JP5087311B2 - Cleaning device - Google Patents

Description

  The present invention relates to a cleaning apparatus, and more particularly, to a cleaning apparatus that performs ultrasonic cleaning and hot water cleaning on an instrument to be cleaned.

Medical instruments such as scalpels and tubes used for surgery are reused after being washed with body fluid such as blood and proteins and then sterilized.
As such a medical instrument cleaning / sterilization apparatus, for example, in Patent Document 1 below, a cleaning target instrument enclosed in a cleaning tank is cleaned by ultrasonic cleaning, and then cleaned by a heater provided in the cleaning tank. A cleaning and sterilization apparatus has been proposed that heats water stored in a tank and sterilizes it as high-temperature steam.
In addition, as a simple sterilization apparatus, Patent Document 2 below also proposes a sterilization apparatus that showers hot water to be sterilized. Such a sterilizer is shown in FIG. In the sterilization apparatus shown in FIG. 10, a plurality of trays 102 on which articles to be sterilized 100 are stacked are accommodated in a substantially cylindrical sterilization tank 104, and hot water is injected into the sterilization tank 104, thereby sterilization tank. 1 is a heat sterilization apparatus that heats and sterilizes an object to be sterilized in 104. In the sterilization tank 104, a direct heating hot water injection nozzle 106 that injects hot water toward the object to be sterilized 100, and a sterilization tank 104. There is provided a heating amount adjusting hot water injection nozzle 108 for injecting hot water upward near the side wall forming the straight body portion.
JP 2005-65991 A JP 2003-299715 A

The cleaning and sterilization apparatus of Patent Document 1 is efficient because it can perform cleaning and sterilization with a single apparatus. However, in order to generate high-temperature steam in the cleaning tank, it is necessary to adopt a pressure vessel as the cleaning tank, and the cleaning / sterilization apparatus becomes heavy equipment, and it is necessary to strictly maintain and manage it.
On the other hand, in the sterilization apparatus of the above-mentioned Patent Document 2, sterilization can be performed with a small amount of washing water, and heating spots on an object to be sterilized can be eliminated. However, such a sterilization apparatus is an apparatus used for sterilization of hermetically packaged food, and cannot be used for sterilization of medical instruments such as a scalpel or a tube to which a body fluid such as blood or protein adheres during surgery.
By the way, depending on the type of instrument, there are instruments that are sufficient only by washing with hot water after washing body fluid such as blood and proteins, and washing with hot water. Further, even when sterilization is performed on an instrument that has been subjected to such hot water cleaning, it can be simplified compared to sterilization on an instrument that has only been cleaned with cleaning water.
Therefore, the present invention solves the problems of conventional cleaning and sterilization devices that are heavy equipment and require strict maintenance management, or conventional sterilization devices that are inappropriate for sterilization of medical instruments used in surgery, Provided is a cleaning device that can perform cleaning with hot water and hot water cleaning with the same simple equipment even for medical instruments such as scalpels and tubes to which body fluids such as blood and proteins adhere for use in surgery For the purpose.

In order to remove the bodily fluids and proteins from medical instruments such as a scalpel and a tube to which body fluids such as blood and proteins are attached, the present inventors have used a device immersed in washing water in order to solve the above problems. We considered that ultrasonic cleaning with ultrasonic irradiation was effective, and that it was effective to circulate hot water while showering the instruments cleaned by ultrasonic cleaning.
However, it takes a considerable amount of time to heat the cleaning water that immerses the entire instrument cleaned by ultrasonic cleaning into hot water, and the circulation pump causes cavitation when circulating the hot water. It has been found that the amount of hot water circulating is reduced and a sufficient amount of showering cannot be performed directly on the appliance, and the heat treatment applied to the appliance tends to be uneven.
As a result of further investigations by the present inventors about such problems, the time until hot water at a desired temperature is reduced by reducing the washing water to such an extent that a part of the instrument cleaned by ultrasonic cleaning is exposed. In order to reduce the amount of hot water circulating in the circulation pump, steam and hot water that sufficiently fills the space where a part of the appliance is exposed can be obtained by spraying hot water from the spray nozzle onto the ceiling surface. Thus, the present inventors have reached the present invention after knowing that the device can be heated uniformly.

