CN115814129A - Breathe atomizer face guard disinfection drying equipment for internal medicine - Google Patents

Abstract

The application discloses a sterilizing and drying device for a mask of an atomizer for respiratory medicine, which relates to the technical field of cleaning equipment and comprises a bearing box body, a top telescopic column, a support column, an injection bag, an air pumping assembly and a liquid pumping assembly, wherein the inner bottom of the bearing box body is provided with a bottom bin; a spray head bracket is fixed on the side wall of the top telescopic column, and a plurality of spray heads are arranged on the spray head bracket; the support column is fixed on the top of the bottom bin; the ejection bag is tubular, the top opening is fixed on the support column, the bottom opening is fixed on the upper surface of the bottom bin, and the ejection bag, the support column and the bottom bin together enclose an in-bag space; the side wall of the injection bag is provided with one or more rows of injection holes, and 3 or more than 3 abutting soft bags are uniformly distributed; the abutting soft bag is communicated with the space in the bag; one end of the elastic rope is fixed at the end part of the abutting soft bag, and the other end of the elastic rope is fixed on the abutting soft bag; the technical effects that the atomizer mask disinfection and drying equipment can automatically clean the atomizer mask, the cleaning dead angle is less, and the mask is less damaged in the cleaning process are achieved.

Description

Breathe atomizer face guard disinfection drying equipment for internal medicine

Technical Field

The invention relates to the technical field of cleaning equipment, in particular to a sterilizing and drying device for a face mask of an atomizer for respiratory medicine.

Background

Fog inhalation often regards as the adjunctie therapy means of breathing internal medicine, and fog inhalation atomizes the medicine through hyperbaric oxygen to in transmitting atomizing medicine to the atomizer face guard, later make the patient inhale through the mode of artifical face guard of wearing, fog inhalation has easy operation convenience, original medicine need not dilute, clinical effect is good, advantage such as medicine utilization ratio.

The face mask of the atomizer is of an arc-shaped structure and can be attached to the face of a patient so as to increase the atomization absorption effect; after the atomizer face mask is used, cleaning and disinfection are needed, and the cleaned atomizer face mask needs drying treatment; the existing atomizer mask is generally disinfected by manual flushing, and the mask is dried by a fan; the manual spraying of the disinfectant is easy to cause uneven spraying, so that the mask has more dead angles for disinfection and cleaning, and the mask has poor cleaning and disinfection effects; the cleaning process needs manual participation, and certain labor intensity is achieved; in the cleaning process, the mask needs to be contacted by hands, the cleaning and disinfection effect is limited, and if the mask is clamped by the clamp for cleaning, the mask is easily abraded to influence the subsequent use.

Disclosure of Invention

The embodiment of the application provides a breathe atomizer face guard disinfection drying equipment for internal medicine, solved among the prior art atomizer face guard cleaning process intensity of labour big, appear clean dead angle easily and the great technical problem of damage to the face guard among the clean process, realized that atomizer face guard disinfection drying equipment can self-cleaning atomizer face guard, clean dead angle is less and the less technological effect of damage to the face guard among the clean process.

The embodiment of the application provides a sterilizing and drying device for a face mask of an atomizer for respiratory medicine, which comprises a bearing box body, a top telescopic column, a supporting column, a spraying bag, a pump assembly and a pump liquid assembly, wherein a bottom bin is arranged on an inner bottom of the bearing box body;

a column head soft bag is positioned at the bottom end of the top telescopic column, a spray head support is fixed on the side wall, and a plurality of spray heads are arranged on the spray head support;

the supporting column is fixed at the top of the bottom bin, and a column top bag is positioned at the top of the supporting column;

the injection bag is tubular, the diameter of the bottom opening is 3-6 times of that of the top opening, the top opening is fixed on the supporting column, the bottom opening is fixed on the upper surface of the bottom bin, and the injection bag, the supporting column and the bottom bin jointly enclose an in-bag space;

the side wall of the injection bag is provided with one or more rows of injection holes, and 3 or more than 3 abutting soft bags are uniformly distributed; the abutting soft bag is communicated with the space in the bag, and one end of the abutting soft bag is fixed on the injection bag;

the elastic ropes correspond to the abutting soft bags one by one, one end of each elastic rope is fixed at the end part of each abutting soft bag, and the other end of each elastic rope is fixed on each abutting soft bag; the mask can be driven to rotate by taking the axis of the supporting column as a shaft in the process of straightening and dumping the soft bag.

Furthermore, a rotating block is positioned at the bottom end of the top telescopic column, and the rotating block can rotate around the axis of the top telescopic column and is fixedly connected to the top telescopic column;

the column head soft bag is fixed on the surface of the rotating block, which is far away from the top telescopic column;

a fixing ring is fixed on the side wall of the support column close to the top, the whole fixing ring is annular, and the inner ring is tightly attached to the side wall of the support column;

a rotating column is positioned at the top of the supporting column;

the column top bag is fixed at the top of the rotating column;

the axis of the injection bag is superposed with the axis of the support column;

the top opening (410) of the ejection pocket is fixed on the fixing ring.

