RU2765109C1 - Mobile complex for diagnostics of viruses based on a vehicle - Google Patents

Abstract

FIELD: medical technology.

SUBSTANCE: invention relates to medical technology, namely to a mobile complex for diagnosing viruses based on a vehicle. The complex includes a waiting area for patients, a diagnostic and treatment area, and a medical staff area, separated by partitions. The waiting area for patients and the area for diagnostics and treatment are made with the possibility of maintaining a constant negative pressure by the system to create negative pressure, and doorways are made in the partition separating the waiting area for patients and the area for diagnostics and treatment. The mobile complex is divided into a negative pressure box and a diagnostic box in which the diagnostic and treatment zone is located. In the box with negative pressure, containing a separate waiting area for patients, a biological material collection area and a medical staff area, a biological material study area and a corridor, separated by partitions, are additionally made. The biological material intake area and the medical staff area are additionally divided by insulating partitions into at least two cabins so that each isolated biological material intake compartment corresponds to an isolated medical staff compartment. In the partition between such cabins, there is at least one port equipped with personal protective equipment. The negative pressure box is connected to an air pump and a negative pressure system including piping, air control valves and electromechanical energy converters located at the bottom of the vehicle. The mobile complex is equipped with a dosing system for antiseptic supply, containing an antiseptic storage tank, a pump, a system of supply pipes, as well as antiseptic sprays, located at least in each cabin for the collection of biological material and each cabin of the medical staff. The diagnostic box is separated from the negative pressure box by a partition with a doorway.

EFFECT: creation of a mobile complex for diagnosing viruses based on a vehicle, in which it is possible to conduct both a study of biological material for the presence of viruses in a patient without contact of a potentially infectious patient with medical staff and other visitors, as well as other examinations, as well as constant disinfecting treatment of the premises of the mobile complex with an antiseptic.

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Description

This invention relates to diagnostic complexes, namely to mobile mobile diagnostic complexes.

Infectious diseases such as MERS, SARS, anthrax, Ebola, COVID-19 coronavirus and others are transmitted by airborne droplets, so it is difficult to find the source of infection, and also because of the high spread rate, so it is necessary to take quarantine measures even at the earliest stage of the survey. It is worth noting that most patients with confirmed cases became infected during an appointment or examination in a medical facility. In addition, the examination of infected patients by medical personnel also leads to frequent infection of healthcare workers. Recently, due to the coronavirus infection, quarantine measures have been introduced: wearing masks and maintaining social distance. Coronavirus is an infectious disease transmitted from a sick person, and in order to identify the disease, patients need to come to a hospital, clinic or first-aid post and take tests. But medical facilities are visited not only by infected patients, but also by ordinary visitors, so there is a danger of an even greater spread of infection. To prevent such a situation, the Drive Fru system is used. The vehicle is sent to the suspected area of infection for an operational survey of the population. A patient with a suspected infection gets into an arriving vehicle and is tested for the virus. At the same time, if a viral infection is detected, it is necessary to collect biological material in the conditions of separating infected patients from non-infected ones, and healthcare workers should be separated from infected patients. At present, the problem of creating a mobile vehicle for the preliminary diagnosis of a viral infection in the area where an infected patient is found to reduce the risk of spreading the infection has become acute.

A mobile isolation system with negative pressure is known (Patent KR 101649600, publication date 08/19/2016), consisting of a vehicle inside which isolation chambers are located, in which negative pressure is maintained, complex medical equipment for examining an isolated patient and a control terminal that collects each patient's medical examination data obtained from the medical equipment, which are displayed on the screen, and transmitted to the main server through the data network.

The disadvantages of this device include the fact that there is a direct contact of sick patients with each other, with medical staff and with visitors. In addition, each patient rest area is fenced off with curtains or blinds to create a private space for the patient in the ward, but such fences are difficult to wipe or wash, and this violates sanitary standards and increases the likelihood of infection, since viral bacteria can settle on them.

