JP2020062533A - Washing equipment and processing equipment for medical/nursing container - Google Patents

Abstract

To provide washing equipment and processing equipment for a medical/nursing container capable of vaporizing easily water drops adhering to a washed washing object.SOLUTION: Washing equipment (first treatment tank 10) for a medical/nursing container includes a chamber 11 into which cleaning fluid is supplied, nozzles 41, 42 positioned in the chamber 11, for cleaning a container 31 reusable by jetting out cleaning fluid thereto, and a blower 95 for supplying dry gas for drying the reusable container 31 into the chamber 11.SELECTED DRAWING: Figure 1

Description

  TECHNICAL FIELD The present invention relates to a cleaning device and a processing device for cleaning and drying a medical / nursing container used for treating filth used in the medical field or nursing field.

As a container used in the medical field or the nursing care field, there is a container such as a toilet bowl or a urinal container for treating waste such as patient excrement. As a cleaning device for cleaning and reusing these containers, for example, there is one disclosed in Patent Document 1 or Patent Document 2.
The device (bed pan cleaning machine) disclosed in Patent Document 1 is configured such that the bed pan can be attached to a front lid that opens downward from the front surface thereof. When the bed pan is attached and the front lid is closed, the bed pan is opened. It is rotated by 180 °, and the cleaning liquid can be sprayed from the cleaning liquid spraying nozzle to discharge and clean the bedpan dirt.

On the other hand, in the device disclosed in Patent Document 2, a support for supporting the container is provided in the cleaning device, and the support is configured by combining a plurality of columns, and various sizes and shapes are provided. It is possible to support the container.
In this type of cleaning device, since the container is reused, it is necessary to disinfect it at the time of reuse by cleaning and disinfecting it. In addition, in facilities such as hospitals, it is necessary to stock containers to some extent, but since they cannot be stacked with tubular containers such as urinary containers and are bulky, storage space is limited in small waste treatment rooms. It is difficult to secure.

Utility model registration No. 3035584 Japanese Patent Laid-Open No. 2005-254063

  By the way, in the above-described cleaning device for cleaning a reusable container, when the reusable container is cleaned, the cleaning liquid (water droplets) remains attached to the container. Such a reusable container to which water droplets adhere is in a state in which bacteria can easily propagate, and therefore it is necessary to wipe off the water droplets as soon as possible after cleaning, which is complicated.

  The present invention has been made in view of the above circumstances, and provides a cleaning device and a processing device for a medical / nursing container capable of easily evaporating water droplets attached to a cleaned and reusable container. With the goal.

  A medical / nursing container cleaning apparatus of the present invention includes a chamber to which a cleaning liquid is supplied, a nozzle located in the chamber for spraying the cleaning liquid to clean a reusable container, and the reusable container. An air blower for supplying a dry gas for drying the container into the chamber.

  According to the present invention, the reusable container cleaned by the cleaning liquid ejected from the nozzle is supplied with the dry gas supplied from the blower into the chamber to dry the reusable container. The cleaning liquid (water droplets) attached can be easily evaporated.

In a preferred aspect of the cleaning apparatus of the present invention, a first supply unit that supplies the cleaning liquid to the nozzle, a second supply unit that supplies the dry gas to the nozzle, and the nozzle for the cleaning liquid and the dry gas are provided. And a supply selection unit that controls the supply of.
In the above aspect, the cleaning liquid from the first supply unit and the dry gas from the second supply unit can be freely supplied to the nozzles by controlling the supply selection unit. Further, since it is not necessary to separately provide a structure for supplying the dry gas in the chamber, it is possible to accommodate more reusable containers in the chamber.

In a preferred aspect of the cleaning apparatus of the present invention, the supply selection unit may stop the supply of the cleaning liquid or the dry gas to the nozzle, and start the supply of the cleaning liquid or the dry gas to the other nozzle. .
In the above aspect, when the supply selection unit stops the supply of the dry gas to the nozzle, the first supply unit supplies the cleaning liquid to the nozzle, and the supply selection unit stops the supply of the cleaning liquid to the nozzle. The dry gas is supplied to the nozzle by the 2 supply unit. Therefore, after the cleaning liquid is sprayed from the nozzle to wash the reusable container, the dry gas can be reliably supplied from the nozzle to the reusable container.

In a preferred aspect of the cleaning apparatus of the present invention, the nozzle may include a first nozzle that injects the cleaning liquid outside the reusable container.
In the above aspect, the outside of the reusable container can be washed and dried by the first nozzle.

In a preferred aspect of the cleaning apparatus of the present invention, the nozzle includes a second nozzle that is provided in a support tool that supports the reusable container and that injects the cleaning liquid inside the reusable container. Good.
In the above aspect, the inside of the reusable container can be washed and dried by the second nozzle. When the nozzle has both the first nozzle and the second nozzle, the outer side of the reusable container is cleaned and dried by the first nozzle, and the inner side of the reusable container is cleaned by the second nozzle. Since it is washed and dried, the reusable container can be reliably washed and dried.

  As a preferred embodiment of the cleaning device of the present invention, a cleaning liquid generating device for generating the cleaning liquid is provided, wherein the cleaning liquid generating device is an electrolyzed water generator for generating slightly acidic electrolyzed water, and a drying accelerator for the slightly acidic electrolyzed water. And a mixer for mixing.

Here, the drying accelerator is a so-called surfactant and has a function of enhancing the wettability of the substance to which it is attached.
In the above aspect, since the drying accelerator is mixed with the slightly acidic electrolyzed water, the wettability of the surface of the reusable container cleaned with this cleaning solution is increased, and the surface of the cleaning solution is like a thin film. It will be in an attached state. Therefore, it is possible to easily evaporate the cleaning liquid during drying.
The slightly acidic electrolyzed water is a solution obtained by electrolyzing dilute hydrochloric acid and is diluted with water, and has sterilizing and deodorizing effects, so that the safety of the reusable container after cleaning can be enhanced.

As a preferred aspect of the cleaning device of the present invention, a cleaning liquid generating device that generates the cleaning liquid is provided, and the cleaning liquid generating device includes an electrolyzed water generator that generates slightly acidic electrolyzed water, and a water repellent agent for the slightly acidic electrolyzed water. And a mixer for mixing.
Here, the water repellent agent has a function of increasing the surface tension of the substance to which it adheres (decreasing the wettability).
In the above aspect, since the water repellent is mixed with the slightly acidic electrolyzed water, the surface tension of the surface of the reusable container cleaned with this cleaning liquid is increased, and the cleaning liquid has a plurality of water droplets attached to the surface. It will be in the state of doing. Therefore, when the dry gas is supplied from the nozzle, the water droplets can be removed by blowing away the plurality of water drops with the dry gas.
Further, as described above, the slightly acidic electrolyzed water is a solution obtained by diluting dilute hydrochloric acid electrolyzed with water, and has a sterilizing and deodorizing effect, so that the safety of the reusable container after cleaning is improved. Can be increased.

