KR102257210B1 - An Plasma Sterilizer - Google Patents

Abstract

The present invention relates to a plasma sterilizer which can effectively sterilize sterilization objects such as clothes and bedding by using plasma. Specifically, the plasma sterilizer comprises: a sterilization case sterilizing a sterilization object; a plasma supply device connected to the sterilization case and supplying plasma; and a connection pipe formed in the plasma supply device and supplying plasma to the sterilization case.

Description

Plasma Sterilizer {An Plasma Sterilizer}

The present invention relates to a plasma sterilizer that can effectively sterilize objects such as clothes and bedding by using plasma.

Patent document 001 is a case having a drying space therein; A cradle installed in the drying space and for mounting an object; A hot air supply unit receiving and heating external air to generate and supply hot air; A plasma generating unit configured to convert the hot air supplied from the hot air supply unit into a plasma state to provide plasmaized hot air to the drying space; And a plasma filter unit provided at an air outlet on a rear surface or other surface of the case, wherein the plasma filter unit is supplied to the drying space so that the hot air obtained by sterilizing and drying the object is discharged to the outside. It proposes a technology for filtering contained pollutants and purifying harmful air with water and steam through a catalytic reaction.

Patent document 002 generates plasma to transmit the plasma to the receiving portion formed to accommodate the object and the body coated with a conductive material to prevent the microwave from being transmitted to the receiving portion, and the object accommodated in the receiving portion. A technology including an antenna formed to convert the power to power for and a plasma generator for generating plasma by using the power converted by the antenna so that an object located inside the receiving part is sterilized.

Patent document 003 is an ozone sterilizer comprising an ozone generating means for generating ozonated air, a high voltage generating means for supplying high-pressure electricity to the ozone generating means, and an air supply means for supplying air to the ozone generating means. The ozone generating means includes a casing connected to the air supply means, a discharge tube having one longitudinal end portion connected to the ozone discharge tube while being disposed in the casing, and a cold pole in the high voltage generating means by being inserted into the inside of the discharge tube. Air passing through the discharge tube by the plasma discharge generated in the discharge tube, comprising a connected electrode coil, an electrode sheet wound around the outer periphery of the discharge tube and connected to the other pole of the high voltage generating means, and a radiating fin bonded to the electrode sheet. It proposes a technology to generate ozonated air by converting the oxygen in the ozone into ozone.

Patent Document 004 discloses a plasma sterilization module including a dielectric barrier discharge plasma source and a fan for adding a driving force to the flow of plasma and active species discharged from the plasma source, and from a housing holding the plasma sterilization module. An extended conduit is installed inside the cabinet, and the conduit has a plurality of nozzles to provide a disinfecting cabinet in which active species are radiated into the cabinet from the nozzles, and horizontal partitions are provided at appropriate heights as necessary inside the cabinet. It is equipped with a partition to place the object to be treated, and by connecting a hose to some of the nozzles of the installed pipe line, the other end of the hose is inserted into the interior of items such as boots and gloves to perform internal disinfection.

KR 10-2014-0107937 A (September 5, 2014) KR 10-1968530 B1 (April 08, 2019) KR 20-0180386 Y1 (February 17, 2000) KR 10-1873689 B1 (June 26, 2018)

The present invention relates to a plasma sterilizer that can effectively sterilize objects such as clothes and bedding by using plasma.

In order to solve the problems of the prior inventions, the present invention is an invention for a plasma sterilizer, and in the plasma sterilizer, the sterilization case 100 for receiving the sterilization object 10; A plasma supply device 200 connected to the sterilization case 100 and supplying plasma; It is formed in the plasma supply device 200, the connection pipe 600 for supplying the plasma to the sterilization case 100; consists of a configuration including a.

The present invention is an invention for a plasma sterilizer, and the sterilization case 100 presented above; A plasma supply device 200; A coupling device 110 formed in the sterilization case 100 to the invention consisting of a connection pipe 600 and to which the connection pipe 600 is coupled; A pressure sensor 120 formed inside the sterilization case 100 and measuring plasma pressure is added.

