CN214813171U - Boiling cleaning equipment - Google Patents

Abstract

The utility model discloses a boiling cleaning device, which belongs to the technical field of instrument cleaning and comprises a cleaning tank; the steam heating device comprises a pulse steam supply assembly, a steam inlet pipe, a steam valve arranged on the steam inlet pipe and a steam coil pipe arranged in the cleaning tank, wherein the steam inlet pipe is communicated with the pulse steam supply assembly and the steam coil pipe; the vacuumizing device is connected to the top end of the cleaning tank and is used for vacuumizing the cleaning tank; and the air return device is used for introducing air into the cleaning tank so as to boil the liquid in the cleaning tank to generate bubbles and clean the to-be-cleaned instrument. The utility model provides a boiling cleaning equipment can treat that cleaning devices fully washs, has higher cleaning performance, and is convenient for operate.

Description

Boiling cleaning equipment

Technical Field

The utility model relates to an apparatus washs technical field, especially relates to a boiling cleaning equipment.

Background

Currently, in order to reduce the cost of using medical instruments, some of the used medical instruments need to be recycled, but before being reused, the used medical instruments need to be cleaned.

In the prior art, a boiling cleaning device is generally used for cleaning medical instruments, and the boiling cleaning device comprises a cleaning tank and a cleaning nozzle arranged in the cleaning tank. When cleaning medical instruments, firstly fixing the medical instruments on a cleaning frame in a cleaning tank, then controlling a cleaning nozzle to spray the medical instruments so as to wash away dirt on the medical instruments through high-speed liquid sprayed by the cleaning nozzle, and controlling the cleaning frame to rotate in the spraying process of the cleaning nozzle so as to clean the medical instruments in an all-round way. When the flow rate of the liquid sprayed from the cleaning nozzle is high, the medical instrument is easily damaged, and when the flow rate of the liquid sprayed from the cleaning nozzle is low, dirt on the medical instrument cannot be effectively removed, so that the flow rate of the liquid sprayed from the cleaning nozzle needs to be controlled according to the medical instrument to be cleaned, and the boiling cleaning equipment is difficult to operate and poor in cleaning effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a boiling cleaning equipment can treat the cleaning instrument and fully wash, has higher cleaning performance, and the operation of being convenient for.

As the conception, the utility model adopts the technical proposal that:

a boiling cleaning apparatus comprising:

a cleaning tank;

the steam heating device comprises a pulse steam supply assembly, a steam inlet pipe, a steam valve arranged on the steam inlet pipe and a steam coil pipe arranged in the cleaning tank, wherein the steam inlet pipe is communicated with the pulse steam supply assembly and the steam coil pipe, the steam coil pipe is positioned at the bottom of the cleaning tank, and the pulse steam supply assembly is used for providing pulse steam to the steam coil pipe at a preset pulse frequency so that the steam coil pipe can carry out pulse heating on liquid in the cleaning tank;

the vacuumizing device is connected to the top end of the cleaning tank and is used for vacuumizing the cleaning tank;

and the air return device is used for introducing air into the cleaning tank so as to boil the liquid in the cleaning tank to generate bubbles and clean the to-be-cleaned instrument.

Optionally, the air return device includes a first air return pipe, a first air return valve, and an air return coil, the air return coil is disposed in the cleaning tank and located above the steam coil, the air return coil is provided with a plurality of air inlets, the first air return pipe communicates with the air return coil and the external air, and the first air return valve is mounted on the first air return pipe and is used for controlling on/off of the first air return pipe.

Optionally, the air return device further includes a second air return valve and a second air return pipe, the second air return pipe is connected to the top wall of the cleaning tank and communicated with the cleaning tank, and the second air return valve is mounted on the second air return pipe and used for controlling on/off of the second air return pipe.

Optionally, the aperture of the air inlet hole gradually increases along a preset direction, and the preset direction is a direction in which the inner wall of the air return coil points to the outer wall.

Optionally, the air return coil is fixed to the bottom of the cleaning tank, and the air return coil is U-shaped, S-shaped or "return" shaped.

Optionally, steam heating device still includes row steam pipe, steam coil includes first steam pipe, second steam pipe and a plurality of heating pipe, first steam pipe connect in advance the steam pipe, the second steam pipe connect in arrange the steam pipe, every the one end of heating pipe all connect in first steam pipe, every the other end of heating pipe all connect in the second steam pipe.

Optionally, two steam inlet interfaces are mounted on the first steam pipe, the steam inlet pipe is provided with two steam inlet branch pipes, and the two steam inlet branch pipes are respectively connected to the two steam inlet interfaces;

and/or a steam outlet interface is arranged in the middle of the second steam pipe, and the steam discharging pipe is connected to the steam outlet interface.

