阅读说明：本技术 一种内科呼吸面罩批量化快速清洁消毒机械 (Internal medicine respirator batched quick cleaning and disinfecting machine ) 是由 王平 侯玲燕 周建华 于 2021-09-06 设计创作，主要内容包括：本发明涉及一种内科呼吸面罩批量化快速清洁消毒机械,包括清洁机构和安放机构,所述的清洁机构安装在已有地面上,清洁机构的内部设置有安放机构,本发明采用多模式的设计理念进行内科呼吸面罩批量化快速清洁消毒,设置的清洁机构具备有水蒸气高温消毒和紫外线消毒双重消毒模式,而双重消毒模式可大大提高呼吸面罩的消毒速度和消毒效果,设置的安放机构可实现多数量呼吸面罩的安放,且便于呼吸面罩的安放与拾取。(The invention relates to a batch rapid cleaning and disinfecting machine for medical respiratory masks, which comprises a cleaning mechanism and a placing mechanism, wherein the cleaning mechanism is arranged on the existing ground, and the placing mechanism is arranged in the cleaning mechanism.)

1. The utility model provides a quick cleaning and disinfecting machinery of internal medicine respirator batchization, includes clean mechanism (1) and laying mechanism (2), its characterized in that: the cleaning mechanism (1) is arranged on the existing ground, and the placing mechanism (2) is arranged in the cleaning mechanism (1);

the cleaning mechanism (1) comprises a cleaning cabinet (10), a fixing plate (11), an upper cabinet door (12), a lower cabinet door (13), a steam engine (14), an electric control partition plate (15), a mounting plate (16) and an ultraviolet lamp (17), wherein the fixing plate (11) is mounted in the middle of the front end of the cleaning cabinet (10), the upper cabinet door (12) is arranged at the upper end of the fixing plate (11), the lower cabinet door (13) is arranged at the lower end of the fixing plate (11), the right end of the upper cabinet door (12) and the right end of the lower cabinet door (13) are rotatably connected with the cleaning cabinet (10), the steam engine (14) is mounted on the inner bottom wall of the cleaning cabinet (10), rectangular through grooves are symmetrically formed in the left and right inner side walls of the cleaning cabinet (10), the rectangular through grooves are located below the fixing plate (11), the electric control partition plate (15) is slidably connected in the rectangular through grooves, and the electric control partition plate (15) is located above the steam engine (14), the inner side end faces of the electric control partition plates (15) are attached to each other, mounting plates (16) are arranged at the upper ends of the left inner side wall and the right inner side wall of the cleaning cabinet (10), the mounting plates (16) are positioned above the electric control partition plates (15), and ultraviolet lamps (17) are arranged on the lower end faces of the mounting plates (16) at equal intervals from left to right;

the placing mechanism (2) comprises an electric slider (20), a vertical plate (21), a top plate (22), T-shaped plates (23), a connecting plate (24), a carrying drawer (25) and a cover plate (26), wherein the electric slider (20) is arranged on the rear inner side wall of the cleaning cabinet (10) in a sliding fit mode, the electric slider (20) is arranged in an up-and-down symmetrical mode, the vertical plate (21) is arranged at the front end of the electric slider (20), the vertical plate (21) is arranged below the electric control partition plate (15) in an original state of the vertical plate (21), the top plate (22) is arranged at the front end of the vertical plate (21) in a left-and-right symmetrical mode, the T-shaped plates (23) are connected at the lower ends of the top plate (22) in a sliding mode, the connecting plate (24) is connected between the lower ends of the left-right opposite T-shaped plates (23) and the lower ends of the front-back opposite connecting plates (24), the left-right ends and the lower ends of the carrying drawer (25) are both of grid structures, a through groove is formed in the lower end of the front end face of the connecting plate (24), a cover plate (26) is connected between the front and rear right-opposite through grooves in a sliding fit mode, and the lower end face of the cover plate (26) is attached to the upper end face of the drawer (25).

2. The internal medicine respirator batched rapid cleaning and disinfecting machine of claim 1, wherein the machine comprises: the steam engine is characterized in that air outlet pipes (140) are symmetrically arranged at the left end and the right end of the steam engine (14), the air outlet pipes (140) are arranged from front to back at equal intervals, the air outlet pipes (140) are of U-shaped structures, the air outlet pipes (140) are located below the electric control partition plates (15), extension pipes (141) are arranged in the middle of vertical sections of the air outlet pipes (140), the extension pipes (141) are communicated with the air outlet pipes (140), and two receiving drawers (25) in an original state are located between the upper ends of the air outlet pipes (140) and between the extension pipes (141) respectively.

