CN115429564B

CN115429564B - Negative ion air purification separation type isolation sickbed based on AR technology

Info

Publication number: CN115429564B
Application number: CN202110656561.7A
Authority: CN
Inventors: 叶才青; 肖坤坚
Original assignee: Hunan Kuangchu Technology Co ltd
Current assignee: Hunan Kuangchu Technology Co ltd
Priority date: 2021-06-11
Filing date: 2021-06-11
Publication date: 2024-04-12
Anticipated expiration: 2041-06-11
Also published as: CN115429564A

Abstract

The invention discloses an AR technology-based negative ion air purification separation type isolation sickbed which comprises a side shrinkage chamber, a connecting slideway, an isolation bed moving wheel, a side electric sliding rod, an upper electric sliding rod, an air purification device, a negative ion air purifier, a temperature reduction chamber, a temperature sensor, a controller, an air quality sensor, an upper AR display, a side AR display, a separation sickbed, a bottom support, a telescopic table, a telescopic mechanism, a front end turnover mechanism I, a front end turnover mechanism II, a rear end turnover mechanism, a connecting block, a base, an emergency bag, a storage battery and a separation sickbed moving wheel. The invention is based on AR augmented reality technology and photo-hydrogen ion air purification technology, achieves the effect of safely isolating infectious patients, achieves the purposes of efficiently purifying air, efficiently utilizing isolated space and improving patient isolation environment, and simultaneously achieves the purposes of conveniently transferring patients with different body types and in a small space range by the telescopic and turnover structure arranged at the bottom of the separated sickbed.

Description

Negative ion air purification separation type isolation sickbed based on AR technology

Technical Field

The invention relates to the medical field, in particular to an anion air purification separation type isolation sickbed based on an AR technology.

Background

Infectious diseases are a group of diseases caused by a variety of pathogens that can be transmitted to each other from person to person, from animal to animal, or from person to animal. Typically, such diseases may be transmitted by direct contact with infected individuals, infected individuals' body fluids and excretions, contaminated objects by infected individuals, through air transmission, water transmission, food transmission, contact transmission, soil transmission, vertical transmission, and the like.

When such infectious diseases transmitted by air, saliva, or the like occur, hospitals need to take care of patients in isolation. However, when such infectious diseases occur in large quantities in a concentrated manner, hospitals do not have enough room to isolate the infectious patients for post-treatment, and hospital personnel are more, which can easily cause further worsening of the spread of such infectious diseases.

In view of this, it is necessary to invent a small isolation room that can be adapted to hospital reception of infectious patients.

Disclosure of Invention

In order to solve the technical problems, the invention provides an AR technology-based negative ion air purification separation type isolation sickbed which can be suitable for a small isolation room for hospital to take care of infectious patients so as to solve the problems in the background technology.

The utility model provides a negative ion air purification separation formula isolation sick bed based on AR technique, this sick bed includes that side shrink room, connection slide way, isolation bed remove round, side electronic slide bar, go up electronic slide bar, air purification device, negative ion air purifier, the room that falls down, temperature-sensing ware, a controller, air quality sensor, go up AR display, side AR display, separation sick bed, bottom sprag, flexible platform, telescopic machanism, front end tilting machanism one, front end tilting machanism two, rear end tilting machanism, the connecting block, the base, first aid kit, the battery, separation sick bed remove round;

the inner side surface of the side surface contraction chamber is fixedly provided with a connecting slideway; the bottom of the side shrinkage chamber is provided with an isolation bed moving wheel; the upper part of the side shrinkage chamber is fixedly provided with a side electric slide bar; the side surface of the side electric slide bar is fixedly connected with an upper electric slide bar; an air purifying device is arranged at the lower side of the upper electric slide bar; the side surface of the air purifying device is connected with an anion air purifier; the side surface of the negative ion air purifier is fixedly provided with a cooling chamber; a temperature sensor is arranged between the negative ion air purifier and the cooling chamber; a controller is arranged on the right side of the temperature sensor; an air quality sensor is arranged at the rightmost side of the cooling chamber; an upper AR display is fixedly arranged on the upper part of the side electric slide bar; the lower part of the side electric slide bar is provided with a side AR display; the separated sickbed is connected with the connecting slide way through the telescopic tables at the two sides; the bottom of the separation sickbed is fixedly provided with a bottom support; the bottom of the separation sickbed is fixedly connected with a connecting block;

