JP2000503563A - Medical cleaning and sterilization equipment - Google Patents

Abstract

(57) [Summary] An improved device that can be used for cleaning and / or sterilizing tubular objects. A container comprising a first chamber and a second chamber, wherein the container (8) is divided into two chambers (9A and 9B), and an object to be cleaned / sterilized has one end thereof in the first chamber. Is arranged so that the other end is accommodated in the second chamber. The first chamber is pressurized so that liquid is forced to surge into the second chamber. This surge effect can be easily obtained by using any flexible membrane (20) in the second chamber or by using a pair of pistons driven with a phase difference of 180 degrees. Thus, when one chamber is pressurized, the pressure in the second chamber is reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION           Medical cleaning and sterilization equipment Background of the Invention   The present invention relates generally to devices used for cleaning tubular objects. More specifically, tubular objects The present invention relates to an apparatus used for washing and sterilizing a product.   The device of the present invention It is suitably used for cleaning and sterilizing an endoscope. Other uses do it, Dental instruments, Applicable to cleaning or sterilization of surgical instruments and implants To   The endoscope is a flexible tubular object, The shape of the both ends is various. Introspection The mirror tube has a large number of ports where cleaning or sterilizing agents cannot be effectively distributed. Because there is a ket-like structure, Simply dipping the endoscope in a sterilant or cleaning agent Does not provide a cleaning or sterilizing effect effectively. In the part of the pocket-like structure This is because the sterilant or cleaning agent does not reach effectively. For this reason, Contamination in the endoscope The part that has been left will be left. Hepatitis B, Acquired immunodeficiency syndrome (A Due to the spread of highly infectious diseases such as IDS), Sterilize or remove all medical devices. It has become essential to be disposable.   Due to the complexity of the sterilization procedure before the next use, Once used, the endoscope Normal, Has been discarded. But, Endoscopes are extremely expensive, Only once Discarding is not economic. With such a single use, Structurally damaged Not This is because the sterility of the endoscope is simply lost.   As is clear from the above, Aids in cleaning equipment, And a device for improving the sterilization effect. Is strongly required. Summary of the Invention   In the present invention, Used for cleaning and / or sterilizing tubular objects such as endoscopes An improved apparatus is provided.   In the description of the present invention, An endoscope is an example of an object to be cleaned. hand, The present invention It is not intended to be limited to this one object. Furthermore, The present invention can be applied to all tubular objects, Also, Circuit board , Medical equipment, Dental instruments, And other instruments that require cleaning and / or sterilization. Can be   In the configuration of the present invention, One container is divided into two chambers. Soshi hand, One end of the endoscope fits in one chamber, The other end of the endoscope is The endoscope is extended through the divider between the chambers to fit inside the bar Is set to   The partition between the chambers does not have to completely separate both chambers , In one preferred embodiment, The partition part fits loosely on the endoscope Yes, for that reason, Medium (ie, Liquid detergent, Sterile water, Liquid sterilant, Or sterile gas ) Will surge from one chamber to another, The medium is invisible The outer surface of the mirror can be cleaned neatly, Also, At the same time, the medium washes the inner surface of the endoscope. When flushing, Endoscopes can be affected by a medium.     To cause such a surge, To affect each chamber A flexible membrane is arranged. The flexible membrane inward and By deforming outward, Pressure or suction occurs. as a result, Chamber A flow will occur between the chambers to equalize the pressure between the chambers.   In one preferred embodiment, The deformation of the flexible membrane is Caused by air pressure applied to the outer part of the This makes it flexible The membrane deforms toward the inside of the chamber. Also, Cause a reverse flow External suction pulls the flexible membrane out of the chamber .   Also, In one preferred embodiment, Two flexible membranes or die An ear ram is used. Each membrane acts on one chamber, each The membranes are operated in opposite motion relations. That is, External pressure When added to one membrane, Other membranes have external suction Given. Due to the opposite movement, a strong medium flow occurs in the container. , as a result, The cleaning and / or sterilizing action is increased.   This medium flow must pass through the endoscope. Mechanical due to the flow of the medium The pressure will assist in cleaning the endoscope. Sterilant is used as the liquid medium If The inner surface of the tubular object will also be sterilized at the same time.   Suitable liquid sterilants include peracetic acid, Suitable gaseous sterilants include Ethylene oxide (ETO). still, Various types that can be easily conceived by those skilled in the art. Other sterilants can also be used.   By reversing the flow between the chambers, Attach from inside and outside of endoscope Peel off objects and other contaminants, Remove it, "Scrubbing" action occurs .   