CN117065072A - Full-automatic endoscope cleaning and sterilizing equipment - Google Patents

Abstract

The invention relates to the technical field of disinfection devices, in particular to full-automatic endoscope cleaning and disinfecting equipment. The disinfection tank comprises a shell, wherein a stock solution storage device, a metering device, a disinfection solution storage device, a first power device, a disinfection solution power device, a decontamination tank, a water filtering device and a control device are arranged in the shell, the decontamination tank is arranged on the upper portion of the inner side of the shell, a door cover is arranged at the top of the shell, one end of the door cover is hinged with the shell, and the stock solution storage device, the metering device, the disinfection solution storage device, the first power device, the disinfection solution power device and the water filtering device are arranged in the shell below the decontamination tank. The invention realizes the full-automatic cleaning and disinfection of the soft endoscope, realizes the automatic proportioning of the peracetic acid disinfectant, avoids the waste of the peracetic acid disinfectant and reduces the production cost.

Description

Full-automatic endoscope cleaning and sterilizing equipment

Technical Field

The invention relates to the technical field of disinfection devices, in particular to full-automatic endoscope cleaning and disinfecting equipment.

Background

The soft endoscope is used as a high-value multiplexing medical instrument and has irreplaceable functions in aspects of early cancer screening, endoscopic minimally invasive treatment and the like. Endoscopy treatment techniques are also rapidly evolving worldwide, and at the same time, endoscopic infection events are also becoming an increasingly interesting world-wide. Especially in the selection of chemical disinfectants, from glutaraldehyde to phthalic aldehyde and from phthalic aldehyde to peracetic acid which is commonly used worldwide nowadays, but the use cost of peracetic acid is relatively high, people can hardly find a balance point in the disinfection cost and the disinfection effect, so that partial hospitals still use low-cost chemical disinfectants such as glutaraldehyde and the like. Glutaraldehyde has been used since the last century, however, and a variety of bacteria have been found to develop significant resistance to it. Therefore, the sterilization effect is poor.

The conventional sterilizing machine matched with the peroxyacetic acid sterilizing liquid comprises two types, namely a type of sterilizing liquid matched with the circulating sterilizing liquid, a type of peroxyacetic acid with relatively high concentration is used, the peroxyacetic acid is recycled until the concentration is insufficient and then replaced, a type of sterilizing liquid matched with the disposable sterilizing liquid, a type of peroxyacetic acid stock solution with very high concentration is used, the device automatically extracts the stock solution and matches the stock solution into the disposable low-concentration peroxyacetic acid, and the low-concentration peroxyacetic acid is immediately discharged after single use. In addition, the concentration of the peracetic acid is monitored manually by an indicator card in hospitals, and the peracetic acid is greatly interfered by environmental factors and human factors, so that the risk that the peracetic acid is still used when the concentration of the peracetic acid is insufficient exists.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides full-automatic endoscope cleaning and sterilizing equipment, which realizes full-automatic cleaning and sterilizing of a soft endoscope, realizes automatic proportioning of peracetic acid sterilizing liquid, avoids waste of peracetic acid sterilizing liquid and reduces cost.

The invention provides full-automatic endoscope cleaning and disinfecting equipment, which comprises a shell, wherein a stock solution storage device, a metering device, a disinfectant storage device, a first power device, a disinfectant liquid power device, a decontamination groove, a water filtering device and a control device are arranged in the shell, the decontamination groove is arranged at the upper part of the inner side of the shell, a door cover is arranged at the top of the shell corresponding to the decontamination groove, one end of the door cover is hinged with the shell, the stock solution storage device, the metering device, the disinfectant liquid storage device, the first power device, the disinfectant liquid power device and the water filtering device are arranged in the shell below the decontamination groove, the stock solution storage device, the metering device and the disinfectant liquid storage device are sequentially connected through pipelines to form a stock solution taking loop, the water filtering device, the first power device, the decontamination groove, the first power device and the disinfectant liquid storage device are sequentially connected in a head-tail mode through pipelines to form an endoscope loop, and the door cover, the metering device, the first power device and the disinfectant liquid power device are electrically connected with the control device.