Optionally, the two steam inlet interfaces are respectively located at two ends of the first steam pipe.

Optionally, the first steam pipe and the second steam pipe are both square pipes, and the heating pipe is a circular pipe.

Optionally, the vacuum pumping device comprises a vacuum pump, a vacuum pipeline and a vacuum valve, one end of the vacuum pipe is connected to the vacuum pump, the other end of the vacuum pipe is connected to the top of the side wall of the cleaning tank, and the vacuum valve is mounted on the vacuum pipe and used for controlling the on-off of the vacuum pipe.

The utility model provides a boiling cleaning equipment has following beneficial effect at least:

after the to-be-cleaned instrument is placed in the cleaning tank, the vacuumizing device vacuumizes the cleaning tank until the pressure in the cleaning tank reaches a first preset pressure, so that the cleaning tank has a certain negative pressure, meanwhile, the steam heating device heats the liquid in the cleaning tank, then the air returning device introduces air into the cleaning tank, so that the liquid in the cleaning tank generates a large amount of bubbles, the bubbles can be fully contacted with the to-be-cleaned instrument to remove dirt on the to-be-cleaned instrument, and the cleaning purpose is achieved, so that the embodiment utilizes the bubbles generated by boiling of the liquid to clean the to-be-cleaned instrument, and the flow rate of the bubbles generated after boiling of the liquid is small, so that the condition of damaging the medical instrument cannot occur, and the large amount of bubbles can be continuously generated by introducing air into the cleaning tank and heating the liquid by pulse, and further can be fully contacted with the to-be-cleaned instrument, the cleaning device has the advantages that the device to be cleaned can be sufficiently cleaned, and the cleaning effect and the cleaning efficiency are high.

Drawings

Fig. 1 is a schematic view of a boiling cleaning apparatus provided by an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a steam coil according to an embodiment of the present invention;

fig. 3 is a first flowchart of a boiling cleaning method according to an embodiment of the present invention;

fig. 4 is a second flowchart of a boiling cleaning method according to an embodiment of the present invention.

In the figure:

1. a cleaning tank; 21. a steam inlet pipe; 22. a steam valve; 23. a steam coil; 231. a first steam pipe; 232. a second steam pipe; 233. heating a tube; 234. a steam inlet interface; 235. a steam outlet interface; 24. A steam discharging pipe; 25. a drain valve; 3. a vacuum pumping device; 31. a vacuum valve; 41. a first gas return pipe; 42. a first air return valve; 43. an air return coil pipe; 431. an air inlet; 44. a second air return valve; 45. a second muffler; 5. a drain valve; 6. a cleaning agent valve; 7. a cleaning agent container; 8. a water injection valve; 9. a pressure sensor; 10. A temperature sensor; 20. and (3) a filter.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solution adopted by the present invention and the technical effect achieved by the present invention clearer, the technical solution of the present invention will be further explained by combining the drawings and by means of the specific implementation manner. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some but not all of the elements related to the present invention are shown in the drawings.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection or a removable connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The embodiment provides a boiling cleaning device, which can be used for cleaning an instrument to be cleaned, and is simple to operate and good in cleaning effect. Wherein, the apparatus to be cleaned can be a medical apparatus.

As shown in fig. 1, the boiling cleaning apparatus includes a cleaning tank 1, a steam heating device, a vacuum pumping device 3, and an air returning device. Wherein, washing tank 1 is used for holding treating cleaning apparatus 10, and the opening part of washing tank 1 is installed with sealing door to can seal washing tank 1.

The steam heating device comprises a pulse steam supply assembly, a steam inlet pipe 21, a steam valve 22 and a steam coil 23. The steam valve 22 is mounted on the steam inlet pipe 21 and controls the opening and closing of the steam inlet pipe 21. The steam coil 23 is disposed inside the washing tub 1, and specifically, the steam coil 23 is fixed to the bottom wall of the washing tub 1 and connected to the steam inlet pipe 21. The pulse steam supply assembly is used for providing pulse steam to the steam coil pipe 23 at a preset pulse frequency, the pulse steam reaches the steam coil pipe 23 at the preset pulse frequency to carry out pulse heating on liquid in the cleaning tank 1, so that the liquid in the cleaning tank and in contact with the steam coil pipe 23 is heated intermittently to generate violent boiling, and further the purpose of preliminarily cleaning the to-be-cleaned instruments can be achieved.