The present invention is an invention for a plasma sterilizer, and the sterilization case 100 presented above; A plasma supply device 200; In the invention consisting of a connection pipe 600; a generator 300 formed in the plasma supply device 200 and generating plasma; A filtering device 400 that is formed to be spaced apart from the generating device 300 and sucks and filters the plasma supplied to the sterilization case 100; The generating device 300 and the filtering device 400 are accommodated, and a supply box 500 to which the connection pipe 600 is fastened; is added.

The present invention is an invention for a plasma sterilizer, and the sterilization case 100 presented above; A plasma supply device 200; In the invention consisting of a connection pipe 600; an extension pipe 210 formed in the plasma supply device 200 and extending from the generating device 300 and the filtering device 400, respectively; A coupling pipe 220 to which ends of the plurality of extension pipes 210 are coupled, and to which the connection pipe 600 is coupled; A control valve 230 formed between the extension pipe 210 and the coupling pipe 220 and controlling a movement path of the plasma; It is formed in the coupling pipe 220, a moving pump 240 for moving the plasma in both directions; is added.

The present invention is an invention for a plasma sterilizer, and the sterilization case 100 presented above;, a plasma supply device 200; A negative pressure measuring sensor 211 formed in the extension pipe 210 and measuring negative pressure of a moving plasma is added to the invention consisting of a connection pipe 600;

The present invention is an invention for a plasma sterilizer, and the sterilization case 100 presented above; A plasma supply device 200; In the invention consisting of a connection pipe 600; a filtration filter 410 formed in the filtration device 400 for filtering plasma sucked from the sterilization case 100; A circulation pipe 450 for circulating the plasma unfiltered by the filtration filter 410 is added.

The present invention is an invention for a plasma sterilizer, and the sterilization case 100 presented above; A plasma supply device 200; In the invention consisting of a connector 600; a power supply device 510 formed in the supply box 500 and supplying power is added.

The present invention is an invention for a plasma sterilizer, and the sterilization case 100 presented above; A plasma supply device 200; In the invention consisting of a connection pipe 600; a supply pipe 610 formed in the connection pipe 600 and through which plasma is supplied; A discharge pipe 620 formed to be adjacent to the supply pipe 610 and through which plasma is discharged; A cover 630 surrounding the supply pipe 610 and the discharge pipe 620; is added.

The present invention is an invention for a plasma sterilizer, and the sterilization case 100 presented above; A plasma supply device 200; In the invention consisting of a connection pipe 600; a fastening device 640 protruding from both ends of the connection pipe 600 and inserted into the plasma supply device 200 and the sterilization case 100 is added.

The present invention is an invention for a plasma sterilizer, and the sterilization case 100 presented above; A plasma supply device 200; A control device 700 for controlling the pressure and movement direction of plasma supplied from the plasma supply device 200 is added to the invention consisting of a connection pipe 600.

According to the present invention, the entire area of the object to be sterilized can be simultaneously sterilized by sterilization using plasma.

In the present invention, plasma is generated and supplied to a sterilization case to prevent the emission of plasma.

The present invention can improve air quality by recovering and filtering the plasma that has been sterilized.

According to the present invention, a handle is formed so that it is easy to carry, so that bedding can be sterilized, such as a mattress.

The present invention can sterilize a plurality of sterilization targets by supplying and recovering plasma to a shoe rack or a closet.

1 is a perspective view of a plasma sterilizer of the present invention.
Figure 2 is a cross-sectional view of the plasma sterilizer of the present invention.
3 to 4 are cross-sectional views of plasma supply devices installed in various sterilization cases of the present invention.
5 to 6 are cross-sectional views of the plasma supply apparatus of the present invention.
7 to 8 are cross-sectional views of the filtering device of the present invention.

Hereinafter, in order to describe in detail enough that a person of ordinary skill in the art can easily implement the present invention, the most preferred embodiment of the present invention will be described in detail.

The numbers cited in the following examples are not limited only to the object of reference, and may be applied to all examples. Objects that exhibit the same purpose and effect as the configuration presented in the examples correspond to equivalent substitutional objects. The upper concept presented in the examples includes the object of the lower concept that is not described.