Preferably, the injection holes are through holes, the diameter of each injection hole is 3-8 millimeters, the distance between every two injection holes is smaller than 1 centimeter, and the number of the injection holes is larger than 8.

Preferably, the space in the bladder is in a shape of a circular truncated cone before expansion, and the whole body is hemispherical after expansion.

Preferably, the supporting column is an electric telescopic rod, and the stretching of the supporting column is controlled by the control unit.

Preferably, the device further comprises a conveyor belt assembly;

an output channel is positioned on the side wall of the bearing box body;

the conveying belt assembly comprises an annular belt body and a bearing wheel;

the number of the bearing wheels is two, and the bearing wheels can be fixedly connected to the bearing box body in a rotating mode;

the annular belt body penetrates through the bottom bin and is always in a stretched state;

the annular belt body is uniformly provided with through holes with the diameter larger than 7 cm, and the through holes are through holes;

the injection bag comprises a spherical part and a tubular part, the tubular part is an elastic straight tube made of rubber, and the bottom of the tubular part is fixed on the bottom bin;

the spherical part is positioned at the top of the tubular part, the bottom and the top of the spherical part are both provided with openings, and the bottom opening of the spherical part and the top opening of the tubular part are integrally formed; the top opening of the spherical part is fixed on the fixing ring; the ejection bag is spatially located between the two bearing wheels.

Furthermore, a circle of cleaning holes are uniformly distributed on the positions, close to the tubular part, of the spherical part, the cleaning holes are through holes, the diameter of each cleaning hole is less than 5 millimeters, and the distance between the cleaning holes is less than 2 centimeters; the cleaning hole faces the annular belt body when the spraying bag is in an expanded state.

Preferably, a packaging component is positioned at the bottom of the output channel, and the cleaned mask is packaged by the packaging component individually and is a bagging machine.

Preferably, the conveying belt assembly further comprises a first reversing wheel, a second reversing wheel and a third reversing wheel, wherein the first reversing wheel, the second reversing wheel and the third reversing wheel are cylindrical wheels, and are rotatably and fixedly connected in the bearing box body around the axis of the first reversing wheel, the second reversing wheel and the third reversing wheel, the axis of the first reversing wheel and the axis of the third reversing wheel are parallel to the horizontal ground and are tightly attached to the annular belt body;

the first reversing wheel and the second reversing wheel are positioned on the same horizontal plane, the distance between the first reversing wheel and the second reversing wheel is less than 1 cm, and the tops of the first reversing wheel and the second reversing wheel are close to the upper surface of the conveyor belt assembly;

the third reversing wheel is positioned right below the first reversing wheel and the second reversing wheel; the annular belt body among the first reversing wheel, the second reversing wheel and the third reversing wheel is in a water drop shape or a U shape;

the annular belt body is formed by compounding a top film and a bottom film, the top film and the bottom film are both annular, and the edges of the top film and the bottom film are fixed together to form an annular closed space;

the top film is made of plastic, and the bottom film is made of rubber;

a raised ring is positioned on the top film close to the through hole, the raised ring is an annular elastic soft bag, the diameter of the raised ring is larger than the diameter of the circumscribed circle of the mask, and the raised ring is communicated with the closed space;

the sealed space is filled with gas, and eighty percent or more of the gas in the whole sealed space is concentrated in the part of the sealed space of the annular belt body between the bearing wheel far away from the support column and the first reversing wheel;

the bulge loop on the annular belt body between the bearing wheel far away from the supporting column and the first reversing wheel is more bulged than the bulge loop on the annular belt body at other positions due to the influence of air pressure.

Preferably, the circumference of the bulge ring is uniformly provided with three or more limiting blocks made of rubber materials, and the height of each limiting block is less than 0.3 cm and used for limiting the movement of the mask.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

by providing the atomizer mask disinfection and drying equipment comprising the bearing box body, the top telescopic column, the supporting column, the spraying bag, the air pumping assembly and the liquid pumping assembly, the end parts of the top telescopic column and the supporting column which are respectively positioned at the top and the bottom of the bearing box body are provided with the soft bags, the spraying bag is fixed on the supporting column and is provided with a plurality of spraying holes facing the mask to be cleaned, and the top telescopic column is fixed with the spray head; the atomizer face mask is clamped by the aid of the opposite movement of the top telescopic column and the support columns, and disinfection liquid and gas are sequentially pumped into the spray bag and the spray head by the aid of the liquid pumping assembly and the gas pumping assembly to achieve disinfection and drying of the atomizer face mask; the technical problems that in the prior art, labor intensity is high, dead angles are easy to clean in the atomizer face mask cleaning process, and damage to the face mask is large in the cleaning process are solved, and therefore the technical effects that the atomizer face mask can be automatically cleaned by the atomizer face mask sterilizing and drying equipment, the dead angles are small in cleaning, and damage to the face mask is small in the cleaning process are achieved.