The water filtering device is used for disinfecting an external water source and then storing the external water source into the disinfectant storage device, the metering device is used for taking a proper amount of disinfectant stock solution and storing the disinfectant stock solution into the disinfectant storage device, sterile water and the disinfectant stock solution are mixed to form disinfectant, the endoscope is placed into the disinfection bath, the equipment is started, and the disinfectant is automatically pumped into the disinfection bath by the disinfectant hydraulic power device to disinfect the endoscope; after the disinfection is finished, the disinfection liquid returns to the venom storage device through the first power device.

The primary liquid recovery device is characterized in that a secondary power device is arranged between the primary liquid storage device and the metering device in the primary liquid taking loop, a primary liquid recovery valve is arranged between the metering device and the disinfectant storage device, and the secondary power device and the primary liquid recovery valve are electrically connected with the control device. The second power device provides power for the disinfection stock solution from the stock solution storage device to the metering device, the automatic extraction of the disinfection stock solution is realized, the on-off between the metering device and the disinfection stock solution storage device is realized through the stock solution recovery valve, and the disinfection solution is prevented from flowing back after the proportion of the disinfection stock solution is finished.

The decontamination groove is internally provided with a water outlet, the decontamination groove is downwards extended from the end part to the water outlet, and the decontamination groove is internally provided with a bulge along the flowing direction of the disinfectant. The bulges in the decontamination groove can support the outer surface of the endoscope, reduce the contact between the outer surface of the endoscope and the bottom of the decontamination groove, and ensure the full contact between the disinfectant and the outer surface of the endoscope.

The outer side of the bottom of the shell is provided with a kick switch which is electrically connected with the control device. The control device is electrically connected with the door cover, and when an operator has instruments in hands or does not clean hands, the door cover can be automatically opened by touching the foot switch by feet.

The free end of the door cover is provided with a barrier adhesive tape. If the condition of clamping hands or clamping an endoscope occurs in the door closing process, an obstacle teaching strip can be triggered, so that the door cover is automatically opened.

The shell is provided with a touch screen corresponding to the control device, and the touch screen is electrically connected with the control device. The touch screen facilitates the operator's inspection of modifications to the running program.

The device is characterized in that a main water inlet valve is arranged in the shell and is communicated with the water filtering device through a pipeline, a self-sterilizing valve is arranged between the main water inlet valve and the water filtering device, one end of the self-sterilizing valve is connected with an inlet of the water filtering device, the other end of the self-sterilizing valve is connected with a decontamination groove, and a sterilizing liquid storage device, a sterilizing liquid power device, a decontamination groove, a first power device, the water filtering device, the self-sterilizing valve and the decontamination groove form a self-sterilizing inner loop. After daily work is finished, the disinfectant in the disinfectant storage device is pumped out, and the disinfectant is self-disinfected through the disinfectant power device, the decontamination groove, the first power device, the water filtering device, the self-disinfection valve, the decontamination groove and pipelines between the disinfectant and the self-disinfection valve, so that the phenomenon that liquid residues exist in each device and pipeline to cause bacterial proliferation is prevented, and the disinfectant flows into the devices all around when the disinfectant is used next time, and the disinfection effect of an endoscope is affected.

The enzyme liquid storage device is arranged in the shell and is connected with the decontamination groove through a pipeline, and the enzyme liquid storage device, the decontamination groove, the first power device and the decontamination groove form a self-disinfection outer loop. The external water source enters the decontamination tank through the water filtering device, meanwhile, enzyme liquid in the enzyme liquid storage device also enters the decontamination tank, sterile water and the enzyme liquid are mixed in the decontamination tank, the mixed liquid is pumped out of the decontamination tank by the first power device and flows back to the decontamination tank, and therefore the inner sides of the decontamination tank wall and the door cover are cleaned.

And a heating device is arranged between the first power device in the self-disinfection outer loop and the decontamination groove. When the outside air is cold, the enzyme liquid is heated by the heating device, so that the disinfection effect of the enzyme liquid is ensured.