In some embodiments of the present invention, Impregnating agent, That is, the solvent decomposes or adheres to the deposit Used to relax force. This step is especially for the removal of protein or fat particles. Useful for leaving.   In one preferred embodiment, The endoscope is first cleaned with a cleaning agent. afterwards, The sterilant is added using the gentle flow between the chambers. How many of this invention In some embodiments, Ensure that the sterilant is stationary against the inner and outer surfaces of the endoscope. Stop the ping operation. This allows Maximum sterilization effect is obtained.   In one preferred embodiment, the last step is to remove the sterilant, That rear, The inside and outside of the endoscope are washed with sterile water in preparation for the next patient . In some embodiments of the present invention, Lubricant to extend endoscope life An additional rinse and lubrication step is added.   The invention will be explained in more detail by means of several embodiments together with the drawings and the description. I do. BRIEF DESCRIPTION OF THE FIGURES   FIG. 1 is a layout diagram of a preferred embodiment of the present invention.   FIG. 2 is an enlarged view of one of the membranes shown in FIG.   FIG. 3 is a layout diagram of one preferred controller / valve system.   FIG. 4 is a schematic diagram of the pump shown in FIG.   FIGS. 5A and 5B show two operating in opposite relation to each other to produce the desired surge. It is a side view which shows two membranes.   FIG. 6 shows the flow from one chamber to the other passing through the endoscope. FIG.   FIG. 7 shows a single membrane used, FIG. 10 is a view showing another embodiment of the present invention. .   Figure 8 uses four membranes that are used to achieve even greater surge effects. FIG. 6 is a view showing another embodiment of the present invention used.   FIG. 9 shows that the container is removable from the membrane system; Embodiment of the present invention It is a perspective view of.   FIG. 10 is a block diagram showing the arrangement of one embodiment of the present invention.   FIG. 11A is a block diagram of one preferred embodiment drying mechanism using ambient air. You.   FIG. 11B is a block diagram showing a purge mechanism for discharging gas from the cleaning / sterilizing apparatus. It is a lock figure.   FIGS. 12A and 12B clean a planar object, Top view of one embodiment of the present invention It is a figure and a side view.   FIG. 13 is a perspective view of one embodiment of the present invention.   FIG. 14 is a front view of one embodiment of the present invention.   FIG. FIG. 15 is a front view of a flywheel used in the embodiment of FIG. 14; , It is a figure which shows the relationship of pressure reduction / pressure application. Detailed description   FIG. 1 is a layout diagram of a preferred embodiment of the present invention.   The cleaning device 10 is composed of five main components. That is, Lid 11, Feet 13A and 13B A device body 12 comprising Pump for membrane 21, Controller and valve 23 , And reservoir 25 (or gas tank 26).   The lid 11 is hinged to the apparatus main body 12, Also, With the fastener 14, It is fixed in the closed position. The peripheral portion of the lid 11 is 2 sealed, This forms an airtight container.   The seal 17 cooperates with the seal 18 to divide the container 8 into chambers 9A and 9B. Designed to break. The endoscope is Although not shown in the figure, For the seal part 18 Since it is arranged through the provided recess 19, One end of the endoscope is inside chamber 9A Fits in on the other hand, The other end will fit in the chamber 9B. Lid 11 closed And When sealed, Seal part 17 completely seals around the endoscope Becomes   In this example, The legs 13A and 13B are hollow, Opening of opening 15A etc. It communicates with the container 8 via the mouth.   The foot 13A and the foot 13B each have a port such as a port 22B, these The medium (liquid or gas) is supplied through the port. Supply medium to port By doing Also, because the hollow feet are in contact with the container 8, Place container in desired medium Can be charged by quality.   On each foot, The flexible membrane 20 connected to the hollow part of the foot Further provided.   The pump 21 for the membrane The flexible membrane 20 is selectively deformed Used to This causes a pumping operation through the container 8.   The pump 21 for the membrane In controlling the operation of this device, Machine as a center It is controlled by a functioning controller and valve 23. Endoscope correctly container 8 Is placed in the When the lid 11 is closed, The medium selected by the controller 23 ( In this embodiment, the liquid is introduced from the reservoir 25, This liquid is transferred to port 22 Send to B. In another embodiment, The gas from the container 26 is used as a medium.   When the container 8 is properly filled, Controller 23 is flexible with pump 21 The pumping operation by the membrane 20 is started. Pump 21 by this pump 21 Pressurizing operation, The suction will be repeated alternately, as a result, Medium is chamber -Each flexible membrane extends inward so that it flows between 9A and chamber 9B. And move outward.   The medium flowing between the chamber 9A and the chamber 9B is: Naturally endoscope Flow through, As a result, the medium reaches every corner of the endoscope. Washer In the process, The endoscope is attached from the inside by the mechanical force generated by the flow of the medium. Kimono is removed.   The operating steps employed as a preferred washing and sterilization sequence are as follows: You.   Step 1:   Placement of the endoscope in the container 8, Closing the lid 11, And the fastener 14 Fixation of the lid 11; continue,   Step 2:   Start of the process by actuating the controller 23.   