Drawings

FIG. 1 is a schematic structural diagram of the appearance of a face mask sterilizing and drying device of an atomizer for respiratory medicine of the present invention;

FIG. 2 is a schematic view of the internal structure of the mask sterilizing and drying device of the nebulizer for department of respiratory medicine;

FIG. 3 is a schematic diagram showing the positional relationship between a support column and a spray bag of the mask disinfecting and drying apparatus for an atomizer for department of respiratory medicine according to the present invention;

FIG. 4 is a schematic structural diagram of a pump assembly of the mask sterilization and drying device of the nebulizer for department of respiratory medicine;

FIG. 5 is a schematic diagram of the structure of a spraying bag of the mask disinfecting and drying device of the atomizer for respiratory medicine;

FIG. 6 is a schematic diagram showing the deformation state of the spray bag of the mask sterilization and drying device of the nebulizer for department of respiratory medicine according to the present invention;

FIG. 7 is a schematic diagram showing the positional relationship between a carrying box body and a packaging component of the mask sterilizing and drying device for the nebulizer used in the department of respiratory medicine;

FIG. 8 is a schematic diagram showing the positional relationship between the spraying bag and the conveyor belt assembly of the mask disinfecting and drying apparatus for an atomizer for department of respiratory medicine according to the present invention;

FIG. 9 is a block diagram of a conveyor belt assembly of the respirator mask disinfecting and drying apparatus of the present invention for use in respiratory medicine;

fig. 10 is a schematic structural view of a raised ring on an annular belt body of the mask disinfecting and drying device for the atomizer for department of respiratory medicine.

In the figure:

the bearing box body 100, the upper cover 110, the window 120, the gas inlet 130, the liquid inlet 140, the drainage assembly 150, the bottom bin 160 and the output channel 170;

a top telescopic column 200, a rotating block 210, a column head soft bag 220 and a spray head bracket 230;

support column 300, fixed ring 310, rotating column 320, column top pocket 330;

the injection bag 400, the top opening 410, the injection hole 420, the abutting soft bag 430, the elastic rope 440 and the cleaning hole 450;

the air pump assembly 500, the air pump 510, the air heating assembly 520 and the air pipe 530;

a liquid pumping component 600, a liquid pump 610, a liquid valve 620 and a liquid conveying pipe 630;

the device comprises a conveying belt assembly 700, an annular belt body 710, a penetrating hole 720, a top film 730, a bottom film 740, a bearing wheel 750, a first reversing wheel 760, a second reversing wheel 770, a third reversing wheel 780, a convex ring 791 and a limiting block 792;

a package assembly 800.

Detailed Description

In order to facilitate an understanding of the present invention, the present application will now be described more fully with reference to the accompanying drawings; the preferred embodiments of the present invention are illustrated in the accompanying drawings, but the invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete.

It is noted that the terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments. For convenience of description, part of the "nebulizer face mask" will be abbreviated hereinafter as "face mask".

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs; the terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention; as used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Fig. 1 is a schematic view of an appearance structure of a mask sterilizing and drying device of an atomizer for respiratory medicine according to the present invention; the atomizer mask disinfection and drying equipment for the respiratory medicine comprises a bearing box body 100, a top telescopic column 200, a support column 300, a spraying bag 400, an air pumping assembly 500 and a liquid pumping assembly 600, wherein soft bags are arranged at the ends of the top telescopic column 200 and the support column 300 which are respectively positioned at the top and the bottom of the bearing box body 100, the spraying bag 400 is fixed on the support column 300 and is provided with a plurality of spraying holes 420 facing a mask to be cleaned, and a spray head is fixed on the top telescopic column 200; the atomizer mask is clamped by the opposite movement of the top telescopic column 200 and the support column 300, and disinfectant and gas are pumped into the spray bag 400 and the spray head in sequence by the liquid pumping assembly 600 and the gas pumping assembly 500 to realize the disinfection and drying of the atomizer mask; the technical effects that the atomizer mask disinfection and drying equipment can automatically clean the atomizer mask, the cleaning dead angle is less, and the mask is less damaged in the cleaning process are achieved.

Example one

As shown in fig. 1 to 5, the nebulizer mask sterilizing and drying device for department of respiratory medicine comprises a carrying box body 100, a top telescopic column 200, a support column 300, a spraying bag 400, a pump air assembly 500, a pump liquid assembly 600, a power assembly and a control unit.

