JP6078727B1 - Container cleaning device - Google Patents

Abstract

To provide a container cleaning device capable of appropriately cleaning up to the upper part of the inner surface of a storage container without complicating operation and configuration. A container cleaning device for cleaning a medical container includes a pump and a first end connected to a discharge side of the pump to supply air to a level below the liquid level in the medical container. The discharge path 12 whose other end can be connected to the pipe 51 and the suction path whose one end is connected to the suction side of the pump 11 and whose other end can be connected to the second pipe 52 for discharging air from the medical container 50 13, the discharge path 12 is connected to the first pipe 51 and the suction path 13 is connected to the second pipe 52 when cleaning the inner surface of the medical container 50 supplied with the cleaning liquid. In the formed circulation path, the pump 11 is driven to circulate air between the pump 11 and the medical container 50. [Selection] Figure 1

Description

  The present invention relates to a container cleaning apparatus for cleaning a medical container used in a medical field.

  In the medical field, a medical container is used to collect waste liquid such as candy. The medical container is washed after flowing the accumulated waste liquid into the filthy logistics. When an operator cleans a medical container, care is taken for hygiene and the burden on the operator is large. As an apparatus for improving such a problem, Patent Document 1 discloses a processing apparatus that automatically cleans medical containers.

  Specifically, in the processing apparatus described in Patent Document 1, a storage container containing waste liquid is collected, and the storage container is installed on a drain tray. Then, a nozzle is inserted into the storage container and connected to the drainage tank via the nozzle or the like. In this state, by driving the suction pump to make the drain tank have a negative pressure, the waste liquid in the storage container is discharged to the drain tank. The waste liquid in the drainage tank is discharged to the filthy logistics. On the other hand, the cleaning liquid is introduced into the storage container after the waste liquid is discharged. In this state, the suction pump is driven to introduce air into the storage container, and the inner surface of the storage container is cleaned by bubbling.

Japanese Unexamined Patent Publication No. 2016-42970

  By the way, in the conventional container cleaning apparatus, when cleaning the inner surface of the medical container (corresponding to “reservoir container” in the processing apparatus described in Patent Document 1) by bubbling, if the liquid level of the cleaning liquid is increased, bubbles are formed. The cleaning liquid or the scattered cleaning liquid may leak from a gap formed in the medical container (for example, a gap around the nozzle, or a gap around the lid member when a lid member is provided). For this purpose, an external cleaning step of spraying water from above the medical container is performed. Furthermore, a drainage tray for collecting the jet water flowing down the outer peripheral surface of the medical container is provided. That is, the operation and configuration of the container cleaning device are complicated in order to prevent the cleaning liquid from leaking from the medical container during the bubbling cleaning.

  Further, although the outer surface of the medical container is cleaned by an external cleaning process, it is necessary to suppress the height of the cleaning liquid so that the amount of liquid leaking from the medical container during bubbling cleaning does not increase. For this reason, there is a possibility that the upper part of the inner surface of the medical container cannot be properly cleaned.

  This invention is made | formed in view of such a situation, and it aims at providing the container washing | cleaning apparatus which can wash | clean appropriately to the upper part of the inner surface of a medical container, without complicating operation | movement and a structure. .

  In order to solve the above-mentioned problems, a first invention is a container cleaning device for cleaning a medical container that collects waste liquid generated at a medical site, and includes a pump that discharges sucked air and an end on the discharge side of the pump. Is connected to the first pipe for supplying air to the level below the liquid level in the medical container, and the other end is connected to the suction side of the pump. An inhalation path connectable to the other end of the second pipe for discharging, and when the inner surface of the medical container supplied with the cleaning liquid is washed, the discharge path is connected to the first pipe, and the second In a circulation path formed by connecting the suction path to the tube, the pump is driven to circulate air between the pump and the medical container.

  In a second aspect based on the first aspect, the first tube and the second tube are attached to the medical container by being inserted into the same insertion hole provided in the medical container.

  According to a third aspect, in the second aspect, the first pipe is inserted inside a portion passing through the insertion hole in the second pipe inserted into the insertion hole.