As a preferred aspect of the cleaning apparatus of the present invention, a heater for heating the dry gas supplied into the chamber by the blower before supplying it to the chamber may be provided.
In the above aspect, since the dry gas supplied into the chamber is heated by the heater before being supplied to the chamber, the cleaning liquid attached to the reusable container is evaporated more quickly by the heated dry gas. Can be removed (removed).

The medical / nursing container processing apparatus of the present invention includes, in a housing, the above-described cleaning apparatus, a sink that can store a liquid and a disposable container is put therein, and the disposable container is immersed in the liquid in the sink. And a decomposition device having a motor for rotating the stirring member.
A reusable container can be washed in the washing device, and the disposable container can be decomposed in the stirring tank of the disassembling device, and the cleaning device and the disassembling device can be used properly depending on the container to perform an appropriate treatment. it can. By arranging the cleaning device and the disassembling device in one housing, the installation and the movement are facilitated, and the cleaning device and the disassembly device can be installed in a narrow space in the ward.

  According to the present invention, it is possible to easily evaporate water droplets attached to a washed reusable container.

FIG. 2 is an external perspective view showing the left side surface of the medical / nursing care container processing device according to the first embodiment of the present invention arranged in front of the plane of the drawing, showing the inside of the housing, with the door opened. FIG. FIG. 4 is a left side view of the medical / nursing care container processing device in the embodiment, showing the inside of the housing and showing a state in which the door is opened. FIG. 6 is a left side view of the medical / nursing care container processing device in the embodiment, showing the inside of the housing clearly and showing a state in which the door is closed. It is the perspective view which arranged the right side of the treating device of the medical and long-term care container in the above-mentioned embodiment in front of the page. FIG. 3 is a right side view of the processing device for a medical / nursing care container in the above embodiment, which is a view clearly showing the inside of the housing. It is a figure which expands and shows the supply piping and the supply selection part in the said embodiment. It is an appearance perspective view of a washing device in a 2nd embodiment of the present invention. The inside of the casing of the cleaning apparatus in the above embodiment is clearly shown.

Hereinafter, embodiments of a cleaning device of the present invention and a medical / nursing care container processing device including the cleaning device will be described with reference to the drawings.
[First Embodiment]
[Schematic configuration of medical / nursing treatment equipment]
The medical / nursing container processing apparatus 101 according to the first embodiment, as shown in FIG. 1, is a first processing capable of cleaning a reusable container 31 in a vertically long rectangular parallelepiped casing 1. The tank 10 (cleaning device) and the second treatment tank 20 (decomposing device) capable of disassembling the disposable container 32 are provided, and depending on whether the container 31 is a reusable container 31 or the disposable container 32, Appropriate processing can be performed by properly using the first processing tank 10 and the second processing tank 20. Further, in this processing apparatus 101, since the first processing tank 10 and the second processing tank 20 are collectively arranged in one housing 1, they can be installed and moved integrally. Further, in this processing apparatus 101, as shown in FIGS. 1 and 2, the second processing tank 20 is arranged below the first processing tank 10, and the two processing tanks 10 and 20 are arranged vertically. Since it is installed, it can be installed in a narrow space in the ward.

The reusable container 31 may be, for example, a urinal, a shade bottle, a urine reservoir, a measuring cup, a measuring cylinder, or the like. These reusable containers 31 are made of plastic, rubber, or the like, or made of glass, and are reused by washing in the first processing tank 10 each time they are used. On the other hand, the disposable container 32 has, for example, a toilet bowl, a toilet bowl, a bucket holder for a portable toilet, and the like, and is a container mainly for treating filth (stool) having a high risk of infection. Other than this, there are disposable containers 32 such as a gargle basin, a pus tray, a bat, and a Yuripan. Then, these disposable containers 32 are formed of pulp or the like that can be decomposed with water and the like, and are decomposed in the second treatment tank 20 while being stirred with the cleaning liquid, and then disposed of.
The processing apparatus 101 of this embodiment is characterized in that the reusable container 31 is dried after the reusable container 31 is washed in the first processing tank 10.

  Further, the housing 1 of the processing apparatus 101 is provided with a door 2A capable of opening and closing the front of the first processing tank 10 and the second processing tank 20, and an opening / closing drive unit 3A for opening and closing the door 2A. As shown in FIGS. 1 to 3, by opening the door 2A and opening the front of the first processing tank 10 and the second processing tank 20, the reusable container 31 in the first processing tank 10 is opened. And the disposable container 32 can be placed in the second processing tank 20. Further, in the processing apparatus 101, the first processing tank 10 and the second processing tank 20 are provided such that the front of the first processing tank 10 and the second processing tank 20 can be opened and closed by a single door 2A, and the door 2A is opened by the opening / closing drive unit 3A. By moving vertically (sliding in the vertical direction) along the front surface of the first treatment tank 10 and the second treatment tank 20, a state in which the front of both the first treatment tank 10 and the second treatment tank 20 is closed, and the first treatment The door 2A can be opened and closed by selecting a state in which the front of the tank 10 and the second processing tank 20 are opened and the front of both processing tanks 10 and 20 are opened. The state in which only the front side of the second processing tank 20 is opened and the front side of the first processing tank 10 is closed may be selected and opened / closed.

In the processing device 101 of the present embodiment, the opening / closing drive unit 3A that opens and closes the door 2A includes the actuator 4 for applying a driving force to the door 2A and the door 2A, as shown in FIGS. It is configured to have a guide mechanism 5A for guiding in the vertical direction.
In the present embodiment, the actuator 4 is composed of an electric actuator, and can be expanded and contracted. In addition, the guide mechanism 5A includes a guide rail portion 51 that guides the door 2A in the vertical direction and a link portion 52 including three arm members 55 to 57.