The interior of the bearing box body 100 is hollow, the side wall of the bearing box body is provided with an upper cover 110, the side wall is provided with a window 120, and the surface of the bearing box body is provided with a gas inlet 130 and a liquid inlet 140; a drainage assembly 150 is arranged at a position, close to the bottom, of the carrying box body 100, and the drainage assembly 150 is preferably a drainage pipe; the bottom bin 160 of the box structure is arranged on the inner bottom of the bearing box 100, and the inner space of the bottom bin 160 is used for bearing the pumping assembly 500 and the pumping assembly 600.

The top telescopic column 200 is an electric telescopic rod controlled by a control unit and is longitudinally arranged, and the top of the top telescopic column is fixed at the top of the internal space of the bearing box 100; the rotating block 210 is positioned at the bottom end of the top telescopic column 200, and the rotating block 210 can rotate around the axis of the top telescopic column 200 and is fixedly connected to the top telescopic column 200; the column head soft bag 220 is fixed on the surface of the rotating block 210 far away from the top telescopic column 200, the maximum circumscribed circle diameter is less than 2 cm, and a rubber air bag is preferred; a long rod-shaped or strip-shaped spray head bracket 230 is fixed on the side wall of the top telescopic column 200 close to the bottom end, a plurality of spray heads are uniformly distributed on the spray head bracket 230, and the plurality of spray heads are arranged in one row or a plurality of rows along the length direction of the spray head bracket 230; the spray head is communicated with the air pumping assembly 500 and the liquid pumping assembly 600 and is used for being controlled by the control unit to spray disinfectant or gas timely.

The supporting column 300 is longitudinally arranged and fixed at the top of the bottom bin 160, and the axis of the supporting column is superposed with the axis of the top telescopic column 200; the diameter of the support column 300 is 2-5 cm, and the height is more than 8 cm; a fixing ring 310 is fixed on the side wall of the support column 300 close to the top, the whole fixing ring 310 is annular, and the inner ring is tightly attached to the side wall of the support column 300; a rotating column 320 is positioned at the top of the supporting column 300, the rotating column 320 is longitudinally arranged, has a height less than 1 cm, and can be rotatably and fixedly connected to the supporting column 300 around the axis of the supporting column 300; a column top bag 330 is fixed at the top of the rotating column 320, the maximum circumcircle diameter of the column top bag 330 is less than 2 cm, and the column top bag 330 is preferably a rubber air bag; when the top telescopic column 200 is extended to the maximum, the upper column head flexible bag 220 can be abutted against the column head bag 330 on the support column 300.

The injection bag 400 is tubular, the top opening is a top opening 410, the bottom opening is a bottom opening, and the diameter of the bottom opening is 3-6 times of that of the top opening 410; the top port 410 of the injection bag 400 is fixed on the fixing ring 310, and the bottom port is fixed on the upper surface of the bottom bin 160; the axis of the injection capsule 400 coincides with the axis of the support column 300; the injection capsule 400, the support column 300 and the bottom bin 160 together enclose a space, which is defined herein as a capsule space for convenience of description; one or more rows of injection holes 420 are formed in the side wall of the injection bag 400, the injection holes 420 are through holes, the diameter of each injection hole is 3-8 mm, the distance between every two injection holes 420 is less than 1 cm, and the number of the injection holes 420 is more than 8; in the inflated state of the jet bladder 400, the jet holes 420 are directed toward the mask being cleaned; 3 or more than 3 abutting soft bags 430 are uniformly distributed on the injection bag 400 around the axis of the support column 300, the abutting soft bags 430 are rod-shaped or conical bag bodies, the length of the abutting soft bags 430 is more than 2 cm, the abutting soft bags 430 are communicated with the space in the bag, and one end of each abutting soft bag is fixed on the injection bag 400; the elastic rope 440 is a rubber rope body and is in one-to-one correspondence with the soft abutting bag 430, one end of the elastic rope 440 is fixed at the end of the soft abutting bag 430 far away from the injection bag 400, and the other end is fixed on the soft abutting bag 430; the elastic rope 440 is always in a stretched state, and the distance between the fixed point of the elastic rope 440 on the ejection bag 400, which is abutted against the soft bag 430, and the fixed point of the elastic rope 440 on the ejection bag 400, which is fixed on the abutted soft bag 430, is more than 1.5 cm; the polygon formed by sequentially connecting the fixing points of the ejection bag 400, which are abutted against the soft bag 430, and the polygon formed by sequentially connecting the fixing points of the elastic rope 440 on the ejection bag 400 are similar polygons; the fixed point of the injection bag 400 abutting against the soft bag 430 is three to five centimeters away from the top opening 410, and is more than seven centimeters away from the bottom opening; the fixing point of the injection bag 400 abutting against the soft bag 430 and the fixing point of the elastic rope 440 are all on the same circle with the supporting column 300 as the center of the circle; the expansion and contraction of the soft collision bag 430 are influenced by the amount of media (gas or liquid media) in the bag space, when the amount of media in the bag space is small, the soft collision bag 430 topples over under the tensile force of the elastic rope 440, and the outer surface of the soft collision bag 430 is attached to the outer surface of the injection bag 400; when the medium amount in the space in the bag is large, the abutting soft bag 430 is straightened under the influence of pressure, and the outer surface of the abutting soft bag 430 is separated from the outer surface of the injection bag 400; when the soft interference bag 430 is straightened, the top of the soft interference bag can interfere with the face mask being cleaned; the abutting soft bag 430 is driven (shifted) to rotate around the axis of the support post 300 during the process of straightening and falling.