  A fourth invention further includes a collection container that communicates with the medical container in the first to third inventions, and sucks and collects the waste liquid in the medical container when a negative pressure is formed, The recovery container is connected in the middle of the inhalation path, and separates and captures the cleaning liquid when the air flowing into the inhalation path from the medical container contains the cleaning liquid.

  In the first invention, the discharge path is connected to the first pipe provided in the medical container, and the inhalation path is connected to the second pipe provided in the medical container, thereby passing through the medical container. A circulation path through which air circulates is formed. When the pump is driven when cleaning the medical container, the air discharged from the pump is supplied to the medical container through the discharge path and the first pipe. In the medical container, the cleaning liquid is bubbled to clean the inner surface. The air in the medical container is sucked into the pump through the second pipe and the suction path.

  Here, the conventional container washing | cleaning apparatus is not comprised so that the air in a medical container may be attracted | sucked when bubbling washing | cleaning of a medical container. For this reason, the internal pressure of the medical container is increased, and there is a possibility that the cleaning liquid in the form of bubbles or the scattered cleaning liquid may be discharged from a gap formed in the medical container. On the other hand, in the first invention, when the medical container is bubble-washed, the air in the medical container is sucked by the pump. Therefore, the internal pressure of the medical container hardly changes. Even if the level of the cleaning liquid is raised during the bubbling cleaning, it is possible to avoid leakage of foamed cleaning liquid or the like from the gap between the medical containers. Therefore, there is no need for an external cleaning process or a drain tray provided in a conventional container cleaning apparatus. According to the first invention, it is possible to appropriately clean the upper part of the inner surface of the medical container without complicating the operation and configuration of the container cleaning device.

  In the second invention, the first tube and the second tube are inserted into the same insertion hole formed in the medical container. Therefore, even if it is a medical container with one insertion hole, both the air introduction path and the discharge path can be provided in the medical container. Therefore, a medical container having one insertion hole can be cleaned by the container cleaning device.

  In 3rd invention, the 1st pipe | tube is arrange | positioned inside the location of the insertion hole in a 2nd pipe | tube. That is, the insertion hole is a double tube. Similar to the second invention, a medical container having one insertion hole can be cleaned by the container cleaning device.

  In the fourth invention, when the air is circulated through the circulation path in order to wash the medical container, the recovery container that collects the waste liquid includes a cleaning liquid in the air that flows from the medical container into the suction path. Capture the cleaning solution. That is, the recovery container also functions as a gas-liquid separator and prevents the cleaning liquid flowing into the suction path from being sucked into the pump. In the fourth invention, damage to the pump can be avoided without providing a separate gas-liquid separator.

(A) Schematic configuration diagram of container cleaning device according to embodiment, (b) Schematic configuration diagram for explaining inner and outer configurations of casing (A) Schematic configuration diagram of a container cleaning device not connected to a medical container, (b) Schematic configuration diagram of a container cleaning device during a medicine supply step (A) Schematic configuration diagram of container cleaning device during sterilization step or second cleaning step, (b) Schematic configuration diagram of container cleaning device during waste liquid recovery step or third cleaning step (A) Schematic configuration diagram of the container cleaning device during the first cleaning step, (b) Schematic configuration diagram of the container cleaning device during the recovery container cleaning step Schematic configuration diagram of a container cleaning apparatus according to Modification 1 (A) Schematic configuration diagram during the first cleaning step in the container cleaning device according to Modification Example 1, (b) Schematic configuration diagram during the recovery container cleaning step in the container cleaning device according to Modification Example 1.

  Hereinafter, embodiments according to the present invention will be described in detail with reference to FIGS. The following embodiment is an example of the present invention, and is not intended to limit the scope of the present invention, its application, or its use.

[1. About the configuration of the container cleaning device]
The container cleaning device 10 is a device that cleans the medical container 50 used for collecting waste liquid (for example, sputum or blood) discharged from a patient. The container cleaning device 10 is configured to automatically sterilize the waste liquid in the medical container 50, discharge the waste liquid from the medical container 50, and clean the inner surface of the medical container 50.