The inner bottom of the shell is provided with a drain valve, a water inlet valve is arranged between the water filtering device and the first power device, a disinfectant recovery valve is arranged between the decontamination groove and the first power device, and the water inlet valve, the disinfectant recovery valve and the self-disinfection valve are all connected with the drain valve. Through setting up the water intaking valve, realize the break-make of pipeline between water filter equipment and the first power device, through setting up the antiseptic solution recovery valve, realized decontaminating the break-make of pipeline between groove and the first power device, through setting up the drain valve, with antiseptic solution through the drain valve automatic discharge after the self-sterilizer finishes, avoid the use beyond the period.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the automatic proportioning of the disinfectant is realized by arranging the stock solution loop and the water taking loop, and the automatic disinfection and the recycling of the disinfectant of the endoscope are realized by arranging the endoscope disinfection loop, so that the waste of the peracetic acid disinfectant is avoided, and the cost is reduced.

2. The decontaminating groove is internally provided with a water outlet, the decontaminating groove is arranged in a downward extending way from the end part to the water outlet, and the decontaminating groove is internally provided with a bulge along the flowing direction of the disinfectant flow. The bulges in the decontamination groove can support the outer surface of the endoscope, reduce the contact between the outer surface of the endoscope and the bottom of the decontamination groove, and ensure the full contact between the disinfectant and the outer surface of the endoscope.

3. The main water inlet valve is communicated with the water filtering device through a pipeline, a self-sterilizing valve is arranged between the main water inlet valve and the water filtering device, one end of the self-sterilizing valve is connected with an inlet of the water filtering device, the other end of the self-sterilizing valve is connected with a decontamination groove, and the sterilizing liquid storage device, the sterilizing liquid power device, the decontamination groove, the first power device, the water filtering device, the self-sterilizing valve and the decontamination groove form a self-sterilizing inner loop. After daily work is finished, the disinfectant in the disinfectant storage device is pumped out, and the disinfectant is self-disinfected through the disinfectant power device, the decontamination groove, the first power device, the water filtering device, the self-disinfection valve, the decontamination groove and pipelines between the disinfectant and the self-disinfection valve, so that the phenomenon that liquid residues exist in each device and pipeline to cause bacterial proliferation is prevented, and the disinfectant flows into the devices all around when the disinfectant is used next time, and the disinfection effect of an endoscope is affected.

Drawings

Fig. 1 is a schematic perspective view of embodiment 1 of the present invention;

fig. 2 is a schematic view of an internal first perspective structure of embodiment 1 of the present invention;

FIG. 3 is a schematic top view of the decontamination trough of the present invention;

FIG. 4 is a schematic view of the internal second perspective of embodiment 1 of the present invention;

FIG. 5 is a schematic view of the third perspective view of the embodiment 1 of the present invention;

fig. 6 is a schematic view of the internal fourth perspective structure of embodiment 1 of the present invention.

In the figure: 1. a touch screen; 2. a light strip; 3. a kick switch; 4. a barrier adhesive tape; 5. a door cover; 6. an alcohol bottle; 7. a water filtration device; 8. an enzyme solution storage device; 9. a sampling button; 10. a needle printer; 11. a disinfectant storage device; 12. a stock solution storage device; 13. a self-sterilizing port; 14. an overflow port; 15. a cleaning liquid inlet; 16. a disinfectant inlet; 17. an endoscope perfusion port; 18. a protrusion; 19. a water outlet; 20. a decontamination tank; 21. ultrasonic basket; 22. a stock solution recovery valve; 23. a metering device; 24. a disinfectant recovery valve; 25. a second power device; 26. a disinfectant sampling pump; 27. a sterilizing fluid power device; 28. a first power unit; 29. a drain valve; 30. a heating device; 31. a water inlet valve; 32. a self-sterilizing valve; 33. and a total water inlet valve.

