water is discharged after the impeller 40 is horizontally rotated and the disinfecting water is discharged after the disinfecting water is sprayed and the disinfecting water is discharged after the repetition of the article including the endoscope is completed several times by the controller 60 for a predetermined time. Disinfection process; And
After the disinfection process, the direct water flows into the washing sterilization tank 111 at the bottom of the washing sterilization chamber 11 and is directly supplied to the plurality of impellers 40 installed in the washing sterilization chamber 11 by the circulation pump 50. Secondary for discharging the washing water after the repetition of several times by the controller 60 for a predetermined time for the second washing of the article including the endoscope by the washing water of the vortex formed by spraying the direct water while the impeller 40 is rotated horizontally Cleaning disinfection process of the endoscope cleaning sterilizer of the circulating vortex injection method characterized in that it comprises a washing step. The method of claim 4,
Circulating vortex injection, characterized in that the ultraviolet irradiation step by the ultraviolet lamp 113 to remove moisture in the cleaning and disinfection chamber 11 after the second washing step is further included or the ultraviolet irradiation step is simultaneously performed during the entire process. Disinfection process of the endoscope cleaning sterilizer of the type.

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