The vacuum extractor 3 communicates with the cleaning tank 1 and is used for evacuating the cleaning tank 1. Illustratively, the vacuum pumping device 3 may include a vacuum pump, a vacuum pipeline and a vacuum valve 31, the vacuum pump is communicated with the cleaning tank 1 through the vacuum pipeline, and the vacuum valve 31 is installed on the vacuum pipeline and is controlled to open or close the vacuum pipeline. Optionally, a vacuum pipe is installed at an upper end of the cleaning tank 1 to prevent the liquid in the cleaning tank 1 from entering the vacuum pipe, and a sealing structure is provided at a position where the vacuum pipe is connected to the cleaning tank 1 to improve the sealability of the cleaning tank 1.

Further, with continued reference to fig. 1, the air returning device includes a first air returning pipe 41, a first air returning valve 42 and an air returning coil 43. Wherein, the air return coil 43 is positioned on the cleaning tank 1 and above the steam coil 23. Set up a plurality of inlet ports 431 on the air return coil 43, first air return pipe 41 communicates air return coil 43 and external gas for external gas can get into air return coil 43 through first air return pipe 41, and then gets into washing tank 1 by inlet port 431 in, plays the purpose of disturbing the interior liquid of washing tank 1, and then realizes treating the washing on washing apparatus surface. The first air return valve 42 is installed on the first air return pipe 41 and is used for controlling the on/off of the first air return pipe 41. Illustratively, the air return coil 43 is U-shaped, S-shaped, or zigzag-shaped, so as to improve the uniformity of the distribution of the air inlets 431, and further improve the uniformity of cleaning the to-be-cleaned device, thereby preventing the occurrence of dead cleaning corners. The aperture of the air inlet 431 is gradually increased along a preset direction so as to conveniently introduce air into the cleaning tank 1, and the preset direction is the direction in which the inner wall of the air return coil 43 points to the outer wall.

Optionally, as shown in fig. 1, the air returning device further includes a second air returning valve 44 and a second air returning pipe 45. The second air return pipe 45 is connected to the top wall of the cleaning tank 1 and communicated with the cleaning tank 1. The second air return valve 44 is installed on the second air return pipe 45 and is used for controlling the on-off of the second air return pipe 45. Gas can be input into the cleaning tank 1 from the top of the cleaning tank 1 through the second gas return pipe 45 to change the gas pressure of the cleaning tank 1, so that the boiling of the liquid in the cleaning tank 1 and the bursting of bubbles are driven, and the tube cavity of the instrument to be cleaned is cleaned.

When the boiling cleaning apparatus provided in this embodiment is used, the instrument to be cleaned is placed in the cleaning tank 1, and the cleaning agent and the cleaning water are injected into the cleaning tank 1. Then starting the vacuum-pumping device 3 to vacuumize the cleaning tank 1, when the pressure in the cleaning tank 1 reaches a first preset pressure, closing the vacuum-pumping device 3 to make the cleaning tank 1 have a certain negative pressure, meanwhile, opening the steam valve 22 and the pulse steam-supply component to make the pulse steam-supply component pulse-heat the liquid in the cleaning tank 1 through the steam coil 23, so that the liquid in the cleaning tank 1 boils due to pulse heating under the first preset pressure, then introducing gas into the cleaning tank 1 to make the liquid in the cleaning tank 1 generate a large amount of bubbles, which can fully contact with the to-be-cleaned apparatus to remove dirt on the to-be-cleaned apparatus, thereby achieving the purpose of cleaning, i.e. the bubbles generated by boiling of the liquid in the embodiment realize cleaning of the to-be-cleaned apparatus, because the flow rate of the bubbles generated after boiling of the liquid is small, consequently, the condition of damage medical instrument can not appear to, through letting in gas and to liquid pulse heating in to washing tank 1, can continuously produce a large amount of bubbles, and then can with treat that the cleaning apparatus fully contacts, make and treat that the cleaning apparatus can be by abundant washing, have higher cleaning performance and cleaning efficiency.

Moreover, the boiling cleaning equipment provided by the embodiment is simple in structure, low in cost and convenient to operate.

In this embodiment, the boiling cleaning apparatus further includes a filter 20, the first air return pipe 41 and the second air return pipe 45 are both connected to the filter 20, and the filter 20 is configured to filter the gas and then deliver the filtered gas to the first air return pipe 41 and the second air return pipe 45.