continue, The following sequence of steps is performed:   Step 1:   Relaxes adhesion of proteins and fats inside and outside the endoscope Container 8 is filled with enzyme / solvent for   Step 2:   Fill the container 8 with the cleaning agent from one side of the reservoir 25;   Step 3:   The chamber 9 using the pump 21 and the flexible membrane 20 A, Stir by alternating pumping actions during 9B;   Step 4:   Drain the cleaning agent from the container 8, Send to drain 24;   Step 5:   A sterilant such as ozone from one side of the reservoir 25 (or other The container 8 with a sterilant which can be conceived by the user);   Step 6:   Slowly disinfect the sterilant in the endoscope using pump 21 and membrane 21 Reciprocating through (the lubricant may be added at this time);   Step 7:   Rest the sterilant inside the endoscope;   Step 8:   Slowly disinfect the sterilant in the endoscope using pump 21 and membrane 21 Reciprocate through;   Step 9:   While heating the container by the heating device 16, Remove sterilant from container 8 Discharge, To drain 24 (alternatively, Filtered air And dried).   As a quality control mechanism, The sampler 7 is of a solenoid drive type, container Sampling a liquid or gaseous medium sample in it. This sample is sterilized Testing with chemical or biological indicators to show whether the test was performed correctly Used for   The heating device 16 Forcibly discharge the liquid in the container 8 to the outside, Clean inside the container, Nothing Fungus, And so that you can get a dry endoscope, Evaporate all liquid Used for   In another embodiment, Heating through a filter to dry the objects in the container 8 Atmosphere is pumped into the container 8.   FIG. 2 is an enlarged view of one of the membranes shown in FIG.   As mentioned above, The device main body 12 is connected to the foot 13A through the opening 15, Equipped Container 8. The medium is introduced and discharged from the container 8 through the port 22A. You.   The hollow portion 31 is provided inside the foot 31A, Phase with flexible membrane 30A Interact. The flexible membrane 30A is covered with hard Bar 5. The pump 21 is formed by a pipe or a tube. Shaped by hard cover 5 Communicate with the interior formed. The pump 21 With this arrangement, Inside the hard cover 5 The part can be pressurized or depressurized. By doing so, Flexible men The brene 30A is deformed inward, 30C; Pressurized state, In suction mode, it changes outward. Shape, 30B.   The movement of the flexible membrane 3A that moves the positions of 30B and 30C Than, Push the medium into the container 8, Or withdrawing pumping action .   FIG. 3 is a layout diagram of one preferred controller / valve system.   The controller 23 with the valve Fitting 38A, 38B, 38C , 38D, And media through 38E. Each fitting is Soleno Id 37A, 37B, 37C, 37D, And 37E. these Are connected to a pump 36 to form a valve system.   A pump 36 and each solenoid 37A, 37B, 37C, 37D, And 37E , A controller chip 33 that controls all commands is connected. controller The power to chip 33 is Than standard outlet, Required by the electronic system Supplied after passing through appropriate transformers to provide the appropriate voltage and current. This The trader can easily figure out what transformer to use.   Timing which is a reference for operating the controller 33 by the timing chip 34 Is obtained.   The controller 33 further includes a membrane pump through connectors 32A and 32B. Contact 21.   The command is started when the operator turns on the button 39. afterwards, Con The troller 33 uses a light 4 which is selectively activated during operation of the device, Tell the report.   FIG. 4 is a schematic view of the pump shown in the embodiment of FIG.   The membrane pump 21 starts from a piston block 41 having two pistons. Become. These pistons are driven by an electric motor 42 and a drive shaft 43. It is. When one piston sucks air 40A, the other piston Discharge 43B. The pressure or suction force from the piston block 41 is It is conveyed to ku45.   The valve block 45 is a reciprocating valve, Driven by solenoid 44 . Because it is a reciprocating valve, The valve block 45 selectively selects the pressure of the port 46A or 4 Turn to any of 6B. at the same time, The suction force from the piston member 41 is Pressure Directed to a port that cannot be reached. For example, Pressure applied to port 46A in case of, A suction force is applied to the port 46B. Also, Same for the opposite case It is like.   in this way, In a system using two flexible membranes, One Men Bren is pushed into the hollow part of one foot, Is another membrane hollow in another leg? Will be withdrawn. With this double action, More intense pumping action Is caused, Also, Very high cleaning performance is obtained.   FIG. 5A and FIG. 5B Operate in opposite relationships to produce the desired surge It is a side view which shows two membranes.   As schematically illustrated in FIG. 5A, In the cleaning / sterilizing device 50, Flexi The flexible membrane is sucked from the hollow part of the foot while the flexible membrane 51A is sucked. By pulling out 52A from the hollow part of the foot, As indicated by arrow 53A, The quality flows through the partition 18.   In the opposite behavior, Push the flexible membrane 51B into the hollow part, Flexi By pulling out the sibble membrane 52B from the hollow part, Indicated by arrow 53B Thus, the flow of the medium is reversed.   By selectively varying between the two states shown in FIGS. 5A and 5B, , The flow of the medium passing through the endoscope not shown is continuously reversed, as a result, Introspection The effect of scrubbing the inside of the mirror occurs.   