WO2006133649A1 - A sterilize reaction container - Google Patents

Abstract

A sterilize reaction container, includes an annular tubular reaction chamber, on which there are air inlet and air outlet. Pairs of baffles are assembled in the chamber, wherein each pair of baffles are made up of two quadrate plane plates and two catch pins, the plates are assembled along inner and outer walls of the reaction chamber respectively and alternately in form of “e” by means of catch pins with grooves, and dimension of the plates is less than width of the container. Air and ozone are inputted into the chamber through the inlet, and outputted through the outlet after intensive mixing and reaction by means of the baffles and the grooves on the catch pins.

Description

 Disinfection reaction tank

 (i) Technical areas:

 The utility model relates to a disinfection reaction tank, which relates to a reaction device for sterilizing ozone OZONE, in particular to a method for thoroughly mixing and reacting gas and ozone in a space, so as to completely carry out the virus inside the gas. A disinfection reaction tank for the elimination of bacteria, belonging to disinfection equipment.

 (ii) Background technology:

 The epidemics of general epidemics can be divided into surface contact, water and airborne, etc. At present, the mainstream of disinfection and sterilization is to add chlorine disinfectant in water, and the space is to spray disinfectant as a more common method. Because the spraying may be uneven, the persistence of bio-gas glue or the difficulty in maintaining the sterilization ability of the chlorine series disinfectant, the anti-epidemic process may have loopholes; however, because the space utilizes the chlorine series disinfectant, there are both dead ends or derivatized environments. And so on, so in all disinfection methods, ozone is a more efficient and less sequelae model than traditional chlorine, especially for viruses, and the concentration of ozone and its contact with gases. The time is related to the speed and efficacy of sterilization. Excessive ozone concentration is more likely to cause pollution to the air and may cause health damage to the human body (the statutory air concentration of ozone cannot exceed 0.12 ppm). Therefore, how to use ozone to have high bactericidal power The characteristics of the gas, and for its strong oxidizing ability and its gas characteristics Calculated ozone gas in contact with the balance between ozone concentration and time, but the use of ozone for disinfection space important issue.

 (3) New content:

 In view of the concentration of ozone and the time of contact with the gas, the speed and efficacy of the sterilization, the utility model of the invention, the purpose of the invention is to: develop a gas that can make the gas in the space and the ozone sufficient A disinfection reaction tank that mixes and reacts to achieve a higher disinfection effect.

 The utility model relates to a disinfection reaction tank, which has an annular duct reaction gas chamber, and is provided with an air inlet and an air outlet, wherein the air inlet and the ozone in the air inlet can enter the reaction air chamber, and the air outlet is For the gas output after the reaction; in the reaction gas chamber, a plurality of sets of baffles are arranged in a special arrangement, and by blocking the baffles, the gas and ozone in the space can be fully occupied in the reaction gas chamber. Mix and react.

Wherein, each group of baffles is composed of two square flat plates and a second bar, the size of the two square plates is smaller than the width of the reaction grooves and respectively along the two side walls of the trough to form an upper and lower "in" shape The two-bars are respectively disposed on the fixed ends of the square flat plates and the two side walls of the trough body, and each of the baffles is provided with a plurality of notches for blocking the flow of gas, and Produce Turbulent flow, increasing the collision and contact between gases.

 Wherein, some of the notches on the bar can be set to a u shape.

 Wherein, some of the notches on the bar can be set to a V shape.

 Wherein, the air inlet has a proper aperture size, and the air in the space is extracted into the reaction air chamber in a large amount and quickly by using a suction fan, and a small aperture input port is further disposed on one side of the air inlet. Used to allow ozone (OZONE) generated by an ozone generator to enter the reaction chamber.

 The utility model relates to a disinfection reaction tank, which has the advantages of simple structure, reasonable design, convenient use, sterilizing and sterilizing effect, and can effectively eliminate viruses and fines in space gases.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing the appearance of a reaction tank according to a preferred embodiment of the present invention.

 Figure 2 is a perspective cross-sectional view of the reaction tank of Figure 1.

 Figure 3 is a side elevational view of the reaction tank of Figure 1.

 Figure 4 is a schematic cross-sectional view of the reaction tank of Figure 1.

 FIG. 5 is a perspective view showing the three-dimensional appearance of the retaining rod structure of the reaction tank according to a preferred embodiment of the present invention. Figure 6 is a schematic cross-sectional view of the bar of Figure 5.