Alternatively, as shown in fig. 1, the steam heating apparatus further includes a steam exhaust pipe 24, and as shown in fig. 2, the steam coil 23 includes a first steam pipe 231, a second steam pipe 232, and a plurality of heating pipes 233. The first steam pipe 231 is connected to the steam inlet pipe 21, the second steam pipe 232 is connected to the steam discharge pipe 24, one end of each heating pipe 233 is connected to the first steam pipe 231, and the other end of each heating pipe 233 is connected to the second steam pipe 232, so that steam in the steam inlet pipe 21 enters the first steam pipe 231, the heating pipes 233 and the second steam pipe 232 in sequence and then is discharged through the steam discharge pipe 24. By providing the plurality of heating pipes 233, the heating efficiency and the heating uniformity of the steam heating device can be improved. For example, as shown in fig. 2, the heating pipes 233 are arranged at intervals, and the end of the air return coil 43 passes through the gap between two adjacent heating pipes 233 and then is connected to the first air return pipe 41.

Further, referring to fig. 2, two steam inlets 234 are installed on the first steam pipe 231, and the two steam inlets 234 are respectively located at two ends of the first steam pipe 231, so that the pulse steam can respectively enter the plurality of heating pipes 233 from the two ends of the first steam pipe 231, so as to ensure the heating uniformity in the length direction of the first steam pipe 231. In this case, the steam inlet pipe 21 has two steam inlet branch pipes, and the two steam inlet branch pipes are connected in parallel and are connected to the two steam inlet ports 234, respectively.

Optionally, a steam outlet port 235 is arranged in the middle of the second steam pipe 232, the steam discharge pipe 24 is connected to the steam outlet port 235, and steam which has released heat in the second steam pipe 232 enters the steam discharge pipe 24 through the steam outlet port 235. The steam outlet 235 is provided with one and only the steam outlet 234 is provided with two, so that the steam can stay in the heating pipe 233 for a long time, thereby facilitating the steam to sufficiently release heat in the heating pipe 233.

In this embodiment, the steam discharging pipe 23 may further include a steam trap 25, and in order to improve the utilization rate of the steam, the steam discharging pipe 23 may be connected to the pulse steam supply assembly, so that the pulse steam supply assembly recovers and reuses the steam in the steam discharging pipe 23, thereby avoiding waste of energy.

Illustratively, the first steam pipe 231 and the second steam pipe 232 in this embodiment are square pipes, so that the first steam pipe 231 and the second steam pipe 232 are fixed on the bottom wall of the washing tub 1. The heating pipe 233 is a circular pipe so that the heating pipe 233 can have a large heating area.

In this embodiment, as shown in fig. 1, a drain pipe for discharging liquid is further connected to the bottom of the cleaning tank 1, a drain valve 5 is mounted on the drain pipe, and the drain valve 5 is used for controlling on/off of the drain pipe. And, the lateral wall of washing tank 1 still is connected with the cleaner pipe, installs cleaner valve 6 on the cleaner pipe, and cleaner pipe intercommunication in the cleaner container 7 that is used for holding the cleaner, and cleaner container 7 is used for injecting the cleaner into washing tank 1. In addition, a water injection pipe is connected to the side wall of the cleaning tank 1, and a water injection valve 8 is installed on the water injection pipe.

The boiling cleaning apparatus in this embodiment further includes a pressure sensor 9 and a temperature sensor 10 respectively mounted on the cleaning tank 1, the pressure sensor 9 is used for detecting the pressure of the gas in the cleaning tank 1, and the temperature sensor 10 is used for detecting the temperature of the liquid in the cleaning tank 1. Further, the boiling cleaning equipment can also comprise a controller, the controller is respectively connected with the pressure sensor 9, the temperature sensor 10, the steam heating device and the vacuumizing device 3 and is used for receiving a pressure signal detected by the pressure sensor 9 and a temperature signal detected by the temperature sensor 10, controlling the vacuumizing device 3 to be opened and closed according to the pressure signal and controlling the steam heating device to be opened and closed according to the temperature signal.

The embodiment also provides a boiling cleaning method, which is applied to the boiling cleaning equipment, as shown in fig. 3, the boiling cleaning method includes the following steps:

s1, placing the instrument to be cleaned in the cleaning tank 1, and injecting the cleaning agent and the cleaning water into the cleaning tank 1.

In step S1, will treat that cleaning apparatus places in washing tank 1 earlier, and is concrete, can fix treating cleaning apparatus in washing tank 1, then close the sealing door on washing tank 1 for washing tank 1 is in sealed state, later opens water injection valve 8, with inject washing water into washing tank 1 through the water injection pipe, and simultaneously, open cleaner valve 6, with just inject the cleaner into through the cleaner pipe to wasing, the addition of cleaner can improve the cleaning performance who treats cleaning apparatus. In this embodiment, a fixing frame may be disposed in the cleaning tank 1 for fixing an apparatus to be cleaned.