Also known is a vehicle for combating infectious diseases (Patent JP 2011025727, publication date 10.02.2011), in which the interior of the vehicle body is divided by partitions into a zone for medical personnel located in the front of the vehicle, a waiting area for patients in its rear parts, and a diagnostic and treatment zone for medical care in the middle part of the vehicle. In the waiting area for patients and in the area of diagnosis and treatment, negative pressure is maintained by a negative pressure system. Thus, potentially contaminated air from the above premises does not spread to the area of medical personnel and the atmosphere surrounding the vehicle, but passes through the filter system and, already cleaned, leaves the vehicle.

The disadvantages of this invention is that during the examination of an infected patient, he comes into contact with health workers and other visitors to this diagnostic complex, which increases the risk of infection, and in addition, the complexity of disinfecting the complex.

The objective of the invention is to eliminate the above disadvantages by creating a mobile complex for diagnosing viruses based on a vehicle, in which it is possible to conduct both a study of biological material for the presence of viruses in a patient without contact of a potentially infectious patient with medical staff and other visitors, and other examinations, as well as constant disinfecting treatment of the premises of the mobile complex with an antiseptic.

The problem is solved by the fact that the vehicle-based mobile complex for diagnosing viruses contains a waiting area for patients separated by partitions, a diagnostic and treatment area, and a medical staff area. A constant negative pressure is maintained in the mobile complex. The complex is divided by a partition into a box with negative pressure and a diagnostic box, which houses the diagnostic and treatment area. In a box with negative pressure, containing a waiting area for patients separated from each other, a zone for taking biological material and a zone for medical personnel, an additional zone for studying biological material and a corridor separated by partitions are made. There are doorways in the partitions. The biological material sampling area and the medical staff area are additionally divided by insulating partitions into at least two cabins in such a way that each isolated cabin for the biological material sampling corresponds to an isolated medical staff cabin, and at least one port is made in the partition between such cabins, equipped with personal protective equipment. Connected to the negative pressure box is an air pump and a system for creating negative pressure, including a pipe system, air control valves and an electromechanical energy converter located in the lower part of the vehicle. The system for creating negative pressure maintains negative pressure in the negative pressure box, namely in the separate waiting area for patients, the area for medical staff, the area for the study of biological material and the corridor and in the area for taking biological material. The partitions between the biological material sampling booth and the medical staff's booth are made of translucent material. Sealing sleeves are used as personal protective equipment in ports. This design of the box with negative pressure allows for diagnostics without contact between the patient and medical workers or patients. The mobile complex is equipped with a dosing system for antiseptic supply, containing an antiseptic storage tank, a pump, a system of supply pipes, as well as antiseptic dispensers located at least in each biological material sampling booth and each medical staff booth for disinfection of the premises.

A vehicle engine or a generator are used as electromechanical energy converters.

In the diagnostic box there is a zone for diagnostics and treatment, where the doctor interviews the visitor and collects an anamnesis, in addition, the visitor can undergo an examination and pass some types of tests.

For people with limited mobility, a mobile complex for diagnosing viruses based on a vehicle is additionally equipped with a ramp.

Based on the foregoing, it can be concluded that the totality of the essential features of the claimed invention has a causal relationship with the achieved technical result, i.e. thanks to this set of essential features of the invention, it became possible to solve the problem. Therefore, the claimed invention is new, involves an inventive step and is industrially applicable. The essence of the invention is illustrated by drawings, where:

- in Fig. 1 shows a side view of a mobile complex for diagnosing viruses based on a vehicle;

- in Fig. 2 shows a top view of a mobile complex for diagnosing viruses based on a vehicle;

- in Fig. 3 is a 3/4 view of a negative pressure box with a negative pressure system;

дозирующей системы для подачи антисептика.- in Fig. 4 shows the view

dosing system for supplying antiseptic.