Detailed Description

The invention is further described below with reference to examples:

example 1

As shown in fig. 1-6, the full-automatic endoscope cleaning and disinfecting equipment comprises a shell, wherein a stock solution storage device 12, a metering device 23, a disinfectant storage device 11, a first power device 28, a disinfectant power device 27, a decontamination groove 20, a water filtering device 7 and a control device are arranged in the shell, peracetic acid is filled in the stock solution storage device 12, a high-liquid-level floating ball is arranged in the metering device 23 and used for metering, a liquid level probe is also arranged in the metering device 23 and used for overflow protection, the metering device 23 is arranged above the disinfectant storage device 11, an outlet at the bottom of the metering device 23 is communicated with an inlet at the top of the disinfectant storage device 11 through a pipeline, so that weighed disinfectant flows into the disinfectant storage device 11 under the action of self gravity, and the water filtering device 7 carries out sterilization treatment on an external water source, so that water entering a circulating system is sterile water and the disinfectant is prevented from polluting; the first power device 28 is a raw liquid pump and is used for pumping the peracetic acid in the raw liquid storage device 12 into the metering device 23; the disinfectant power device 27 is a liquid pump and is used for pumping the disinfectant in the disinfectant storage device 11 into the decontamination groove 20; the stock solution storage device 12, the metering device 23, the disinfectant storage device 11, the first power device 28, the disinfectant hydrodynamic device 27 and the water filter device 7 are arranged in a shell below the decontamination groove 20, the stock solution storage device 12, the metering device 23 and the disinfectant storage device 11 are sequentially connected through pipelines to form a stock solution taking loop, the water filter device 7, the first power device 28, the decontamination groove 20, the first power device 28 and the disinfectant storage device 11 are sequentially connected through pipelines to form a water taking loop, the disinfectant storage device 11, the disinfectant hydrodynamic device 27, the decontamination groove 20 and the first power device 28 are sequentially connected end to form an endoscope disinfection loop, and the door cover 5, the metering device 23, the first power device 28 and the disinfectant hydrodynamic device 27 are electrically connected with a control device. A second power device 25 is arranged between the stock solution storage device 12 and the metering device 23 in the stock solution taking loop, the second power device 25 is a liquid pump, a stock solution recovery valve 22 is arranged between the metering device 23 and the disinfectant storage device 11, and the second power device 25 and the stock solution recovery valve 22 are electrically connected with the control device.

As shown in fig. 1 and 2, the top of the casing is provided with a door cover 5 corresponding to the decontamination groove 20, one end of the door cover 5 is hinged with the casing, the door cover 5 is a transparent glass cover, the running condition is convenient to observe, the outer side of the bottom of the casing is provided with a foot-operated switch 3, and the free end of the door cover 5 is provided with a barrier adhesive tape 4. The touch screen 1 is arranged on the shell corresponding to the control device, the lamp strips 2 are arranged on the periphery of the shell, and the lamp strips 2 display different colors to indicate different running states of the equipment; the shell is provided with a sampling button 9, the sampling button 9 is pressed to sample the disinfectant in the disinfectant storage device 11, and the sampling button 9, the needle printer 10, the lamp strip 2, the touch screen 1, the kick switch 3 and the control device are electrically connected.

As shown in fig. 3, the decontamination groove 20 is arranged at the upper part of the inner side of the shell, a water outlet 19 is arranged in the decontamination groove 20, the decontamination groove 20 is arranged to extend downwards from the end part to the water outlet 19, and a bulge 18 is arranged in the decontamination groove 20 along the flowing direction of the sterilizing fluid. The top in the decontamination groove 20 is provided with a self-sterilizing opening 13, and when the equipment performs self-sterilization, the sterilizing liquid is circulated back to the decontamination groove 20, and enters the decontamination groove 20 from the self-sterilizing opening 13. The top in the decontamination groove 20 is also provided with an overflow port 14, when the disinfectant in the decontamination groove 20 is too much, the disinfectant can flow out from the overflow port 14, and the disinfectant is prevented from flowing out from the door cover 5, so that the equipment is prevented from being damaged. The top in the decontamination tank 20 is also provided with a disinfectant inlet 16, and disinfectant in the disinfectant storage device 11 enters the decontamination tank 20 from the disinfectant inlet 16. An ultrasonic basket 21 is arranged in the decontamination groove 20 near the water falling opening 19, and the ultrasonic basket 21 can emit ultrasonic waves to deeply clean the endoscope. The endoscope perfusion opening 17 is arranged in the decontamination groove 20, the endoscope is communicated with the endoscope perfusion opening 17, the disinfection liquid enters the endoscope through the endoscope perfusion opening 17, and the two endoscope perfusion openings 17 are arranged, so that the two endoscopes can be disinfected simultaneously, and the disinfection efficiency is improved.