  The guide rail portion 51 is formed with a groove portion 51a extending in the vertical direction, and the side surface portion of the door 2A is provided with shaft portions 29a to 29c that engage with the groove portion 51a. Therefore, the movement of the door 2A is guided along the extending direction (vertical direction) of the groove 51a. In addition, one end of the first arm member 55 of the arm members 55 to 57 forming the link portion 52 is connected to the actuator 4, and the other end thereof is pivotally supported by the support shaft 53, so that the actuator 4 can be expanded and contracted. Accordingly, it is rotatably provided around the other end. Further, one end of the second arm member 56 is connected to the other end of the first arm member 55, and is provided so as to be rotatable around the support shaft 53 integrally with the first arm member 55. The other end of the second arm member 56 and one end of the third arm member 57 are rotatably supported by the support shaft 54. The other end of the third arm member 57 is pivotally supported by one shaft 29b of the three shafts 29a to 29c provided on the door 2A (the shaft 29b is the upper side). It is arranged between the shaft portion 29a of the above and the lower shaft portion 29c). As a result, when the actuator 4 expands and contracts, the driving force is transmitted to the door 2A via the guide mechanism 5A, and the door 2A is moved up and down. The open / closed position of the door 2A is detected by a sensor (reception unit) 35, and a transmission unit (light emitting element, magnet, etc.) 36 is attached to the second arm member 56, and light or magnetic force from the transmission unit 36 is attached. Etc., the movement of the door 2A is controlled.

The opening / closing drive of the door 2A will be described in detail with reference to the drawings.
As shown in FIG. 3, when the door 2A is closed, the actuator 4 is in an expanded state, and the second arm member 56 and the third arm member 57 are in a folded state. From this state, when the actuator 4 is shortened (compressed) as shown in FIGS. 2 and 5, the first arm member 55 and the second arm member 56 rotate around the support shaft 53 (clockwise in FIG. 3). Rotate. As a result, one end of the second arm member 56 moves downward and the other end moves upward. At this time, one end of the third arm member 57 connected to the other end of the second arm member 56 is lifted upward together with the other end of the second arm member 56, so that the second arm member 56 and The space between the third arm members 57 is opened. Then, the other end of the third arm member 57 connected to the shaft portion 29b moves upward along the groove 51a of the guide rail portion 51, whereby the door 2A is lifted upward, and the door 2A moves. be opened.

  Further, in order to close the door 2A from the state where the door 2A is open, the actuator 4 in the contracted state is extended. When the actuator 4 is extended, the first arm member 55 and the second arm member 56 rotate about the support shaft 53 (counterclockwise in FIGS. 1 and 2). As a result, one end of the second arm member 56 moves upward and the other end moves downward. At this time, one end of the third arm member 57 connected to the other end of the second arm member 56 is lowered together with the other end of the second arm member 57, so that the second arm member 56 and The gap between the third arm member 57 and the third arm member 57 is closed, and the second arm member 56 and the third arm member 57 are folded. Then, the other end of the third arm member 57 connected to the shaft portion 29b moves downward along the groove 51a of the guide rail portion 51, whereby the door 2A is lowered, and the door 2A is moved. To be closed.

  As described above, in the processing apparatus 101, since the door 2A is structured to be moved up and down, it is not necessary to secure a large space for opening and closing the door 2A in front of the apparatus, and the installation space of the processing apparatus 101 can be reduced. You can It should be noted that the movement of the door 2A is not limited to the vertical sliding, and the door 2A may be slid in the horizontal direction. Even in this case, the door 2A is configured to move along the front surfaces of the first processing tank 10 and the second processing tank 20, so that the installation space of the processing apparatus 101 can be reduced.

[Structure of the first treatment tank]
Next, as shown in FIGS. 1 to 3, in the first processing tank 10 of the processing apparatus 101, the chamber 11 to which the cleaning liquid is supplied and the reusable container 31 disposed in the chamber 11 are placed at the cleaning target position. The support 12 for supporting and the nozzles 41 and 42 capable of supplying the cleaning liquid or the dry gas into the chamber 11 are provided.
The chamber 11 is provided with two types of nozzles 41 and 42, both of which are connected to the connecting pipe 94C of the supply pipe 9 for supplying the cleaning liquid or the dry gas, and the chamber 11 is connected from this connecting pipe 94C through the nozzles 41 and 42. A cleaning liquid or a dry gas is supplied inside. Of these, the first nozzle 41 is arranged in the upper part of the chamber 11, and can supply the cleaning liquid or the dry gas into the chamber 11 from the upper part of the chamber 11 downward. Further, the other second nozzle 42 is attached to the support tool 12.

As shown in FIG. 2, the support tool 12 has a plurality of branched columns 13, and each column 1
3 are arranged in parallel with each other. Further, each of the columns 13 is connected to the connecting pipe 94C at the base end thereof. In addition, as shown in FIG. 2, the support tool 12 has a base end portion arranged on the rear side of the processing apparatus 101 and a tip end portion arranged on the front side of the processing apparatus 101, and on the rear side of the processing apparatus 101. From the front to the front side, it is attached so as to incline upward. In the first processing tank 10, as shown in FIG. 3, by disposing the reusable container 31 on each of the columns 13 of the support tool 12, that is, by disposing each of the columns 13 from the opening of the container 31 to the inside. By inserting the ends of the columns 13 into the container 31 and contacting the ends of the columns 13 with the inside of the container 31, the container 31 can be supported at the cleaning position so that the opening of the container 31 faces obliquely downward.

  Further, the above-mentioned second nozzle 42 is attached to each of the tip end portions of each of the columns 13, and the cleaning liquid or the dry gas supplied from the connection pipe 94C passes through the inside of each column 13 and the tip of the second nozzle 42. By being released from the inside, the inside of the container 31 can be washed and dried. In addition, a plurality of pores (not shown) are provided at the base end of each of the columns 13, and the cleaning liquid or the dry gas is also discharged through these pores. The details of the part can be reliably washed or dried.

  Further, the outer peripheral surface of the container 31 supported by the support 12 is cleaned by spraying the cleaning liquid toward the outer peripheral surface of the container 31 from the first nozzle 41 arranged in the upper portion of the chamber 11. The inclination angle of each of the columns 13 is set to an angle at which the cleaning liquid supplied from the second nozzle 42 to the inside of the container 31 flows out of the container 31 by its own weight. The nozzle 42 is also arranged so as to face obliquely upward. The inclination angle of each support column 13 is, for example, about 30 ° to 90 ° with respect to the horizontal plane.

[Supply structure for cleaning liquid and dry gas]
The first processing tank 10 has a first supply unit 90A that supplies a cleaning liquid to the nozzles 41 and 42, a second supply unit 90B that supplies a dry gas to the first nozzle 41 and the second nozzle 42, and a cleaning liquid. And a supply selection unit 90C that stops the supply of the dry gas to each of the nozzles 41 and 42 and starts the supply of the dry gas to each of the other nozzles 41 and 42.
The first supply unit 90A also has a function of supplying the cleaning liquid to the third nozzle 43.