  As shown in FIG. 1A, the container cleaning device 10 includes a pump 11 that discharges sucked air, a discharge pipe (discharge path) 12 connected to the discharge side of the pump 11, and a suction side of the pump 11. A connected suction pipe (suction path) 13 and a collection container 14 connected in the middle of the suction pipe 13 are provided. The pump 11 is constituted by an air pump. Hereinafter, the upstream side of the suction pipe 13 relative to the collection container 14 is referred to as “upstream side suction pipe 13a”, and the downstream side of the recovery container 14 is referred to as “downstream side suction pipe 13b”.

  In the discharge pipe 12, a discharge side connector 22 is provided at the end opposite to the pump 11. A first pipe 51 attached to the medical container 50 is connected to the discharge side connector 22. A discharge side on-off valve 41 is connected to the discharge pipe 12. Further, an exhaust pipe 16 to which an exhaust on-off valve 43 is connected is connected upstream of the discharge side on-off valve 41 in the discharge pipe 12. In the container cleaning device 10, all the on-off valves 41 to 45 and 47 to 49 including the discharge-side on-off valve 41 and the exhaust on-off valve 43 are constituted by electromagnetic valves.

  On the other hand, the suction pipe 13 is provided with a suction-side connector 23 at the end opposite to the pump 11. A second pipe 52 attached to the medical container 50 is connected to the suction side connector 23. A suction side on-off valve 42 is connected to the upstream side suction pipe 13a. In a state where the first pipe 51 is connected to the discharge-side connector 22 and the second pipe 52 is connected to the suction-side connector 23, a circulation path through which air circulates between the pump 11 and the medical container 50 is formed. (Refer to the bold path in FIG. 3A).

  The collection container 14 is a sealed container capable of temporarily storing waste liquid and the like. The collection container 14 includes a container body 14a and a lid member 14b that is detachably attached to the upper opening of the container body 14a. A drainage pipe 17 to which a drainage on-off valve 44 is connected is connected to the bottom surface of the container body 14a. Further, the upstream side suction pipe 13a, the downstream side suction pipe 13b, the first water guide pipe 18, and the air introduction pipe 19 pass through the lid member 14b. Each of these four pipes 13a, 13b, 18, 19 is provided with connectors 81, 82, 83, 84 at positions close to the collection container 14. The collection container 14 can be detached from the connectors 81, 82, 83, 84.

  In the recovery container 14, each of the upstream suction pipe 13a, the downstream suction pipe 13b, and the air introduction pipe 19 opens to the upper part of the internal space (in the present embodiment, the inner surface of the lid member 14b or the vicinity of the inner surface). Yes. A float valve 46 that closes the inlet when the inlet is full is attached to the inlet of the downstream suction pipe 13b. A vent opening / closing valve 45 is connected to the air introduction pipe 19. In the collection container 14, a sprinkler 38 is attached to one end of the first water conduit 18. The water sprinkler 38 is arrange | positioned directly under the cover member 14b. The other end of the first water conduit 18 is provided with a connection connector 37 for connection to a water tap. A first water guide opening / closing valve 48 is connected to the first water guide pipe 18. Further, a check valve for preventing a reverse flow toward the water tap is connected downstream of the connection connector 37.

  The discharge pipe 12 and the upstream suction pipe 13a are connected to each other by a connection pipe 15. In the discharge pipe 12, one end of the connection pipe 15 is connected between the discharge side on-off valve 41 and the discharge side connector 22. In the upstream suction pipe 13 a, the other end of the connection pipe 15 is connected between the suction side on-off valve 42 and the collection container 14. A connection side on-off valve 47 is connected to the connection pipe 15.

  In the container cleaning apparatus 10, as shown in FIG. 1, a second water conduit 28 for introducing a medicine (disinfectant) into the medical container 50 is provided. The second water conduit 28 is a conduit branched from the first water conduit 18. One end of the second conduit pipe 28 is connected to the upstream side of the first conduit opening / closing valve 48 in the first conduit pipe 18. The other end of the second water conduit 28 is connected between the connection portion of the connection pipe 15 in the discharge pipe 12 and the discharge-side connector 22. The second water guide pipe 28 is connected to the second water guide valve 49 and the medicine supply unit 33 in order from the upstream side. Further, the second water conduit 28 is provided with a connector 85 on the downstream side of the second water conduit on-off valve 49.