That is, the present invention is a cleaning device that performs ultrasonic cleaning and hot water cleaning on a device to be cleaned, in which cleaning water can be stored so that the entire device is immersed, and an opening is formed in a part of the bottom surface. A storage tank having a pot portion provided with a heater for heating cleaning water in the recessed portion, supply / discharge means for supplying and discharging a predetermined amount of cleaning water into the storage tank, and an opening of the storage tank. A spray nozzle that sprays cleaning water heated in the pot portion toward the ceiling surface of the ceiling portion that is provided to cover, and a cleaning that is provided on the outer peripheral surface side of the storage tank and stored in the storage tank An ultrasonic oscillator that oscillates ultrasonically into an instrument that is entirely immersed in water, and an ultrasonic oscillator that performs ultrasonic cleaning, and a part of the instrument that has been subjected to ultrasonic cleaning are stored in the storage tank so as to be exposed. The washing water is heated in the pot portion to A pump for feeding the morphism nozzle, and comprising a control means for controlling the supply and discharge means to store a predetermined amount of washing water used in each wash to the reservoir tank, the instrument to be cleaned is, A hollow device having a hollow portion formed therethrough, and provided with water passing means for passing cleaning water or hot water used for each cleaning in the hollow portion of the hollow device during ultrasonic cleaning and hot water cleaning. A basket having gripping means capable of gripping one end of each hollow portion of the plurality of hollow instruments and allowing washing water or hot water to pass therethrough is detachably mounted in the storage tank, and one end of the gripping means of the basket And a connecting means provided so that the one end of the external conduit for guiding the cleaning water or hot water can be brought into and out of connection with the insertion and removal of the basket into the storage tank. .
In the present invention, the inside of the hollow portion of the hollow instrument can be sufficiently cleaned, and the plurality of hollow instruments can be easily attached to and detached from the cleaning device.
Openings or mow storage tank, arranged to be opened and closed by a lid portion, and one end of the inner conduit and directing the hot water jetting nozzle provided on the lid portion, and one end of the external conduit for guiding the hot water, the By providing connection means that can be brought into and out of contact with the opening and closing of the opening by the lid, it is possible to easily insert and remove the device to be cleaned from the storage tank.
In addition, the "hot water" said by this invention says a temperature of 65-95 degreeC.

According to the cleaning apparatus of the present invention, the pot portion in which the cleaning water can be stored so that the entire apparatus is immersed, and the heater for heating the cleaning water is provided in the recess opened in a part of the bottom surface. Using the storage tank provided, ultrasonic cleaning can be performed in a state where the entire device is immersed in cleaning water, and body fluid such as blood and proteins adhering to the device can be cleaned.
Next, the cleaning water stored in the storage tank is heated by the heater of the pot portion of the storage tank to such an extent that a part of the instrument subjected to ultrasonic cleaning is exposed. For this reason, the cleaning water can be heated to a hot water state at a predetermined temperature in a short time.
The hot water is ejected from the spray nozzle by a pump to perform hot water cleaning on the instrument. At that time, the decrease in the amount of hot water supplied from the pump to the injection nozzle is compensated by injecting hot water from the injection nozzle toward the ceiling surface of the ceiling portion provided to cover the opening of the storage tank. be able to. That is, by spraying hot water toward the ceiling surface, the hot water flows down along the ceiling surface and the inner surface of the storage tank, and the steam generation area of the hot water is expanded. For this reason, the space in which a part of the instrument is exposed can be sufficiently filled with water vapor, and the instrument can be uniformly heated in combination with the portion where hot water is sprayed on the instrument.
As a result, ultrasonic cleaning and hot water cleaning can be performed with the same simple equipment even for medical instruments such as scalpels and tubes to which body fluids such as blood and proteins are attached for use in surgery.