(Example 1-1) The present invention is a plasma sterilizer, in the plasma sterilizer, the sterilization case 100 for accommodating the sterilization object 10; A plasma supply device 200 connected to the sterilization case 100 and supplying plasma; And a connection pipe 600 formed in the plasma supply device 200 and supplying plasma to the sterilization case 100.

(Example 1-2) The plasma sterilizer of the present invention in Example 1-1, wherein the sterilization case 100 is formed of one selected from among metals, synthetic resins, and synthetic fibers.

(Example 1-3) In Example 1-1, the plasma sterilizer of the present invention includes a release film formed inside the sterilization case 100 and preventing the release of plasma gas.

(Example 1-4) In Example 1-1, the plasma sterilizer of the present invention comprises: a coupling device 110 formed in the sterilization case 100 and to which the connection pipe 600 is coupled; And a pressure sensor 120 formed inside the sterilization case 100 and measuring the pressure of plasma.

(Example 1-5) The plasma sterilizer of the present invention in Example 1-4, wherein the coupling device 110 includes an insertion groove into which the connection pipe 600 is inserted; It is formed in the insertion groove, and a fixture for fixing the connection pipe 600; includes.

(Example 1-6) The plasma sterilizer of the present invention in Example 1-1, wherein the plasma supply device 200 is formed of metal and synthetic resin, and includes various shapes.

(Example 1-7) The plasma sterilizer of the present invention in Example 1-1, wherein the plasma supply device 200 is formed of ozone and OH radical plasma.

(Example 1-8) The plasma sterilizer of the present invention in Example 1-1, wherein the plasma supply device 200 is accommodated in the sterilization case 100 to sterilize the sterilization object 10; Includes.

The present invention relates to a plasma sterilizer. Specifically, the plasma sterilizer is formed for home and portable use to sterilize the sterilization target 10 such as pillows, dolls, clothes, etc. using plasma. In general, a sterilizer that sterilizes the sterilization target 10 is a UV sterilizer using UV ultraviolet rays and a steam sterilizer that sterilizes the sterilization target 10 with high-temperature steam. Such a sterilizer has a problem that the sterilization target 10 and the sterilization generating device 300 for generating the sterilizing material are formed at the same time, so that the size is large, making it difficult to carry and damage the object, and sterilize only the location of UV irradiation. have. On the other hand, in the plasma sterilizer, a sterilization case 100 for accommodating the sterilization object 10 is formed therein, and the sterilization case 100 is formed in various shapes to prevent the emission of plasma. The sterilization case 100 is formed of elastic rubber and fibrous material, and after receiving the sterilization target 10 of various shapes, it is transformed into a size similar to that of the sterilization target 10 in order to reduce the capacity of plasma. At this time, the sterilization case 100 is formed of metal or synthetic resin according to the sterilization target 10 and may be replaced with a shoe rack or a closet. In addition, the sterilization case 100 may prevent the plasma gas from being discharged to the outside by forming an emission film therein.

In addition, the sterilization case 100 is connected to the plasma supply device 200 by a connection pipe 600, and the plasma supply device 200 is formed of a metal and a synthetic resin, but can be filtered by suctioning plasma at the same time as supplying the plasma. In addition, the sterilization case 100 is formed with a coupling device 110 to which the connection pipe 600 is coupled, the coupling device 110 has an insertion groove into which the end of the connection pipe 600 is inserted, and the insertion groove is As the fixture is formed, the separation of the connection pipe 600 is prevented. In addition, the sterilization case 100 is provided with a pressure sensor 120 to measure the pressure of plasma for sterilizing the sterilization target 10. As such, the plasma generated by the plasma supply device 200 is formed of ozone and OH radical plasma, and the OH radical (hydroxyl) plasma is an oxygen-anionic material generated in a plasma state and has excellent oxidizing power. . OH radical plasma has a much faster oxidation rate than ozone or ultraviolet light, and has a strong sterilization function. More specifically, OH radical plasma has about 2000 times stronger sterilization than ozone (O3) and about 180 times stronger than ultraviolet (UV).

In addition, the plasma supply device 200 is accommodated in a sterilization case 100 in which plasma is not emitted to the outside, such as a shoe rack or a closet, and sterilizes a plurality of sterilization targets 10 at the same time, and the interior of the sterilization case 100 is converted to plasma. When it is determined that the sterilization target 10 has been sterilized after filling, the plasma is recovered.