3. The internal medicine respirator batched rapid cleaning and disinfecting machine of claim 2, wherein the machine comprises: rectangular basket (142) are all installed to the one end that outlet duct (140) upper end horizontal segment, extension pipe (141) and outlet duct (140) kept away from mutually, No. two electronic slider (143) are installed through sliding fit mode symmetry to the upper and lower inside wall of rectangular basket (142), be connected with between No. two adjacent electronic slider (143) about be connected with and extend basket (144), accept steamer tray (25) and be located and extend between basket (144).

4. The internal medicine respirator batched rapid cleaning and disinfecting machine of claim 1, wherein the machine comprises: vertical plates (250) are symmetrically arranged on the left side and the right side of the receiving drawer (25), one end face of each vertical plate (250) is attached to the side end face of the receiving drawer (25), three electric sliding blocks (251) are symmetrically mounted on the other end face of each vertical plate (250) from front to back, and one end, away from each other, of each electric sliding block (251) and the corresponding vertical plate (250) is in sliding connection with the side end face, facing the direction of the receiving drawer (25), of the connecting plate (24).

5. The internal medicine respirator batched rapid cleaning and disinfecting machine of claim 1, wherein the machine comprises: the right side of lower cabinet door (13) upper end be provided with the recess No. one, the right front end at cleaning cabinet (10) is seted up to the recess No. one, the recess is located the below of automatically controlled baffle (15), baffle (130) are installed through sliding fit mode in the recess No. one, the rear end front and back symmetry of baffle (130) has seted up the through-hole No. one, be provided with the through-hole No. two just inside of through-hole No. one, the right-hand member at cleaning cabinet (10) is seted up to the through-hole No. two, No. two through-holes communicate with each other with recess No. one, condenser pipe (131) are installed to the right-hand member face front and back symmetry of cleaning cabinet (10), condenser pipe (131) just are relative with No. two through-holes and condenser pipe (131) communicate with each other with recess No. one, the lower extreme of condenser pipe (131) is located flourishing sump (132), place in having subaerially.

6. The internal medicine respirator batched rapid cleaning and disinfecting machine of claim 1, wherein the machine comprises: the top of automatically controlled baffle (15) be provided with No. two and lead to the groove, No. two lead to the groove and set up the side in cleaning cabinet (10), No. two lead to the groove and be located the rear side of fixed plate (11), No. two lead to the inslot and install filter plate (150) through sliding fit, both ends all have been seted up about both ends of fixed plate (11) and cleaning cabinet (10) front end and have been connected logical groove, wherein connect logical groove on cleaning cabinet (10) and No. two lead to the groove and communicate with each other, sliding connection between the front end of filter plate (150) and the logical groove of being connected.

7. The internal medicine respirator batched rapid cleaning and disinfecting machine of claim 6, wherein the machine comprises: the outside of filter plate (150) in the past backward the equidistance be provided with round bar (151), round bar (151) rotate to be installed between the upper and lower inside wall that leads to the groove No. two, rotor (152) are installed to the middle part bilateral symmetry of round bar (151), No. four electronic slider (153) are installed to the lower extreme of round bar (151), No. four electronic slider (153) sliding connection are in the inside wall of circular recess, circular recess is seted up at the lower inside wall that leads to the groove No. two.

8. The internal medicine respirator batched rapid cleaning and disinfecting machine of claim 1, wherein the machine comprises: the rear end of the top plate (22) is provided with a fifth electric sliding block (220), and the fifth electric sliding block (220) is connected with the front end of the vertical plate (21) in a sliding fit mode.

9. The internal medicine respirator batched rapid cleaning and disinfecting machine of claim 1, wherein the machine comprises: the mounting plate (16) on the upper left of the first electric slider (20) is fixedly connected to the inner left side wall of the cleaning cabinet (10), the right end of the mounting plate (16) on the upper right of the first electric slider (20) is provided with a sixth electric slider (200), and the sixth electric slider (200) is slidably mounted on the inner right side wall of the cleaning cabinet (10).

Technical Field

The invention relates to the field of medical instrument disinfection, in particular to a batch rapid cleaning and disinfecting machine for medical breathing masks.

Background

A breathing mask (oxygen mask) is a device for transferring oxygen from a storage tank to the lung of a human body, the breathing mask can wrap a nose and a mouth (oral nose mask) or the whole face (whole mask), mainly comprises a medical oxygen mask, a civil aviation oxygen mask and the like, plays an important role in assisting in treating diseases and protecting the safety of passengers, and is suitable for high-altitude and high-altitude areas, the civil aviation field and the clinical medicine field.