  The drug supply unit 33 includes a drug storage container 34 that stores a drug, a drug supply pipe 35 that connects the drug storage container 34 and the second conduit 28, and a drug supply pump 36 that is connected to the drug supply pipe 35. I have. The inlet end of the medicine supply pipe 35 opens near the bottom surface of the medicine storage container 34. The medicine supply pump 36 is constituted by an electromagnetic pump. When the medicine supply pump 36 is driven, the medicine in the medicine storage container 34 is sucked from the inlet of the medicine supply pipe 35 and supplied to the medical container 50 through the second water conduit 28.

  The container cleaning apparatus 10 includes a casing 20 having a plurality of wheels on the bottom surface, and can be easily moved by an operator. As shown in FIG. 1B, the casing 20 includes a pump 11, a discharge pipe 12, an upstream suction pipe 13a, a downstream suction pipe 13b, a connection pipe 15, an exhaust pipe 16, a second water conduit 28, and a medicine. The supply part 33 is accommodated. Each of the discharge pipe 12, the upstream suction pipe 13 a, the downstream suction pipe 13 b, and the second conduit pipe 28 has a connector side extending outward from the casing 20. In addition, each of the electrical valves for connecting to the control unit, which will be described later, with respect to the on / off valves of the drain on / off valve 44, the vent on / off valve 45, the first water guide on / off valve 48, and the second water guide on / off valve 49. A cord (not shown) extends outward from the casing 20. Each electric cord is detachably attached to each on-off valve 44, 45, 48, 49. 1 (b) is the same container cleaning apparatus 10 as FIG. 1 (a), but the arrangement of each part has been changed from FIG. 1 (a) in order to make the components in the casing 20 easier to understand. doing. In FIG.1 (b), the connection destination of each connector is represented by the broken line.

  The collection container 14 is installed in a drainable state in which the waste stream is disposed and the outlet of the drain pipe 17 is disposed above 55, and in a water supply connection state in which a water tap is connected to the connection connector 37 of the first conduit pipe 18. The collection container 14 can be connected to the casing 20 by moving the casing 20 to the vicinity of the waste stream 55.

  Here, the medical container 50 is a sealed container including a container body 50a and a lid member 50b that is detachably attached to the upper opening of the container body 50a. The medical container 50 is suspended from, for example, a wall surface of a hospital room and connected to the patient's throat through a catheter (tube) (not shown). The catheter is guided into the container body 50a through the insertion hole 50c of the lid member 50b. In the medical container 50, sputum sucked from the patient's throat by the pump of the sputum suction device is collected as waste liquid. When the waste liquid is accumulated to some extent, the medical container 50 is withdrawn and collected by the catheter. Then, in order to connect the medical container 50 to the container cleaning device 10, the connection tool 54 in which the first tube 51 and the second tube 52 are integrated is inserted into the insertion hole 50 c and attached to the medical container 50. Is done. The first tube 51 and the second tube 52 are inserted into the same insertion hole 50 c provided in the medical container 50.

  In a state where the connector 54 is attached to the medical container 50, one end of the first tube 51 opens to the lower part (in the present embodiment, near the bottom surface) of the medical container 50, and one end of the second tube 52 is medical. It opens to the upper part of the container 50 (in this embodiment, the inner surface of the lid member 50b or the vicinity of the inner surface). In the medical container 50, the second tube 52 opens at an upper position than the first tube 51.

  In the present embodiment, the connection tool 54 has a double tube structure in which the first tube 51 is inserted inside the second tube 52. Specifically, the second pipe 52 extends upward from the outer surface of the lid member 50b and is bent in the lateral direction. The first tube 51 passes through the vicinity of the bent portion of the second tube 52, passes through the inside of the second tube 52 (portion side of the bent portion), and protrudes downward from the inlet of the second tube 52. In the connection tool 54, the 1st pipe | tube 51 is inserted inside the part which passes the penetration hole 50c among 2nd pipe | tubes.