Furthermore, the space in the bag is in a round table shape before expansion, and the whole bag is in a hemispherical shape after expansion.

The air pumping assembly 500 and the liquid pumping assembly 600 are both positioned in the bottom bin 160 and are respectively used for pumping air and disinfectant to the spray head and the space in the bag, and the operation of the air pumping assembly 500 and the liquid pumping assembly 600 is controlled by the control unit.

Further, the pump assembly 500 comprises an air pump 510, an air heating assembly 520 and an air conveying pipe 530, wherein the air pump 510 conveys air to the air heating assembly 520 through the air conveying pipe 530, and then the air is conveyed to the spray head and the space in the bag through the air conveying pipe 530; the gas heating assembly 520 is preferably an electric heating wire; the liquid pumping assembly 600 comprises a liquid pump 610, a liquid valve 620 and a liquid conveying pipe 630; the fluid pump 610 delivers the sterilizing fluid through the fluid line 630 to the fluid valve 620, and after being dispensed by the fluid valve 620, the sterilizing fluid is delivered through the fluid line 630 to the spray head and the space in the sac.

The power component is used for providing power for the operation of each part of the atomizer face mask disinfection and drying equipment, the control unit plays a role in controlling the coordinated operation of each part of the atomizer face mask disinfection and drying equipment, and the control unit is prior art and is not repeated herein.

Preferably, the control unit is a combination of a programmable logic controller and a control key.

When atomizer face guard disinfection drying equipment of this application embodiment in-service use:

1. the user fastens the mask to be cleaned on the support post 300;

2. the control unit controls the pump liquid assembly 600 to operate, intermittently conveys disinfectant to the spray head and washes the mask;

3. then the control unit controls the top telescopic column 200 to extend, so that the column head soft bag 220 props against the mask;

4. the control unit controls the pump liquid assembly 600 to intermittently deliver the disinfectant to the space in the bag and the nozzle to promote the injection bag 400 to expand; at the moment, part of the disinfectant is sprayed out from the spray holes 420 to flush the mask, and the mask is pressed against the soft bag 430 to be intermittently stretched straight, and is stirred to rotate, and is flushed by the disinfectant from the space in the bag and the spray head in the rotating process of the mask;

4. then the liquid pumping assembly 600 pumps out the disinfectant in the space in the capsule, and after the disinfectant is pumped out, the gas pumping assembly 500 operates to intermittently deliver gas to the space in the capsule and the middle of the spray head, and pushes the soft capsule 430 to intermittently stretch straight, so as to stir the mask to rotate; the mask is dried by air from the space in the bag and the spray head in the rotating process;

5. and then the control unit controls the air pumping assembly 500 to stop running, the top telescopic column 200 is shortened, the air pumping assembly 500 runs again, and the part of the mask, which is in contact with the column head soft bag 220, is dried.

6. And taking out the mask to finish cleaning.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages:

the technical problems that in the prior art, labor intensity is high in the atomizer mask cleaning process, dead angles are easy to clean, and damage to the mask is large in the cleaning process are solved, and the technical effects that the atomizer mask disinfection and drying equipment can be suitable for masks of various specifications, the atomizer mask can be automatically cleaned, the dead angles are small in cleaning, and damage to the mask in the cleaning process is small are achieved.

Example two

In order to further eliminate the dead angle of cleaning and improve the cleaning effect, as shown in fig. 5 and 6, the supporting column 300 is an electric telescopic rod, and the extension and retraction of the supporting column 300 are controlled by the control unit;

the step 4 is as follows: the control unit controls the pump liquid assembly 600 to intermittently deliver the disinfectant to the space in the bag and the nozzle to promote the injection bag 400 to expand; at the moment, part of the disinfectant is sprayed out from the spray holes 420 to flush the mask, and the mask is pressed against the soft bag 430 to be intermittently stretched straight, and is stirred to rotate, and is flushed by the disinfectant from the space in the bag and the spray head in the rotating process of the mask; meanwhile, the supporting column 300 is controlled to circularly lift, and the direction of the injection hole 420 is changed along with the lifting process;

the step 6 is as follows: then the control unit controls the pumping assembly 500 to stop running, the top telescopic column 200 is shortened, and the support column 300 is shortened; the air pumping assembly 500 operates again, the collision soft bag 430 is stretched to support the mask, and the air blown by the jet holes 420 and the nozzle blow dry the part of the mask, which is previously contacted with the column head soft bag 220 and the collision soft bag 430.