S2, heating the liquid in the cleaning tank 1 to a first preset temperature, and simultaneously vacuumizing the cleaning tank 1 until the pressure in the cleaning tank 1 reaches a first preset pressure.

In step S2, heating the liquid in cleaning tank 1 and vacuuming cleaning tank 1 can be performed simultaneously, so that the cleaning time period can be shortened. Specifically, in step S2, the vacuum extractor 3 is activated so that the vacuum extractor 3 vacuumizes the cleaning tank 1, and when the pressure in the cleaning tank 1 reaches the first preset pressure, the vacuum extractor 3 is turned off. When the pressure in the cleaning tank 1 reaches a first preset pressure, the liquid in the cleaning tank 1 boils to a small extent, and the first preset pressure is maintained for 10-60 seconds, so that the liquid in the cleaning tank 1 can be used for preliminarily cleaning the to-be-cleaned instrument. The steam valve 22 and the pulse steam supply assembly are opened to enable the pulse steam supply assembly to supply steam to the steam coil 23. The steam in steam coil 23 can heat the liquid in cleaning tank 1, raising the temperature of the liquid. It should be noted that the temperature and flow rate of the steam provided by the pulse steam supply assembly to the steam coil 23 need to be controlled to ensure that the temperature of the liquid in the cleaning tank 1 is maintained within a range of 45 to 55 ℃. The liquid in the cleaning tank 1 is instantaneously boiled in the cleaning tank 1 under the impact of heat under the negative pressure so as to clean the apparatus to be cleaned. It is understood that, in step S2, the liquid in the cleaning tank 1 may be heated by other heating devices. Illustratively, the first preset temperature is 45-55 ℃ and the first preset pressure is-75 Kpa-90 Kpa.

S3, introducing gas into the cleaning tank 1 to boil the liquid in the cleaning tank 1 to generate bubbles for cleaning the apparatus to be cleaned.

After treating the cleaning apparatus and tentatively rinsing, can let in the gas under the ordinary pressure in to washing tank 1 through the return-air device, because the pressure in washing tank 1 is less than the pressure of the gas that lets in for gas in the washing tank 1 takes place strong disturbance, and then makes the liquid in the washing tank 1 produce the violent boiling, carries out the degree of depth washing in order to treat the cleaning apparatus, and then guarantees the cleaning performance.

S4, vacuumizing the cleaning tank 1, and stopping vacuumizing the cleaning tank 1 when the pressure in the cleaning tank 1 reaches the first preset pressure.

After the cleaning tank 1 is filled with the gas under the normal pressure, the cleaning tank 1 may be evacuated again by the evacuation device 3 so that the pressure in the cleaning tank 1 reaches the first preset pressure.

S5, pulse heating the liquid in the cleaning tank 1 for a first preset time to make the liquid in the cleaning tank 1 boil continuously due to the pulse heating.

After the pressure in the cleaning tank 1 reaches the first preset pressure, the steam heating device is used for pulse heating the liquid in the cleaning tank 1 for a first preset time period, so that the liquid in the cleaning tank 1 is continuously boiled within the first preset time period due to the pulse heating, that is, the boiling cleaning method in the embodiment can have a longer boiling time period, and further can improve the cleaning effect of the to-be-cleaned instrument.

Optionally, in step S5, the liquid in the cleaning tank 1 is pulse heated within a first preset time period, and the pulse steam supply assembly is controlled so that the temperature of the liquid in the cleaning tank 1 is within a preset temperature range, where the preset temperature range is 50-55 ℃, to prevent scalding of the to-be-cleaned instrument. The temperature of the liquid can be detected by the temperature sensor 10, then the temperature signal is transmitted to the controller, and the controller controls the opening and closing of the pulse steam supply assembly and the temperature of the output steam, so as to meet the requirement that the temperature of the liquid in the cleaning tank 1 is within a preset temperature range.

When the boiling cleaning apparatus provided in this embodiment is used, the instrument to be cleaned is placed in the cleaning tank 1, and the cleaning agent and the cleaning water are injected into the cleaning tank 1. Then starting the vacuum-pumping device 3 to vacuumize the cleaning tank 1, when the pressure in the cleaning tank 1 reaches a first preset pressure, closing the vacuum-pumping device 3 to make the cleaning tank 1 have a certain negative pressure, meanwhile, opening the steam valve 22 and the pulse steam-supply component to make the pulse steam-supply component pulse-heat the liquid in the cleaning tank 1 through the steam coil 23 until the liquid temperature reaches a first preset temperature to make the liquid in the cleaning tank 1 boil due to pulse heating under the first preset pressure, then introducing gas into the cleaning tank 1 to make the liquid in the cleaning tank 1 generate a large amount of bubbles, which can fully contact with the apparatus to be cleaned to remove dirt on the apparatus to be cleaned to achieve the purpose of cleaning, i.e. the embodiment utilizes the bubbles generated by liquid boiling to clean the apparatus to be cleaned, because the bubble velocity of flow that produces behind the liquid boiling is less, consequently can not appear damaging the condition of medical instrument to, through letting in gas and to liquid pulse heating in to washing tank 1, can continuously produce a large amount of bubbles, and then can with treat that the cleaning apparatus fully contacts, make and treat that the cleaning apparatus can be by fully rinsing, have higher cleaning performance and cleaning efficiency.