[2. Operation of container cleaning device]
The container cleaning device 10 further includes an operation panel provided with a start button and a control unit that controls the operation of the container cleaning device 10 (not shown). The control unit controls the pump 11, the medicine supply pump 36, and the on-off valves 41 to 45 and 47 to 49. With reference to FIGS. 2-4, the control process performed by the control unit and the container cleaning method performed in the container cleaning apparatus 10 by the control process will be described. The control process is performed by the processor reading, executing, and interpreting the program stored in the memory. However, some or all of the functions of the control process may be realized by a dedicated LSI such as an FPGA.

  Below, it demonstrates from the initial state (refer Fig.2 (a)) to which the medical container 50 is unconnected. In the initial state, the drainage on-off valve 44 and the vent on-off valve 45 are set to the open state, and the on-off valves 41 to 43 and 47 to 49 except for these are set to the closed state. In FIGS. 2 to 4, the path through which the liquid or gas flows is indicated by a thick line, and the open / close valves 41 to 45 and 47 to 49 are surrounded by squares.

  First, the preparation step will be described. In the preparatory step, the medical container 50 is collected, and the casing 20 is moved to the processing chamber where the dirty logistics 55 is located, the first pipe 51 is connected to the discharge side connector 22, the second pipe 52 is connected to the suction side connector 23, and the connector 81 and 84 are made into the container connection state connected to the collection container 14 (refer FIG.2 (b)). In addition, the above-described electrical cord is connected to each of the drain on-off valve 44, the vent on-off valve 45, the first water guide on-off valve 48, and the second water guide on-off valve 49.

  After the preparation step is completed, the user presses the start button on the operation panel. Then, the control unit causes the container cleaning device 10 to execute the medicine supply step, the sterilization step, the waste liquid recovery step, the first to third cleaning steps, and the recovery container cleaning step.

  Specifically, the control unit first executes a medicine supply step. In the medicine supply step, the medicine supply pump 36 is driven. Then, as shown in FIG. 2B, the medicine in the medicine storage container 34 is supplied to the medical container 50 through the medicine supply pipe 35, the second conduit pipe 28, the first pipe 51, and the like. As a result, in the medical container 50, the medicine is mixed with the waste liquid. The medicine supply pump 36 is stopped after an operation for a predetermined time.

  Subsequently, the control unit executes a sterilization step for sterilizing the inside of the medical container 50. In the sterilization step, the discharge side opening / closing valve 41 and the suction side opening / closing valve 42 are switched to the open state, the drainage opening / closing valve 44 and the ventilation opening / closing valve 45 are switched to the closed state, and the pump 11 is driven. In the circulation path, as shown in FIG. 3A, the air discharged from the pump 11 is supplied to the medical container 50 through the discharge pipe 12 and the first pipe 51. In the medical container 50, the liquid (mixed liquid of the waste liquid and the medicine) is agitated by bubbling to sterilize the waste liquid.

  Further, the air in the medical container 50 is sucked into the pump 11 through the second pipe 52 and the suction pipe 13. When bubbling is performed in the medical container 50, the mixed liquid in the form of bubbles or the scattered mixed liquid may be sucked into the second pipe 52 together with air. In the present embodiment, the liquid mixture sucked into the second pipe 52 is separated from the air and stored in the collection container 14 in the middle of the suction pipe 13. Therefore, the liquid mixture is not sucked into the pump 11. The pump 11 is stopped after operation for a predetermined time (for example, 30 seconds), for example. After the pump 11 is stopped, the discharge side opening / closing valve 41 and the suction side opening / closing valve 42 are switched to the closed state.