Breathing mask is single use or many people sharing usually, but because of its direct and user facial contact, so breathing mask need clean, disinfect around wearing, in order to avoid bacterium cross infection, the dust that easily wafts under the long-term condition of not using of breathing mask simultaneously, so more need clean and disinfection before using, the disinfection of breathing mask can adopt disinfection modes such as alcohol disinfection, high temperature steam disinfection, ultraviolet ray disinfection, ozone disinfection, nevertheless can appear following problem in breathing mask's disinfection process:

1. the number of breathing masks which can be placed in a single time by the disinfection equipment is small, so that when a plurality of breathing masks are faced, the breathing masks need to be processed in batches, and the overall working efficiency is low;

2. the disinfection equipment only has a single disinfection function, and the whole disinfection of the breathing mask in a single disinfection mode is insufficient, so that the reutilization of the breathing mask is influenced.

Disclosure of Invention

Technical scheme (I)

In order to achieve the purpose, the invention adopts the following technical scheme that the internal medicine breathing mask batch rapid cleaning and disinfecting machine comprises a cleaning mechanism and a placing mechanism, wherein the cleaning mechanism is installed on the existing ground, and the placing mechanism is arranged inside the cleaning mechanism.

The cleaning mechanism comprises a cleaning cabinet, a fixing plate, an upper cabinet door, a lower cabinet door, a steam engine, an electric control clapboard, a mounting plate and an ultraviolet lamp, wherein the fixing plate is arranged in the middle of the front end of the cleaning cabinet, the upper cabinet door is arranged at the upper end of the fixing plate, the lower cabinet door is arranged at the lower end of the fixing plate, the right end of the upper cabinet door and the right end of the lower cabinet door are rotatably connected with the cleaning cabinet, the steam engine is arranged on the inner bottom wall of the cleaning cabinet, rectangular through grooves are symmetrically formed in the left and right inner side walls of the cleaning cabinet, the rectangular through grooves are positioned below the fixing plate, the electric control clapboard is slidably connected in the rectangular through grooves and is positioned above the steam engine, the inner side end faces of the electric control clapboard are attached to each other, the mounting plate is arranged at the upper ends of the left and right inner side walls of the cleaning cabinet, the mounting plate is positioned above the electric control clapboard, the ultraviolet lamps are equidistantly arranged on the lower end faces of the mounting plate from left to right, a plurality of breathing masks are placed into the placing mechanism in a manual mode, then close lower cabinet door tightly, next carry out high temperature disinfection to respirator through the steam that the steam engine produced, wait for a period of time after high temperature disinfection finishes, then automatically controlled baffle simultaneous opposite motion to maximum displacement department, lay the mechanism afterwards and carry respirator and go upward to relevant position department, later close upper cabinet door tightly and carry out ultraviolet ray disinfection to respirator through ultraviolet lamp.

The placing mechanism comprises an electric slider, a vertical plate, a top plate, T-shaped plates, a connecting plate, a carrying drawer and a cover plate, wherein the electric slider I is arranged on the rear inner side wall of the cleaning cabinet in a sliding fit mode, the electric slider I is symmetrically arranged up and down, the vertical plate is arranged at the front end of the electric slider I, the vertical plate is positioned below the electric control partition plate in the original state, the top plate is symmetrically arranged at the front end of the vertical plate left and right, the T-shaped plates are connected to the lower end of the top plate in a sliding fit mode, the connecting plate is connected between the lower ends of the right and left opposite T-shaped plates, the carrying drawer is connected between the lower ends of the right and front opposite connecting plates, the left and right ends and the lower ends of the carrying drawer are of a grid structure, a through groove is formed in the lower end face of the connecting plate, the cover plate is connected with the cover plate in a sliding fit mode, and the upper end face of the carrying drawer are attached to each other, the carrying drawer is drawn out of the cleaning cabinet by a corresponding distance in a manual mode, the carrying drawer drives a connecting plate and a cover plate to synchronously move in the process, the connecting plate drives a T-shaped plate to synchronously move, the T-shaped plate slides along a top plate, then the cover plate is drawn out of the cover plate in a manual mode and a respirator is arranged in the carrying drawer, then the cover plate is closed, the carrying drawer is pushed to an original position, then the respirator is sterilized at high temperature through steam generated by a steam engine, a period of time is waited after the high-temperature sterilization is finished, an electric control partition plate simultaneously and oppositely moves to a maximum displacement position, then an electric slider drives a vertical plate to move upwards, the vertical plate drives the top plate to synchronously move, the T-shaped plate drives the connecting plate to synchronously move, the carrying drawer carries the respirator to synchronously move along with the carrying drawer until the carrying drawer is positioned above the electric control partition plate, and then the electric control partition plate oppositely moves back to the original state, two independent spaces are separated from the interior of the cleaning cabinet, then the cover plate is drawn out in a manual mode, the upper cabinet door is closed tightly, and then ultraviolet disinfection is carried out on the breathing mask through the ultraviolet lamp.