[Configuration of the first supply unit]
As shown in FIGS. 4 and 5, the first supply unit 90A stores a slightly acidic electrolyzed water generator 91 that generates slightly acidic electrolyzed water, and a slightly acidic electrolyzed water generated by the slightly acidic electrolyzed water generator 91. Tank 92, a mixer 93 for mixing a drying accelerator with the slightly acidic electrolyzed water stored in the tank 92, and a slightly acidic electrolyzed water mixed with the drying accelerator with the first treatment tank 10 and the second treatment tank. The pump 94 is supplied to the supply pipe 9 as the cleaning liquid used in 20. Of these, the slightly acidic electrolyzed water generator 91, the tank 92, and the mixer 93 constitute the cleaning liquid generator of the present invention.
In this slightly acidic electrolyzed water generator 91, hypochlorous acid generated by electrolyzing dilute hydrochloric acid is diluted by mixing it with tap water at a constant ratio to generate slightly acidic electrolyzed water. The slightly acidic electrolyzed water is a one-chamber electrolysis device in which the anode and the cathode are not separated by a diaphragm, and the pH generated by electrolyzing 2 to 6% hydrochloric acid water (dilute hydrochloric acid) is 5.0 to 6.5. , An aqueous solution of hypochlorous acid containing 10 to 80 ppm of available chlorine. The slightly acidic electrolyzed water has high sterilization, antibacterial, and deodorant effects, but does not impair human health, and is designated as a food additive. Further, since the slightly acidic electrolyzed water has no chlorine odor, it is safe to use after cleaning the reusable container 31.

The supply pipe 9 is provided between the pump 94 and each of the nozzles 41 to 43, and has a connection pipe 94A connected to a discharge port of the pump 94 and a connection pipe branched from the tip of the connection pipe 94A. And 94B and 94C. The connection pipe 94B is connected to the third nozzle 43 of the second processing tank 20, and the connection pipe 94C is connected to the first nozzle 41 and the second nozzle 42 of the first processing tank 10.
Further, in the tank 92, a drying accelerator is supplied from the mixer 93 to the slightly acidic electrolyzed water through the pipe 93A, and the drying accelerator and the slightly acidic electrolyzed water are mixed in the tank 92 to form the cleaning liquid. . This drying accelerator is a so-called surfactant and has the function of enhancing the wettability of the substance to which it is attached. Then, the cleaning liquid mixed with the drying accelerator is supplied into the pump 94 through the pipe 92A by driving the pump 94, and as shown in FIG. 6, the nozzles 41 and 42 are connected through the connecting pipe 94A and the connecting pipe 94C. It is supplied to the (first processing tank 10) and is supplied to the nozzle 43 (second processing tank 20) via the connecting pipe 94A and the connecting pipe 94B.
As described above, in the processing device 101, by using slightly acidic electrolyzed water having a strong sterilizing / sterilizing / deodorizing effect as a cleaning liquid, the container 31 is sterilized and each treatment is performed while cleaning and rinsing the container 31. Bacteria can be sterilized at the same time in the tanks 10 and 20 and the piping.

[Configuration of the second supply unit]
The 2nd supply part 90B is comprised by the blower 95 which supplies the dry gas which dries the reusable container 31 in the chamber 11, as shown in FIG.4 and FIG.5. The blower 95 is provided with a heater for heating the dry gas supplied into the chamber 11 by the blower 95. Further, as shown in FIG. 6, a connecting pipe 95A is connected to the blower 95, and a tip end portion of the connecting pipe 95A is located downstream of a branch position between the connecting pipes 94B and 94C in the supply pipe 9 and the connecting pipe. 94C is connected to a position downstream of a first electromagnetic valve 96 described later. As a result, the heated dry gas is supplied into the first processing tank 10 (chamber 11) via the connection pipe 95A and the connection pipe 94C of the supply pipe 9.

[Configuration of supply selection unit]
The supply selection unit 90C stops the supply of the cleaning liquid or the dry gas to the nozzles 41 and 42 of one of them, and starts the supply to the nozzles 41 and 42 of the other one. The supply selection unit 90C also controls the supply of the cleaning liquid to the nozzle 43. As shown in FIGS. 4 and 5, the supply selection unit 90C is arranged immediately after the branch portion from the connection pipe 94A to the connection pipes 94B and 94C, and is connected to the first solenoid valve 96 that opens and closes the connection pipe 94C. It is configured by a second electromagnetic valve 97 arranged in the pipe 94B and opening and closing the conduit thereof, and a third electromagnetic valve 98 arranged in the connecting pipe 95A and opening and closing the conduit.

When cleaning the reusable container 31 in the first processing tank 10, the supply selecting unit 90C opens the first electromagnetic valve 96 and causes the cleaning liquid to flow through the connection pipe 94A to the connection pipe 94C. The third solenoid valve 98 is closed to stop the flow of dry gas to the connecting pipe 94C via the connecting pipe 95A. When the decomposition treatment is performed in the second treatment tank 20 at the same time as the cleaning treatment performed in the first treatment tank 10, the second electromagnetic valve 97 is also opened.
On the other hand, the supply selection unit 90C closes the first electromagnetic valve 96 and the second electromagnetic valve 97 to dry the reusable container 31 in the first processing tank 10, and the connecting pipe 94C via the connecting pipe 94A. Of the cleaning liquid to the third nozzle 43 through the connecting pipe 94B is stopped, and the third solenoid valve 98 is opened to allow the dry gas to flow to the connecting pipe 94C via the connecting pipe 95A. In this way, either the first electromagnetic valve 96 or the third electromagnetic valve 98 is opened and the other is closed, so that either the cleaning liquid or the dry gas is supplied into the first processing tank 10 (chamber 11). I have to. The second electromagnetic valve 97 is opened and closed according to the processing in the second processing tank 20.

[Configuration of second treatment tank]
The second processing tank 20 includes a sink 21 that can store the liquid and into which the disposable container 32 is put, a stirring member 22 that can be decomposed by immersing the disposable container 32 in the liquid inside the sink 21, and stirring the liquid. It has a motor 23 for rotating the member 22 and a third nozzle 43 capable of supplying the cleaning liquid into the sink 21. In this case, the second processing tank 20 is arranged below the first processing tank 10, and an opening 25 (FIG. 2) through which the cleaning liquid flowing down from the first processing tank 10 can flow down is provided above the second processing tank 20. And FIG. 3) are formed.