EXAMPLE III

In order to further improve the practicality of this application, improve the clear convenient degree of atomizer face guard, conveyer belt assembly 700 has been add on the basis of above-mentioned embodiment to this application embodiment, specifically is:

an output channel 170 is positioned on the side wall of the carrying box body 100, and the output channel 170 is used for facilitating the output of the atomizer mask from the carrying box body 100;

the conveyor belt assembly 700 includes an endless belt body 710 and a carrier wheel 750; the number of the bearing wheels 750 is two, a motor is arranged in the bearing wheels, and the bearing wheels can be rotatably and fixedly connected to the bearing box body 100; the annular belt body 710 penetrates through the bottom bin 160 and is always in a stretched state; the annular belt body 710 is uniformly provided with penetrating holes 720 with the diameter larger than 7 cm, and the penetrating holes 720 are through holes;

as shown in fig. 7 and 8, the injection bag 400 includes a spherical portion and a tubular portion, the tubular portion is a rubber elastic straight tube, and the bottom of the tubular portion is fixed on the bottom bin 160; the spherical part is positioned at the top of the tubular part and is similar to a sphere after being expanded, the bottom and the top of the spherical part are both provided with openings, and the bottom opening of the spherical part and the top opening of the tubular part are integrally formed; the top opening of the spherical part is fixed on the fixing ring 310; the overall injection bag 400 is mushroom-shaped after being expanded, and can penetrate through the penetrating hole 720 on the annular belt body 710 in a contracted state; the injection bladder 400 is spatially located between the two load wheels 750; a circle of cleaning holes 450 are uniformly distributed on the positions, close to the tubular part, of the spherical part, wherein the cleaning holes 450 are through holes, the diameter of each cleaning hole is less than 5 millimeters, and the distance between the cleaning holes is less than 2 centimeters; in the expanded state of the injection bladder 400, the cleaning holes 450 face the band body 710;

in actual use, the support pillar 300 is in a retracted state in the initial rotation state, and the support pillar 300 is located below the upper surface of the conveyor belt assembly 700; a user sequentially places a plurality of atomizer masks on the annular belt body 710, and makes the penetrating holes 720 positioned right below the atomizer masks and in one-to-one correspondence with the atomizer masks; the control unit controls the bearing wheel 750 to rotate until one of the atomizer face masks moves right above the supporting column 300, controls the supporting column 300 to extend to jack up the atomizer face mask and controls the air pumping assembly 500 and the liquid pumping assembly 600 to operate to clean the atomizer face mask; cleaning is carried out on the annular belt body 710 by spraying cleaning liquid and gas out of the cleaning holes 450 during cleaning; after cleaning, the supporting column 300 is controlled to be shortened and reset, the bearing wheel 750 rotates, and the cleaned mask is output from the output channel 170 to the bearing box body 100; the next mask is then cleaned.

Preferably, as shown in fig. 7, a packaging assembly 800 is positioned at the bottom of the output channel 170, and the cleaned mask is individually packaged by the packaging assembly 800 to form a bagging machine; the bagging machine is prior art and will not be described herein.