  Subsequently, the control unit causes a waste liquid recovery step to recover the mixed liquid from the medical container 50 to the recovery container 14. In the waste liquid recovery step, the connection side on-off valve 47 and the exhaust on-off valve 43 are switched to the open state, and the pump 11 is driven. Then, as shown in FIG. 3B, the air in the collection container 14 is sucked by the pump 11 via the downstream suction pipe 13b and discharged from the exhaust pipe 16. The inside of the collection container 14 becomes negative pressure, and the liquid mixture in the medical container 50 is sucked into the collection container 14 through the first pipe 51 and the connection pipe 15. The pump 11 is stopped after all the liquid mixture is recovered from the medical container 50 into the recovery container 14. After the pump 11 is stopped, the connection side on-off valve 47 and the exhaust on-off valve 43 are switched to the closed state.

  Subsequently, the control unit sequentially executes a first cleaning step, a second cleaning step, and a third cleaning step for cleaning the medical container 50. The first cleaning step, the second cleaning step, and the third cleaning step are repeated a predetermined number of times (for example, three times).

  In the first cleaning step, the second water on / off valve 49, the drain on / off valve 44, and the vent on / off valve 45 are switched to the open state, and the medicine supply pump 36 is driven. Then, as shown in FIG. 4A, air is introduced into the recovery container 14 through the air introduction pipe 19, and the liquid in the recovery container 14 ("mixed liquid" in the first first cleaning step), second time In the subsequent first cleaning step, “cleaning liquid”) is discharged from the drainage pipe 17 to the dirty flow 55.

  Further, the medicine sucked up from the medicine storage container 34 by the medicine supply pump 36 merges with the tap water supplied from the tap and flowing through the second conduit 28, and the cleaning liquid in which the tap water and the medicine are mixed is a medical container. 50. In the first cleaning step, the drainage of the collection container 14 and the supply of the cleaning liquid to the medical container 50 are performed at the same timing. The drainage of the collection container 14 and the supply of the cleaning liquid to the medical container 50 may be performed at different timings.

  Here, the control unit is provided with a timer for stopping the supply of the cleaning liquid when the cleaning liquid supplied from the second water conduit 28 reaches a predetermined water level in the medical container 50. For example, the user sets a set time for the timer when the collection container 14 is installed. Specifically, the user needs to take the medical container 50 from the time when the second water on / off valve 49 is switched from the closed state to the open state with the water tap open until the medical container 50 reaches a predetermined water level near full water. The set time is set as the timer setting time. After the timer is set, the tap opening is not changed.

  The control unit closes the second water guide valve 49 and stops the medicine supply pump 36 when the timer reaches the set time. Thereby, the supply of the cleaning liquid to the medical container 50 is stopped. When both the drainage of the collection container 14 and the supply of the cleaning liquid to the medical container 50 are finished, the first washing step is finished. In addition, a liquid level sensor is provided for the medical container 50, and the control unit uses the liquid level sensor so that the liquid level of the medical container 50 is a predetermined height (a height corresponding to full water or a height close to full water). ) May be detected.

  Subsequently, in the second cleaning step, similarly to the sterilization step, the discharge-side on-off valve 41 and the suction-side on-off valve 42 are switched to the open state, and the drainage on-off valve 44 and the ventilation on-off valve 45 are switched to the closed state. Then, the pump 11 is driven. In the circulation path, as shown in FIG. 3A, the air discharged from the pump 11 is supplied to the medical container 50 through the discharge pipe 12 and the first pipe 51. In the medical container 50, the cleaning liquid is stirred by bubbling to clean the inner surface of the medical container 50. Further, the air in the medical container 50 is sucked into the pump 11 through the second pipe 52 and the suction pipe 13. The pump 11 is stopped after operation for a predetermined time (for example, 30 seconds), for example. After the pump 11 is stopped, the discharge side opening / closing valve 41 and the suction side opening / closing valve 42 are switched to the closed state.

  Subsequently, in the third cleaning step, similarly to the waste liquid recovery step, the connection-side on-off valve 47 and the exhaust on-off valve 43 are switched to the open state, and the pump 11 is driven. Then, the inside of the collection container 14 into which air has been sucked in by the pump 11 becomes negative pressure, and the cleaning liquid in the medical container 50 passes through the first pipe 51 and the connection pipe 15 as shown in FIG. And sucked into the collection container 14. The pump 11 is stopped after all the cleaning liquid is collected in the collection container 14 from the medical container 50. After the pump 11 is stopped, the connection side on-off valve 47 and the exhaust on-off valve 43 are switched to the closed state.