  The opening 25 is provided with a mesh plate 7 having a plurality of meshes (not shown) through which the cleaning liquid can flow, and the mesh plate 7 allows the space between the first processing tank 10 and the second processing tank 20 to be separated. Is partitioned. Therefore, even if the reusable container 31 that is washed in the first processing tank 10 is accidentally dropped, it is possible that the reusable container 31 may drop onto the mesh plate 7 and reach the second processing tank 20. It can be avoided. Further, the cleaning liquid supplied from the nozzles 41 and 42 of the first processing tank 10 into the chamber 11 flows down to the second processing tank 20 through the mesh of the mesh plate 7, and the cleaning liquid is subjected to the second processing. By storing (by storing) in the sink 21 of the tank 20, it can be used as the liquid in the second processing tank 20.

  Further, a container crushed in the sink 21 and a drainage system 8 capable of discharging the cleaning liquid are connected to a lower portion of the sink 21, and the cleaning liquid used in the first processing tank 10 is a mesh of the mesh plate 7. Through the second treatment tank 20, and is discharged from the drainage system 8 via the second treatment tank 20. In addition, the cleaning liquid used in the first treatment tank 10 and the cleaning liquid used in the second treatment tank 20 and the treated container are collectively discharged from one drainage system 8 to the outside (sewage). Has become.

  Further, the mesh plate 7 is provided so as to be along the inclination angle of each of the columns 13 of the support tool 12 and gradually inclined upward from the rear side to the front side of the processing apparatus 101. As a result, the first processing tank 10 and the second processing tank 20 are arranged close to each other, and the opening (operation port) of the first processing tank 10 and the opening (operation port) of the second processing tank 20 work. They are placed together in a place where people can easily operate them. Further, since the height of the processing apparatus 101 can be reduced by the amount that the opening of the first processing tank 10 and the opening of the second processing tank 20 are arranged close to each other, the opening of the first processing tank 10 and (2) It is possible to save the installation space while securing a relatively wide opening with the processing tank 20.

Further, the processing apparatus 101 is provided with a foot switch 6 for performing opening / closing operation of the door 2A, operation of both processing tanks 10 and 20, and the like. By operating the processing apparatus 101 without touching it, the risk of infection can be reduced.
It should be noted that the processing device 101 of the present embodiment is provided with three foot switches, and the first foot switch arranged in the front in FIG. 3 is the door opening / closing switch 61, and the second foot switch arranged in the center. The foot switch is the first operation program start switch 62 of the first treatment tank 10, and the third foot switch arranged at the innermost side is the second operation program start switch 63 of the second treatment tank 20.

[Cleaning and drying method for reusable containers]
In the processing apparatus 101 configured as described above, when cleaning the reusable container 31, first, the opening / closing switch 61 is operated to open the door 2A, and the front opening of the first processing tank 10 is opened. The container 31 is supported by the support column 13 of the support 12 in the chamber 11 at the cleaning position. Then, the operation program of the first processing tank 10 is started. In the processing apparatus 101 of this embodiment, the operation program of the first processing tank 10 can be started by operating the first operation program start switch 62. When the operation program of the first processing tank 10 is started, the door 2A is closed and the first processing tank 10 and the second processing tank 20 are closed. Then, after the first processing tank 10 and the second processing tank 20 are closed, the supply selector 90C opens the first electromagnetic valve 96, closes the second electromagnetic valve 97, and closes the third electromagnetic valve. By closing 98, the cleaning liquid is supplied to the connection pipe 94C through the connection pipe 94A, the cleaning liquid is discharged from the nozzles 41 and 42, and the container 31 is cleaned.

  During the cleaning of the container 31, not only the cleaning liquid is sprayed from the upper first nozzle 41 to the outer peripheral surface of the container 31, but also the nozzle 42 at the tip of the support column 13 inserted into the container 31 and the above-mentioned fine holes. The cleaning liquid is also sprayed on the inner peripheral surface (inside) of the container 31. Then, the water or the like that has been sprayed into the container 31 and the inside of the container 31 has been washed out flows out of the container 31 by its own weight because the opening of the container 31 is directed obliquely downward. The used cleaning solution used in the first treatment tank 10 flows down into the second treatment tank 20 and is discharged from the drainage system 8 to sewage.

When the cleaning of the container 31 is completed, the supply selector 90C closes the first electromagnetic valve 96 and opens the third electromagnetic valve 98, so that the dry gas heated from the blower 95 is connected to the connecting pipe. It is supplied to the connecting pipe 94C via 95A.
Here, since the slightly acidic electrolyzed water used as the cleaning liquid is mixed with the drying accelerator, the wettability of the surface of the reusable container 31 cleaned by this cleaning liquid is enhanced, and therefore the surface is The cleaning liquid becomes attached like a thin film. With respect to the container 31 in this state, the dry gas is discharged from the first nozzle 41 and the second nozzle 42, and the container 31 is dried. Therefore, it is possible to easily evaporate the cleaning liquid during drying.

  During the drying of the container 31, not only the heated dry gas is blown from the upper first nozzle 41 to the outer peripheral surface of the container 31, but also the second gas at the tip of the support column 13 inserted inside the container 31. The heated dry gas is also sprayed onto the inner peripheral surface (inside) of the container 31 by the nozzle 42 and the pores. In this way, the outer side of the reusable container is washed and dried by the first nozzle 41, and the inner side of the reusable container 31 is washed and dried by the second nozzle 42, so that the reusable container 31 is ensured. It can be washed and dried.

  Then, after the container 31 is dried, the door 2A is opened to notify the operator that the first operation program is completed. As a result, the operator can take out the cleaned and dried container 31 from the first processing tank 10. Further, the door 2A in the opened state can be closed by operating the opening / closing switch 61.

[Disassembly method of disposable container]
In the processing device 101, when the disposable container 32 is discarded, the opening / closing switch 61 is operated to open the door 2A. Then, after the container 32 is put into the sink 21 through the front opening of the second processing tank 20, the operation program of the second processing tank 20 is started. In the processing apparatus 101 of the present embodiment, the operation program of the second processing tank 20 can be started by operating the second operation program start switch 63. When the operation program of the second treatment tank 20 is started, the door 2A is closed, the first treatment tank 10 and the second treatment tank 20 are closed, and the supply selection unit 90C causes the first and second solenoid valves 96, 97 to operate. By opening and closing the third electromagnetic valve 98, the cleaning liquid is discharged from the nozzles 41 to 43, and the inside of the chamber 11 of the first processing tank 10 is cleaned. At this time, the cleaning liquid used in the first processing tank 10 flows down into the second processing tank 20, so that the cleaning liquid is stored in the sink 21. As a result, the container 32 in the sink 21 is immersed in the cleaning liquid. Then, after the cleaning of the first processing tank 10 is completed, the cleaning liquid in the sink 21 and the container 32 are stirred by the stirring member 22, and the container 32 is disassembled. The container 32 is decomposed to be combined with the cleaning liquid and becomes liquid.

