CN213587467U

CN213587467U - Protective clothing capable of killing virus

Info

Publication number: CN213587467U
Application number: CN202021426436.4U
Authority: CN
Inventors: 凌聿辉
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-20
Filing date: 2020-07-20
Publication date: 2021-07-02
Anticipated expiration: 2030-07-20

Abstract

The utility model provides a protective clothing that can kill virus, which comprises a body, body outside back be equipped with be used for to the body inboard lets in the air supply system of disinfection purification back air, the body be equipped with the supply-air outlet of air supply system intercommunication with be used for getting rid of the inboard gaseous gas vent of body, warp air after the air supply system disinfection purification passes through the supply-air outlet gets into the body is inboard and is followed the gas vent is discharged and is formed circulation air current passageway. The utility model provides a multi-functional virus killing's protective clothing not only easily dresses and repetitious usage, guarantees that medical personnel inspiratory air be clean aseptic other, still can adjust cold and hot temperature simultaneously in order to adapt to human demand to make the visual effect of goggles can not influence the impression by the steam of exhalation, provide one can free activity, comfortable and aseptic protective clothing and use for medical personnel, the practicality is strong and easily production.

Description

Protective clothing capable of killing virus

Technical Field

The utility model belongs to the technical field of medical protective apparatus, especially, relate to a protective clothing that can kill virus.

Background

In the medical industry, especially in the most dangerous posts in the first line of epidemic prevention, protective clothing is the main equipment for protecting medical personnel. However, the prior protective clothing has the following defects: the mask is hot and airtight, and the medical care personnel are uncomfortable to wear, for example, the face is tightly wrapped; the goggles are easily seen unclearly by internal thermal atomization, which affects the operation or other operations; the breathing difficulty is caused after the mask is wetted by sweat, and even the faint symptom can appear; due to the limitation of the protective clothing, some medical personnel cannot take and place articles, and the operation is very inconvenient; meanwhile, although the medical staff wear the mask, the inhaled air is not filtered and disinfected, and whether the inhaled air is polluted or whether germs exist cannot be guaranteed; in addition, the protective clothing can be used only once, the utilization rate is low, and the production cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model provides a protective clothing capable of killing virus, in particular to a protective clothing which is applicable to repeated use and can be provided with a sterilizing device.

In order to solve the technical problem, the utility model discloses a technical scheme is:

the utility model provides a protective clothing that can kill virus, includes the body, body outside back be equipped with be used for to the inboard air supply system who lets in the air after the disinfection and purification of body, the body be equipped with the supply-air outlet of air supply system intercommunication with be used for getting rid of the inboard gaseous gas vent of body, the warp air after the air supply system disinfection and purification passes through the supply-air outlet gets into the body is inboard and follow the gas vent discharges and forms circulation airflow channel.

Further, the body includes:

the upper section part and the lower section part are connected together through a connecting piece;

a protective belt matched with the connecting piece is arranged on the outer side of the body;

and a storage bag for storing articles is arranged on the inner side of the upper section part.

Further, the air supply outlet is arranged on one side of the back of the upper section part, which is close to the air outlet of the air supply system; the exhaust port is arranged on the outer side surface of the lower section part.

Furthermore, the front surface of the upper section part is at least provided with a closed sleeve extending towards the inner side of the upper section part, and the sleeve and the upper section part are integrally communicated.

Further, the air supply system includes:

an inhalation device for inhaling air;

a purification device for filtering and sterilizing the gas discharged from the suction device;

the adjusting device is used for inputting purified air to the inner side of the body and enabling the temperature of the input air to be matched with the human body;

the suction device is communicated with air;

the adjustment device is in communication with the body.

Further, the purification device comprises a purification bottle provided with a sterilizing solution;

the inner side of the purifying bottle is sequentially provided with a primary sterilizing component and a secondary sterilizing component from an inlet of the purifying bottle;

the air entering the purifying bottle is input into the body after sequentially passing through the primary sterilizing component and the secondary sterilizing component in the sterilizing solution and being filtered and sterilized.

Further, the sterilizing solution is alcohol with the volume ratio of at least 60%;

the primary sterilization component comprises a plurality of air stones;

the second-stage sterilization component comprises a plurality of stacked filter sheets, and the filter sheets are perpendicular to the axis of the purification bottle.