Mobile complex 1 for diagnosing viruses based on a vehicle is divided by a partition 2 with a doorway 3 into box 4 with negative pressure and box 5 for diagnostics. In box 5 diagnostics zone 6 diagnostics and treatment is located. In box 4 with negative pressure, there are separate waiting area 7 for patients, a biological material collection area (not indicated in the drawing) and a medical staff area (not indicated in the drawing), an area 8 for the study of biological material and a corridor 9, separated by partitions 10, in addition, the biological material sampling area, as well as the medical staff area, are divided by insulating partitions 11 into at least two cabins in such a way that each isolated cabin 12 of biological material sampling corresponds to an isolated cabin 13 of the medical staff, and at least one port is made in the partition between such cabins 14, equipped with personal protective equipment (not shown in the drawings). Each cabin of the medical staff has a doorway (not shown in the drawing) into the corridor, which can be equipped with a door. In each booth for the collection of biological material, a doorway (not shown in the drawing) is provided with a door leading to the patient waiting area. An air intake system 15 is connected to the negative pressure box 4 to create a negative pressure, including a pipe system, air control valves and an electromechanical energy converter 16 located in the lower part of the vehicle. An air intake control valve 17 is installed in the air intake system 15 to maintain negative pressure inside the negative pressure box 4. Control valve 17 and negative pressure box 4 are connected by pipe 18, which exhausts air from box 4. Control valve 17 and control valve 19 are connected by pipe 20, through which air is pumped out of valve 17. Control valve 19 is responsible for blowing air out of the bus, which was evacuated through the control valve 17 from box 4 with negative pressure. In order to redirect the air evacuated from the negative pressure box 4 to the electromechanical energy converter 16, the pipe 20 and the electromechanical energy converter 16 are connected by a pipe 21. An air pump 22 is also connected to the negative pressure box 4 to supply fresh air.

Additionally, the mobile complex is equipped with a dosing system 23 for supplying an antiseptic, containing an antiseptic storage tank 24, a pump 25 that pumps the antiseptic from the tank 24, a system of supply pipes 26, through which the antiseptic pumped out by the pump 25 is supplied to the box 4 with negative pressure, and also sprayers 27 antiseptic, spraying antiseptic coming from a system of 26 supply tubes. These dispensers are located at least in each booth 12 for the collection of biological material and each booth 13 of the medical staff, but can also be located in other areas of the box 4 with negative pressure and in the box 5 diagnostics.

A mobile complex for diagnosing viruses based on a vehicle operates as follows.

When the air intake system 15 is started to create a negative pressure using an electromechanical energy converter 16, such as a vehicle engine or a generator, a negative pressure is maintained in the negative pressure box 4. The air intake system 15 for creating negative pressure during the operation of the electromechanical energy converter 16 opens the air intake control valve 17 and reduces the pressure in the box 4 with negative pressure. Through the pipe 18, the evacuated air first enters the air intake control valve 17 to maintain negative pressure inside the box 4 with negative pressure, and then through the pipe 20 it is fed into the pipe 21 and into the electromechanical energy converter 16 or passes through the air intake control valve 19, where it passes through the system filters (not shown in the drawing) and thrown out. At the same time, the air pump 22 supplies air from the outside to the mobile unit, so that there is fresh air in the negative pressure box. If the engine is not running, then the negative pressure generator is started using a battery (not shown in the drawings), and maintains negative pressure in box 4.

Also, the complex complies with all sanitary and hygienic standards due to the fact that an antiseptic is sprayed in the box with negative pressure, in the diagnostic box and in the passage between them, and cleanliness is maintained thanks to fresh air supplied to the boxes and diagnostic booths. The dosing system for supplying an antiseptic consists of an antiseptic storage tank 24, a pump 25 that pumps the antiseptic from the tank, a system of supply pipes 26 through which the antiseptic pumped out by the pump 25 is fed into box 4 with negative pressure into zone 8 for the study of biological material and into box 5 for diagnostics, as well as sprayers 27 of an antiseptic spraying an antiseptic coming from a pipe.

The supply tube system 26 consists of a supply pipe, from which the antiseptic enters three pipes: the first pipe is connected to the diagnostic box 5 and to the waiting area 7, the second pipe is connected to the biological material sampling area, to each isolated cabin 12 and to area 8 for research biological material, the third pipe, which is connected to the zone of the medical staff, in each isolated cabin 13. Along the three above-mentioned pipes, sprayers 27 are installed at a certain interval from each other, spraying an antiseptic. Unused antiseptic from all three pipes is returned to the tank through the return pipe.

