Houston automatic entrances are engineered specifically for healthcare applications. For example, Houston automatic doors can be an integral part of the Special Emphasis Program for Infection Control (SEPIC) guidelines. SEPIC addresses ways to prevent airborne or droplet transmission of infections in hospitals, long-term acute care facilities and skilled nursing facilities. These guidelines help protect patients, nurses and visitors by preventing them from being infected with harmful disease.
An isolation room can be a sealed space where a person with a contagious disease is kept separate from the rest of the population. The goal is to prevent the infected individual from infecting others. Isolation rooms can be divided into two categories: positive pressure and negative pressure. Both types of isolation rooms use air flow to regulate how much air is released from the room. But this air flow moves in opposite directions and is important in preventing the spread of certain diseases.
An isolation room is a special place that requires special ventilation to protect the patient and healthcare workers from germs. If you are in an isolation room, you might notice a machine near the door or window. This machine helps move air inside the room. The air will flow across surfaces of the room, picking up germs and bringing them back to the filters where they are removed from the air before it enters the rest of the hospital. An isolation room is a place where patients who have a contagious illness can be treated safely. There are two types of Isolation rooms Negative air pressure and Positive air pressure rooms.
Air pressure is defined as the weight of the air within a given area. When you are in a high altitude, you have less air pressure. When you are beneath water, there is more pressure on your body. We’re used to air being at sea level having equal weight or normal atmospheric pressure. The term positive refers to the amount of force that air has on the people within the room. Positive air pressure rooms are used to help people with weakened immune systems.
The most economical and widely used method of controlling airborne transmission of infectious organisms in clinical facilities is to maintain the internal air pressure in a room at essentially the same as ambient air pressure. This conditions the room air to approximate that in the external environment and vents the airborne contaminants outside through dilution, diffusion or exhaustion. It also prevents contaminated air from moving out of the room and infecting adjacent rooms. However, if personnel wear infected respiratory protection equipment in a Class S room without air movement, this limits dilution and exhaust and thus increases the chance of contaminated materials becoming airborne and carried into other parts of a facility.
An isolation room may use negative air pressure with or without a HEPA that uses suction, but it is used for the most contagious of illnesses. If you are inside an isolation room using negative air pressure, you might hear a machine near the door or window. This is the device moving the air in the room. This will help keep germs from escaping.
An isolation room can be used as either a contagious room or as a non-contagious room. The difference between the two is that as a non-contagious room, an isolation room can be used for more than one patient at a time. A contagious room on the other hand, is only used for one patient and is more restrictive. If you are inside the room under negative air pressure with suction, you should find it very quiet and you will usually hear noises near the door and possibly see and smell something by the air filters.
Negative air pressure is used to protect people who are in isolation against airborne diseases. When someone is infected with one of these illnesses, their germs can float easily through the air until they get into another body. This process happens when you cough or sneeze for example. Usually these germs are in a fine mist that can float all around a room.
Positive air pressure rooms are created for patients who have weakened immune systems. They can also be used by people who are recovering from surgery. Positive air pressure rooms are often used in preventative medicine. It may be used to keep germs or viruses from spreading or to isolate an infected patient. This is the more commonly recognized type of isolation room. A lot of hospitals use this type of isolation room.
Positive air pressure is used to prevent the spread of infectious germs. The theory behind isolation rooms is that germs will float around in the air whether on a person or on a surface – until they land somewhere where they can latch onto something and begin to grow. When this happens, they can spread through the air and cause infection. To stop this from happening, doctors and medical staff use containment rooms with positive air pressure to keep germs from spreading throughout the area.
Positive air pressure is used to keep bacteria and viruses out of the room. One way this is done is by constantly cycling 100 percent fresh, filtered air into the room. This creates a slight vacuum inside the room. Since microorganisms are very small, they're not able to breach the seal of the room. If they do somehow enter, they're pulled back into the fresh air cycle.
An isolation room needs to pressurize with the door closed. But, trackless ICU doors, even Smoke Rated ICU doors, have a gap at the bottom which can make it difficult to maintain the right pressure.
The ICU doors, isolation rated or non isolated (standard), or standard door like, use heavy duty or standard door track. The lower part of the door is protected by the little brush-type sweep or small rubber sweep that sweeps against the top of the floor track, helping it to stay.
The bottom sweeps on isolation ICU doors need to be strong enough to keep up with the energy or force it takes for a user to initially pull the door closed, and to keep it sealed when opened and closed over and over.
“Isolation rated” means the gap at the bottom is sealed and the door is tested to ensure it meets positive and negative pressure requirements.
The bottom sweeps need to do all the work to help you keep the pressure. Typically, for an isolation rated ICU door, provides brush-type sweeps on the sliding panels . If it’s a swing-only panel , then a rubber sweep is provided.
All around the facility, Houston automatic doors systems are creating grand Revolving door entrances, hard-working interior and exterior doorways in Swing, Slide or Folding door solutions, and even drive-up convenience with pharmacy windows. Unlimited custom configurations can be planned for any of these areas to differentiate your design.
Those who want security, safety and peace of mind to include retail business establishments, schools, hospitals, libraries and airports; residence buildings; high-rise condos; underground parking structures; and office buildings. Houston automatic doors systems can be applied in all applications because these doors are reliable and energy-efficient.
Houston automatic doors is proud to be one of few companies that can serve your specific access needs. Our health care door products and services are unique because we continually strive to improve the patient experience and hospital efficiency. Houston automatic doors systems is a full service commercial door company.
Houston automatic doors has spent years partnering with hospitals and medical facilities to create solutions that not only comply with code but improve patient outcomes. We’re committed to the success of our customers.
At Houston automatic doors, we pride ourselves on offering the most comprehensive line of products and services in the industry. Our doors are frequently at the forefront of new product development, and we continually strive to offer access solutions that complement the way facilities work.