Therefore, the plasma sterilizer of the present invention is formed in a predetermined size and has a feature that can sterilize the sterilization target 10 by supplying plasma for home and portable use.

(Embodiment 2-1) The present invention relates to a plasma sterilizer, and in Embodiment 1-1, there is provided a generator 300 formed in the plasma supply device 200 and generating plasma; A filtering device 400 that is formed to be spaced apart from the generating device 300 and sucks and filters the plasma supplied to the sterilization case 100; And a supply box 500 to which the generating device 300 and the filtering device 400 are accommodated, and to which the connection pipe 600 is fastened.

(Embodiment 2-2) In Embodiment 2-1, the plasma sterilizer of the present invention comprises: a hot air supply unit formed in the generating device 300 and supplying hot air; And a plasma generating unit generating plasma through a photoelectric reaction to the hot air supplied from the hot air supply unit.

(Example 2-3) In Example 2-2, the plasma sterilizer of the present invention includes a drying device formed in the generating device 300 and removing moisture from the inside.

(Embodiment 2-4) In Embodiment 2-1, the plasma sterilizer of the present invention includes a power supply device 510 formed in the supply case 500 and supplying electric power.

(Embodiment 2-5) In Embodiment 2-4, the plasma sterilizer of the present invention includes a battery that is charged by wire and wirelessly.

(Embodiment 2-6) In Embodiment 2-1, the plasma sterilizer of the present invention comprises: a discharge device 520 formed in the supply box 500 and emitting heat from the inside; And a handle 530 formed on the outside of the supply box 500 and protruding to the outside.

(Example 2-7) In Example 2-6, the plasma sterilizer of the present invention includes a coupling device 110 formed in the supply box 500 and to which the connection pipe 600 is coupled.

The present invention relates to a plasma supply device 200, and specifically, the plasma supply device 200 generates plasma to sterilize the sterilization target 10 and simultaneously suctions and filters the sterilized plasma. In the plasma supply device 200, a generator 300 for generating plasma is formed, and the generator 300 supplies hot air and then generates plasma through a photoelectric reaction. In this case, the hot air is supplied by forming hot air by the hot air supply unit, and plasma is generated through a photoelectric reaction in the plasma generating unit. In addition, the generating device 300 may remove contaminants such as bacteria caused by moisture as a drying device for removing moisture from the inside is formed.

In addition, the filtering device 400 formed to be spaced apart from the generating device 300 is to inhale the plasma supplied to the sterilization case 100 after sterilizing the sterilization target 10, which filters the plasma in the filtering device 400. . The generating device 300 and the filtering device 400 are accommodated in the supply box 500, and the supply box 500 is a power supply device 510 that supplies power to the generating device 300 and the filtering device 400. ) Is formed. The power supply device 510 is formed of a battery and can be charged by wire or wirelessly, and when used as a portable device, it can be charged by solar heat. And the supply box 500 is formed with a discharging device 520 for discharging the heat generated by the generating device 300 and the filtering device 400 to the outside, and the discharging device 520 is a discharging device for discharging air to the outside. It is formed with a fan. In addition, the supply box 500 has a handle 530 formed on the outside, and the handle 530 guides the plasma supply device 200 to be carried. In addition, a coupling device 110 is formed on one surface of the supply box 500, and the coupling device 110 is formed in the same manner as the sterilization case 100.

Accordingly, the plasma supply apparatus 200 of the present invention has a characteristic of generating plasma to sterilize the sterilization target 10 and suction and filter the plasma obtained by sterilizing the sterilization target 10.

(Example 3-1) The present invention relates to a plasma sterilizer, and in Example 2-1, it is formed in the plasma supply device 200, and in the generating device 300 and the filtering device 400, respectively. An extension tube 210 extending; A coupling pipe 220 to which ends of the plurality of extension pipes 210 are coupled, and to which the connection pipe 600 is coupled; A control valve 230 formed between the extension pipe 210 and the coupling pipe 220 and controlling a movement path of the plasma; It is formed in the coupling pipe 220, and a moving pump 240 for moving the plasma in both directions; includes.