At the same time, in the box 4 with negative pressure there is a switch (not shown in the drawing) of the dosing system for supplying an antiseptic with an ON / OFF mode, which controls the spraying of the antiseptic, which monitors the spraying of the antiseptic as needed.

Upon entering the vehicle-based mobile complex for virus diagnostics, the patient enters the negative pressure box 4, namely, the waiting area 7 for patients, where they are regularly treated with an antiseptic. Then it passes into one of the isolated booths 12 of the biological material sampling zone. The medical staff, located opposite in the isolated cabin 13 of the medical staff zone, takes biological materials through the port made in the partition between the cabin 12 for the collection of biological material and the cabin 13 of the medical staff, using personal protective equipment (for example, sealing sleeves and gloves) takes biological material. After that, the medical staff along the corridor 9 takes the taken biological material to a separately located zone 8 for the study of biological material, where the biomaterial is examined, for example, using rapid tests, to determine whether the patient is infected.

At this time, the patient leaves the bus and waits for test results in a specially designated place, for example, in a special room with a safe distance from other patients who are also waiting for test results. At this time, the isolation cabin 12 for sampling biological material is disinfected by spraying an antiseptic.

As the results of the study of the patient are ready, if he does not have any diseases dangerous to the people around him, he goes to the diagnostic box 5, namely to the diagnostic and treatment zone 6, where the patient passes through the doorway 3 in the partition 2 between box 4 with negative pressure and box 5 diagnostics. In zone 6 for diagnosis and treatment, the doctor interviews the visitor and collects an anamnesis, in addition, the patient can take other tests and undergo other studies using various medical and diagnostic equipment located in this zone. If the patient, according to the results of the study of biological material, has a disease that is dangerous for the people around him, then he is isolated and sent to the place of further treatment.

From the above, we can conclude that the effectiveness of a mobile complex for diagnosing viruses based on a vehicle lies in the fact that it becomes possible to quickly deliver this complex to the area where a case of infection was detected and prevent the spread of infection, thanks to isolated cabins for patients and medical staff, where there is no direct contact of potentially infected patients with other people, as well as due to the constant disinfection of the premises of the mobile complex for the diagnosis of viruses based on the vehicle with an antiseptic.

Claims (5)

1. A mobile complex for diagnosing viruses based on a vehicle, including a waiting area for patients separated by partitions, a diagnostic and treatment area, and a medical staff area, moreover, the patient waiting area and the diagnostic and treatment area are configured to maintain a constant negative pressure by a system for creating negative pressure, and in the partition separating the waiting area for patients and the zone of diagnostics and treatment, doorways are made, characterized in that the mobile complex is divided into a box with negative pressure and a diagnostics box, in which the diagnostics and treatment zone is located, moreover, in a box with negative pressure, containing a waiting area for patients separated from each other, a biological material sampling area and a medical staff area, an additional area for studying biological material and a corridor separated by partitions, in addition, a biological material sampling area and a medical staff area in an additional section are equipped with insulating partitions for at least two booths in such a way that each isolated booth for sampling biological material corresponds to an isolated booth for medical personnel, and in the partition between such booths there is at least one port equipped with personal protective equipment, in addition to the box with negative pressure, an air a pump and a system for creating a negative pressure, including a pipe system, air control valves and electromechanical energy converters located in the lower part of the vehicle; antiseptic dispensers located at least in each booth for sampling biological material and each booth for medical staff, and the diagnostics box is separated from the negative pressure box by a partition with a doorway. 2. A mobile complex for diagnosing viruses based on a vehicle according to claim 1, characterized in that a vehicle generator or engine is used as electromechanical energy converters. 3. A mobile complex for diagnosing viruses based on a vehicle according to claim 1, characterized in that the partitions between the cabin for collecting biological material and the cabin of the medical staff are made translucent. 4. A mobile complex for diagnosing viruses based on a vehicle according to claim 1, characterized in that sealing sleeves are used as personal protective equipment. 5. A mobile complex for diagnosing viruses based on a vehicle according to claim 1, characterized in that the complex is additionally equipped with a ramp for people with limited mobility.

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