Alternatively, as shown in fig. 4, the step S3 includes the steps of:

s31, introducing gas to the bottom of the cleaning tank 1 to boil the liquid in the cleaning tank 1 and generate bubbles, wherein the bubbles clean the surface of the instrument to be cleaned, and when the pressure in the cleaning tank 1 reaches a second preset pressure, the introduction of gas to the bottom of the cleaning tank is stopped.

Specifically, in step S31, the first air return valve 42 may be opened first, and air is introduced into the bottom of the cleaning tank 1 through the first air return pipe 41, the air return coil 43 and the air inlet 431, so that the air in the cleaning tank 1 is disturbed strongly, and the liquid in the cleaning tank 1 is boiled vigorously to generate bubbles, so as to clean the surface of the apparatus to be cleaned. The first air return valve 42 is closed when the pressure in the cleaning tank 1 reaches a second preset pressure. Illustratively, the second preset pressure is-25 Kpa to-50 Kpa, that is, a certain vacuum degree is still in the cleaning tank 1.

S32, introducing gas to the top of the cleaning tank 1 and blasting bubbles in the cleaning tank 1, wherein the bubbles can drive liquid to be extruded to the pipe cavity to clean the pipe cavity.

Specifically, in step S32, the second air return valve 44 may be opened first, and air is introduced into the top of the cleaning tank 1 through the second air return pipe 45, so that the pressure in the cleaning tank 1 suddenly rises, and the bubbles in the cleaning tank 1 explode, and the bubbles explode to drive the liquid in the cleaning tank to be extruded into the pipe cavity, so as to clean the inside of the pipe cavity, and the second air return valve 44 is closed when the pressure in the cleaning tank 1 reaches the fourth preset pressure. Illustratively, the fourth preset pressure is equal to the atmospheric pressure, that is, when the pressure in the cleaning tank 1 is equal to the atmospheric pressure, the second air return valve 44 is controlled to be closed.

In this embodiment, the first air return valve 42 and the second air return valve 44 may be respectively connected to a controller, and the controller can control the opening and closing of the first air return valve 42 and the second air return valve 44.

In the prior art, the spray cleaning equipment needs to replace different cleaning racks according to different cleaning positions. For example, the cleaning racks for cleaning surface cleaning devices such as scissors and dressing bowls are different from the cleaning racks for cleaning lumen cleaning devices such as dental handpieces, hard inner diameters and hoses, so that the medical devices need to be classified and then cleaned respectively before being cleaned, and the tubular devices need to be inserted into the cleaning nozzles of the cleaning racks one by one and then subsequently cleaned after being cleaned, which results in low efficiency of the equipment and method for cleaning the medical devices in the prior art.

In the cleaning method provided by the embodiment, gas is introduced into the bottom of the cleaning tank 1 firstly to clean the surface of the to-be-cleaned instrument, and then gas is introduced into the top of the cleaning tank 1 to clean the tube cavity of the to-be-cleaned instrument, so that the to-be-cleaned instrument does not need to be classified before cleaning, the cleaning efficiency is improved, and the cleaning effect is ensured.

Alternatively, after step S5, as shown in fig. 4, the following steps may also be performed:

s6, introducing gas to the bottom of the cleaning tank 1 again to boil the liquid in the cleaning tank 1 and generate bubbles again, wherein the bubbles clean the surface of the instrument to be cleaned.

S7, introducing gas to the top of the cleaning tank 1, blasting bubbles in the cleaning tank 1, and extruding the bubble blasting driving liquid to the lumen of the instrument to be cleaned so as to clean the lumen of the instrument to be cleaned.