(Example 3-2) In Example 3-1, the plasma sterilizer of the present invention includes a negative pressure measuring sensor 211 formed in the extension pipe 210 and measuring a negative pressure of a moving plasma.

The present invention relates to a plasma supply device 200, and specifically, to supply plasma to the connection pipe 600 by extending from the generating device 300 and the filtering device 400, respectively. In the plasma supply device 200, the extension pipe 210 is extended from the generating device 300 and the filtering device 400 to be connected to the connection pipe 600, and the extension pipe 210 is connected to the plurality of connection pipes 600. Each is connected or a plurality of extension pipes 210 are bent and connected to one coupling pipe 220. At this time, at the end of the coupling pipe 220, a control valve 230 to which a plurality of extension pipes 210 are coupled is formed, and the control valve 230 is formed in a three way to extend from the generating device 300 Opening 210 or selectively opening the second extension pipe 210 extending from the filtering device 400.

In detail, when plasma is generated in the generating device 300 and then supplied to the sterilization case 100, the second extension pipe 210 is blocked by the control valve 230 to supply the plasma to the sterilization case 100. When plasma is sucked from the filtering device 400 after sterilizing the sterilization target 10, the first extension pipe 210 is blocked so that the plasma is supplied to the filtering device 400. In this case, a moving pump 240 is formed in the coupling pipe 220 to supply or suck plasma to the sterilization case 100. The moving pump 240 is provided in each of the generating device 300 and the filtering device 400 to supply and suck plasma. And the moving pump 240 is provided with a motor between the first extension pipe 210 and the second extension pipe 210 when the first extension pipe 210 and the second extension pipe 210 are connected to each of the connection pipes 600 , Plasma can be moved in both directions by a single motor by a defeller formed in the first extension pipe 210 and the second extension pipe 210 by a rotating shaft.

In addition, a negative pressure measuring sensor 211 is formed in each of the extension pipes 210 to measure negative pressure caused by plasma supplied or sucked through the extension pipe 210. Accordingly, the pressure and amount of plasma can be measured, and damage to the extension pipe 210 and the coupling pipe 220 can be prevented.

(Example 4-1) The present invention relates to a plasma sterilizer, and in Example 2-1, a filtration filter formed in the filtration device 400 to filter the plasma sucked from the sterilization case 100 ( 410); includes.

(Example 4-2) The plasma sterilizer of the present invention in Example 4-1, wherein the filter filter 410 is formed of at least one selected from an antibacterial filter for filtering ozone and plasma, a deodorizing filter, and a carbon filter. Includes;

(Example 4-3) In Example 4-2, the plasma sterilizer of the present invention includes: a guide plate 411 formed on the upper and lower portions of the filtration filter 410 and adjacent to each other to increase the filtration time; Includes.

(Example 4-4) In Example 4-3, the plasma sterilizer of the present invention includes a filter protrusion 412 formed on the outside of the guide plate 411 to generate a vortex in the plasma.

(Embodiment 4-5) In Embodiment 4-1, the plasma sterilizer of the present invention comprises: a suction unit 420 formed in the filtering device 400 and in which plasma is sucked; A discharge part 430 formed to be spaced apart from the suction part 420 and from which the filtered air is discharged; And a filtering unit 440 formed between the suction unit 420 and the discharge unit 430 and filtering plasma.

(Example 4-6) In Example 4-5, the plasma sterilizer of the present invention includes a plurality of filter filters 410 between the suction part 420 and the discharge part 430. ) Is formed horizontally; includes.

(Example 4-7) In Example 4-5, the plasma sterilizer of the present invention connects the suction part 420 and the discharge part 430, and removes the unfiltered plasma by the filtration filter 410. It includes; circulation pipe 450 to circulate.

(Example 4-8) In Example 4-7, the plasma sterilizer of the present invention includes a filtration valve 460 formed on the discharge unit 430 and controlling a moving direction of the plasma.