A schematic view of a cleaning apparatus according to the present invention is shown in FIG. The storage tank 10 constituting the cleaning device shown in FIG. 1 is a heater that can store cleaning water so that the entire apparatus to be cleaned is immersed, and heats the cleaning water in a recess that is opened in a part of the bottom surface. 14 is provided with a pot portion 12 provided with 14. The washing water in the pot portion 12 is heated to a desired temperature by the heater 14. The bottom surface of the storage tank 10 is provided on an inclined surface toward the pot portion 12, and an ultrasonic oscillation device 16 is provided on the outer peripheral surface side of the bottom surface provided on the inclined surface.
Cylindrical injection nozzles 20 and 20 are rotatably provided on the inner side surface (ceiling surface) of the lid portion 18 provided so as to be openable and closable so as to cover the opening of the storage tank 10. As shown in FIG. 2, the injection nozzles 20 and 20 are formed with two injection holes 20b and 20b at both ends of the cylindrical portion 20a. As shown in FIG. 3, the injection hole 20b is formed so as to eject the fluid in the cylindrical portion 20a obliquely upward. Since the injection direction from the injection holes 20b, 20b formed at one end of both ends of the cylindrical portion 20a is different from the injection direction from the injection holes 20b, 20b formed at the other end, the injection When fluid is ejected from the ejection holes 20b of the nozzles 20 and 20, the ejection nozzles 20 and 20 rotate as shown in FIG.

As shown in FIG. 1, the storage tank 10 includes a bent portion 22 a formed by bending along the wall surface of the storage tank 10 of the internal conduit 22 that guides fluid to the injection nozzles 20, 20 shown in FIGS. 1 and 2. 10 is connected to a connecting portion 24 provided on the wall surface. As shown in FIG. 4 which is a partially enlarged sectional view of the connecting portion 24, the bent portion 22a of the internal conduit 22 is fixed to the fixed portion 24a fixed to the wall surface of the storage tank 10 by a spring 24b as a biasing member. The distal end portion 25 of the connection member 24c is urged in the direction of the opening 22b formed at the front. The tip portion 25 is formed in a truncated cone shape, and a passage 26 is formed in the central portion. For this reason, the opening part of the channel | path 26 currently opened by the front end surface of the front-end | tip part 25 and the opening part 22b of the bending part 22a of the internal conduit 22 are connected by the urging | biasing force of the spring 24b.
As shown in FIG. 5A, the distal end portion 25 of the connection member 24c is connected to the opening 22b of the bent portion 22a of the internal conduit 22 by the urging force of the spring 24b. For this reason, as shown in FIG. 5B, when the lid 18 is opened, the internal conduit 22 including the injection nozzle 20 and the bent portion 22 a moves together with the lid 18.
When the lid 18 is closed, as shown in FIG. 5A, the opening 22b of the bent portion 22a and the tip 25 of the connecting member 24c can be connected again by the biasing force of the spring 24b.

Since the lid 18 can be opened and closed in this manner, the basket 28 can be inserted into and removed from the storage tank 10 shown in FIG. 1 by opening the lid 18. As shown in FIG. 6, the basket 28 is provided with a net-like portion 28 a on which a device to be cleaned can be placed.
Furthermore, when cleaning a hollow instrument formed with a hollow part such as a tube used for endoscopic surgery, a gripping member 30, 30... That grips one end of the hollow instrument and flows cleaning water into the hollow part Is provided in the box portion 32 disposed on one end side of the basket 28. The opening portion of the supply port 32a that supplies fluid into the box portion 32 is connected to a connection portion 34 provided on the wall surface of the storage tank 10, as shown in FIG.
FIG. 8 shows an enlarged partial cross-sectional view of the connecting portion 34. In the connecting portion 34 shown in FIG. 8, the direction of the opening portion of the supply port 32 a formed on the side surface of the box portion 32 by the spring 36 b as an urging member with respect to the fixing portion 36 a fixed to the wall surface of the storage tank 10. Further, the distal end portion 37 of the connection member 36c is biased. The tip portion 37 is formed in a truncated cone shape, and a passage 38 is formed in the central portion. For this reason, the biasing force of the spring 36 b connects the opening of the passage 38 opened at the tip surface of the tip 37 and the opening of the supply port 32 a formed in the box 32.