the side surface of the connecting block is fixedly provided with a telescopic mechanism; the bottom of the separation sickbed is fixedly provided with a front end turnover mechanism I; one side surface of the front end overturning mechanism is meshed with the front end overturning mechanism II; the rear end overturning mechanism is fixedly arranged at the rear side of the bottom of the separation sickbed; the bottom of the rear end turnover mechanism is fixedly connected to the upper part of the base; the upper part of the base is provided with an emergency kit and a storage battery; the bottom of the base is fixedly provided with a separating sickbed moving wheel.

Preferably, the air inlet purification device comprises an inlet air suction pump, an active carbon filter screen, catalytic equipment and an outlet air suction pump; the leftmost side of the air inlet purification device is provided with an inlet air suction pump; an active carbon filter screen is arranged on the right side of the inlet induced draft pump; the right side of the active carbon filter screen is provided with catalytic equipment; the right side of the catalytic equipment is provided with an outlet induced draft pump.

The catalytic device comprises an ultraviolet lamp and a honeycomb net; an ultraviolet lamp is arranged in the catalytic equipment; the right side of the ultraviolet lamp is provided with a honeycomb net.

Preferably, the upper AR display is a four-stage sliding screen, and the upper AR display is made of a PCB display; the upper AR display is internally provided with an AR sensor, wireless transmission equipment, a processor and the like.

Preferably, the cooling chamber comprises a cooling motor and a cooling fan; cooling motors are symmetrically arranged on the upper side and the lower side of the cooling chamber; the lower part of the cooling motor is connected with a cooling fan; the cooling motor is connected with the inside of the controller through a circuit.

Preferably, the controller is a CPU processor; the air quality sensor is an FS4001 type sensor.

Preferably, the telescopic platform comprises a handle, a connecting sliding block and a control button; the side surface of the telescopic table is fixedly connected with a handle; the upper part of the handle is provided with a control button; the side surface of the telescopic table is fixedly provided with a connecting sliding block.

Preferably, the telescopic mechanism comprises a first connecting bolt, a telescopic sliding rail, a second connecting bolt, a telescopic sliding block, a telescopic rotating shaft and a telescopic spring; the front part of the telescopic mechanism is provided with a first connecting bolt; the bottom of the telescopic mechanism is provided with a telescopic sliding rail; the rear part of the telescopic slide rail is provided with a second connecting bolt; the inner side of the telescopic sliding rail is provided with a telescopic sliding block; the side surface of the telescopic sliding block is fixedly connected with a telescopic rotating shaft; the side face of the telescopic sliding block is provided with a telescopic spring.

Preferably, the front end turnover mechanism I comprises a lifting rail and a lifting rotating wheel; the upper part of the front end turnover mechanism is connected with a lifting rail in a sliding way; the upper part of the lifting rail is connected with a lifting rotating wheel.

Preferably, the front end turnover mechanism II comprises a wireless connector, a lifting rotating shaft, a steering gear and a fixed bracket; the front end turnover mechanism II is a small motor; the wireless connector is arranged on the two side surfaces of the front end turnover mechanism; the front part of the front end turnover mechanism II is connected with a lifting rotating shaft; the upper part of the lifting rotating shaft is provided with a steering shaft; a steering gear is fixedly arranged in the steering shaft; the bottom of the front end turnover mechanism II is fixedly connected with a fixed bracket.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the separation sickbed and the isolation chamber are connected together through the connecting slide way arranged on the side surface of the side surface contraction chamber and the connecting slide block fixedly arranged on the side surface of the telescopic table, so that the separation type sickbed is used separately, and the patient is transported by medical staff conveniently.