As shown in fig. 4 to 6, a main water inlet valve 33 is arranged in the shell, the main water inlet valve 33 is communicated with the water filtering device 7 through a pipeline, a self-sterilizing valve 32 is arranged between the main water inlet valve 33 and the water filtering device 7, one end of the self-sterilizing valve 32 is connected with an inlet of the water filtering device 7, the other end of the self-sterilizing valve 32 is connected with the decontamination tank 20, sterilizing liquid conveyed from the self-sterilizing valve 32 enters the decontamination tank 20 from the self-sterilizing opening 13, and a self-sterilizing inner loop is formed by the sterilizing liquid storage device 11, the sterilizing liquid power device 27, the decontamination tank 20, the first power device 28, the water filtering device 7, the self-sterilizing valve 32 and the decontamination tank 20. An enzyme liquid storage device 8 is arranged in the shell, the enzyme liquid storage device 8 is connected with the decontamination groove 20 through a pipeline, and the enzyme liquid storage device 8, the decontamination groove 20, the first power device 28 and the decontamination groove 20 form a self-disinfection outer loop. A cleaning liquid inlet 15 is arranged at the inner side of the decontamination groove 20, and enzyme liquid flows into the decontamination groove 20 from the cleaning liquid inlet 15; a heating device 30 is provided between the primary power means 28 in the self-sterilizing outer loop and the decontamination tank 20. The bottom in the casing sets up drain valve 29, sets up water intaking valve 31 between water filter 7 and the first power device 28, sets up antiseptic solution recovery valve 24 between decontamination groove 20 and the first power device 28, and water intaking valve 31, antiseptic solution recovery valve 24 and self-sterilizer valve 32 all are connected with drain valve 29. The disinfectant sampling pump 26 is arranged in the shell, the disinfectant sampling pump 26 is connected with the disinfectant storage device 11 through a pipeline, the sampling button 9 is pressed, and the prepared disinfectant is extracted from the disinfectant storage device 11. An alcohol bottle 6 is arranged in the shell, when the endoscope is air-dried, alcohol is introduced first, the endoscope is washed, and then air-dried, so that the endoscope is fully air-dried.

Experimental data show that the endoscope is sterilized by adopting a 5L storage barrel and adopting an automatic proportioning mode, the endoscope can be used for 25 days, and the number of sterilized endoscopes can reach 500; the number of the disinfection endoscopes is generally not more than 50 by adopting a mode of matching with the circulating disinfection liquid; the disposable disinfection solution is adopted for use, and the number of disinfection endoscopes is generally not more than 50; therefore, the number of the endoscope decontaminating strips is about 10 times that of the traditional equipment in an automatic proportioning mode, the disinfection cost can be reduced by more than 10 times, and the reprocessing cost of the endoscope can be effectively reduced.

The working process comprises the following steps:

before the endoscope is disinfected, the automatic proportion of disinfectant is carried out, then the endoscope is placed in a decontamination groove, a disinfection program is started, after the disinfection is finished, the endoscope is taken out, after one day of disinfection is finished, a self-disinfection program is started, and the device is self-disinfected.

The description of the directions and the relative positional relationships of the structures, such as the description of the front, back, left, right, up and down, in the present invention does not limit the present invention, but is merely for convenience of description.