Further, a separation device is arranged between the purification device and the adjusting device, the separation device is used for absorbing and separating clean gas discharged from the purification device, and the separated gas flows into the adjusting device;

the separation device is also provided with a return pipe, and the water drops separated by the separation device flow into the purification device through the return pipe to be recovered.

Furthermore, the adjusting device comprises a heat radiation box body, wherein a vent pipe, a drying agent, a refrigerating sheet and a heating sheet are arranged in the heat radiation box body, and the vent pipe is wound on the refrigerating sheet and the heating sheet; the drying agent, the refrigeration piece with the heating plate is followed side by side the radiator box width direction sets up.

Further, the refrigerating sheet is positioned between the drying agent and the heating sheet; the drying agent is arranged close to one side of the air outlet of the heat dissipation box body; the heating plate is close to one side of the air inlet of the heat dissipation box body.

Compared with the prior art, the utility model discloses a multi-functional virus killing's protective clothing not only easily dresses and repetitious usage, guarantees that medical personnel inspiratory air be clean aseptic other, still can adjust cold and hot temperature in order to adapt to human demand simultaneously to make the visual effect of goggles not influenced the impression by the steam of exhalation, but provide one free activity, comfortable and aseptic protective clothing and use for medical personnel, the practicality is strong and easily production.

Drawings

Fig. 1 is a schematic back view of a protective garment capable of killing viruses according to an embodiment of the present invention;

FIG. 2 is a schematic view of the front structure of a protective garment for killing viruses according to an embodiment of the present invention;

fig. 3 is a side view of an air supply system according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an air supply system according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a purification apparatus according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of an adjusting device according to an embodiment of the present invention;

fig. 7 is a cross-sectional view a-a of an embodiment of the invention.

In the figure:

100. a main body 110, an upper section 120, and a lower section

130. Connecting piece 140, protective belt 150 and storage bag

160. Air supply outlet 170, air outlet 180 and sleeve

190. Zipper 200, air supply system 210 and suction device

211. Air pump 212, battery 213, and air pump exhaust pipe

220. Purification device 221, purification bottle 222, and bactericidal solution

223. Primary sterilization component 224, secondary sterilization component 225 and first support ring

226. No. two support rings 227, return water mouth 228, purify air outlet pipe

230. Separation device 231, separation bottle 232 and separation air outlet pipe

233. Separation return pipe 240, adjusting device 241 and heat dissipation box body

242. Ventilating pipe 243, drying agent 244 and refrigerating sheet

245. Heating plate

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

The embodiment proposes a protective clothing capable of killing virus, as shown in fig. 1, comprising a body 100, an air supply system 200 for introducing disinfected and purified air into the inside of the body 100 is arranged at the back of the outside of the body 100, the body 100 is provided with an air supply opening 150 communicated with the air supply system 200 and an exhaust opening 160 for exhausting air inside the body 100, and the air disinfected and purified by the air supply system 200 enters the inside of the body 200 through the air supply opening 150 and is exhausted from the exhaust opening 160 to form a circulating airflow channel.

Specifically, as shown in fig. 1-2, the body 100 comprises an upper section 110 and a lower section 120 integrally connected by a connecting member 130, wherein the upper section 110 comprises a head and a body; the lower section 120 includes legs and feet. Preferably, the connecting member 130 is a zipper, that is, the upper section 110 and the lower section 120 are integrally connected by the zipper in the middle of the waist, and a protective band 140 having a length corresponding to the zipper is disposed at the outer side of the body 100, that is, the outer side of the zipper of the connecting member 130, and the protective band 140 may be disposed at the lower end of the upper section 110 or the upper end of the lower section 120. After the connecting member 130 is pulled up, the protective band 140 is folded and the connecting member 130 is embedded inside the protective band 140 by a zipper, so as to protect the body 100 from being integrally connected and closed. A storage bag 150 for storing food, water or other small articles is provided at the inner side of the upper section 110 of the body 100 for replenishment. An exchange window for taking the articles inside and outside may be provided at the outside of the storage bag 150 for use when physical supplementation is required. The exchange window can cover the communication port between the storage bag 150 and the upper section 110, i.e. the exchange window is communicated with the storage bag 150 and can ensure that the air in the upper section 110 cannot leak from the storage bag 150, so that the storage bag 150 is closed after being arranged in the upper section 110.