  When the first cleaning step, the second cleaning step, and the third cleaning step are repeated a predetermined number of times (for example, three times), a recovery container cleaning step is performed. In the recovery container cleaning step, the first water guide on / off valve 48, the drain on / off valve 44, and the vent on / off valve 45 are switched to the open state. For example, after the drainage on-off valve 44 and the vent on-off valve 45 are switched to the open state and the liquid is discharged from the collection container 14, the first water guide on-off valve 48 is switched to the open state. In the collection container 14, as shown in FIG.4 (b), the tap water supplied from the tap is sprinkled from the sprinkler 38, and the inner surface of the collection container 14 is wash | cleaned. The water sprinkler 38 sprinkles tap water while rotating, for example. When the predetermined time has elapsed, the first water on / off valve 48 is switched to the closed state, and the recovery container cleaning step ends.

[3. Effects of the embodiment]
In the present embodiment, when the medical container 50 is bubbling washed, the air in the medical container 50 is sucked by the pump 11. Therefore, the internal pressure of the medical container 50 hardly changes. Even if the level of the cleaning liquid is raised during the bubbling cleaning, it is possible to prevent the cleaning liquid in the form of bubbles from leaking from the gap between the medical container 50 (such as the gap between the container body 50a and the lid member 50b). Therefore, there is no need for an external cleaning process or a drain tray provided in a conventional container cleaning apparatus. According to this embodiment, the upper part of the inner surface of the medical container 50 can be appropriately cleaned without complicating the operation and configuration of the container cleaning device 10. Moreover, since the container washing | cleaning apparatus 10 operate | moves automatically, if a start button is pushed, a comparatively elderly worker can also operate easily.

  In the present embodiment, the first tube 51 and the second tube 52 are inserted into the same insertion hole 50 c provided in the medical container 50. Therefore, even if the insertion hole 50 c is one medical container 50, both the air introduction path and the discharge path can be provided in the medical container 50. In the case of the medical container 50 for collecting sputum, both the air introduction path and the discharge path can be provided by using the catheter insertion hole 50c as it is. Therefore, the medical container 50 having one insertion hole 50 c can be cleaned by the container cleaning device 10.

  Further, in the present embodiment, when air is circulated through the circulation path in order to clean the medical container 50, the recovery container 14 that collects the waste liquid is supplied with liquid ( When a liquid mixture or a cleaning liquid is contained, the liquid is separated and captured. That is, the collection container 14 also functions as a gas-liquid separator, and prevents the liquid that has flowed into the suction path 13 from being sucked into the pump 11. In this embodiment, damage to the pump 11 can be avoided without providing a separate gas-liquid separator. In addition to the collection container 14, a gas-liquid separation container may be provided. In this case, the collection container 14 is not connected to the suction pipe 13.

  In the present embodiment, since the medicine supply pump 36 is provided, unlike the conventional container cleaning apparatus, only the medicine can be supplied to the medical container 50. Therefore, the waste liquid can be sterilized before the waste liquid is discharged from the medical container 50. Therefore, the worker does not come into contact with unsterilized waste liquid, and infection by Pseudomonas aeruginosa or the like can be prevented. Instead of using the medicine supply pump 36, the medicine may be supplied to the medical container 50 by using the suction action by the Venturi effect as in the conventional container cleaning device.

[4. Modification 1]
Modification 1 will be described with a focus on differences from the above-described embodiment with reference to FIGS. 5 and 6. In the first modification, the container cleaning device 10 is configured so that the liquid level of the collection container 14 can be pressurized using the pump 11.