As a preferred technical scheme of the invention, the left end and the right end of the steam engine are symmetrically provided with air outlet pipes, the air outlet pipes are arranged in a front-to-back equidistant manner, the air outlet pipes are of a U-shaped structure, the air outlet pipes are positioned below the electric control partition plate, the middle part of the vertical section of the air outlet pipes is provided with extension pipes, the extension pipes are communicated with the air outlet pipes, two receiving drawers in an original state are respectively positioned between the upper ends of the air outlet pipes and between the extension pipes, steam generated by the steam engine is output to the receiving drawers through the air outlet pipes and the extension pipes, and the air outlet ends of the air outlet pipes and the air outlet ends of the extension pipes are arranged in a positive opposite direction to the receiving drawers, so that high-temperature steam can intensively flow to the receiving drawers, and further the high-temperature disinfection effect of steam on the breathing mask is improved.

As a preferred technical scheme of the invention, rectangular baskets are respectively installed at the horizontal section at the upper end of the air outlet pipe and at the end, away from the air outlet pipe, of the extension pipe, two electric sliding blocks are symmetrically installed on the upper inner side wall and the lower inner side wall of each rectangular basket in a sliding fit mode, the extension basket is connected between the two adjacent electric sliding blocks, the carrying drawer is positioned between the extension baskets, and the rectangular baskets and the extension baskets are matched to enable a large amount of water vapor to flow into the carrying drawer along a fixed route so as to enable the breathing mask to be in more sufficient contact with the water vapor and further improve the overall disinfection effect of the breathing mask.

As a preferred technical scheme of the invention, vertical plates are symmetrically arranged on the left side and the right side of the receiving drawer, one side end face of each vertical plate is attached to the side end face of the receiving drawer, three electric sliders are symmetrically arranged on the front side and the back side of the other side end face of each vertical plate, one end, away from each other, of each electric slider and each vertical plate is connected with the side end face, facing the direction of the receiving drawer, of the connecting plate in a sliding mode, each electric slider drives each vertical plate to reciprocate up and down intermittently, the moving directions of the vertical plates on the left side and the right side of the receiving drawer are opposite, when the vertical plate on the left side of the receiving drawer moves upwards and the vertical plate on the right side of the receiving drawer keeps still, the right end of the receiving drawer is in a relatively closed state, when water vapor blowing into the receiving drawer from left side to right side meets the vertical plates which keep still, the staying time of the water vapor in the receiving drawer is prolonged, so that the contact time between a breathing mask and the water vapor is prolonged, thereby being beneficial to improving the disinfection effect of the breathing mask at high temperature.

As a preferred technical scheme of the invention, the right side of the upper end of the lower cabinet door is provided with a first groove, the first groove is arranged at the right front end of the cleaning cabinet, the first groove is positioned below the electric control partition plate, a separation plate is arranged in the first groove in a sliding fit mode, the rear end of the separation plate is symmetrically provided with a first through hole in front and back, a second through hole is arranged right inside the first through hole, the second through hole is arranged at the right end of the cleaning cabinet and communicated with the first groove, condenser pipes are symmetrically arranged front and back on the right end face of the cleaning cabinet, the condenser pipes are right opposite to the second through holes and communicated with the first groove, the lower end of the condenser pipes is positioned in a water containing bin, the water containing bin is placed on the existing ground, after the high-temperature disinfection of the breathing mask is finished, the separation plate is manually pulled outwards for a corresponding distance so that the first through hole, the second through hole and the condenser pipes are communicated, at the moment, the high-temperature water vapor overflows outwards along the condensation pipe, the high-temperature water vapor is condensed in the condensation pipe to form condensed water, the condensed water flows into the water containing bin, the water stored in the water containing bin can be used as a power source material of the steam engine, and the water vapor is recycled and not directly discharged.

As a preferred technical scheme of the invention, a second through groove is arranged above the electric control partition plate, the second through groove is arranged at the side end of the cleaning cabinet, the second through groove is positioned at the rear side of the fixed plate, a filter plate is arranged in the second through groove in a sliding fit manner, the left and right ends of the fixed plate and the left and right ends of the front end of the cleaning cabinet are both provided with connecting through grooves, the connecting through groove on the cleaning cabinet is communicated with the second through groove, the front end of the filter plate is in sliding connection with the connecting through groove, the drawer moves up to the position of the second through groove and then pauses, air flows through the inner part and the outer part of the cleaning cabinet to cool and dry the breathing mask so as to prevent the breathing mask with higher temperature from being directly exposed under an ultraviolet lamp, the circulating air can be filtered by an old filter plate so as to prevent impurities carried by the air from attaching to the breathing mask, and after a period of time, the receiving drawer continues to move upwards for a certain distance under the driving of the first electric sliding block, then the cover plate is drawn out in a manual mode, the upper cabinet door is closed tightly, and then ultraviolet disinfection is carried out on the breathing mask through the ultraviolet lamp.

