JP2005003338A - Radiation heat combustion air cleaner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus for preventing infection disease by passing polluted air through radiation heat combustion atmosphere for detoxification. <P>SOLUTION: For a radiation heat combustion air cleaner, the heater is assembled out of ceramic board, covered with fiber series heat insulation material, and uses electricity as a heating source, which is connected to the heater. The polluted air is passed through high heating power/high temperature area for detoxification. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
In order to protect people, animals, and plants from bacteria and harmful dust, this invention is a high-degree of heat that is insulated from the air of a limited room such as a hospital or a greenhouse with a ceramic board combined with a heating element. The radiant heat combustion air purifier is passed through to sterilize and detoxify the whole room.
[0002]
[Prior art]
In the past, despite the fear of infectious diseases for hospital personnel due to medical equipment and filth from the hospital, a filter was attached to the window as a means of cleaning the air in the room and sterilized with the power of chemicals. However, there were spots and it was very dangerous because it could not cope with all the fungi.
[0003]
[Problems to be solved by the invention]
Therefore, there are various bacteria in hospitals, but even if you wear a lab coat and put on a mask to disinfect your hands and enter the hospital, the bacteria are scattered while moving and even if you temporarily disinfect the medicine However, the very dangerous thing that bacteria are taken out of the hospital has been repeated, and in fact, nosocomial infections are causing social problems for many people.
The present invention has been invented in order to meet the strong demand for protecting hospital personnel such as patients, doctors, nurses, and veterinarians from infectious diseases.
[0004]
[Means for Solving the Problems]
The radiant heat combustion air cleaner of the present invention has the following structure in order to solve the conventional drawbacks.
(B) A sterilization chamber in which air is shut off is provided, and the door is provided in double 13.
(B) A room air outlet 8 is provided on the wall of the sterilization chamber.
(C) An air circulation pipe 9 is provided at the air outlet 8.
(D) A radiant heat combustion air cleaner is provided in or in the middle of the air circulation pipe 9.
(1) The structure of the radiant heat combustion air cleaner is provided with a hole of the heating element 1 and a ventilation hole 6 in the ceramic board 2 as shown in FIG.
(2) The heating elements 1 are connected in series or in parallel between the ceramic boards 2.
(3) Pass the heating element 1 through the ceramic board 2 and connect it to the power source 4.
(4) The periphery of the air circulation pipe 9 to the radiant heat combustion air purifier and the cooling unit 11 is covered with the heat insulating material 3, and the protective material 7 is provided thereon.
{Circle around (5)} A fan 5 that draws out indoor air is provided in front of or behind this.
(E) After the radiant heat combustion air purifier, the air circulation pipe 9 is meandered in the cooling section 11 or cooled by dividing it into several thin pipes.
(F) An air intake 10 is provided in the sterilization chamber, and the air circulation pipe 9 is inserted and sealed around the attached pipe.
The apparatus is as described above.
[0005]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of the present invention will be described. The sterilization chamber is a double door that seals windows and gaps so that bacteria do not leak outside the door even when the door is opened and closed. If it passes through the combustion air cleaner so as to be involved in radiant heat, it will be treated innocuously in a high heat and high temperature range without any harm.
Since the main body of the radiant heat combustion air cleaner can use a heating element in a necessary size and number as shown in FIG. 1, the temperature can be set freely. Further, as shown in FIG. 2, a large number of heating elements are used in parallel, and the ceramic boards can be stacked and joined together to make a shape suitable for the application.
Since air treated by radiant heat combustion does not emit carbon dioxide, it may be discharged directly through a chimney or the like. Cool with gas, control to a certain temperature, and return clean air from the air intake to the room again.
[0006]
【The invention's effect】
Gases and substances (all bacteria, dust, NDX, PM, CO, dioxin, etc.) are completely harmless when they pass through the high-temperature and high-temperature areas of a radiant heat combustion air cleaner. Protect patients, doctors, nurses and other related personnel from infections.
[Brief description of the drawings]
FIG. 1 is a cross-sectional perspective view of a radiant heat combustion air cleaner according to the present invention. FIG. 2 is a cross-sectional perspective view of a radiant heat combustion air purifier according to the present invention.
1 is a heating element 8 is an air outlet 2 is a ceramic board 9 is an air circulation pipe 3 is a heat insulating material 10 is an air intake 4 is a power supply 11 is a cooling unit 5 is a blower fan 12 is a heat sink 6 is a ventilation hole 13 is double Door 7 is protective material

Claims (2)

(A) A hole of the heating element 1 and a ventilation hole 6 are provided in the ceramic board 2.
(B) Pass the heating element 1 through the ceramic board 2 and connect it to the power source 4.
(C) The periphery of the air circulation pipe 9 up to the radiant heat combustion air cleaner and the cooling unit 11 is covered with the heat insulating material 3, and the protective material 7 is provided thereon.
(D) The blower fan 5 is provided in front or behind.
A radiant heat combustion air cleaner configured as described above. The radiant heat combustion air cleaner according to claim 1, wherein the heating element 1 is provided between the plurality of ceramic boards 2.

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