The head 110 of the upper section 110 is an inverted tower-shaped structure and is provided with goggles, and the head 110 of the tower-shaped structure can have enough activity space, so that the wearer can relieve the two hands from extending into the head 110 to drink water or eat food at rest, namely, an area where the two hands of the wearer can return to the head 110 of the protective clothing to freely move at rest is provided. Meanwhile, in the upper section 110, a manual safety valve zipper is designed at the position of the abdomen on the left side of the front side, and when the air pressure inside the protective suit body 100 is higher or lower and the control of the air supply system 200 fails, the user feels uncomfortable, the manual safety valve zipper can be pulled open, so that the air pressure inside the protective suit body 100 is recovered to a normal state.

Further, the air supply opening 160 is disposed on the back of the upper section 110 near the air outlet of the air supply system 200, and the air supply opening 160 may be sized and positioned according to actual conditions so as to be disposed on the premise of not interfering with activities, saving consumables and reducing weight. The air outlet 170 is arranged at any one of the legs of the lower section 120 in the body 100, and the air outlets 170 may be arranged at the legs at both sides of the lower section 120; preferably, the lower end of the leg is arranged on the outer side surface, so that the walking of the wearer is not influenced.

Meanwhile, the front surface of the upper section part 110 is at least provided with a closed sleeve 180 extending towards the inner side of the upper section part, the sleeve 180 is also provided with fingers which are integrally matched, and the sleeve 180 is integrally communicated with the upper section part 110. Preferably, there are two sleeves 180, which are symmetrically disposed on the two side ribs. The purpose is that under the condition that the gloves are not removed, a wearer can stretch both hands into the protective clothing body 100 through the sleeves 180 to drink water, eat, arrange clothes on the body and the like, which is convenient and does not influence the work; the protective clothing with the structure can be repeatedly used for many times, and the production cost can be reduced.

As shown in fig. 3 to 4, the air supply system 200 includes an inhalation device 210 for inhaling air, a purification device 220 for filtering and sterilizing air exhausted from the inhalation device 210, and a regulation device 240 for inputting purified air to the inside of the body 100 and making the temperature of the inputted air to be suitable for a human body. Wherein the inhalation device 210 is in communication with air; the adjustment device 240 is in communication with the body 100.

In order to further improve the drying property of the air entering the conditioning device 240 from the purifying device 220, a separating device 230 is further disposed between the purifying device 220 and the conditioning device 240 for absorbing and separating the clean gas discharged from the purifying device 220, so that the separated dry gas flows into the conditioning device 240, and the water droplets separated by the separating device 230 flow into the purifying device 220 through a separating return pipe 233 for recycling.

The suction device 210 comprises an air pump 211 which is in direct contact with air, the air pump 211 is directly powered by a battery 212 for starting, in the embodiment, the air pump 211 can be selected as model 1366VD2, the working voltage is DC12V, the power is 200W enough, and the whole weight is light; the battery 212 is a rechargeable battery, and the model is YSN-12030000, so that the voltage requirement of the air pump 211 can be met. The air sucked by the air pump 211 will have germs and particles which are not suitable for being sucked into the body, and can enter the purifying device 220 through the air pump exhaust pipe 213 for filtering and disinfection under the influence of the working environment of the wearer.

As shown in fig. 5, the purification apparatus 220 includes a purification bottle 221 containing an antiseptic solution 222, one end of the purification bottle 221 is connected to the air pump exhaust pipe 213 of the inhalation device 210, and the other end is connected to the air inlet of the air pipe 242 of the adjustment device 240. The first-stage sterilization component 223 and the second-stage sterilization component 224 are sequentially arranged on the inner side of the purification bottle 221 from the inlet end of the purification bottle, and the air entering the purification bottle 221 is filtered and sterilized in the sterilization solution 222 sequentially through the first-stage sterilization component 223 and the second-stage sterilization component 224, then sequentially passes through the separation device 230 and the adjusting device 240, and then is input into the body 100.