The present invention relates to a filtration device 400, and specifically, the filtration device 400 is formed with a filtration filter 410 for filtering the plasma sterilized by the sterilization object 10 in the sterilization case 100. In the filtering device 400, a filter filter 410 for filtering plasma is formed, and the filter filter 410 is formed of an antibacterial, deodorant, and carbon filter to filter the plasma. In addition, the filtration filter 410 has guide plates 411 extending upward and downward therein, and the guide plates 411 are formed to be adjacent to each other to increase the filtration time of plasma. In addition, the guide plate 411 is formed with a plurality of filtering protrusions 412 to the outside so that the plasma guided by the guide plate 411 increases the filtering time by the eddy current.

In addition, the plasma can filter the plasma with static electricity generated by electric current. The filtering device 400 in which the filtering filter 410 is formed has a suction part 420 through which plasma is sucked, and a discharge part 430 spaced apart from the suction part 420 to discharge filtered air is formed. In addition, a filtering unit 440 for filtering plasma is formed between the suction unit 420 and the emission unit 430, and an ozone sensor for measuring ozone and plasma is formed between the suction unit 420 and the emission unit 430. . In the suction unit 420, when the plasma is fully charged, the plasma moves through the filtering unit 440 and is transferred to the emission unit 430, and the emission unit 430 determines the degree of filtration of the plasma. In addition, the filtration unit 440 horizontally includes a plurality of filtration filters 410, but the filtration filter 410 is arranged in a zigzag manner to increase the filtration time. In addition, the suction unit 420 and the discharge unit 430 are connected to each other by a circulation pipe 450, and plasma not filtered by the filtering unit 440 is circulated from the discharge unit 430 to the suction unit 420 It is filtered again. At this time, a filtering valve 460 is formed in the discharge unit 430 so that the unfiltered plasma circulates to the suction unit 420 and the filtered air is discharged to the outside.

Accordingly, the filtering device 400 of the present invention has a characteristic of releasing air to the outside by filtering the plasma sucked in the sterilization case 100.

(Example 5-1) The present invention relates to a plasma sterilizer, and in Example 4-1, a supply pipe 610 formed in the connection pipe 600 and supplied with plasma; A discharge pipe 620 formed to be adjacent to the supply pipe 610 and through which plasma is discharged; Includes; a cover 630 surrounding the supply pipe 610 and the discharge pipe 620.

(Example 5-2) In Example 5-1, the plasma sterilizer of the present invention protrudes from both ends of the connection pipe 600, and is inserted into the plasma supply device 200 and the sterilization case 100. It includes; fastening device 640.

The present invention relates to the connection pipe 600, specifically the connection pipe 600 is to connect the plasma supply device 200 and the sterilization case 100. In the connection pipe 600, plasma is supplied to the sterilization case 100 or the plasma is sucked from the sterilization case 100 to the plasma supply device 200. At this time, the connection pipe 600 is formed with a supply pipe 610 through which plasma is supplied, and the supply pipe 610 is connected to the generator 300 of the plasma supply device 200 to move the plasma. In addition, a discharge pipe 620 is formed at a position spaced apart from the supply pipe 610 to discharge plasma sucked from the sterilization case 100 and sucked into the filtering device 400. The supply pipe 610 and the discharge pipe 620 are fixed by the cover 630, and the cover 630 is formed of a rubber material to prevent plasma from being discharged due to damage of the supply pipe 610 and the discharge pipe 620. do. In addition, a fastening device 640 is formed at the end of the connection pipe 600, and the fastening device 640 is inserted into the coupling device 110 formed in the sterilization case 100 and the plasma supply device 200. In addition, the fastening device 640 is inserted into the coupling device 110 and then fixed to the fixture, and the fixture is formed with a sealing material that prevents the separation of the connection pipe 600 and at the same time prevents the emission of plasma.

(Embodiment 6-1) The present invention relates to a plasma sterilizer, and in Embodiment 1-1, a control device 700 for controlling the pressure and movement direction of plasma supplied from the plasma supply device 200; Includes.

(Example 6-2) In the plasma sterilizer of the present invention, in Example 7-1, the control device 700 includes plasma generated by the plasma supply device 200 and plasma sucked from the sterilization case 100, respectively. To control; includes.

(Example 6-3) The plasma sterilizer of the present invention in Example 7-1, the control device 700 is formed in the plasma supply device 200, respectively, the generating device 300 and the filtering device 400. A plasma control unit to control; And a discharge control unit that is formed in the sterilization case 100 and controls a discharge valve for discharging the plasma obtained by sterilizing the sterilization target 10.