Considering that when the mask is placed on the endless belt body 710, care needs to be taken to place the mask or the mask is likely to slip off; to facilitate placement of the mask, preferably, as shown in fig. 9 and 10, the conveyor belt assembly 700 further includes a first diverting pulley 760, a second diverting pulley 770, and a third diverting pulley 780; the first reversing wheel 760, the second reversing wheel 770 and the third reversing wheel 780 are all cylindrical wheels, and are rotatably and fixedly connected in the bearing box 100 around the axes thereof, and the axes are parallel to the horizontal ground and are tightly attached to the annular belt body 710; the diameter of the first diverting pulley 760 and the second diverting pulley 770 is less than 2 cm, the first diverting pulley 760 and the second diverting pulley 770 are positioned on the same horizontal plane, the distance between the first diverting pulley 760 and the second diverting pulley 770 is less than 1 cm, and the top of the first diverting pulley 760 and the top of the second diverting pulley 770 are close to the upper surface of the conveyor belt assembly 700; the third reverse wheel 780 is positioned right below the first reverse wheel 760 and the second reverse wheel 770; the annular belt body 710 among the first reversing wheel 760, the second reversing wheel 770 and the third reversing wheel 780 is in a drop shape or a U shape; the first reversing wheel 760, the second reversing wheel 770 and the third reversing wheel 780 are within ten centimeters of the support column 300 and are positioned on one side of the support column 300 away from the output channel 170; the annular belt body 710 is formed by compounding a top film 730 and a bottom film 740, the top film 730 and the bottom film 740 are both annular, and the edges of the top film 730 and the bottom film 740 are fixed together to form an annular closed space; the top film 730 is made of plastic, and the bottom film 740 is made of rubber; a protruding ring 791 coaxial with the through hole 720 is positioned on the top film 730 close to the through hole 720, the protruding ring 791 is an annular elastic soft bag, the diameter of the protruding ring 791 is larger than the diameter of an external circle of the mask, and the protruding ring 791 is communicated with the closed space; the closed space is filled with gas, and the gas in the whole closed space is concentrated in a part of the closed space of the annular belt body 710 between the bearing wheel 750 far away from the supporting column 300 and the first reversing wheel 760; the bulge loop 791 on the annular belt body 710 between the bearing wheel 750 far away from the supporting column 300 and the first reversing wheel 760 is more bulged than the bulge loop 791 on the annular belt body 710 at other positions due to the influence of air pressure, so that an operator can more easily place a mask on the section of annular belt body 710, and the mask placed on the section of annular belt body 710 is not easy to drop due to sliding and the movement of the annular belt body 710; accordingly, the protruding rings 791 on the band 710 at other positions are less affected by the air pressure, and do not affect the expansion and contraction of the spraying bag 400 and thus the cleaning of the mask and the band 710 (if the size is larger, the expansion and contraction of the spraying bag 400 and the ejection of the medium in the bag space are easily affected, and even the cleaning of the band 710 by the medium ejected from the cleaning holes 450 is blocked).

Preferably, the circumference equipartition of bulge loop 791 has stopper 792 of three and above rubber material, and stopper 792 height is less than 0.3 centimetre for the restriction face guard removes.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a breathe atomizer face guard disinfection drying equipment for internal medicine which characterized in that: comprises a bearing box body (100) with a bottom bin (160) arranged on the inner bottom, a top telescopic column (200) arranged longitudinally, a supporting column (300), a spraying bag (400), an air pumping assembly (500) and a liquid pumping assembly (600) which are used for pumping air and disinfectant to the space in the spraying head and the bag;

a column head soft bag (220) is positioned at the bottom end of the top telescopic column (200), a spray head bracket (230) is fixed on the side wall, and a plurality of spray heads are arranged on the spray head bracket (230);

the supporting column (300) is fixed at the top of the bottom bin (160), and a column top bag (330) is positioned at the top of the supporting column (300);

the spraying bag (400) is tubular, the diameter of a bottom opening is 3-6 times of that of a top opening (410), the top opening (410) is fixed on the supporting column (300), the bottom opening is fixed on the upper surface of the bottom bin (160), and the spraying bag (400), the supporting column (300) and the bottom bin (160) jointly enclose a bag inner space;

one or more rows of injection holes (420) are arranged on the side wall of the injection bag (400), and 3 or more than 3 abutting soft bags (430) are uniformly distributed; the abutting soft bag (430) is communicated with the space in the bag, and one end of the abutting soft bag is fixed on the injection bag (400);

the elastic ropes (440) correspond to the abutting soft bags (430) one by one, one end of each elastic rope (440) is fixed at the end part of each abutting soft bag (430), and the other end of each elastic rope (440) is fixed on each abutting soft bag (430); when the abutting soft bag (430) is straightened and toppled, the mask can be driven to rotate by taking the axis of the support column (300) as an axis.

2. The sterilizing and drying device for the mask of the nebulizer for the department of respiratory medicine according to claim 1, wherein: a rotating block (210) is positioned at the bottom end of the top telescopic column (200), and the rotating block (210) can rotate around the axis of the top telescopic column (200) and is fixedly connected to the top telescopic column (200);

the column head soft bag (220) is fixed on the surface of the rotating block (210) far away from the top telescopic column (200);

a fixing ring (310) is fixed on the side wall of the support column (300) close to the top, the whole fixing ring (310) is annular, and the inner ring is tightly attached to the side wall of the support column (300);

a rotating column (320) is positioned at the top of the supporting column (300);

the column top sac (330) is fixed at the top of the rotating column (320);

the axis of the injection bag (400) is coincident with the axis of the support column (300);

the top opening (410) of the injection bag (400) is fixed on the fixing ring (310).

3. The sterilizing and drying device for the mask of the nebulizer for the department of respiratory medicine according to claim 1, wherein: the injection holes (420) are through holes, the diameter of each injection hole is 3-8 mm, the distance between every two injection holes (420) is smaller than 1 cm, and the number of the injection holes (420) is larger than 8.