As a preferred technical scheme of the invention, round rods are equidistantly arranged on the outer side of the filter plate from front to back, the round rods are rotatably arranged between the upper inner side wall and the lower inner side wall of the second through groove, rotating pieces are symmetrically arranged at the left and right of the middle part of the round rods, the lower end of each round rod is provided with a fourth electric sliding block, the fourth electric sliding block is slidably connected with the inner side wall of a round groove, the round groove is formed in the lower inner side wall of the second through groove, and the round rods are driven to rotate by the fourth electric sliding blocks during the period that the breathing mask receives cooling and drying of circulating air, and the rotating pieces are driven by the round rods to synchronously rotate, so that the circulating speed of the air inside and outside the cleaning cabinet is increased, and the cooling effect of the breathing mask is improved by increasing the cooling amplitude of the breathing mask.

As a preferred technical scheme of the invention, a fifth electric sliding block is arranged at the rear end of the top plate, the fifth electric sliding block is connected with the front end of the vertical plate in a sliding fit mode, before the respiratory mask is disinfected by ultraviolet rays, the fifth electric sliding block drives the top plate to move towards the side end of the vertical plate, the top plate drives the T-shaped plate to move synchronously, the carrying drawers and the connecting plate move synchronously, the moving directions of the two carrying drawers are opposite, finally, the two carrying drawers are staggered up and down, in general, the arrangement of the fifth electric sliding block can enable the carrying drawers to be in a vertically staggered state, the state is favorable for increasing the contact area between the respiratory mask and the ultraviolet rays, and further the disinfection effect of the respiratory mask under the ultraviolet rays is improved.

As a preferred technical scheme of the invention, the mounting plate on the upper left of the first electric slider is fixedly connected to the left inner side wall of the cleaning cabinet, the right end of the mounting plate on the upper right of the first electric slider is provided with the six electric sliders, the six electric sliders are slidably mounted on the right inner side wall of the cleaning cabinet, and after the receiving drawer is adjusted to be in a vertically staggered state, the mounting plate connected with the six electric sliders is driven to move downwards by the six electric sliders until the mounting plate drives the ultraviolet lamp to be closer to the receiving drawer on the right side inside the cleaning cabinet.

(II) advantageous effects

1. According to the internal medicine respirator batch rapid cleaning and disinfecting machine, a multi-mode design concept is adopted for carrying out batch rapid cleaning and disinfecting on internal medicine respirators, the set cleaning mechanism has a dual disinfecting mode of steam high-temperature disinfection and ultraviolet disinfection, the dual disinfecting mode can greatly improve the disinfecting speed and the disinfecting effect of the respirators, the set placing mechanism can achieve placing of a plurality of respirators, and placing and picking of the respirators are facilitated;

2. the circular rod, the fourth electric sliding block, the rotary sheet and the filter plate are matched with each other to increase the circulation speed of air inside and outside the cleaning cabinet, so that the cooling effect of the breathing mask is improved by increasing the cooling amplitude of the breathing mask, and meanwhile, the circulated air can be filtered by the filter plate to prevent impurities carried by the air from attaching to the breathing mask;

3. the rectangular basket and the extension basket are matched, so that a large amount of water vapor can flow into the receiving drawer along a fixed route, the breathing mask is in more sufficient contact with the water vapor, and the overall disinfection effect of the breathing mask is improved;

4. the arrangement of the fifth electric sliding block can enable the carrying drawers to be in a vertically staggered state, and the state is favorable for increasing the contact area between the breathing mask and ultraviolet rays, so that the disinfection effect of the breathing mask under the ultraviolet rays is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a first cross-sectional view of the present invention;

FIG. 3 is a second cross-sectional view of the present invention;

FIG. 4 is a third cross-sectional view of the present invention;

FIG. 5 is a perspective view of a first portion of the structure of the present invention;

fig. 6 is a perspective view of a second partial structure of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.

As shown in fig. 1 to 6, a batched rapid cleaning and disinfecting machine for medical respiratory masks comprises a cleaning mechanism 1 and a placing mechanism 2, wherein the cleaning mechanism 1 is installed on the existing ground, and the placing mechanism 2 is arranged inside the cleaning mechanism 1.