  Specifically, the container cleaning device 10 further includes a pressurizing pipe 61 and an intake pipe 62. One end of the pressurizing pipe 61 is connected between the pump 11 in the discharge pipe 12 and the discharge side on-off valve 41, and the other end is connected between the vent on-off valve 45 in the air introduction pipe 19 and the collection container 14. ing. A pressurizing on-off valve 71 is connected to the pressurizing tube 61. The intake pipe 62 has one end open to the atmosphere and the other end connected to the downstream intake pipe 13b. An intake side opening / closing valve 72 is connected to the intake pipe 62. Further, the second suction side on-off valve 73 is connected to the downstream side suction pipe 13b on the upstream side of the connection portion of the suction pipe 62. The pressurizing pipe 61 may be directly connected to the collection container 14 without providing the air introduction pipe 19.

  In the first modification, in the first washing step, the second water on / off valve 49, the drain on / off valve 44, the pressurizing on / off valve 71, and the intake side on / off valve 72 are set in the open state, and the pump 11 and the chemical The supply pump 36 is driven. Then, as shown in FIG. 6A, the pump 11 discharges the air sucked from the intake pipe 62. The air discharged from the pump 11 is supplied to the recovery container 14 through the pressurizing pipe 61. In the recovery container 14, the internal liquid is pressurized and discharged from the drainage pipe 17 to the sewage distribution 55.

  Further, in the recovery container cleaning step, the first water on / off valve 48, the drain on / off valve 44, the pressurizing on / off valve 71, and the intake side on / off valve 72 are set to the open state, and the pump 11 is driven. Then, as shown in FIG. 6B, as in the first cleaning step, the air discharged from the pump 11 is supplied to the recovery container 14 through the pressurizing tube 61, and the liquid in the recovery container 14 is added. Compressed and discharged from the drainage pipe 17 to the waste stream 55. According to the first modification, the time for discharging the liquid from the recovery container 14 can be shortened in both the first cleaning step and the recovery container cleaning step.

[5. Other Embodiments]
In the above-described embodiment, even if the connection tool 54 does not have a double tube structure, the first tube 51 and the second tube 52 can be inserted through the same insertion hole 50c. For example, the first tube 51 and the second tube 52 each having a substantially semicircular cross section may be combined into a substantially circular shape and inserted through the same insertion hole 50c.

  Moreover, in the above-mentioned embodiment, although the 1st pipe | tube 51 and the 2nd pipe | tube 52 are integrated, you may make the 1st pipe | tube 51 and the 2nd pipe | tube 52 separate. In this case, for example, a first insertion hole for the first tube 51 and a second insertion hole for the second tube 52 are provided in the lid member 50b.

  The present invention can be applied to a container cleaning device for cleaning a medical container used in a medical field.

10 Container cleaning device 11 Pump 12 Discharge pipe (discharge path)
13 Inhalation pipe (inhalation route)
14 collection container 15 connecting pipe 33 medicine supply part 50 medical container 51 first pipe 52 second pipe

Claims (4)

A container cleaning device for cleaning a medical container for collecting waste liquid generated at a medical site,
A pump that discharges the sucked air;
A discharge path, one end of which is connected to the discharge side of the pump, and the other end of which can be connected to a first pipe for supplying air to a level below the liquid level in the medical container;
One end is connected to the suction side of the pump, and a suction path that can be connected to the second pipe for discharging air from the medical container,
A circulation path formed by connecting the discharge path to the first pipe and connecting the suction path to the second pipe when cleaning the inner surface of the medical container supplied with the cleaning liquid The container cleaning apparatus according to claim 1, wherein the pump is driven to circulate air between the pump and the medical container.   The container according to claim 1, wherein the first tube and the second tube are attached to the medical container by being inserted into the same insertion hole provided in the medical container. Cleaning device.   The container cleaning apparatus according to claim 2, wherein the first pipe is inserted inside a portion of the second pipe inserted into the insertion hole and passing through the insertion hole. Further comprising a collection container that communicates with the medical container and sucks and collects the waste liquid in the medical container when a negative pressure is formed;
The recovery container is connected in the middle of the inhalation path, and separates and captures the cleaning liquid when air flowing into the inhalation path from the medical container contains the cleaning liquid. The container cleaning apparatus according to any one of 1 to 3.

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