Preferably, the sterilizing solution 222 is alcohol with a volume ratio of at least 60%, and the alcohol completely soaks the primary sterilizing component 223 and the secondary sterilizing component 224, and the bacteria and toxic gases in the air can be completely killed in the alcohol with 60% after entering the chamber 10. Meanwhile, the primary sterilization component 223 comprises a plurality of air bubble stones which can be stacked and staggered, and the air bubble stones can roughly filter impurities and germs in the air. The second grade sterilization component 224 comprises a plurality of stacked filter sheets, the filter sheets are perpendicular to the axis of the purification bottle 221, and then the second grade sterilization component 224 can finely filter micro particles and micro germs in the air, and simultaneously, the second grade sterilization component is completely surrounded by alcohol solution in the air bubble stones and the filter sheets, and the air bubble stones and the filter sheets can also kill germs and viruses in the air, so that the germs and the viruses in the air can be completely killed, and the purity of the outflow gas is ensured.

A water return port 227 communicating with a separation return pipe 233 of the separation device 230 is provided at the outlet end of the purification bottle 221 for receiving the water droplets discharged from the separation device 230. The water return opening 227 is formed through the thicknesses of the purification bottle 221 and the second support ring 226 and is located at a position higher than the uppermost end surface of the sterilizing solution 222. The filtered and sterilized gas containing moisture enters the separation device 230, the dried gas flows out from the outlet of the purification bottle 221 to the regulating device 240, the water droplet liquid flows through the separation return pipe 233 and then returns to the purification bottle 221 through the water return port 227, the purified water droplet liquid and the sterilized gas which return to the purification bottle 221 are integrated into the purification bottle 221, and then the purified water droplet liquid and the sterilized gas enter the separation bottle 231 through the purification outlet pipe 228 for circulation and separation.

In order to further ensure the stability of the placement of the primary sterilization component 223 and the secondary sterilization component 224, a first support ring 225 for supporting the primary sterilization component 223 is disposed near the inlet end of the purification bottle 221, and a second support ring 226 for clamping and fixing the secondary sterilization component 224 is disposed near the outlet end of the purification bottle 221. The purified air passes through the purified outlet air pipe 228 directly into the separation device 230.

The separating device 230 includes an empty purifying bottle 221, the purified gas cannot be discharged through the purifying bottle 221 with the air flow because it contains a part of water vapor, and then when the water droplets with water vapor enter the empty purifying bottle 221, the temperature is suddenly reduced, and the water droplets are gathered and remained on the inner wall of the purifying bottle 221, and the water droplets move down along the inner wall of the purifying bottle 221 to the lower end surface of the purifying bottle 221 and then gather, and then pass through the separation return pipe 233 to the inside of the purifying bottle 221.

As shown in fig. 6 to 7, the adjusting device 240 includes a heat dissipating box 241, a vent pipe 242, a drying agent 243, a cooling sheet 244 and a heating sheet 245 are disposed in the heat dissipating box 241 for communicating with the separating device 230, the drying agent 243, the cooling sheet 244 and the heating sheet 245 are independently controlled and disposed in the heat dissipating box 241, and the vent pipe 242 is disposed around the drying agent 243, the cooling sheet 244 and the heating sheet 245; and the drying agent 243, the cooling fins 244 and the heating fins 245 are arranged side by side in the width direction of the heat-radiating case 241. The drying agent 243 is arranged close to one side of the air outlet of the heat radiation box body 241; the heating plate 245 is arranged close to one side of the air inlet of the heat radiation box body 241; the cooling fins 244 are disposed between the drying agent 243 and the heating fins 245. Of course, a conditioner integrating drying, cooling and heating can be selected as long as the requirement of automatically adjusting the temperature of the air flow is met. Since the gas discharged from the separator 230 is not always completely dried, a drying agent 243 needs to be further provided in the conditioner 240 for drying. Further, the wearer can select the air flow with lower temperature or the air flow with higher temperature to enter the inner side of the body 100 according to the requirement, and the control button in the adjustable adjusting device 240 controls the drying agent 243, the refrigerating sheet 244 and the heating sheet 245 to adjust the air flow entering the body 100 to meet the requirement of the body temperature; meanwhile, the dry air flow can ensure that the goggles in the body 100 are not fogged, the visual effect of medical personnel is improved, and the comfort of wearing the virus protective clothing is further improved.