 Figure 7 is a schematic cross-sectional view showing the structure of another bar of the reaction tank of a preferred embodiment of the present invention. The figures are as follows -

10 Disinfection reaction tank 11 Reaction chamber 12 Separation baffle

 13 air inlet 14 air outlet 15 baffle

 151, 152 square flat plate 153, 154 bar 155, 156 gap

19 input port Air air F after reaction gas

(5) Specific implementation methods:

The utility model relates to a disinfection reaction tank 10, which is shown in Fig. 1 and Fig. 2, which is a space body having an annular duct, and the annular duct is called a reaction air chamber 11, after experimental and practical operation, The utility model adopts the circular ring shape to have a better reaction effect, and the reaction air chamber 11 is divided into an air inlet 13 and an air outlet 14 by the two partitioning baffles 12, and the air inlet 13 supplies the gas in the space. (including polluted air, viruses, bacteria, etc.) enter, but in actual use, the gas in the space must be extracted into the reaction chamber 11 in a large amount and quickly by means of a blower, at the air inlet An input port 19 having a smaller aperture is further disposed on one side of the 13, as shown in FIG. 3, for the ozone (OZONE) generated by an ozone generator to enter the reaction chamber 11, The air outlet 14 is for outputting the gas F after the reaction;

 The reaction plenum 11 is provided with a plurality of sets of baffles 15, and each set of baffles 15 can be semi-circular, blue-angled, square, and elongated, etc. This embodiment provides optimal gas mixing after actual operation. The baffle of the effect, as shown in FIG. 2 and FIG. 4, is composed of two square flat plates 151 and 152 and two second levers 153 and 154. It is worth mentioning that the design principle of the baffle 15 is deducted. After the angle occupied by the air outlets 13, 1 is evenly distributed to the respective panels 151, 152, the size of the square flat plates 151, 152 is smaller than the width of the annular reaction chamber 161, and respectively along the reaction chamber 11 The inner and outer ring side walls are arranged in a staggered manner, that is, in an up-and-down "in" shape, and the second blocking bars 153, 154 are respectively disposed on the respective 'shaped flat plates 151, 152 and the reaction gas. The fixed ends of the two side walls of the chamber 11 are connected, and each of the blocking bars 153, 154 is provided with a plurality of notches 155, 156, and the shapes of the notches 155, 156 are U-shaped from the side, as shown in FIG. 5 and 6, or as shown in Figure 7 for the V shape, etc. The shape of the two square flat plates 151, 152, the second levers 153, 154 and the plurality of notches 155, 156 of the baffle 15 of the present invention serve as a flow of blocking gas (including Air and OZONE). After the gas (including Air and OZONE) enters the reaction chamber 11 of the reaction tank 10, the block is traversed by the air inlet 12 and a square flat plate 151 and a blocking rod 153 and a gap 155 thereof are blocked to the right. The flow, after blocking by another square flat plate 152, a blocking rod 154 and its notch 156, flows to the left, so that the left and right flow alternately and thereby generate turbulent flow, which can increase the gas (including Air and OZONE). Collision and contact can also increase the reaction between gas (including Air and OZONE), allowing gas and ozone (Air and OZONE) to enter from inlet 13 and input 19, along the annular reaction chamber 11 After that, the blockage of the plurality of baffles 15 arranged in a special arrangement can achieve sufficient mixing and reaction, so that the high oxidation force of ozone (OZONE) has a faster reaction rate, and at a certain concentration. The ability to cut DNA and disable bacteria and viruses can eliminate viruses and bacteria in the gas, and further deactivate the virus. After the reaction treated by the reaction tank 10 of the present invention, the gas F can become general. The sterile air that is not toxic to the human body and returned to the space by the air outlet 14 is a creative feature of the utility model.

 Although, after the reaction, the gas F is likely to have excess ozone (OZONE) (collectively referred to as ozone tail gas), in order to avoid its toxicity at high concentration, causing biological death and harm to human health, it is best to send it again. Decomposition is carried out in a reduction tank, and the structure of the reduction tank is filed by the applicant, which is hereby indicated.

Claims

Claim

A disinfection reaction tank characterized in that: the reaction tank has an annular duct reaction gas chamber, and is provided with a gas for supplying space and ozone into the air inlet of the reaction chamber, and after reacting An air outlet for gas output; a baffle for allowing the gas in the space to sufficiently mix and react with ozone in the reaction gas chamber is disposed in the reaction gas chamber in a special arrangement.

 2. A disinfection reaction tank according to claim 1, wherein: each set of baffles is composed of two square flat plates and two second bars, the size of the square flat plates being smaller than the width of the reaction grooves and respectively Along the two side walls of the trough body, the upper side of the trough body is disposed in a shape of a top-bottom "in" shape, and the two baffle rods are respectively disposed on the fixed ends of the square flat plates and the two side walls of the trough body, and The stopper is provided with a notch for blocking the flow of the gas.

 A disinfection reaction tank according to claim 2, wherein the notch on the bar is U-shaped.

 4. A disinfection reaction tank according to claim 2, wherein the notch on the bar is set to a V shape.

 A disinfection reaction tank according to claim 1, wherein the air inlet has an aperture, and one side of the air inlet is further provided with an input port having a smaller aperture.