The cleaning mechanism 1 comprises a cleaning cabinet 10, a fixing plate 11, an upper cabinet door 12, a lower cabinet door 13, a steam engine 14, an electric control partition plate 15, a mounting plate 16 and an ultraviolet lamp 17, wherein the fixing plate 11 is installed in the middle of the front end of the cleaning cabinet 10, the upper cabinet door 12 is arranged at the upper end of the fixing plate 11, the lower cabinet door 13 is arranged at the lower end of the fixing plate 11, the right end of the upper cabinet door 12 and the right end of the lower cabinet door 13 are rotatably connected with the cleaning cabinet 10, the steam engine 14 is installed on the inner bottom wall of the cleaning cabinet 10, rectangular through grooves are symmetrically formed in the left inner side wall and the right inner side wall of the cleaning cabinet 10 and are positioned below the fixing plate 11, the electric control partition plate 15 is slidably connected in the rectangular through grooves, the electric control partition plate 15 is positioned above the steam engine 14, the inner side end faces of the electric control partition plate 15 are attached to each other, the mounting plates 16 are arranged at the upper ends of the left inner side wall and the right side wall of the cleaning cabinet 10, and the mounting plate 16 is positioned above the electric control partition plate 15, ultraviolet lamp 17 is installed to turn right equidistance from a left side to the lower terminal surface of mounting panel 16, put into laying mechanism 2 with a plurality of respirator through artifical mode, then close cabinet door 13 down, the steam that produces through steam engine 14 next carries out high temperature disinfection to respirator, wait for a period of time after the high temperature disinfection finishes, then automatically controlled baffle 15 simultaneously opposite movement to maximum displacement department, laying mechanism 2 carries respirator and goes upward to relevant position department afterwards, later close cabinet door 12 and carry out ultraviolet disinfection through ultraviolet lamp 17 to respirator tightly, the dual disinfection mode of vapor high temperature disinfection and ultraviolet disinfection that cleaning mechanism 1 possessed, the dual disinfection mode can improve respirator's disinfection speed and disinfection effect greatly.

The left end and the right end of the steamer 14 are symmetrically provided with the air outlet pipes 140, the air outlet pipes 140 are arranged from front to back at equal intervals, the air outlet pipes 140 are of U-shaped structures, the air outlet pipes 140 are positioned below the electric control partition plate 15, the middle parts of the vertical sections of the air outlet pipes 140 are provided with the extension pipes 141, the extension pipes 141 are communicated with the air outlet pipes 140, the two receiving drawers 25 in an original state are respectively positioned between the upper ends of the air outlet pipes 140 and between the extension pipes 141, steam generated by the steamer 14 is output to the receiving drawers 25 through the air outlet pipes 140 and the extension pipes 141, and the air outlet ends of the air outlet pipes 140 and the air outlet ends of the extension pipes 141 are arranged in a positive opposite mode with the receiving drawers 25, so that high-temperature steam can flow to the receiving drawers 25 in a concentrated mode, and the high-temperature disinfection effect of the steam on the breathing mask is further improved.

Outlet duct 140 upper end horizontal segment, rectangle basket 142 is all installed to extension pipe 141 and the one end that outlet duct 140 leaves mutually, No. two electronic sliders 143 are installed through sliding fit mode symmetry to the upper and lower inside wall of rectangle basket 142, be connected with between the adjacent No. two electronic sliders 143 of upper and lower and extend basket 144, accept steamer tray 25 and be located and extend between the basket 144, rectangle basket 142 and extend between the basket 144 the cooperation can make inside steamer tray 25 is accepted to the steam along the fixed route flow direction in a large number, so that more abundant contact between respirator and the steam, and then improve the holistic disinfection effect of respirator, after respirator high temperature disinfection finishes, make through No. two electronic sliders 143 extend basket 144 move to rectangle basket 142 in, in order to avoid causing the hindrance to the ascending of roof 22.

The right side of the upper end of the lower cabinet door 13 is provided with a groove, the groove is arranged at the right front end of the cleaning cabinet 10, the groove is positioned below the electric control clapboard 15, a baffle plate 130 is arranged in the groove in a sliding fit mode, the front and the back of the rear end of the baffle plate 130 are symmetrically provided with a through hole, the right inner side of the through hole is provided with a through hole II, the through hole II is arranged at the right end of the cleaning cabinet 10 and is communicated with the groove I, the front and the back of the right end face of the cleaning cabinet 10 are symmetrically provided with a condenser pipe 131, the condenser pipe 131 is opposite to the through hole II and the condenser pipe 131 is communicated with the groove I, the lower end of the condenser pipe 131 is positioned in a water containing bin 132, the water containing bin 132 is placed on the existing ground, after the high-temperature disinfection of the respirator is finished, the baffle plate 130 is manually pulled outwards by a corresponding distance so that the through hole I, the through hole II and the condenser pipe 131 are communicated with each other, at this time, the high-temperature water vapor overflows outwards along the condensation pipe 131, the high-temperature water vapor is condensed in the condensation pipe 131 to form condensed water, the condensed water flows into the water containing bin 132, the water stored in the water containing bin 132 can be used as a power source material of the steam engine 14, and the water vapor is recycled and not directly discharged.