2. The telescopic table and the telescopic mechanism are arranged at the bottom of the separation sickbed, so that the size of the separation sickbed in the width direction can be changed, and the size of the separation sickbed can be conveniently adjusted by medical staff according to the body shape and the conveying environment of a patient.

3. The bottom of the separation sickbed is connected with the turnover mechanism, so that the possibility of transporting patients such as an elevator in a small space range of the separation sickbed is realized.

4. The invention is based on the existing sickbed, and patients in the sickbed are sealed and isolated through the contraction chamber, the AR display and the electric sliding rod, so that the occupied space of each patient is minimized, and the space utilization rate is high.

5. According to the invention, the negative ion air purifier fixedly arranged on the right side of the air inlet purification device is used for further purifying the air in the isolation sickbed, so that the breathing air quality of a patient is improved.

6. The invention discloses a cooling chamber arranged on the right side of an anion air purifier, the cooling chamber comprises a cooling motor and cooling fans, the upper side and the lower side of the cooling chamber are symmetrically provided with the cooling motor, the lower part of the cooling motor is connected with the cooling fans to cool cleaned air to a temperature suitable for breathing of a patient, and the breathing comfort level of the patient is improved.

7. According to the invention, through the temperature sensor arranged between the anion air purifier and the cooling chamber, the controller is arranged on the right side of the temperature sensor, the controller is a CPU processor, and the air quality sensor is arranged on the rightmost side of the cooling chamber, so that the effect of automatic operation of a sickbed is realized.

8. According to the invention, the patient is placed in a narrow isolation space of a sickbed, and although the space is saved, the patient possibly gets a sense of depression, and the treatment of the patient is inconvenient, so that the virtual world is sleeved in the real world and interacted through the PCB display based on the AR augmented reality technology, and the sense organ experience exceeding the reality is achieved. Thus, the patient can be placed in the favorite environment according to the needs without being limited to the narrow space of the sickbed, and the mood of the patient is relieved.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of an air cleaning apparatus of the present invention.

Fig. 3 is a schematic representation of the use of the present invention.

Fig. 4 is a schematic view of the split hospital bed structure of the present invention.

Fig. 5 is a schematic diagram of the structure of the separation sickbed when the separation sickbed is turned over for use.

Fig. 6 is a schematic structural view of the telescopic mechanism of the present invention.

Fig. 7 is a schematic structural view of the turnover mechanism of the present invention.

In the figure:

1. a side constrictor chamber; 2. the connecting slide way; 3. an isolation bed moving wheel; 4. a side electric slide bar; 5. an upper electric slide bar; 6. an air purifying device; 7. an anion air purifier; 8. a temperature reducing chamber; 9. a temperature sensor; 10. a controller; 11. an air quality sensor; 12. an upper AR display; 13. a side AR display; 14. separating the sickbed; 15. a bottom support; 16. a telescoping table; 17. a telescoping mechanism; 18. a front end turnover mechanism I; 19. a front end turnover mechanism II; 20. a rear end turnover mechanism; 21. a connecting block; 22. a base; 23. first-aid kit; 24. a storage battery; 25. separating a sickbed moving wheel; 61. an inlet suction pump; 62. an active carbon filter screen; 63. a catalytic device; 64. an outlet suction pump; 631. an ultraviolet lamp; 632. a cellular network; 81. a cooling motor; 82. a cooling fan; 161. a handle; 162. the connecting slide block; 163. a control button; 171. a first connecting bolt; 172. a telescopic slide rail; 173. a second connecting bolt; 174. a telescopic slide block; 175. a telescopic rotating shaft; 176. a telescopic spring; 181. lifting rails; 182. lifting rotating wheels; 191. a wireless connector; 192. a lifting rotating shaft; 193. a steering shaft; 194. a steering gear; 195. and (5) fixing the bracket.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

examples:

as shown in fig. 1 to 7, the invention provides an anion air purification separation type isolation sickbed based on an AR technology, which comprises a side shrinkage chamber 1, a connecting slideway 2, an isolation bed moving wheel 3, a side electric sliding rod 4, an upper electric sliding rod 5, an air purification device 6, an anion air purifier 7, a cooling chamber 8, a temperature sensor 9, a controller 10, an air quality sensor 11, an upper AR display 12, a side AR display 13, a separation sickbed 14, a bottom support 15, a telescopic table 16, a telescopic mechanism 17, a front end overturning mechanism 18, a front end overturning mechanism 19, a rear end overturning mechanism 20, a connecting block 21, a base 22, a first-aid kit 23, a storage battery 24 and a separation sickbed moving wheel 25;

the inner side surface of the side surface contraction chamber 1 is fixedly provided with a connecting slideway 2; the bottom of the side shrinkage chamber 1 is provided with an isolation bed moving wheel 3; the upper part of the side shrinkage chamber 1 is fixedly provided with a side electric slide bar 4; the side surface of the side electric slide bar 4 is fixedly connected with an upper electric slide bar 5; an air purifying device 6 is arranged at the lower side of the upper electric slide bar 5; the side surface of the air purification device 6 is connected with an anion air purifier 7; the side surface of the negative ion air purifier 7 is fixedly provided with a cooling chamber 8; a temperature sensor 9 is arranged between the negative ion air purifier 7 and the cooling chamber 8; a controller 10 is arranged on the right side of the temperature sensor 9; an air quality sensor 11 is arranged at the rightmost side of the cooling chamber 8; an upper AR display 12 is fixedly arranged on the upper part of the side electric slide bar 4; the lower part of the side electric slide bar 4 is provided with a side surface AR display 13; the separation sickbed 14 is connected with the connecting slideway 2 through telescopic tables 16 at two sides; the bottom of the separation sickbed 14 is fixedly provided with a bottom support 15; the bottom of the separation sickbed 14 is fixedly connected with a connecting block 21;

the side surface of the connecting block 21 is fixedly provided with a telescopic mechanism 17; the bottom of the separation sickbed 14 is fixedly provided with a front end turnover mechanism I18; the side surface of the first front end turnover mechanism 18 is meshed with the second front end turnover mechanism 19; the rear end turnover mechanism 20 is fixedly arranged at the rear side of the bottom of the separation sickbed 14; the bottom of the rear end turnover mechanism 20 is fixedly connected to the upper part of the base 22; the upper part of the base 22 is provided with an emergency kit 23 and a storage battery 24; the bottom of the base 22 is fixedly provided with a separating sickbed moving wheel 25.

As shown in fig. 2, in the foregoing embodiment, specifically, the air intake purifying device 6 includes an inlet air suction pump 61, an activated carbon filter screen 62, a catalytic apparatus 63, and an outlet air suction pump 64; the leftmost side of the air inlet purification device 6 is provided with an inlet air suction pump 61; an activated carbon filter screen 62 is arranged on the right side of the inlet induced draft pump 61; the right side of the active carbon filter screen 62 is provided with a catalytic device 63; an outlet suction pump 64 is arranged on the right side of the catalytic equipment 63.

In the above embodiment, specifically, the catalytic apparatus 63 includes the ultraviolet lamp 631 and the honeycomb net 632; an ultraviolet lamp 631 is arranged inside the catalytic equipment 63; the right side of the ultraviolet lamp 631 is provided with a honeycomb net 632.

As shown in fig. 1 to 3, in the above embodiment, specifically, the upper AR display 12 is a four-stage sliding screen, and the material thereof is a PCB display; the upper AR display 12 is internally provided with an AR sensor, a wireless transmission device, a processor, and the like.

As shown in fig. 2, in the foregoing embodiment, specifically, the cooling chamber 8 includes a cooling motor 81 and a cooling fan 82; the upper side and the lower side of the cooling chamber 8 are symmetrically provided with cooling motors 81; the lower part of the cooling motor 81 is connected with a cooling fan 82; the cooling motor 81 is connected with the inside of the controller 10 through a circuit.

As shown in fig. 1 to 3, in the above embodiment, specifically, the controller 10 is a CPU processor; the air quality sensor 11 is an FS4001 type sensor.