4. The sterilizing and drying device for the mask of the nebulizer for the department of respiratory medicine according to claim 1, wherein: the space in the bag is in a round table shape before expansion, and the whole bag is in a hemispherical shape after expansion.

5. The sterilizing and drying device for the mask of the nebulizer for the department of respiratory medicine according to any one of claims 1 to 4, wherein: the support column (300) is an electric telescopic rod, and the extension and retraction of the support column (300) are controlled by the control unit.

6. The sterilizing and drying device for the mask of the nebulizer for the department of respiratory medicine according to claim 5, wherein: further comprising a conveyor belt assembly (700);

an output channel (170) is positioned on the side wall of the bearing box body (100);

the conveyor belt assembly (700) comprises an endless belt body (710) and a load wheel (750);

the number of the bearing wheels (750) is two, and the bearing wheels can be fixedly connected to the bearing box body (100) in a rotating way;

the annular belt body (710) penetrates through the bottom bin (160) and is always in a stretched straight state;

the annular belt body (710) is uniformly provided with through holes (720) with the diameter larger than 7 cm, and the through holes (720) are through holes;

the injection bag (400) comprises a spherical part and a tubular part, the tubular part is an elastic straight tube made of rubber, and the bottom of the tubular part is fixed on the bottom bin (160);

the spherical part is positioned at the top of the tubular part, the bottom and the top of the spherical part are both provided with openings, and the bottom opening of the spherical part and the top opening of the tubular part are integrally formed; the top opening of the spherical part is fixed on a fixed ring (310); the jet pocket (400) is spatially located between the two carrier wheels (750).

7. The mask sterilizing and drying apparatus for the nebulizer for the department of respiratory medicine according to claim 6, wherein: a circle of cleaning holes (450) are uniformly distributed at the positions, close to the tubular part, of the spherical part, wherein the cleaning holes (450) are through holes, the diameter of each cleaning hole is less than 5 millimeters, and the distance between the cleaning holes is less than 2 centimeters; the cleaning holes (450) face the annular belt body (710) in the expanded state of the injection bag (400).

8. The sterilizing and drying device for the mask of the nebulizer for the department of respiratory medicine according to claim 6, wherein: the bottom of the output channel (170) is positioned with a packaging component (800), and the cleaned mask is packaged by the packaging component (800) individually and is a bagging machine.

9. The sterilizing and drying device for the mask of the nebulizer for the department of respiratory medicine according to claim 6, wherein: the conveying belt assembly (700) further comprises a first reversing wheel (760), a second reversing wheel (770) and a third reversing wheel (780), wherein the first reversing wheel, the second reversing wheel and the third reversing wheel are cylindrical wheels, can be rotatably and fixedly connected into the bearing box body (100) around the axis of the first reversing wheel, and the axis of the first reversing wheel, the second reversing wheel and the third reversing wheel is parallel to the horizontal ground and is tightly attached to the annular belt body (710);

the first reversing wheel (760) and the second reversing wheel (770) are positioned on the same horizontal plane, the distance between the first reversing wheel and the second reversing wheel is less than 1 cm, and the tops of the first reversing wheel (760) and the second reversing wheel (770) are close to the upper surface of the conveyor belt assembly (700);

the third reversing wheel (780) is positioned right below the first reversing wheel (760) and the second reversing wheel (770); the annular belt body (710) among the first reversing wheel (760), the second reversing wheel (770) and the third reversing wheel (780) is in a drop shape or a U shape;

the annular belt body (710) is formed by compounding a top film (730) and a bottom film (740), the top film and the bottom film are both annular, and the edges of the top film and the bottom film are fixed together to form an annular closed space;

the top film (730) is made of plastic, and the bottom film (740) is made of rubber;

a protruding ring (791) is positioned on the top film (730) close to the through hole (720), the protruding ring (791) is an annular elastic soft bag, the diameter of the protruding ring is larger than the diameter of an external circle of the mask, and the protruding ring (791) is communicated with the closed space;

the closed space is filled with gas, and the gas in the whole closed space is concentrated in a part of the closed space of the annular belt body (710) between the bearing wheel (750) far away from the support column (300) and the first reversing wheel (760);

the bulge loop (791) on the annular belt body (710) between the bearing wheel (750) far away from the supporting column (300) and the first reversing wheel (760) is more bulged than the bulge loop (791) on the annular belt body (710) at other positions due to the influence of air pressure.

10. The mask sterilizing and drying apparatus for the nebulizer for the department of respiratory medicine according to claim 9, wherein: the periphery equipartition of bellied ring (791) has stopper (792) of three and above rubber material, and stopper (792) height is less than 0.3 centimetre for the restriction face guard removes.

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