A second through groove is arranged above the electric control partition plate 15 and is arranged at the side end of the cleaning cabinet 10, the second through groove is positioned at the rear side of the fixed plate 11, a filter plate 150 is arranged in the second through groove in a sliding fit mode, the left end and the right end of the fixed plate 11 and the left end and the right end of the front end of the cleaning cabinet 10 are both provided with connecting through grooves, the connecting through groove on the cleaning cabinet 10 is communicated with the second through groove, the front end of the filter plate 150 is in sliding connection with the connecting through groove, the carrying drawer 25 moves to the position of the second through groove and then pauses, the breathing mask is cooled and dried by air flowing through the inner part and the outer part of the cleaning cabinet 10, so that the breathing mask with higher temperature is prevented from being directly exposed under the ultraviolet lamp 17, the circulating air can be filtered by the filter plate 150, so that impurities carried by the air are prevented from being attached to the breathing mask, and after a period of time, the carrying drawer 25 continues to move upwards for a certain distance under the driving of the electric slider 20, the cover plate 26 is then manually withdrawn and the upper cabinet door 12 is closed, after which the breathing mask is uv-sterilized by means of the uv lamp 17.

Filter plate 150's the outside in the past backward the equidistance be provided with round bar 151, round bar 151 rotates to be installed between the upper and lower inside wall in No. two logical grooves, rotor 152 is installed to the middle part bilateral symmetry of round bar 151, No. four electronic slider 153 is installed to the lower extreme of round bar 151, No. four electronic slider 153 sliding connection in circular recess's inside wall, circular recess is seted up at No. two logical lower inside walls, respirator accepts the cooling and the dry period of circulating air, drive round bar 151 rotation through No. four electronic slider 153, round bar 151 drives rotor 152 and rotates in step, with the circulation speed of increase cleaning cabinet 10 inside and outside air, and then the cooling effect that improves respirator through the cooling range of increase respirator.

The placing mechanism 2 comprises an electric slider 20, a vertical plate 21, a top plate 22, T-shaped plates 23, connecting plates 24, a receiving drawer 25 and a cover plate 26, the electric slider 20 is arranged on the rear inner side wall of the cleaning cabinet 10 in a sliding fit mode, the electric slider 20 is symmetrically arranged up and down, the vertical plate 21 is arranged at the front end of the electric slider 20, the vertical plate 21 is positioned below the electric control partition plate 15 in an original state, the top plate 22 is symmetrically arranged at the left and right of the front end of the vertical plate 21, the T-shaped plates 23 are slidably connected to the lower end of the top plate 22, the connecting plates 24 are connected between the lower ends of the left and right T-shaped plates 23, the receiving drawer 25 is connected between the lower ends of the front and rear opposite connecting plates 24, the left and right ends and lower ends of the receiving drawer 25 are of a grid structure, a through groove is formed in the lower end of the front end face of the connecting plate 24, and the cover plate 26 is connected between the front and rear opposite through a sliding fit mode, the lower end face of the cover plate 26 is attached to the upper end face of the receiving drawer 25, the receiving drawer 25 is manually drawn out of the cleaning cabinet 10 for a corresponding distance, in the process, the receiving drawer 25 drives the connecting plate 24 and the cover plate 26 to move synchronously, the connecting plate 24 drives the T-shaped plate 23 to move synchronously, the T-shaped plate 23 slides along the top plate 22, then the T-shaped plate is manually drawn out from the cover plate 26, the breathing mask is discharged into the receiving drawer 25, then the cover plate 26 is closed, the receiving drawer 25 is pushed to the original position, then the breathing mask is sterilized at high temperature through steam generated by the steam generator 14, a period of time is waited after the high temperature sterilization is finished, the electric control partition plate 15 simultaneously moves reversely to the maximum displacement position, then the vertical plate 21 is driven to move upwards through the electric slider 20, the vertical plate 21 drives the top plate 22 to move synchronously, the T-shaped plate 23 drives the connecting plate 24 to move synchronously, the receiving drawer 25 carries the breathing mask to move synchronously therewith, until the receiving drawer 25 is located above the electric control partition plate 15, the electric control partition plate 15 moves back to the original state, two independent spaces are separated from the inside of the cleaning cabinet 10, the cover plate 26 is pulled out manually, the upper cabinet door 12 is closed tightly, and then the breathing mask is disinfected by ultraviolet rays through the ultraviolet lamp 17.