As shown in fig. 4 to 5, in the above embodiment, specifically, the telescopic table 16 includes a handle 161, a connecting slider 162, and a control button 163; the side surface of the telescopic table 16 is fixedly connected with a handle 161; a control button 163 is arranged at the upper part of the handle 161; the side surface of the telescopic table 16 is fixedly provided with a connecting sliding block 162.

As shown in fig. 4 to 5, in the above embodiment, specifically, the telescopic mechanism 17 includes a first connecting bolt 171, a telescopic sliding rail 172, a second connecting bolt 173, a telescopic sliding block 174, a telescopic rotating shaft 175, and a telescopic spring 176; the front part of the telescopic mechanism 17 is provided with a first connecting bolt 171; the bottom of the telescopic mechanism 17 is provided with a telescopic sliding rail 172; the rear part of the telescopic slide rail 172 is provided with a second connecting bolt 173; a telescopic sliding block 174 is arranged on the inner side of the telescopic sliding rail 172; the side surface of the telescopic sliding block 174 is fixedly connected with a telescopic rotating shaft 175; the telescopic slider 174 is provided with a telescopic spring 176 on the side.

As shown in fig. 4 to 7, in the foregoing embodiment, specifically, the front end turnover mechanism 18 includes a lifting rail 181 and a lifting wheel 182; the upper part of the front end turnover mechanism I18 is connected with a lifting rail 181 in a sliding way; the upper part of the lifting rail 181 is connected with a lifting rotating wheel 182.

In the above embodiment, specifically, the second front end tilting mechanism 19 includes a wireless connector 191, a lifting shaft 192, a steering shaft 193, a steering gear 194, and a fixing bracket 195; the front end turnover mechanism II 19 is a small motor; the side surface of the front end turnover mechanism II 19 is provided with a wireless connector 191; the front part of the front end turnover mechanism II 19 is connected with a lifting rotating shaft 192; a steering shaft 193 is arranged at the upper part of the lifting rotating shaft 192; a steering gear 194 is fixedly arranged in the steering shaft 193; the bottom of the front end turnover mechanism II 19 is fixedly connected with a fixed bracket 195.

Principle of operation

An AR technology-based negative ion air purification separation type isolation sickbed is based on an AR augmented reality technology and a photo-hydrogen ion air purification technology, achieves the effect of safely isolating an infectious patient, achieves the purposes of efficient air purification, efficient isolation space utilization and improvement of patient isolation environment, and meanwhile achieves convenient transportation of the patient.

The infectious patient is moved to the ward through the separating sickbed 14, and the separating sickbed 14 and the isolation room are connected together by the connecting slide way 2 arranged at the side of the side contraction room 1 and the connecting slide block 162 fixedly arranged at the side of the telescopic table 16.

When a patient is transported by the separation sickbed 14, the telescopic tables 16 on two sides can be stretched out from the bottom of the separation sickbed 14 through the telescopic mechanism 17 so as to adapt to the body shape of the patient; meanwhile, the separated sickbed 14 is turned over by the front end turning mechanism I18, the front end turning mechanism II 19 and the rear end turning mechanism 20, so that the possibility of transporting the patient in a small space range such as an elevator is met.

When the separating sickbed 14 is connected with the isolation chamber, the device is started, the AR display in the side contraction chamber 1 is unfolded upwards along the four-stage sliding rail on the side surface of the side electric sliding rod 4, and the upper AR display 12 is unfolded laterally through the four-stage sliding rail on the side surface of the upper electric sliding rod 5, so that the sealed isolation sickbed is formed.

At the same time, the air purifying device 6 starts to start, and the air in and out is filtered and disinfected. The photocatalysis medium made of ultraviolet generating tube of 100nm-300nm and special high molecular material is used to generate ion, electron, low concentration oxygen ion, hydrogen peroxide, hydroxyl free radical and a large amount of negative ion. Can effectively kill various bacteria and viruses in the air, oxidize and decompose toxic and harmful gases in the air, the nanometer photo-hydrogen ion technology reduces air pollution through the super strong decomposing capability of various oxidants, degrades smoke, mold, TVOC chemical odor and offensive odor, removes bacteria, viruses, degrading particles and the like, and the super strong air is purified, so that the reduction of bacteria, viruses and mold in the air is generally more than 98 percent.