FIG. 6 shows the flow from one chamber to another through the endoscope. FIG.   The endoscope 60 As explained above, One end of endoscope fits inside chamber 9A , So that the other end fits inside the chamber 9B, Placed across the seal 18 It is. By the above pumping action, The medium has an opening 15A, Through 15B it Each chamber 9A, Inhaled or discharged to 9B. Due to this pumping action, The medium forcibly flows into one end of the endoscope 60 as shown by the arrow 62, Arrow 6 Forcibly flows out of the other end of the endoscope as indicated by 1.   Due to the flow of the medium passing through the endoscope 60, Deposits are washed away from the inner surface of the endoscope That means The operability is significantly improved as compared with the prior art.   FIG. 7 shows another embodiment of the invention in which a single membrane is used.   In this embodiment of the cleaning / sterilizing device 70, Cause pumping action on container 8 One membrane 71 is used for rubbing. As above, Endoscope 60 is a seal It is arranged through a partition formed by the part 18 and the seal part 17. Membrane 7 When 1 is pushed into the container 8, To assist in cleaning the inner surface of the endoscope, Medium Image flows through the endoscope.   Port 22A, 22B is Provide outlet or inlet, The selected medium is a container 8 is filled, It is also discharged.   Please note that In this embodiment, the membrane 71 is directly That you are contacting For such a configuration, Cleaning device 70 feet Can be shorter. as a result, In many places where installation space is an issue Can be used.   FIG. 8 shows four membranes used to obtain a greater surge effect. FIG. 9 is a view showing another embodiment of the present invention used.   even here, The endoscope 60 has a sealing portion 17, 18 and placed in the container 8. In this example, In order to obtain a larger medium surge passing through the endoscope 60, Four membranes 80A, 80B, 80C, And 80D Pressurization or suction action They are used in a correlated relationship to form sets that work together to produce. For example, When the membrane 80A is pushed in, Similarly, membrane 80B Pushed.   One skilled in the art will readily recognize that any number of membranes can be used. Use By changing the number of membranes used, The designer has the desired pumping action You can get as a result, A desired surge can be obtained.   FIG. 9 is a perspective view of an embodiment of the present invention in which the container is removable from the membrane system. FIG.   The cleaning device 92 is provided with a seat 93 into which the container 90 is fitted. Container 9 In the operation of fitting 0, Valve 94A, 94B is provided in the container 90, Figure Invisible in Work with parts that move up and down. Same as valve 94A and 94B Each part that moves up and down corresponding to these seals the separated one. to this Than, When the container 90 is removed, the contents of the container 90 can be cleaned and / or cleaned. Maintain sterility. This allows The endoscope is cleaned and / or sterilized, And pollution Stored without fear of If the surgeon uses an endoscope, Fastener 1 Remove 4 By opening the lid 11, A sterile endoscope can be used.   As above, Flexible membrane 95A, 95B is provided in the container body 92 And This produces the pumping action described above. This pumping action is bubble 94A, It is transmitted to the container 90 via 94B. The operation of this washer has already been described Is the same as   To remove the container 90, handle 91A, Can be easily done by using 91B . Once removed, Is the container 90 stored for later use with the endoscope? , Or immediately opened for use with the endoscope.   FIG. 10 is a block diagram showing the arrangement of one embodiment of the present invention.   Water source 100 Through valves 101A and 101B, Continue straight or It passes through the rush heater 102. The flash heater 102 One of the storage Water can be heated to the desired temperature in order to optimize the stored medium , Selected.   In this example, Storage 103A, 103B, 103C, 103D, And 10 In 3E, Enzyme solution (easy to remove fat and protein from endoscope surface) Used to Cleaning fluid (used to clean deposits from endoscopes ), Acidic disinfectant (used for adjusting the pH in the container), Sterilizer (sterilize endoscope Used to And lubricants (endoscope tables for use in the field of surgery) (Used for the purpose of smoothing the surface). In this figure, The controller that is not operated is the storage 103A, 103B, 103C, 103D, as well as Similarly to controlling the injection of the medium from 103E, Valves 101A and 101B also Control.   For your safety, Each reservoir is identified by an electronic element that exchanges information with the controller. Be killed. This electronic element Improperly connected reservoirs at the wrong time So that the contents of Check the contents of the reservoir very accurately.   continue, Cleaning equipment / sterilization with proper operation as outlined above A medium flow is directed to the device 10. The operator has the option From the container A sample of the medium can be taken using the sampler 7. This sample Inside Used to confirm that the scope has been properly cleaned and sterilized.   At some selected point in time, Medium is cleaning device / sterilizer 10 More discharged, afterwards, Waste liquid does not allow unacceptable contaminants to drain to drain 24 The components of the effluent are checked by chemical or biological indicators to ensure that Pass through the indicator 104 to be inspected.   