Through carrying out step S6 and step S7, the length of time that liquid boils in washing tank 1 has further been prolonged, at this moment, the step of washing the cleaning apparatus of treating specifically includes earlier to washing tank 1 evacuation, then let in gas to the bottom of washing tank 1, let in gas to the top of washing tank 1 again, again to washing tank 1 evacuation, afterwards, to the liquid pulse heating in washing tank 1, make liquid continuously boil, later let in gas to the bottom of washing tank 1 again, let in gas to the top of washing tank 1 afterwards, the continuous boiling that realizes treating the cleaning apparatus washs, can shorten the washing duration when improving the cleaning performance, higher cleaning efficiency has.

Optionally, for further cleaning effect, steps S4-S7 may be repeated several times, or steps S4-S7 may be repeated within a preset cleaning time period, so as to completely remove the dirt on the apparatus to be cleaned.

Steps S1-S5 in this embodiment may be understood as a cleaning process of the device to be cleaned, and in order to make the device to be cleaned reusable, the device to be cleaned needs to be rinsed, sterilized and dried.

Wherein, the rinsing treatment process comprises the following steps: firstly, the liquid in the cleaning tank 1 is emptied, then, the vacuumizing device 3 is started, and simultaneously, the water inlet valve 8 is opened to simultaneously add cleaning water into the cleaning tank 1, and the instruments are soaked in the water. After soaking for a period of time, opening steam valve 22, heating the cleaning water by steam through steam coil 23, controlling the temperature of the liquid in cleaning tank 1 to be 20-30 ℃, and draining water by steam through drain valve 5 during the heating process of steam coil 23. After the vacuum pressure in the cleaning tank 1 is pumped to-82 Kpa, the vacuum is maintained for 10 seconds, so that the cleaning water is boiled under the low-temperature vacuum, and the instruments are rinsed. Then, the first air return valve 42 at the bottom is opened, air is introduced into the air return coil 43 through the first air return pipe 41, the introduced air pressure is-30 Kpa, and in the process, the cleaning water is vigorously boiled to generate bubbles so as to rinse the surface of the instrument to be cleaned. Next, the second air return valve 44 is opened, and air is introduced into the cleaning tank 1 through the second air return pipe 45, so that bubbles in the cleaning tank 1 explode, the pressure suddenly rises, and the cleaning water is compressed into the lumen of the instrument to be cleaned, thereby rinsing the inside of the lumen. The above process is repeated several times, and the drain valve 5 is opened to drain the washing water after the rinsing time is reached, for example, the rinsing time may be 2 to 5 minutes.

The disinfection treatment process comprises the following steps: first, the vacuum-pumping device 3 is started, and simultaneously the water inlet valve 8 is opened to add cleaning water into the cleaning tank 1, and the instruments are soaked in the water for preliminary disinfection. After a period of time, the steam valve 22 is opened and the steam heats the wash water through the steam coil 23, controlling the temperature of the wash water to and maintained at 93 ℃ to facilitate sterilization. After the vacuum pressure in the cleaning tank 1 is pumped to-75 Kpa, the vacuum pumping is maintained for 10 seconds, so that the cleaning water is boiled under the low-temperature vacuum, and the instruments to be cleaned are disinfected. Subsequently, the bottom first air return valve 42 is then opened and air is introduced through the first air return tube 41 to the air return coil 43 at an air pressure of-30 Kpa, during which the wash water is vigorously boiled to generate bubbles to disinfect the instrument surface. Next, the second air return valve 44 is opened, and air is introduced into the cleaning tank 1 through the second air return pipe 45, so that bubbles in the cleaning tank 1 explode, the pressure suddenly rises, and the cleaning water is compressed into the lumen of the instrument to be cleaned, thereby realizing the sterilization of the lumen. The above process is repeated a plurality of times and the drain valve 5 is opened to drain the washing water after the sterilization time is reached, and the rinsing time may be, for example, 3 minutes.

The drying process comprises the following steps:

and S8, vacuumizing the cleaning tank 1, and stopping vacuumizing the cleaning tank 1 when the pressure in the cleaning tank 1 reaches a third preset pressure.

In step S8, the vacuum extractor 3 is activated to evacuate the cleaning tank 1 by the vacuum extractor 3, and when the pressure in the cleaning tank 1 reaches a third preset pressure, the vacuum extractor 3 is turned off. The first preset pressure can be determined according to the number of the instruments to be cleaned, and specifically, the third preset pressure is in direct proportion to the quantity of the instruments to be cleaned.

S9, the liquid in the cleaning tank 1 is heated by pulse heating.

In step S9, the steam valve 22 in the steam heating device is opened to heat the liquid in the cleaning tank 1 through the steam coil 23. At this time, the liquid in the cleaning tank 1 is small droplets, and the small droplets are heated and evaporated to form water vapor suspended in the cleaning tank 1 or attached to the top wall of the cleaning tank 1.