The air purification process comprises the steps that outdoor air is sucked by an air purification device 6, granular dust is adsorbed when the air passes through a first layer of active carbon filter screen 62 and then enters a second layer of filter device, when the polluted air enters a catalytic device 63, an ultraviolet lamp 631 starts working light beams to irradiate the polluted air, and molecular chain structures of the polluted air such as ammonia, trimethylamine, hydrogen sulfide, methylthio and the like are cracked, so that organic or inorganic high molecular malodorous compound molecular chains are degraded and converted into low molecular compounds such as CO2, H2O and the like under the irradiation of ultraviolet light beams. The UV light beam is utilized to decompose oxygen molecules in the air to generate free oxygen, namely active oxygen, and the free oxygen needs to be combined with the oxygen molecules due to unbalance of positive and negative electrons carried by the free oxygen, so that ozone is generated. Ozone has very strong oxidation effect on organic matters and has very good removal effect on polluted air and other pungent peculiar smell. The device utilizes ultraviolet light beams and ozone to carry out synergistic decomposition oxidation reaction on the polluted air, so that the polluted air substances are degraded and converted into low molecular compounds, water and carbon dioxide, and the low molecular compounds, the water and the carbon dioxide enter the sickbed isolation chamber through the outlet induced draft pump 64. Then, air is further purified by the negative ion air purifier 7 fixedly arranged on the right side of the air purifying device 6, meanwhile, the temperature sensor 9 detects air temperature data and transmits the data to the controller 10 for analysis, and when the temperature exceeds a normal value, the cooling motor 81 in the cooling chamber 8 is controlled to start to work, and the air is physically cooled by the cooling fan 82. The air quality is automatically detected when the purified air passes through the temperature sensor 9.

When the device is used, a patient can start the AR device, and select a proper scene to cover the virtual world in the real world through the AR display 12 and the side AR display 13 above the AR device and interact, so that a sense experience exceeding reality is achieved. Thus, the patient can be placed in the favorite environment according to the needs without being limited to the narrow space of the sickbed, and the mood of the patient is relieved.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An AR technology-based negative ion air purification separation type isolation sickbed is characterized by comprising a side shrinkage chamber (1), a connecting slideway (2), an isolation bed moving wheel (3), a side electric sliding rod (4), an upper electric sliding rod (5), an air purification device (6), a negative ion air purifier (7), a cooling chamber (8), a temperature sensor (9), a controller (10), an air quality sensor (11), an upper AR display (12), a side AR display (13), a separation sickbed (14), a bottom support (15), a telescopic table (16), a telescopic mechanism (17), a front end overturning mechanism I (18), a front end overturning mechanism II (19), a rear end overturning mechanism II (20), a connecting block (21), a base (22), an emergency bag (23), a storage battery (24) and a separation sickbed moving wheel (25);

the inner side surface of the side surface contraction chamber (1) is fixedly provided with a connecting slideway (2); the bottom of the side shrinkage chamber (1) is provided with an isolation bed moving wheel (3); the upper part of the side shrinkage chamber (1) is fixedly provided with a side electric slide bar (4); the side surface of the side electric sliding rod (4) is fixedly connected with an upper electric sliding rod (5); an air purifying device (6) is arranged at the lower side of the upper electric slide bar (5); the side surface of the air purifying device (6) is connected with an anion air purifier (7); the side surface of the negative ion air purifier (7) is fixedly provided with a cooling chamber (8); a temperature sensor (9) is arranged between the negative ion air purifier (7) and the cooling chamber (8); a controller (10) is arranged on the right side of the temperature sensor (9); an air quality sensor (11) is arranged at the rightmost side of the cooling chamber (8); an upper AR display (12) is fixedly arranged at the upper part of the side electric slide bar (4); the lower part of the side electric slide bar (4) is provided with a side surface AR display (13); the separation sickbed (14) is connected with the connecting slideway (2) through telescopic tables (16) at two sides; the bottom of the separation sickbed (14) is fixedly provided with a bottom support (15); the bottom of the separation sickbed (14) is fixedly connected with a connecting block (21);