As shown in FIG. 8, the tip 37 of the connection member 36c is connected to the opening of the supply port 32a formed in the box 32 by the biasing force of the spring 36b. Therefore, by grasping the handles 28b, 28b provided at both ends of the basket 28 and pulling out the basket 28, the connection between the tip 37 of the connecting member 36c and the opening of the supply port 32a is released, and the basket 28 28 can be removed from the storage tank 10.
On the other hand, when the basket 28 is inserted into the storage tank 10, when the basket 28 is pushed to a predetermined position, as shown in FIG. 7, the tip 37 of the connecting member 36c and the opening of the supply port 32a are connected to the spring 36b. Connected by the biasing force of.

The cleaning apparatus shown in FIGS. 1 to 8 is provided with piping and the like as shown in FIG. The hot water heated in the pot portion 12 of the storage tank 10 passes through the connection portion 34 by the centrifugal pump 40 (hereinafter simply referred to as the pump 40) and is sent to the supply port 32a of the box portion 32, and also automatically. It passes through the valve 42 and the connecting portion 24 and is supplied to the injection nozzles 20 and 20.
The connecting portion 34 is supplied with compressed air from the fan 44 through the automatic valve 46 and the reverse support valve 48.
In addition, cleaning water is fed into the storage tank 10 via the automatic valve 50, and the cleaning water in the storage tank 10 is discharged from the bottom of the pot unit 12 via the automatic valve 52 to the outside of the system.
The heater 14, the automatic valves 42, 46, 50, 52, the pump 40, and the fan 44 are controlled by the control unit 56.

First, the control unit 56 opens the automatic valve 50 to supply water into the storage tank 10 to store cleaning water. The amount of cleaning water stored in the storage tank 10 is an amount in which the entire hollow instrument having one end gripped by the gripping members 30, 30... Provided in the box portion 32 of the basket 28 is immersed in the cleaning water. When the storage is performed up to the line A shown in FIG. 9, the automatic valve 50 is closed by the closing signal from the control unit 56 and the water supply is finished. A cleaning agent or a lubricant may be added to the cleaning water stored in a predetermined amount in the storage tank 10 as necessary.
Next, the pump 40 is activated by an activation signal from the control unit 56, and washing water is passed through the box portion 32 of the basket 28 and the hollow portion of the hollow instrument. At this time, the automatic valve 42 is in a closed state, and the heater 14 is not energized.
In this way, while washing water is circulated by the pump 40, ultrasonic waves are oscillated from the ultrasonic oscillator 16 by the oscillation signal from the control unit 56, and the washing water is passed through the hollow part of the hollow instrument. The hollow instrument is cleaned by ultrasonic. By such ultrasonic cleaning, body fluids such as blood and proteins adhering to the inside and outside of the hollow instrument can be effectively cleaned.

When the ultrasonic cleaning for a predetermined time is finished, the ultrasonic oscillation by the ultrasonic oscillator 16 is stopped by the stop signal from the control unit 56 and the pump 40 is also stopped.
Next, the automatic valve 52 is opened by an open signal from the control unit 56 and the washing water in the storage tank 10 is discharged out of the system, and then the automatic valve 52 is closed and the automatic valve 50 is opened to supply water to the storage tank 10. Start. In the water supply after the ultrasonic cleaning is finished, the amount of the cleaning water is the amount that the grip members 30, 30... Provided in the box portion 32 of the basket 28 are exposed. When the water is stored up to the line B shown in FIG. 9, the automatic valve 50 is closed by the closing signal from the control unit 56 and the water supply is finished.
Thereafter, the pump 40 is driven by a drive signal from the control unit 56 and the heater 14 in the pot unit 12 is energized. Since the amount of cleaning water stored in the storage tank 10 is smaller than the amount of cleaning water used for ultrasonic cleaning, the heater 14 can raise the temperature to a predetermined temperature in a short time.
Further, the automatic valve 42 is also opened, and hot water heated by the heater 14 in the pot portion 12 is supplied to the spray nozzles 20 and 20 by the pump 40, and the box portion 32 of the basket 28 and the hollow of the hollow device are hollow. Hot water is supplied into the unit.

The spray nozzles 20, 20 to which hot water is supplied spray hot water toward the ceiling surface of the lid 18 while rotating. The hot water sprayed on the ceiling surface flows down from the ceiling surface to the hollow appliance or flows down from the ceiling surface along the inner surface, thereby making it possible to widen the water vapor generation area as much as possible. For this reason, the hot water temperature is raised to a temperature at which cavitation is likely to occur in the pump 40 (usually 80 to 95 ° C.), the amount of liquid fed by the pump 40 is reduced, and the hot water is sprayed directly on the hollow instrument. Even if the amount of hot water is reduced, water can be filled in the space where the grip members 30, 30... Provided in the box portion 32 of the basket 28 are exposed. As a result, even if a hollow instrument housed in the basket 28 and inserted into the storage tank 10 has a portion that does not directly contact hot water, the portion comes into contact with water vapor having a temperature substantially equal to that of hot water and is cleaned. Is done. Such hot water cleaning is performed for a predetermined time after the hot water temperature is raised to 80 to 95 ° C.
When the hot water cleaning is completed, the energization of the heater 14 is interrupted by the signal from the control unit 56 and the pump 40 is stopped. Further, the hot water cleaned by opening the automatic valve 52 is discharged out of the system.
Thereafter, the fan 44 is activated by the activation signal from the control unit 56, and the automatic valve 46 is opened, so that the outside air flow is retained in the hollow portion of the hollow instrument via the box portion 32 of the basket 28. Drain the water and finish the series of washings.

Instead of the basket 28 of the cleaning apparatus shown in FIGS. 1 to 9, a cleaning basket having a bottom and side surfaces formed of a net is used, and a plurality of biologicals are formed on the net forming the bottom of the cleaning basket. An indicator was placed and washed only with hot water.
As this biological indicator, Bacillus atrophaeus (ATCC9372) as an indicator bacterium was applied to one side of the washed stainless steel piece. The number of bacteria on the coated surface is 2.6 × 10 ⁴ .
A washing basket in which a plurality of biological indicators were placed on a net that forms the bottom surface with each indicator bacteria application surface being the lower surface side was inserted into the storage tank 10.
Next, after the cleaning water is stored in the storage tank 10 up to the line B (FIG. 6) where the plurality of biological indicators placed on the bottom surface of the cleaning bucket is not immersed, the cleaning water is injected by the pump 40. It sprayed and circulated toward the ceiling surface of the cover part 18 from the nozzles 20 and 20.
The washing water supplied to the pump 40 is heated by the heater 14 of the pot unit 12 and the entire circulating washing water becomes hot water. After the temperature of the hot water reached 93 ° C., the hot water was washed for 30 minutes.