S10, when the temperature of the liquid in the cleaning tank 1 reaches a second preset temperature, vacuumizing the cleaning tank 1 again to suck the water vapor in the cleaning tank 1;

when the temperature of the liquid in the cleaning tank 1 reaches the second preset temperature, after the vacuumizing device 3 is started again, the vacuumizing device 3 can suck out the water vapor suspended on the cleaning tank 1 or attached to the top wall of the cleaning tank 1, so as to dry the to-be-cleaned instrument.

S11, repeating the steps S9-S10 for several times.

The cleaning tank 1 is repeatedly vacuumized and heated, and the instruments to be cleaned can be thoroughly dried.

The above embodiments have been described only the basic principles and features of the present invention, and the present invention is not limited by the above embodiments, and is not departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A boiling cleaning apparatus, comprising:

a cleaning tank (1);

the steam heating device comprises a pulse steam supply assembly, a steam inlet pipe (21), a steam valve (22) arranged on the steam inlet pipe (21) and a steam coil pipe (23) arranged in the cleaning tank (1), wherein the steam inlet pipe (21) is communicated with the pulse steam supply assembly and the steam coil pipe (23), the steam coil pipe (23) is positioned at the bottom of the cleaning tank (1), and the pulse steam supply assembly is used for providing pulse steam to the steam coil pipe (23) at a preset pulse frequency so that the steam coil pipe (23) can perform pulse heating on liquid in the cleaning tank (1);

the vacuumizing device (3) is connected to the top end of the cleaning tank (1) and is used for vacuumizing the cleaning tank (1);

and the air return device is used for introducing air into the cleaning tank so as to boil the liquid in the cleaning tank to generate bubbles and clean the to-be-cleaned instrument.

2. The boiling cleaning equipment according to claim 1, wherein the air return device comprises a first air return pipe (41), a first air return valve (42) and an air return coil (43), the air return coil (43) is disposed in the cleaning tank (1) and located above the steam coil (23), the air return coil (43) is provided with a plurality of air inlets, the first air return pipe (41) is communicated with the air return coil (43) and the outside air, and the first air return valve (42) is installed on the first air return pipe (41) and is used for controlling the on-off of the first air return pipe (41).

3. The boiling cleaning device according to claim 2, wherein the air return device further comprises a second air return valve (44) and a second air return pipe (45), the second air return pipe (45) is connected to the top wall of the cleaning tank (1) and communicated with the cleaning tank (1), and the second air return valve (44) is installed on the second air return pipe (45) and is used for controlling the on-off of the second air return pipe (45).

4. Boiling cleaning device according to claim 2, characterized in that the aperture of the air inlet holes increases gradually in a predetermined direction, the predetermined direction being the direction in which the inner wall of the return air coil (43) points towards the outer wall.

5. The boiling cleaning apparatus as claimed in claim 2, wherein the air return coil (43) is fixed at the bottom of the cleaning tank (1), and the air return coil (43) is U-shaped, S-shaped or "return" shaped.

6. The boiling washing apparatus according to claim 1, characterized in that the steam heating device further comprises a steam exhaust pipe (24), the steam coil (23) comprises a first steam pipe (231), a second steam pipe (232) and a plurality of heating pipes (233), the first steam pipe (231) is connected to the steam inlet pipe (21), the second steam pipe (232) is connected to the steam exhaust pipe (24), one end of each heating pipe (233) is connected to the first steam pipe (231), and the other end of each heating pipe (233) is connected to the second steam pipe (232).

7. The boiling cleaning device according to claim 6, wherein two steam inlet ports (234) are mounted on the first steam pipe (231), the steam inlet pipe (21) has two steam inlet branch pipes, and the two steam inlet branch pipes are respectively connected to the two steam inlet ports (234);

and/or a steam outlet interface (235) is arranged in the middle of the second steam pipe (232), and the steam discharging pipe (24) is connected to the steam outlet interface (235).

8. The boiling cleaning device according to claim 7, wherein two steam inlet ports (234) are located at both ends of the first steam pipe (231), respectively.

9. The boiling cleaning device according to claim 7, characterized in that the first steam pipe (231) and the second steam pipe (232) are both square pipes and the heating pipe (233) is a round pipe.

10. The boiling cleaning equipment according to claim 1, characterized in that the vacuum pumping device (3) comprises a vacuum pump, a vacuum pipeline and a vacuum valve (31), one end of the vacuum pipe is connected to the vacuum pump, the other end of the vacuum pipe is connected to the top of the side wall of the cleaning tank (1), and the vacuum valve (31) is installed on the vacuum pipe and used for controlling the on-off of the vacuum pipe.

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