the side surface of the connecting block (21) is fixedly provided with a telescopic mechanism (17); the bottom of the separation sickbed (14) is fixedly provided with a front end turnover mechanism I (18); the side surface of the front end turnover mechanism I (18) is meshed with the front end turnover mechanism II (19); the rear end overturning mechanism (20) is fixedly arranged at the rear side of the bottom of the separation sickbed (14); the bottom of the rear end turnover mechanism (20) is fixedly connected to the upper part of the base (22); the upper part of the base (22) is provided with an emergency kit (23) and a storage battery (24); a separation sickbed moving wheel (25) is fixedly arranged at the bottom of the base (22);

the air purification device (6) comprises an inlet air suction pump (61), an active carbon filter screen (62), catalytic equipment (63) and an outlet air suction pump (64); the leftmost side of the air inlet purification device (6) is provided with an inlet air suction pump (61); an active carbon filter screen (62) is arranged on the right side of the inlet induced draft pump (61); the right side of the active carbon filter screen (62) is provided with a catalytic device (63); an outlet induced draft pump (64) is arranged on the right side of the catalytic equipment (63);

the catalytic device (63) comprises an ultraviolet lamp (631) and a honeycomb net (632); an ultraviolet lamp (631) is arranged in the catalytic equipment (63); the right side of the ultraviolet lamp (631) is provided with a honeycomb net (632);

the upper AR display (12) is a four-stage sliding screen, and is made of a PCB display; an AR sensor, wireless transmission equipment and a processor are arranged in the upper AR display (12);

the cooling chamber (8) comprises a cooling motor (81) and a cooling fan (82); the upper side and the lower side of the cooling chamber (8) are symmetrically provided with cooling motors (81); the lower part of the cooling motor (81) is connected with a cooling fan (82); the cooling motor (81) is connected with the inside of the controller (10) through a circuit;

the controller (10) is a CPU processor; the air quality sensor (11) is an FS4001 type sensor.

2. The AR technology-based anion air purification separation type isolation hospital bed according to claim 1, wherein: the telescopic platform (16) comprises a handle (161), a connecting sliding block (162) and a control button (163); a handle (161) is fixedly connected to the side surface of the telescopic table (16); a control button (163) is arranged at the upper part of the handle (161); a connecting sliding block (162) is fixedly arranged on the side surface of the telescopic table (16);

the telescopic mechanism (17) comprises a first connecting bolt (171), a telescopic sliding rail (172), a second connecting bolt (173), a telescopic sliding block (174), a telescopic rotating shaft (175) and a telescopic spring (176); the front part of the telescopic mechanism (17) is provided with a first connecting bolt (171); a telescopic sliding rail (172) is arranged at the bottom of the telescopic mechanism (17); the rear part of the telescopic slide rail (172) is provided with a second connecting bolt (173); a telescopic sliding block (174) is arranged on the inner side of the telescopic sliding rail (172); the side surface of the telescopic sliding block (174) is fixedly connected with a telescopic rotating shaft (175); the side surface of the telescopic sliding block (174) is provided with a telescopic spring (176);

the front end turnover mechanism I (18) comprises a lifting rail (181) and a lifting rotating wheel (182); the upper part of the front end turnover mechanism I (18) is connected with a lifting rail (181) in a sliding way; the upper part of the lifting rail (181) is connected with a lifting rotating wheel (182);

the front end turnover mechanism II (19) comprises a wireless connector (191), a lifting rotating shaft (192), a steering shaft (193), a steering gear (194) and a fixed bracket (195); the front end turnover mechanism II (19) is a small motor; the side surface of the front end turnover mechanism II (19) is provided with a wireless connector (191); the front part of the front end turnover mechanism II (19) is connected with a lifting rotating shaft (192); a steering shaft (193) is arranged at the upper part of the lifting rotating shaft (192); a steering gear (194) is fixedly arranged in the steering shaft (193); the bottom of the front end turnover mechanism II (19) is fixedly connected with a fixed bracket (195).