In one embodiment, A second flash heater is used after indicator 104 It is. This flash heater Before the waste liquid is drained, Wastewater Installed to heat the effluent to a temperature that can kill all biological contaminants Be killed. In another embodiment, To achieve the same purpose, install a flash heater It may be installed before the indicator 104.   FIG. 11A is a block diagram of one preferred embodiment drying mechanism using ambient air. is there.   In this case, Surrounding air to assist in drying the endoscope in the washer / sterilizer Qi 110 is used. So that the right atmosphere is used, Pump 111 is empty around Air is sent through filter 112 before entering cleaning device 10.   In order not to contaminate the endoscope in the cleaning device 10 again, Particles in the surrounding air (biological The filter 112 capable of removing the chemical substance (including chemical substances) is selected. If you are a person skilled in the art Such a filter would readily come to mind.   FIG. 11B is a block diagram showing a purge mechanism for discharging gas from the cleaning / sterilizing apparatus. It is a lock figure.   When sterile gas is used in the container, Purging this gas from the container Is desirable. this is, Gas from the cleaning device 10 passes by the action of the blower 113 This is done safely by using a filter 114 that does this. Peracetic acid with sterile gas When used as Preferably the filter 114 is a moist sponge . In another embodiment, It is necessary to clean the gas before it is exhausted as exhaust gas 115. Sex charcoal is used.   One skilled in the art will readily appreciate that a variety of other filters can be used. Will do.   FIG. 12A, 12B is for cleaning a planar object, Top view of one embodiment of the present invention It is a figure and a side view. The operator 126 selects an object 125 (pre- In order to set the Handle 127 and caddy 124 is used. The cleaning device 10 includes: With a membrane (not shown here) The drain 15A that passes through, It works as above with 15B.   In this example, The partition 18 is slightly wider in width, As indicated by the arrow 121 Notched passages 120A and 12B through which a surge of the medium flows are provided. wing The root 122 is positioned so that the medium passes through the object 125 as indicated by the arrow 123. Change the direction of quality flow.   By selecting the shape of the blade 122, Optimal washing for a variety of different subjects The caddy 124 is designed to meet the cleaning needs required for a cleaning effect Is done.   FIG. 13 is a perspective view showing one embodiment of the present invention.   As above, The washing and sterilizing unit 130 is separated by the partitioning portions 17 and 18. Split chambers 9A and 9B are provided. Surgical fields to be cleaned / sterilized A channel 19 is formed to receive the device.   In this example, A channel 136 is further formed, Contents of chamber 9A Is discharged into the recess 131. A low portion is formed in the container by the recess 131, Recess 13 At 1 a liquid cleaning or sterilizing agent is collected for drainage.   The piston pump 133 acts on the recess 131. The piston pump is an electric motor By a flywheel 134 selectively driven by a motor (not shown). Is driven. When the flywheel 134 rotates, The piston pump is pressurized, Decrease Repeat the pressure cycle. Due to this change in liquid pressure, The liquid is in chamber 9 A surge occurs between B and the chamber 9A. This surge action assists the cleaning operation. You. And this ensures that the sterilant is forced to every corner of the medical device You.   The additional liquid pressure created by piston pump 133 is Depending on the pressure Rubber wall 1 that will deform while liquid is forced into chamber 9A By 32 Absorbed. When the piston pump 133 works to reduce the pressure, Go The liquid in the chamber 9A is forcibly pushed back into the chamber 9B. Return to home position to assist   in this way, A washing or sterilizing liquid moves between the two chambers Wash off (surge).   In this example, Optional solenoid 135A, With the use of 135B, liquid Is easily discharged. Solenoid 1 while pulling piston in piston pump 133 35A is opened, As a result, the liquid is drawn into the piston pump 133. Pis When the ton pump 133 starts pressurizing, The solenoid 135A is closed, solenoid 135B opens. This allows The liquid is drained to drain 24. Therefore, When the washing or sterilization process is completed, Liquid is drained by piston pump 133 Easily discharged into the in.   FIG. 14 is a front view of one embodiment of the present invention.   In this embodiment of the invention, The cleaning device / sterilizer 140 has a foot 146A and There are two chambers in communication with the interior of 146B. Piston pump 141A and 141B communicate with the interior of feet 146A and 146B, respectively. When the pumps 141A and 141B circulate, The pressure of the liquid in the chamber rises or Decrease.   Electric motor 143 is selectively driven to rotate flywheel 142. You. The piston pumps 141A and 141B are Piston pump 141A is fixed Contact with the flywheel 142 so that it is always in a reverse cycle with the pump 141B. Continued. For example, When the piston pump 141A pressurizes the liquid, Fixie The pump 141b sucks the liquid.   With this alternative movement between the piston pumps 141A and 141B, Cha A surge effect occurs between the members So, Operation similar to the other embodiments, The effect is obtained You.   A cleaning and sterilizing liquid 144 is selectively introduced into the chamber via a valve 145. It is poured into. Waste liquid and sediment waste are discharged through drain 24.   FIG. FIG. 15 is a front view of a flywheel used in the embodiment of FIG. 14; , It is a figure which shows the relationship of pressure reduction / pressure application.   Flywheel 142 rotates as shown by arrow 152. Such rotation inside, The connecting pin of the piston pump moves between positions 150A and 150B. Rotate. This rotation is Two basic components, That is, Region 153A and Region 153 B.   When the connecting pin is in the area 153A, Arrow 151 for pressure reduction / pressure direction The direction is indicated by A. When the connecting pin is in the area 153B, The decompression / pressing direction is the direction indicated by the arrow 151B.   in this way, Depressurize the liquid between two chambers to force a surge / The direction of pressurization rotates.   As is clear from the above, This invention is a highly improved and highly applicable application to tubular objects. Cleaning equipment, Also, Tubular objects previously unattainable It also provides the ability to sterilize things.