When necessary, the upper section 110 and the lower section 120 are worn and connected together, and the air supply system 200 is worn on the back and connected to the main body 100. Opening the battery 212 and the air pump 211 in the suction device 210 to start sucking air; the air in the suction device 210 flows into the purification device 220 through the air pump exhaust pipe 213, and is continuously sterilized and disinfected in the sterilization solution 222 through the first-stage sterilization component 223 and the second-stage sterilization component 224 in sequence; the sterilized gas slightly contains moisture, and enters the separation device 230 for separation through the purification outlet pipe 228, the separation device 230 discharges dry air into the adjusting device 240 through the separation outlet pipe 232, the water droplet liquid returns to the purification bottle 221 through the separation return pipe 233, and the purified water droplet liquid and the sterilized gas are integrally converged into the purification bottle 221 and then enter the separation bottle 231 through the purification outlet pipe 228 for circular separation; the separated gas enters the ventilation pipe 240 of the adjusting device 240 through the separation outlet pipe 232, and the desiccant 243, the refrigeration sheet 244 or the heating sheet 245 of the adjusting device 240 are adjusted to adjust the temperature of the airflow in the adjusting device 240 to enter the body 100 to meet the requirements of human bodies. In operation, the wearer can also provide physical or nutritional supplements via the sleeve 180 on the front of the upper section 110.

The utility model discloses a multi-functional virus killing's protective clothing not only easily dresses and repetitious usage, guarantees that medical personnel inspiratory air be clean aseptic other, still can adjust cold and hot temperature simultaneously in order to adapt to human demand to make the visual effect of goggles not influenced the impression by the steam of exhalation, provide one can the free activity, comfortable and aseptic protective clothing uses for medical personnel, the practicality is strong and easily production.

The embodiments of the present invention have been described in detail, and the description is only for the preferred embodiments of the present invention, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims

1. The protective clothing capable of killing viruses is characterized by comprising a body, wherein an air supply system used for introducing disinfected and purified air to the inner side of the body is arranged at the back of the outer side of the body, the body is provided with an air supply opening communicated with the air supply system and an exhaust opening used for exhausting the air in the inner side of the body, and the air disinfected and purified by the air supply system enters the inner side of the body through the air supply opening and is exhausted from the exhaust opening to form a circulating airflow channel; the body includes:

2. The protective clothing capable of killing virus according to claim 1, wherein the air supply opening is arranged on the back of the upper section part on the side close to the air outlet of the air supply system; the exhaust port is arranged on the outer side surface of the lower section part.

3. The protective garment according to claim 1 or 2, wherein said upper portion has at least one closed sleeve extending inwardly therefrom, said sleeve being integrally connected to said upper portion.

4. The virus-killing protective garment as claimed in claim 1, wherein said air supply system comprises:

an inhalation device for inhaling air;

the suction device is communicated with air;

the adjustment device is in communication with the body.

5. A protective garment as claimed in claim 4, characterised in that said cleaning means comprises a cleaning bottle containing a sterilising solution;

6. A protective garment as claimed in claim 5, characterised in that the bactericidal solution is at least 60% alcohol by volume;

the primary sterilization component comprises a plurality of air stones;

7. A protective garment as claimed in claim 5 or 6, characterised in that a separator is provided between the cleaning means and the conditioning means for absorbing and separating clean gas from the cleaning means, the separated gas flowing into the conditioning means;

8. The protective clothing capable of killing viruses as claimed in claim 7, wherein said adjusting means comprises a heat dissipating case, a ventilation tube, a desiccant, a cooling sheet and a heating sheet are disposed in said heat dissipating case, said ventilation tube is disposed around said cooling sheet and said heating sheet; the drying agent, the refrigeration piece with the heating plate is followed side by side the radiator box width direction sets up.

9. A virucidal garment as claimed in claim 8, wherein said refrigeration pill is located between said desiccant and said heating pill; the drying agent is arranged close to one side of the air outlet of the heat dissipation box body; the heating plate is close to one side of the air inlet of the heat dissipation box body.