Claims (8)

1. The utility model provides a full-automatic endoscope cleaning and disinfecting equipment, a serial communication port, which comprises a housin, set up stoste storage device (12) in the casing, metering device (23), antiseptic solution storage device (11), first power device (28), antiseptic solution power device (27), decontaminate groove (20), water filter equipment (7) and controlling means, decontaminate groove (20) are arranged in the inboard upper portion of casing, the casing top corresponds decontaminate groove (20) and sets up door (5), door (5) one end and casing hinge, stoste storage device (12), metering device (23), antiseptic solution storage device (11), first power device (28), antiseptic solution power device (27), and water filter equipment (7) are arranged in decontaminate groove (20) below casing, stoste storage device (12), metering device (23) and antiseptic solution storage device (11) are through the pipe connection in proper order and are formed the stock solution circuit, water filter equipment (7), first power device (28), decontaminate groove (20), first power device (28) and antiseptic solution storage device (11) are connected through the pipe connection in proper order and are formed the first circuit (28), the first power device (28) and antiseptic solution storage device (11) are connected through the first circuit (28) and the first liquid storage device (20) is connected through the first circuit of the antiseptic solution storage device (11) through the pipeline The device comprises a metering device (23), a first power device (28) and a disinfection liquid power device (27) which are electrically connected with a control device, wherein a second power device (25) is arranged between a raw liquid storage device (12) and the metering device (23) in a raw liquid loop, a raw liquid recovery valve (22) is arranged between the metering device (23) and a disinfection liquid storage device (11), the second power device (25) and the raw liquid recovery valve (22) are electrically connected with the control device, a total water inlet valve (33) is arranged in a shell, the total water inlet valve (33) is communicated with a water filtering device (7) through a pipeline, a self-disinfection valve (32) is arranged between the total water inlet valve (33) and the water filtering device (7), one end of the self-disinfection valve (32) is connected with an inlet of the water filtering device (7), the other end of the self-disinfection valve (32) is connected with a decontamination tank (20), and the disinfection liquid storage device (11), the disinfection liquid power device (27), the decontamination tank (20), the first power device (28), the water filtering device (7), the self-disinfection valve (32) and the decontamination tank (20) form a self-disinfection loop.

2. The full-automatic endoscope cleaning and disinfecting device according to claim 1, wherein a water outlet (19) is arranged in the decontamination groove (20), the decontamination groove (20) is arranged to extend downwards from the end part to the water outlet (19), and a bulge (18) is arranged in the decontamination groove (20) along the flowing direction of the disinfecting liquid.

3. The full-automatic endoscope cleaning and disinfecting device according to claim 1, wherein a kick switch (3) is arranged on the outer side of the bottom of the shell, and the kick switch (3) is electrically connected with the control device.

4. The full-automatic endoscope cleaning and disinfecting device according to claim 1, characterized in that the free end of the door cover (5) is provided with a barrier adhesive tape (4).

5. The full-automatic endoscope cleaning and disinfecting device according to claim 1, wherein a touch screen (1) is arranged on the shell corresponding to the control device, and the touch screen (1) is electrically connected with the control device.

6. A fully automatic endoscope cleaning and disinfecting apparatus according to claim 1, characterized in that the disinfecting liquid storage means (11), the disinfecting liquid power means (27), the decontamination tank (20), the first power means (28) and the disinfecting liquid storage means (11) form a self-disinfecting outer loop.

7. The full-automatic endoscope cleaning and disinfecting device according to claim 6, wherein an enzyme liquid storage device (8) is arranged in the shell, the enzyme liquid storage device (8) is connected with the decontamination groove (20) through a pipeline, and a heating device (30) is arranged between the enzyme liquid storage device (8) and the decontamination groove (20).

8. The full-automatic endoscope cleaning and disinfecting device according to claim 6, wherein a drain valve (29) is arranged at the bottom of the shell, a water inlet valve (31) is arranged between the water filtering device (7) and the first power device (28), a disinfectant recovery valve (24) is arranged between the decontamination groove (20) and the first power device (28), and the water inlet valve (31), the disinfectant recovery valve (24) and the self-disinfecting valve (32) are all connected with the drain valve (29).