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FI, FR, GB, GR, IE, IT, L U, MC, NL, PT, SE), AU, CA, JP, K R (72) Inventor Davis David El             98342, Washington, United States of America             Ndianora, Hemlock Avenue,             No. 20774

Claims (1)

[Claims]     1. A cleaning mechanism,     a) A container for storing a tubular object to be cleaned, wherein the container is a first container. A barrier divided into a chamber and a second chamber, wherein the tubular object is A container arranged from one chamber to the second chamber;     b) means for variation,           1) a first flexible membrane communicating with said first chamber;                When,           2) a second flexible membrane communicating with said second chamber                When,           3) The first flexible membrane and the second flexible                Selectively vary external pressure and suction force on the membrane                Pressure means; A variation means comprising: A washing mechanism comprising:     2. The pressure means may apply an external pressure to one of the flexible membranes. And simultaneously applying an external suction force to the other of the flexible membranes. Item 7. The cleaning mechanism according to Item 1.     3. The washing mechanism includes a clock unit that controls a cycle of changing the pressure unit. 3. The cleaning mechanism of claim 2, further comprising:     4. The washing mechanism is     a) means for introducing gas and liquid into the container;     b) means for evacuating gas and liquid from said container. 3. The cleaning mechanism according to item 1.       5. The washing mechanism is       a) at least two reservoirs containing the selected liquid;       b) communicating with the at least two reservoirs, the introduction means and the discharge means Control means,           1) one or more of the at least two reservoirs by the introducing means;                And selectively introducing a liquid into the container,           2) discharging the liquid from the container by the discharging means; Roll means; The cleaning mechanism according to claim 4, further comprising:     6. The washing mechanism is     a) a first hollow foot member supporting a first side of said container, said first foot member being A hollow portion communicates with the first flexible membrane and the first chamber A first hollow foot member,     b) a second hollow foot member for supporting a second side of the container, the second hollow foot member comprising: A hollow portion communicates with the second flexible membrane and the second chamber The cleaning mechanism of claim 1, further comprising a second hollow foot member.     7. The first flexible membrane and the second flexible membrane 2. The cleaning mechanism according to claim 1, wherein the cleaning member is deformed by air pressure.     8. The cleaning mechanism further includes a heating unit that selectively heats the inside of the container. The cleaning mechanism according to claim 1. 9. The cleaning mechanism according to claim 1, wherein said draining means communicates with a drain. 10. An apparatus for cleaning an object,     a) a first chamber,     b) a second chamber and the object is set in the first chamber; ,     c) at least one flexible membrane communicating with said first chamber With Ren     d) external pressure on said at least one flexible membrane and Pressure fluctuation means for applying suction force alternatively, A cleaning device comprising:     11. The washer is     a) means for introducing a medium into the container;     b) means for discharging the medium from the container; The cleaning apparatus according to claim 10, further comprising:     12. The cleaning device,     a) at least two reservoirs containing the medium;     b) communicating with the at least two reservoirs, the introduction means and the discharge means Control means,           1) a selected one of said at least two reservoirs by said introducing means;                Selectively introducing a medium from said one reservoir to said chamber;           2) One of the chambers is selected by the discharge unit                Control means for discharging the medium, The cleaning apparatus according to claim 11, further comprising:     13. The cleaning device,     a) a first hollow foot member supporting a first side of said container, said first foot member being A hollow portion communicates with the first flexible membrane and the first chamber A first hollow foot member,     b) a second hollow foot member supporting a second side of the container; The cleaning device according to claim 10, further comprising:     14． The cleaning device is configured to open the first chamber without opening the first chamber. The method of claim 10, further comprising removing a sample of the medium from the chamber. Cleaning equipment.     