The left side and the right side of the receiving drawer 25 are symmetrically provided with vertical plates 250, one end face of each vertical plate 250 is attached to the side end face of the receiving drawer 25, the other end face of each vertical plate 250 is symmetrically provided with three electric sliders 251 in front and back, the separated end of each electric slider 251 and the vertical plate 250 is in sliding connection with the side end face of the connecting plate 24 facing the direction of the receiving drawer 25, the three electric sliders 251 drive the vertical plates 250 to do vertical intermittent reciprocating motion, the moving directions of the vertical plates 250 on the left side and the right side of the receiving drawer 25 are opposite, when the vertical plate 250 on the left side of the receiving drawer 25 moves upwards and the vertical plate 250 on the right side of the receiving drawer 250 keeps still, the right end of the receiving drawer 25 is in a closed state, when steam blown into the receiving drawer 25 from left to right meets the vertical plate 250 which keeps still, the retention time of the steam in the receiving drawer 25 is increased, so as to increase the contact time between the breathing mask and the steam, thereby being beneficial to improving the disinfection effect of the breathing mask at high temperature.

The rear end of roof 22 install No. five electronic slider 220, No. five electronic slider 220 links to each other through sliding fit mode and riser 21's front end, before respirator accepts ultraviolet disinfection, drive roof 22 to riser 21's side motion through No. five electronic slider 220, roof 22 drives T template 23 synchronous motion, accept steamer tray 25 and connecting plate 24 synchronous motion thereupon, two motion directions of accepting steamer tray 25 are opposite, it is last two to accept steamer tray 25 positions crisscross from top to bottom, it is total, No. five setting up of electronic slider 220 can make and accept to appear crisscross state from top to bottom between the steamer tray 25, this state does benefit to the area of contact between increase respirator and the ultraviolet ray, and then improves respirator's disinfection effect under the ultraviolet ray.

No. one mounting panel 16 fixed connection in the left inside wall of cleaning cabinet 10 of electronic slider 20 upper left side, No. six electronic sliders 200 are installed to the right-hand member of the mounting panel 16 of an electronic slider 20 upper right side, No. six electronic sliders 200 slidable mounting is in the right inside wall of cleaning cabinet 10, accept behind the adjustment of steamer tray 25 for the state of crisscross arrangement from top to bottom, drive its mounting panel 16 downstream that links through No. six electronic sliders 200, it accepts steamer tray 25 until this mounting panel 16 drives ultraviolet lamp 17 comparatively to be close to the inside right side of cleaning cabinet 10, to sum up, No. six electronic sliders 200 set up be convenient for adjust ultraviolet lamp 17 and accept the interval between the steamer tray 25, so that enlarge the area that the ultraviolet ray shines on respirator and improve respirator's disinfection effect.

During operation, the first step of steam high-temperature disinfection: will accept drawer 25 and pull corresponding distance outside cleaning cabinet 10 through artifical mode, and in this process accept drawer 25 and drive connecting plate 24 and apron 26 synchronous motion, and connecting plate 24 drives T template 23 synchronous motion, and T template 23 slides along roof 22, then draws away apron 26 and discharges respirator in accepting drawer 25 through artifical mode, closes apron 26 afterwards, and will accept drawer 25 and push away to primary position department, and then carries out high temperature sterilization to respirator through the steam that steam engine 14 produced.

And a second step of cooling treatment: the electric control partition plates 15 move oppositely to the maximum displacement position at the same time, then the first electric slide block 20 drives the vertical plate 21 to move upwards, the vertical plate 21 drives the top plate 22 to move synchronously, the T-shaped plate 23 drives the connecting plate 24 to move synchronously, the receiving drawer 25 carries the breathing mask to move synchronously, the receiving drawer 25 moves upwards to the position of the second through groove and then stops moving, the electric control partition plates 15 move oppositely to the original state, and the breathing mask is cooled and dried through the air communicated with the inside and the outside of the cleaning cabinet 10.

The third step is ultraviolet disinfection: the cooled breathing mask continues to move upwards for a certain distance along with the receiving drawer 25 under the driving of the first electric sliding block 20, then the cover plate 26 is drawn out manually and the upper cabinet door 12 is closed tightly, and then ultraviolet rays are eliminated for the breathing mask through the ultraviolet lamp 17.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.