The present invention relates to a control device 700, and specifically, the control device 700 controls the plasma supply device 200 and the sterilization device to effectively sterilize the sterilization target 10. The control device 700 generates plasma by a plasma control unit formed in the plasma supply device 200 and sucks the plasma at the same time. The plasma controller controls the generation of plasma by controlling the generating device 300 and at the same time controls the moving pump 240 to control the pressure and amount of plasma. In addition, by controlling the filtering device 400, the suction pressure of the plasma is controlled and the plasma is circulated at the same time. In addition, the discharge control unit is connected to the sterilization case 100 to control the supply of plasma before sterilizing the sterilization target 10 and prevent the supply and suction of plasma when sterilizing the sterilization target 10. In addition, the discharge control unit discharges the plasma to the filtering device 400 after the sterilization of the sterilization target 10 is completed. In this way, the control device 700 generates or filters plasma to sterilize the sterilization target 10, and discharges the filtered air to the outside.

10: sterilization target 100: sterilization case
110: coupling device 120: pressure sensor
200: plasma supply device 210: extension tube
211: negative pressure measurement sensor 220: coupling pipe
230: control valve 240: moving pump
300: generating device 400: filtering device
410: filtration filter 411: guide plate
412: filtering protrusion 420: suction part
430: discharge unit 440: filter unit
450: circulation pipe 460: filtration valve
500: supply enclosure 510: power supply
520: ejection device 530: handle
600: connector 610: supply pipe
620: discharge pipe 630: cover
640: fastening device 700: control device

Claims (10)

In the plasma sterilizer,
A sterilization case 100 accommodating the sterilization target 10;
A plasma supply device 200 connected to the sterilization case 100 and supplying plasma;
A connection pipe 600 formed in the plasma supply device 200 and supplying plasma to the sterilization case 100;
A generating device 300 formed in the plasma supply device 200 and generating plasma;
A filtering device 400 that is formed to be spaced apart from the generating device 300 and sucks and filters the plasma supplied to the sterilization case 100;
A supply box 500 in which the generating device 300 and the filtering device 400 are accommodated and the connection pipe 600 is fastened;
A filtration filter 410 formed in the filtration device 400 and filtering plasma sucked from the sterilization case 100;
Plasma sterilizer comprising a; circulation pipe 450 for circulating the plasma not filtered by the filter filter 410.
The method according to claim 1,
A coupling device 110 formed in the sterilization case 100 and to which the connection pipe 600 is coupled;
Plasma sterilizer comprising; a pressure sensor 120 formed in the sterilization case 100 and measuring the pressure of plasma.
delete The method according to claim 1,
An extension pipe 210 formed in the plasma supply device 200 and extending from the generating device 300 and the filtering device 400, respectively;
A coupling pipe 220 to which ends of the plurality of extension pipes 210 are coupled, and to which the connection pipe 600 is coupled;
A control valve 230 formed between the extension pipe 210 and the coupling pipe 220 and controlling a movement path of the plasma;
Plasma sterilizer comprising; a moving pump 240 formed in the coupling pipe 220 and moving the plasma in both directions.
The method of claim 4,
Plasma sterilizer comprising a; negative pressure measuring sensor 211 formed in the extension pipe 210 and measuring the negative pressure of the moving plasma.
delete The method according to claim 1,
Plasma sterilizer including; a power supply device 510 formed in the supply case 500 and supplying power.
The method according to claim 1,
A supply pipe 610 formed in the connection pipe 600 and supplied with plasma;
A discharge pipe 620 formed to be adjacent to the supply pipe 610 and through which plasma is discharged;
Plasma sterilizer comprising a; a cover 630 surrounding the supply pipe 610 and the discharge pipe 620.
The method of claim 8,
Plasma sterilizer comprising: a fastening device (640) protruding from both ends of the connection pipe (600) and inserted into the plasma supply device (200) and the sterilization case (100).
The method according to claim 1,
Plasma sterilizer comprising a; control device 700 for controlling the pressure and movement direction of the plasma supplied from the plasma supply device 200.

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