15. The cleaning device,     a) pump means for pumping ambient air;     b) passing particles having a certain particle size or more in the air sent from the pump; No filter means,     c) means for introducing air from the filter means into the chamber; The cleaning apparatus according to claim 10, further comprising:     16. The cleaning device,     a) a filter;     b) the first chamber and the second chamber through the filter Means for drawing gas out of and discharging said gas into the atmosphere; The cleaning apparatus according to claim 10, further comprising:     17． A washing and sterilizing mechanism,     a) A container for enclosing a tubular object, the container being a first chamber. And a barrier dividing the chamber into a second chamber and the tubular object. Is disposed so as to extend from the first chamber to the second chamber. The container is installed substantially horizontally,           1) a first hollow foot member for supporting a first end of the container,                A hollow portion of the first foot is connected to the first chamber;                One foot member,           2) a second hollow foot member supporting a second end of the container,                A hollow portion of the second foot is in communication with the second chamber.                Two foot members, A container comprising:     b) a membrane mechanism,           1) a first flexiv communicating with a hollow portion of said first hollow foot member;                Rumembrane,           2) a second flexiv communicating with the hollow portion of said second hollow foot member;                Rumembrane, A membrane mechanism comprising:       c) the first and second flexible membranes of the membrane mechanism            A pressure means for selectively applying pressure to one of them, A washing and sterilizing mechanism comprising:     18. The pressure means may include any of the first and second flexible membranes. External pressure is applied to one of them, and external suction force is applied to the other flexible membrane at the same time. 18. The cleaning and sterilizing mechanism of claim 17, comprising means for adding.     19. The washing and sterilizing mechanism controls a cycle of changing the pressure means. 19. The cleaning and sterilizing mechanism of claim 18, further comprising a clock means.     20. The washing and sterilizing mechanism is     a) A hand for introducing gas and liquid into the container via the first hollow foot member. Steps and     b) discharging gas and liquid from said container via said second hollow foot member Means, 20. The cleaning and sterilizing mechanism of claim 19, further comprising:     21. The washing and sterilizing mechanism is     a) at least two reservoirs;     b) communicating with the at least two reservoirs, the introduction means and the discharge means Control means,           1) by means of said introduction means from one of said at least two reservoirs;                Selectively introducing the liquid into the container,           2) discharging the liquid from the container by the discharging means; Means, 18. The cleaning and sterilizing mechanism of claim 17, further comprising:     22. 18. The cleaning and cleaning method according to claim 17, wherein the pressure means transmits force by air pressure. And sterilization mechanism.     23. A heating means for selectively heating the interior of the container, 18. The cleaning and sterilizing mechanism of claim 17, further comprising a step.     24. 18. The cleaning and cleaning method according to claim 17, wherein the discharging means communicates with a drain. Sterilization mechanism.     25. A cleaning mechanism as a medical device,     a) A container comprising a first chamber and a second chamber, wherein the container comprises a first chamber and a second chamber. A first portion of the medical device is contained in a chamber of the A container suitable for accommodating the medical device, wherein the second portion of the medical device is accommodated;     b) a liquid medium injected into the container;     c) a pump hand for increasing the pressure in the first chamber of the container Steps and Washing mechanism equipped with.     26. Wherein said pump means repeatedly     a) increasing the pressure of the liquid in the first chamber of the container, Reducing the pressure of the liquid in the second chamber of the container;     b) simultaneously increasing the pressure of the liquid in the second chamber of the container, Reducing the pressure of the liquid in the first chamber of the container; 26. The cleaning mechanism according to claim 25, comprising means.     27. The cleaning mechanism connects the first chamber and the second chamber. Further comprising a dividing barrier, wherein the barrier is used to receive the medical device. Liquid passing from the opening and the first chamber to the second chamber 27. The cleaning mechanism according to claim 26, further comprising a passage for allowing the cleaning device to perform the cleaning.     28. Reciprocating pump means having a first cylinder and a second cylinder A moving piston, wherein said pump means includes a first cylinder and a first cylinder. The second cylinder has a displacement substantially equal to that of the second cylinder, and the first cylinder has the capacity. Communicating with the first chamber of the vessel, the second cylinder being connected to the second chamber of the container. 27. The cleaning mechanism of claim 26, wherein the cleaning mechanism is configured to communicate with the chamber.     29. The first cylinder and the second cylinder operate in opposite cycles. 29. The cleaning mechanism of claim 28, wherein the cleaning mechanism is adapted to operate.     