After the container 32 is disassembled, the cleaning liquid in the sink 21 and the container 32 are discharged into the sewage from the drainage system 8 connected to the lower portion of the sink 21. After the disposal of the container 32, the cleaning liquid is again jetted from the nozzles 41 to 43, and the sink 21 is cleaned.
Then, after the cleaning of the sink 21 is completed, the door 2A is opened to notify the operator that the second operation program is completed. The opened door 2A can be closed by operating the opening / closing switch 61.

[Simultaneous processing of reusable containers and disposable containers]
Further, in the processing apparatus 101, the cleaning process of the reusable container 31 and the disposal process of the disposable container 32 can be simultaneously performed. Also in this case, first, the opening / closing switch 61 is operated to open the door 2A. Then, the reusable container 31 is supported at the cleaning target position from the front opening of the first processing tank 10 on the support column 13 of the support tool 12 in the chamber 11. Further, the disposable container 32 is put into the sink 21 through the opening in the front of the second processing tank 20. Next, by operating the second operation program start switch 63, the operation program of the first processing tank 10 is started together with the operation program of the second processing tank 20. When each operation program is started, the door 2A is closed, the first processing tank 10 and the second processing tank 20 are closed, the supply selection unit 90C opens the first and second electromagnetic valves 96, 97, and By closing the third electromagnetic valve 98, the cleaning liquid is discharged from the nozzles 41 to 43, and the reusable container 31 in the chamber 11 is cleaned.

At this time, the cleaning liquid used for cleaning the container 31 flows down into the second processing tank 20. Further, in the second processing tank 20, the cleaning liquid flowed down from the first processing tank 10 is stored in the sink 21, and the cleaning liquid sprayed from the third nozzle 43 is stored in the sink 21 to be a container in the sink 21. 32 is immersed in the cleaning liquid. As described above, in the processing apparatus 101, the cleaning liquid used in the first processing tank 10 is also used for processing the disposable container 32 in the second processing tank 20, so that the cleaning liquid can be effectively used.
The cleaning liquid in the sink 21 and the disposable container 32 are closed by the supply selection unit 90C after the cleaning of the reusable container 31 in the first processing tank 10 is completed, Moreover, by opening the third solenoid valve 98, the heated dry gas from the blower 95 is supplied to the connection pipe 94C via the connection pipe 95A. As a result, the dry gas is discharged from the first nozzle 41 and the second nozzle 42, and the container 31 is dried.
On the other hand, after the reusable container 31 is dried, the stirring member 22 is stirred by driving the motor 23, and the disposable container 32 is disassembled. When the disposable container 32 is disassembled, it is combined with the cleaning liquid and becomes liquid. After the disposable container 32 is disassembled, the cleaning liquid in the sink 21 and the container 32 are discharged into the sewage from the drainage system 8 connected to the lower portion of the sink 21.

  Then, the door 2A is opened after the disassembling process of the disposable container 32, and the operator is notified that the second operation program is completed. As a result, the worker can take out the reusable container 32 that has been washed and dried from the first processing tank 10. The opened door 2A can be closed by operating the opening / closing switch 61.

In the above-described embodiment, the dry gas supplied into the chamber 11 from the blower 95 is supplied to the reusable container 41 that has been washed with the cleaning liquid ejected from the nozzles 41 and 42, and the reusable container 31 becomes Since it is dried, the cleaning liquid (water droplets) attached to the container 31 can be easily evaporated.
In addition, one of the first electromagnetic valve 96 and the third electromagnetic valve 98 is opened and the other is closed by the supply selection unit 90C, so that the cleaning liquid is jetted from the nozzles 41 and 42 to clean the reusable container 31. After that, since the dry gas can be supplied to the reusable container 31 from the nozzles 41 and 42, it is not necessary to separately provide a structure for supplying the dry gas in the chamber 11, and thus more reusable inside the chamber 11 is possible. The container 31 can be accommodated.

The slightly acidic electrolyzed water is a solution obtained by electrolyzing dilute hydrochloric acid and is diluted with water, and has sterilizing and deodorizing effects, so that the safety of the reusable container after cleaning can be enhanced.
Further, since the dry gas supplied into the chamber 11 is heated by the heater, the cleaning liquid attached to the reusable container 31 can be evaporated (removed) more quickly by the heated dry gas. .

  In the medical / nursing container processing apparatus 101, the reusable container 31 can be washed in the first processing tank 10, and the disposable container 32 can be decomposed in the second processing tank 20 of the disassembling apparatus. It is possible to perform appropriate processing according to. Since the first treatment tank 10 (cleaning device) and the second treatment tank 20 (decomposing device) are arranged in one housing, they can be easily installed and moved, and even installed in a narrow space in the ward. It becomes possible to do. Furthermore, since at least a part of the cleaning liquid used in the first processing tank 10 is used as the liquid in the second processing tank 20, the cleaning liquid can be effectively used.

  Further, in the processing apparatus 101, the drainage system 8 is integrated into one, and the cleaning liquid used in the first treatment tank 10 and the liquid used in the second treatment tank 20 are combined into one drainage system 8. Since the liquid is discharged to the outside, the processing apparatus 101 can be installed if there is one drainage port at the installation location. Then, in the processing apparatus 101, as described above, the two processing tanks 10 and 20 are arranged vertically so that the cleaning liquid naturally flows down from the first processing tank 10 to the second processing tank 20. The number of incidental equipment such as the pump 94 is small, and it is possible to achieve labor saving and further size reduction. Further, since the cleaning liquid flowing down from the first processing tank 10 passes through the second processing tank 20, each time the cleaning processing is performed in the first processing tank 10, the inside of the second processing tank 20 can also be cleaned. Therefore, the sanitary condition of the processing device 101 can be kept good. Further, in the processing device 101, since the door 2A is vertically moved, it is not necessary to secure a large space for opening and closing the door 2A in front of the device, and the installation space can be further reduced.

[Second Embodiment]
In the embodiment described above, the medical / nursing care container processing apparatus 101 includes the first processing tank 10 and the second processing tank 20, but the present invention is not limited to this. For example, the first processing tank 10 (cleaning apparatus). It may be configured by only. In the following description, regarding the configurations of the drainage system 8A, the chamber 11A, the support tool 12A, the support column 13A, the first nozzle 41A and the second nozzle 42A, the drainage system 8, the chamber 11, the support tool 12, the support column 13, the first nozzle 41 and the second nozzle 42 have substantially the same configuration, and thus the description thereof will be omitted.
As shown in FIGS. 7 and 8, the processing apparatus 101A (cleaning apparatus) of the present embodiment is provided with a housing 1A and a door 2B which is arranged in front of the housing 1A and which can be opened and closed by driving an opening / closing drive unit 3B. It has and. Unlike the first embodiment, the door 2B supports the lower end portion of the door 2B and can be opened to the front side with the lower end portion serving as an axis, as shown by an arrow in FIG.

  Further, as shown in FIG. 8, the processing device 101A is disposed in the chamber 11A and ejects a cleaning liquid or a dry gas in which the slightly acidic electrolyzed water and the rinse agent (drying accelerator) are mixed in the second tank 104. 41A of 1st nozzles and 42 A of 2nd nozzles, the steam condenser 109 which discharges the dry gas containing the moisture supplied in the chamber 11, the 1st supply part 100A which supplies cleaning liquid to each nozzle 41A, 42A, and dry gas To the first nozzle 41A and the second nozzle 42A, and the supply of the cleaning liquid and the dry gas to each of the nozzles 41A and 42A is stopped, and the other of the other nozzles 41A and 42A is stopped. And a supply selection unit 100C for starting supply to the housing 1A, which are housed in the housing 1A.

[Configuration of the first supply unit]
As shown in FIG. 8, the first supply unit 100A includes a tube pump 102 that supplies a rinse agent to a second tank 104, a first tank 103 that stores a rinse agent containing a drying accelerator, and a slightly acidic solution. It is composed of a second tank 104 in which electrolyzed water is stored and a pump 105 which supplies slightly acidic electrolyzed water mixed with a drying accelerator as a cleaning liquid into the chamber 11A. Of these, the tube pump 102, the first tank 103, and the second tank 104 constitute the cleaning liquid generator of the present invention.
In the second tank 104, a rinse agent containing a drying accelerator is supplied to the slightly acidic electrolyzed water by the tube pump 102, and the drying accelerator and the slightly acidic electrolyzed water are mixed in the second tank 104, It becomes a cleaning liquid.

The supply pipe 9A is provided between the pump 105 and each of the nozzles 41A and 42A, and the connection pipe 105A connected to the discharge port of the pump 105 and the connection pipes 105B and 105C branched at the downstream position of the connection pipe 105A. Have and. The connection pipe 105B is connected to the first nozzle 41A, and the connection pipe 105C is connected to the second nozzle 42A.
The cleaning liquid mixed with the drying accelerator flows through the connecting pipe 105A, the connecting pipe 105B and the connecting pipe 105C by driving the pump 105, and is supplied into the chamber 11A through the nozzles 41A and 42A.

[Configuration of the second supply unit]
As shown in FIG. 8, the second supply unit 100B includes a blower 106 that supplies a dry gas for drying the reusable container 31 (not shown in FIG. 8) into the chamber 11A. The blower 106 is provided with a heater that heats the dry gas supplied into the chamber 11 by the blower 106. Further, the blower 106 is provided with a connection pipe 106A, and a tip portion of the connection pipe 106A is connected to a position upstream of a branch portion of the connection pipe 105A in the supply pipe 9A and to a position downstream of a first electromagnetic valve 107 described later. Has been done. As a result, the heated dry gas flows through the connection pipe 106A, part of the connection pipe 105A, the connection pipe 105B, and the connection pipe 105C, and is supplied from the nozzles 41A and 42A into the chamber 11A.

[Configuration of supply selection unit]
As shown in FIG. 8, the supply selection unit 100C supplies either the cleaning liquid or the dry gas to the nozzles 41A and 42A and stops the supply to the other nozzle 41A and 42A. The supply selection unit 100C is configured by a first electromagnetic valve 107 that is arranged in the connection pipe 105A and opens and closes the conduit, and a second electromagnetic valve 108 that is arranged in the connection pipe 106A and opens and closes the conduit. ing.
When cleaning the reusable container 31 in the chamber 11A, the supply selection unit 100C opens the first electromagnetic valve 107 and causes the cleaning liquid to flow through the connection pipe 105A to the connection pipes 105B and 105C. The second electromagnetic valve 108 is closed to stop the flow of dry gas to the connecting pipes 105B and 105C via the connecting pipe 106A. On the other hand, when the reusable container 31 is dried in the chamber 11A, the supply selection unit 100C closes the first electromagnetic valve 107 to prevent the cleaning liquid from flowing to the connection pipes 105B and 105C via the connection pipe 105A. The second solenoid valve 108 is stopped and the dry gas is circulated through the connecting pipe 106A to the connecting pipes 105B and 105C. In this way, either the first electromagnetic valve 107 or the second electromagnetic valve 108 is opened and the other is closed, so that either the cleaning liquid or the dry gas is supplied into the chamber 11A.

[Structure of steam condenser]
The steam condenser 109 has a shape that covers one side surface and a part of the top surface of the chamber 11A, and an opening 110 into which a dry gas containing moisture flows by drying the reusable container 31 supplied to the chamber 11A. And a discharge part 111 for discharging the dry gas containing moisture that has flowed in through the opening 110 to the outside, and an inlet 112 for allowing water to flow into the steam condenser 109.
The opening 110 is provided at a position facing the top surface of the chamber 11A in the steam condenser 109, and the discharge part 111 is provided at a position facing the lower portion of the side surface portion of the chamber 11A in the steam condenser 109. As a result, the dry gas containing moisture that has flowed into the steam condenser 109 flows from the top surface to the side surfaces of the chamber 11A and is discharged from the steam condenser 109.
By allowing the steam to flow into the steam condenser 109 through the inflow port 112, a part of the dry gas (vapor) containing moisture that has flowed into the steam condenser 109 through the opening 110 is condensed into water. This makes it possible to reduce the vapor in the chamber 11.

[Cleaning and drying method for reusable containers]
In the processing apparatus 101A configured as described above, when the reusable container 31 is cleaned, the door 2B is opened and the support 12A in the chamber 11A is inserted into the support column 13A so that the container 31 is at the cleaning position. To support. When the door 2B is closed and the chamber 11A is closed, the supply selector 100C opens the first electromagnetic valve 107 and closes the second electromagnetic valve 108, thereby connecting the supply pipe 9A to the supply pipe 9A. The cleaning liquid is supplied, the cleaning liquid is discharged from the nozzles 41A and 42A, and the container 31 is cleaned.
Then, when the cleaning of the container 31 is completed, the supply selector 100C closes the first electromagnetic valve 107 and opens the second electromagnetic valve 108, so that the dry gas heated from the blower 106 is connected to the connecting pipe. It is supplied to the connecting pipe 105B via 106A. The dry gas supplied into the chamber 11A becomes a dry gas containing moisture (cleaning liquid adhering to the surface of the container 31) by being sprayed into the container 31, and the dry gas enters the opening 110 of the steam condenser 109. And is discharged from the discharge part 111.
Then, when the drying of the container 31 is completed, the door 2B is opened, and the operator can take out the cleaned and dried container 31 from the chamber 11.

  Also in the present embodiment, the same effect as that of the first embodiment can be obtained. Further, since the processing apparatus 101A of the present embodiment does not include the disassembling apparatus, the processing apparatus 101A can be further downsized and can be suitably used as a cleaning apparatus.

The present invention is not limited to the above embodiments, and various modifications can be made without departing from the spirit of the present invention.
In each of the above-described embodiments, the liquid in which the drying accelerator is mixed with the slightly acidic electrolyzed water is used as the cleaning liquid, but the invention is not limited to this. For example, water may be used as the cleaning liquid, and the water may be dried to accelerate drying. The agents need not be mixed. In this case, in the first embodiment, the slightly acidic electrolyzed water generator 91 and the mixer 93 may be omitted, and water may be stored in the tank 92. In the second embodiment, the tube pump 102 and the first tank 103 may be omitted, and water may be stored in the second tank 104.

  In the first embodiment, although the drying accelerator is supplied from the mixer 93 to the slightly acidic electrolyzed water stored in the tank 92, the present invention is not limited to this. For example, the mixer 93 may be a water repellent agent. May be supplied to the slightly acidic electrolyzed water in the tank 92. In this case, slightly acidic electrolyzed water containing a water repellent is used as a cleaning liquid in the tank 92, and the water repellent has a function of increasing the surface tension (decreasing the wettability) of the substance to which it adheres. Since it has, the surface tension of the surface of the reusable container 31 cleaned by this cleaning liquid increases, and a plurality of water droplets of the cleaning liquid adhere to the surface. Therefore, when the dry gas is supplied from the nozzles 41 and 42, the water droplets can be removed by blowing away a plurality of water droplets with the dry gas. In this case, as compared with the case of the first embodiment, the blower pressure of the blower 95 may be increased to blow more water droplets. Also in the second embodiment, the rinse agent may include a water repellent.

  Further, in the processing apparatus 101 of the first embodiment, the second processing tank 20 is arranged below the first processing tank 10, and specifically between the first processing tank 10 and the second processing tank 20, In the upper part of the second processing tank 20, the opening 25 through which the cleaning liquid flowing down from the first processing tank 10 can flow down to the second processing tank 20 is formed, but it is not limited to this. The arrangement of the first processing tank 10 and the second processing tank 20 is not limited to the top and bottom, and various arrangements can be adopted. In addition, the opening 25 can be formed by a connection port such as a pipe or a nozzle that connects the first treatment tank 10 and the second treatment tank 20. The cleaning liquid may be supplied to the processing tank 20.

1 case 1A case 2A door 2B door 3A open / close drive unit 3B open / close drive unit 4 actuator 5A guide mechanism 6 foot switch 7 mesh plate 8 drainage system 9 supply pipe 9A supply pipe 10 first treatment tank (cleaning device)
11 chamber 11A chamber 12 support 12A support 13 support 13A support 20 second treatment tank (decomposition device)
21 Sink 22 Stirring Member 23 Motor 25 Opening 31 Reusable Container 32 Disposable Container 41 First Nozzle 42 Second Nozzle 43 Third Nozzle 61 Opening / Closing Switch 62 First Operation Program Start Switch 63 Second Operation Program Start Switch 90A 1 Supply Unit 90B Second Supply Unit 90C Supply Selection Unit 91 Slightly Acidic Electrolyzed Water Generator (Cleaning Liquid Generation Device)
92 tank (cleaning liquid generator)
93 Mixer (cleaning liquid generator)
94 pump 94A connection pipe 94B connection pipe 94C connection pipe 95 blower 95A connection pipe 96 first solenoid valve 97 second solenoid valve 98 third solenoid valve 100A first supply unit 100B second supply unit 100C supply selection unit 101 medical care Container Processing Device 101A Processing Device (Cleaning Device)
102 Tube pump (cleaning liquid generator)
103 First tank (cleaning liquid generator)
104 Second tank (cleaning liquid generator)
105 Pump 105A Connection pipe 105B Connection pipe 105C Connection pipe 106 Blower 106A Connection pipe 107 First solenoid valve 108 Second solenoid valve 109 Steam condenser 110 Opening 111 Exhaust part 112 Inlet

Claims (6)

A chamber to which the cleaning liquid is supplied,
A nozzle located in the chamber for spraying the cleaning liquid to clean a reusable container;
A blower for supplying a dry gas into the chamber to dry the reusable container,
A first supply unit for supplying the cleaning liquid to the nozzle;
A second supply unit for supplying the dry gas to the nozzle;
A supply selection unit that controls the supply of the cleaning liquid and the dry gas to the nozzle,
The nozzle is provided in a support tool that supports the reusable container, and is provided with a second nozzle for injecting the cleaning liquid inside the reusable container. apparatus.   The medical supply device according to claim 1, wherein the supply selection unit stops the supply of the cleaning liquid or the dry gas to the nozzle and starts the supply of the cleaning liquid or the dry gas to the other nozzle.・ Cleaning device for care containers.   The said nozzle is equipped with the 1st nozzle which injects the said washing | cleaning liquid to the outer side of the said reusable container, The washing | cleaning apparatus of the medical / care container of Claim 1 or 2 characterized by the above-mentioned. A cleaning liquid generator for generating the cleaning liquid,
The cleaning liquid generator is an electrolyzed water generator that generates slightly acidic electrolyzed water,
A mixer for mixing a drying accelerator or a water repellent with the slightly acidic electrolyzed water, and the cleaning device for a medical / nursing container according to any one of claims 1 to 3.   The medical / nursing care according to any one of claims 1 to 4, further comprising a heater for heating the dry gas supplied into the chamber by the blower before supplying the dry gas to the chamber. Container cleaning device. In the housing,
A cleaning device for a medical / nursing container according to any one of claims 1 to 5,
A sink capable of storing a liquid and into which a disposable container is placed; a stirring member for immersing and stirring the disposable container in the liquid in the sink; and a decomposition device having a motor for rotating the stirring member. A treatment device for medical / nursing containers characterized by:

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