Each biological indicator that has been allowed to cool after completion of the hot water washing treatment is aseptically placed in 10 ml of a sterilized soy bean gasasein digest medium and cultured in a 37 ° C. incubator for 7 days. The presence or absence of growth was tested. As a result, no turbidity of the medium was observed, and the medium was fully sterilized.
As described above, the cleaning apparatus shown in FIGS. 1 to 9 can be sufficiently cleaned even in a state where the surface of the cleaned stainless steel piece coated with the indicator bacteria is on the lower side and is not in direct contact with hot water. For this reason, even if it is a tool used for surgery and has a body fluid or protein such as blood attached thereto, the body fluid or protein may be removed by ultrasonic cleaning, followed by hot water cleaning. it can.
In the cleaning apparatus shown in FIGS. 1 to 9, the ultrasonic oscillator 16 is provided on the bottom surface side of the storage tank 10. However, in the case of a deep vertical storage tank, the ultrasonic oscillation device 16 is provided on the side surface side of the storage tank. It may be provided.

It is sectional drawing for demonstrating an example of the washing | cleaning apparatus which concerns on this invention. It is a front view for demonstrating the injection nozzles 20 and 20 shown in FIG. It is a cross-sectional view of the injection nozzle 20 shown in FIG. It is a fragmentary sectional view for demonstrating the connection part 24 connected with the bending part 22a which comprises the internal conduit | pipe 22 which guides the fluid to the injection nozzles 20 and 20. FIG. It is explanatory drawing explaining opening and closing of the cover part 18 at the time of using the connection part 24 shown in FIG. It is explanatory drawing explaining the state which opened the cover part 18 of the washing | cleaning apparatus shown in FIG. It is explanatory drawing explaining the connection part connected with the opening part of the supply port 32a which supplies the fluid in the box part 32 arrange | positioned at the one end side of the basket. 4 is a partial cross-sectional view of a connecting portion 34. The present invention relates to a control device that controls a cleaning device according to the present invention. It is the schematic for demonstrating the conventional heat sterilization.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Storage tank 12 Pot part 14 Heater 16 Ultrasonic oscillator 18 Cover part 20 Injection nozzle 24, 34 Connection part 28 Basket 32 Box part 40 Centrifugal pump 42,46,50,52 Automatic valve 44 Fan 56 Control part

Claims (2)

A cleaning device that performs ultrasonic cleaning and hot water cleaning on a device to be cleaned,
A storage tank comprising a pot portion provided with a heater capable of storing cleaning water so that the entire apparatus is immersed and heating the cleaning water in a recess opened in a part of the bottom surface;
Supply and discharge means for supplying and discharging a predetermined amount of wash water into the storage tank;
An injection nozzle that injects cleaning water heated in the pot portion toward the ceiling surface of the ceiling portion provided to cover the opening of the storage tank;
An ultrasonic oscillating device that is provided on the outer peripheral surface side of the storage tank and that performs ultrasonic cleaning by oscillating ultrasonic waves in an instrument that is entirely immersed in cleaning water stored in the storage tank;
A pump that heats the cleaning water stored in the storage tank so as to expose a part of the instrument that has undergone the ultrasonic cleaning in the pot portion and feeds it to the spray nozzle;
And a control means for controlling the supply / discharge means so as to store a predetermined amount of washing water used for each washing in the storage tank ,
The device to be cleaned is a hollow device in which a hollow portion that penetrates is formed, and when ultrasonic cleaning and hot water cleaning are performed, cleaning water or hot water used for each cleaning is passed through the hollow portion of the hollow device. A water flow means is provided,
A basket having gripping means capable of gripping one end of each hollow part of the plurality of hollow instruments and allowing washing water or hot water to flow is detachably mounted in the storage tank, and one end of the basket gripping means and the basket A cleaning apparatus , comprising a connecting means provided so that one end of an external conduit for guiding cleaning water or hot water can be brought into and out of connection with the insertion and removal of the basket into and from the storage tank . An opening of the storage tank is provided so as to be openable and closable by a lid, and one end of an internal conduit that guides hot water to an injection nozzle provided in the lid, and one end of an external conduit that guides the hot water, The cleaning apparatus according to claim 1 , further comprising connection means provided so as to be able to contact and separate as the opening is opened and closed by the lid.

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