30. The pump means,     a) an electric motor;     b) a connecting portion for connecting the electric motor to the first and second cylinders A rotational movement from the electric motor applied to the first and second cylinders. A connecting member used to convert the vertical movement into 30. The cleaning mechanism of claim 29, further comprising:     31. The connecting member controls a vertical movement of the first and second cylinders. 31. The cleaning mechanism of claim 30, further comprising means for selectively adjusting.     32. The second chamber has at least one wall deformable by pressure. Wherein said pump means comprises:     a) pressurizing the selected liquid in the first chamber;     b) depressurizing the selected liquid in the first chamber; 26. The cleaning mechanism of claim 25, wherein the cleaning mechanism is configured to repeat.     33. A washing and sterilizing mechanism,     a) A container comprising a first chamber and a second chamber, wherein the container comprises a first chamber and a second chamber. A container in which a chamber communicates with the second chamber by a liquid;     b) an object enclosed in the container, wherein the object is located in the first chamber; A first portion of the object is received and a second portion of the object is contained in the second chamber. The object to be enclosed so that the part of     c) a selected liquid having a sterilizing action, which is enclosed in said container Body and     d) combining the selected liquid with the first chamber and the second chamber; Surge means for surge between A washing and sterilizing mechanism comprising:     34. The apparatus further comprises means for selectively discharging the selected liquid from the container. 34. The cleaning and sterilizing mechanism of claim 33.     35. Selectively introducing the selected liquid into the first chamber of the container. 35. The cleaning and sterilizing mechanism of claim 34, further comprising means for entering.     36. Means for selectively introducing the selected liquid,     a) a reservoir containing the selected liquid, wherein the reservoir is A reservoir in communication with the first chamber;     b) valve means provided between the reservoir and the first chamber. Selecting a flow of the selected liquid from the reservoir to the first chamber. Valve means used to selectively stop; 36. The cleaning and sterilizing mechanism of claim 35, further comprising:     37. The reservoir is flexible and responsive to ambient air pressure, and Said means for selectively introducing said selected liquid into said first chamber comprises: Operating only when the pressure in the first chamber is lower than the ambient pressure; A cleaning and sterilizing mechanism according to claim 36.     38. The surge means controls the selected liquid in the first chamber. At the same time as increasing the pressure, the selected liquid in the second chamber is depressurized. 34. The cleaning and sterilizing mechanism of claim 33, comprising a circulating pump configured to:     39. The second chamber has at least one wall deformable by pressure; A pump, wherein said surge means is in communication with said second chamber; , Iteratively,     a) pressurizing the selected liquid in said second chamber;     b) depressurizing the selected liquid in the second chamber; 34. The cleaning and sterilizing mechanism of claim 33, comprising a pump configured to:     40. A medical device cleaning mechanism,     a) an automatic mechanism,         1) a container,               A) A first chamber and a second chamber, wherein the first chamber                    A first chamber in fluid communication with the second chamber;                    A chamber and a second chamber;               B) securing the medical device, wherein a first portion of the medical device is                    The medical device is housed in the first chamber.                    Part 2 is accommodated in the second chamber                    Holding means;                A container comprising:           2) passing the first chamber and the second chamber through the holding means;                Surge means for causing a surge in the liquid between the An automatic mechanism comprising:       b) selectively applying a selected liquid having a sterilizing effect to the first chamber; With a reservoir to contact,       c) means for selectively discharging said selected liquid from said container; A medical device cleaning mechanism comprising:     41. Valve means, disposed between the reservoir and the first chamber. A reservoir for selectively stopping the flow of the selected liquid from the reservoir. 41. The medical device cleaning mechanism according to claim 40, further comprising a lube means.     42. The reservoir is flexible and responsive to ambient air pressure, and One said valve means, if the pressure in said first chamber is lower than the ambient pressure The medical device cleaning mechanism according to claim 41, wherein the medical device cleaning mechanism is in an open state only as far as possible.     43. The surge means controls the selected liquid in the first chamber. At the same time as increasing the pressure, the selected liquid in the second chamber is depressurized. 41. The medical device washer of claim 40, comprising a circulating pump configured to: Structure.     44. The second chamber has at least one wall deformable by pressure; A pump, wherein said surge means is in communication with said second chamber; , Iteratively,     a) pressurizing the selected liquid in said second chamber;     b) depressurizing the selected liquid in the second chamber; 42. The medical device cleaning mechanism of claim 41, comprising a pump used to: