WO2018008844A1 - Self-powered ion air gun - Google Patents

Self-powered ion air gun Download PDF

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Publication number
WO2018008844A1
WO2018008844A1 PCT/KR2017/005344 KR2017005344W WO2018008844A1 WO 2018008844 A1 WO2018008844 A1 WO 2018008844A1 KR 2017005344 W KR2017005344 W KR 2017005344W WO 2018008844 A1 WO2018008844 A1 WO 2018008844A1
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WO
WIPO (PCT)
Prior art keywords
pair
supply
impeller
compressed air
discharge
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PCT/KR2017/005344
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French (fr)
Korean (ko)
Inventor
이동훈
이재현
이민호
Original Assignee
(주)선재하이테크
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Publication of WO2018008844A1 publication Critical patent/WO2018008844A1/en

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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05FSTATIC ELECTRICITY; NATURALLY-OCCURRING ELECTRICITY
    • H05F3/00Carrying-off electrostatic charges
    • H05F3/06Carrying-off electrostatic charges by means of ionising radiation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B1/00Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means
    • B05B1/005Nozzles or other outlets specially adapted for discharging one or more gases
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B11/00Single-unit hand-held apparatus in which flow of contents is produced by the muscular force of the operator at the moment of use
    • B05B11/0005Components or details
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B15/00Details of spraying plant or spraying apparatus not otherwise provided for; Accessories
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B5/00Cleaning by methods involving the use of air flow or gas flow
    • B08B5/02Cleaning by the force of jets, e.g. blowing-out cavities
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K7/00Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
    • H02K7/14Structural association with mechanical loads, e.g. with hand-held machine tools or fans

Definitions

  • the present invention relates to a self-generating ion air gun utilizing only compressed air as a power means.
  • ion air guns are widely used in business areas in which static electricity management is essential for reducing defect rates, that is, manufacturing processes such as LCD and PDP, plastic surface coating, printing process, packaging process, and electronic product assembly process.
  • the ion air gun is constructed by attaching an ionizer to an ion air gun using ordinary compressed air, and aims to neutralize static electricity generated in an object and to remove dust containing static electricity, and the two operations can be performed simultaneously. There is extensive use of the equipment.
  • FIG. 1 is a schematic view showing a conventional ion air gun.
  • the powerless ion air gun 100 of Korean Patent No. 0807151 is a conventional ion air gun 100 that removes static electricity by spraying compressed air, and the ion air gun 100 is compressed air.
  • Power generation unit provided on the passage of;
  • a discharge unit 400 that ionizes the compressed air by using the high voltage current from the control unit 300.
  • Reference numeral 110 is a handle, 210 is an inflow passage, 220 is an air valve, 230 is a generator, 240 is an impeller, the power generation unit means a power generation motor.
  • the prior art has a problem that the replacement process of the power generation unit is very complicated and takes a long time to replace the power generation unit.
  • an object of the present invention is to provide a self-powered ion air gun that can simplify the replacement process of the generator.
  • Self-powered ion air gun is a case in which the injection hole and the insertion hole is formed in one end and the other end in the longitudinal direction, respectively, the guide rail is installed on the outer peripheral surface of the insertion hole;
  • a motor cover having a motor rail hole slidingly mounted to the guide rail installed on an outer circumferential surface thereof, a power generation motor mounted inside the motor cover and disposed on an opposite surface of the motor cover opposite to the injection hole, and an impeller coupled to the drive shaft;
  • Generator comprising a;
  • An air carrier including a supply assembly for supplying and rotating the compressed air to the impeller, and a discharge assembly in which compressed air blown by the rotation of the impeller is introduced and discharged into the injection hole;
  • an ionizer installed in the injection hole to ionize the compressed air transferred from the discharge assembly by using the current generated in the power generation motor.
  • the supply assembly may include a first supply tube into which compressed air transferred from a compressor is introduced, a regulator for adjusting a pressure of compressed air delivered from the first supply tube, and compressed air transferred from the regulator of the impeller. It further comprises a pair of second supply tube which is respectively delivered to both sides of the outer circumferential surface, the discharge assembly is a pair of discharge tube is introduced into the compressed air blown by the rotation of the impeller discharged to the ionizer, and the ionizer It characterized in that it further comprises a bypass tube for communicating the first supply tube with each other.
  • the motor cover is formed with a receiving groove for receiving the drive shaft and the impeller on the opposite surface facing the injection hole
  • the generator further includes an impeller cover covering the receiving groove
  • the impeller cover is a pair A pair of first supply passages and a pair of second supply passages through which the compressed air transferred from the second supply tube of the sequential flow is sequentially distributed, and the compressed air transferred from the pair of second supply passages of the impeller A pair of third supply passages respectively delivered to both sides of the outer circumferential surface, a pair of first discharge passages through which compressed air blown by the rotation of the impeller flows, and compressed air transferred from the pair of first discharge passages Is introduced to form a pair of second discharge passage which is discharged to the pair of discharge tube.
  • the impeller cover may have a cross-sectional area of the first supply channel wider than that of the second supply channel and a cross-sectional area of the third supply channel, and have a cross-sectional area of the second supply channel wider than that of the third supply channel. And a cross sectional area of the second discharge passage is wider than that of the first discharge passage.
  • the impeller cover is characterized in that the first supply passage, the second supply passage and the third supply passage are all formed in an orifice structure.
  • the motor cover may include a pair of fitting grooves spaced apart from each other by a predetermined distance on an outer circumferential surface of the accommodating groove, and the impeller cover further includes a pair of supply holes respectively fitted into the pair of fitting grooves.
  • a portion of the second supply passage and the third supply passage are respectively formed in the supply port, and the third supply passage is formed in a direction opposite to the center of the impeller.
  • the self-powered ion air gun according to the present invention has the advantage that the generator is detachably mounted to the case in a sliding type, thereby simplifying the replacement process of the generator.
  • FIG. 1 is a schematic view showing a conventional ion air gun
  • Figure 2 is an exploded perspective view showing a self-powered ion air gun according to the present invention
  • FIG. 3 is a cross-sectional view showing a self-powered ion air gun according to the present invention
  • Figure 4 is another exploded perspective view showing a self-powered ion air gun according to the present invention
  • FIG. 5 is an exploded perspective view showing a generator according to the present invention
  • FIG. 6 is a cross-sectional view showing a generator according to the present invention
  • FIG. 7 is a cross-sectional view showing the flow of a generator according to the present invention.
  • Figure 2 is an exploded perspective view showing a self-powered ion air gun according to the present invention
  • Figure 3 is a cross-sectional view showing a self-powered ion air gun according to the present invention
  • Figure 4 is another exploded perspective view showing a self-powered ion air gun according to the present invention. to be.
  • the self-generating ion air gun 1000 includes a case 100, a generator 200, an air carrier 300, and an ionizer 400.
  • the case 100 is a basic body of the present invention, the injection hole 101 and the insertion hole 102 is formed at one end and the other end in the longitudinal direction, respectively, the guide for sliding mounting on the outer peripheral surface of the insertion hole 102 Rail 110 is installed.
  • the guide rail 110 may be installed at the lower end of the insertion hole 102 and may be formed in a 'T' structure, but the present invention is not limited thereto.
  • the generator 200 generates power by the flow of compressed air, and includes a motor cover 210, a power generation motor 220, and an impeller 230.
  • the motor cover 210 has a motor rail hole 211 slidingly mounted to the guide rail 110 on an outer circumferential surface thereof. At this time, the motor rail hole 211 is formed in a structure corresponding to the guide rail (110). That is, the generator 200 is detachably coupled to the guide rail 110 of the case 100 through the motor rail hole 211 of the motor cover 210.
  • the power motor 220 is mounted in the motor cover 210 and a drive shaft is disposed on an opposite surface of the motor cover 210 opposite to the injection hole 101. When the drive shaft is rotated, current is generated.
  • the impeller 230 is coupled to the drive shaft and rotated by the flow of compressed air to rotate the drive shaft interlocked.
  • the supply assembly 310 rotates by supplying compressed air to the impeller 230.
  • the compressed air may be supplied from a compressor (not shown).
  • the air carrier 300 is supplied with compressed air blown by the rotation of the impeller 230 is discharged to the injection hole (101).
  • the ionizer 400 is installed in the injection hole 101 and ionizes the compressed air transferred from the discharge assembly 320 using the current generated in the power generation motor 220.
  • an ionizer or a discharge needle may be installed inside the ionizer 400 to ionize compressed air by performing corona discharge using the current generated from the power motor 220.
  • the self-powered ion air gun according to the present invention has the advantage that the generator 200 is detachably mounted to the case 100 in a sliding type, thereby simplifying the replacement process of the generator 200.
  • the supply assembly 310 may further include a first supply tube 311, a regulator 312, and a pair of second supply tubes 313.
  • the first supply tube 311 is introduced into the compressed air transferred from the compressor.
  • a pressurizing valve 314 may be installed in the flow path between the first supply tube 311 and the compressor to close the flow path and to open the flow path when the switch 315 is pressed.
  • the regulator 312 adjusts the pressure of the compressed air transferred from the first supply tube 311.
  • the pair of second supply tubes 313 deliver the compressed air transferred from the regulator 312 to both sides of the outer circumferential surface of the impeller 230, respectively.
  • the discharge assembly 320 may further include a pair of discharge tubes 321 and a bypass tube 322.
  • the pair of discharge tubes 321 is introduced into the compressed air blown by the rotation of the impeller 230 is discharged to the ionizer 400.
  • the bypass tube 322 communicates the ionizer 400 and the first supply tube 311 with each other and bypasses some of the compressed air discharged to the ionizer 400 to the ionizer 400. It lowers the internal pressure of).
  • a connection tube 317 may be further installed between the bypass tube 322 and the first supply tube 311.
  • FIG. 5 is an exploded perspective view showing a generator according to the present invention
  • Figure 6 is a cross-sectional view showing a generator according to the invention
  • Figure 7 is a cross-sectional view showing a flow flow showing the generator according to the present invention.
  • the motor cover 210 has a receiving groove 212 in which the driving shaft and the impeller 230 are received, on an opposite surface facing the injection hole 101,
  • the generator 200 may further include an impeller cover 240 covering the receiving groove 212.
  • the impeller cover 240 includes a pair of first supply passages 241 and a pair of second supply passages 242 in which compressed air transferred from the pair of second supply tubes 313 are respectively sequentially distributed. And a pair of third supply passages 243 for transmitting the compressed air transferred from the pair of second supply passages 242 to both sides of the outer circumferential surface of the impeller 230, and in the receiving groove 212.
  • the pair of first discharge passages 245 into which the compressed air blown by the rotation of the impeller 230 flows in, and the compressed air transferred from the pair of first discharge passages 245 into the pair A pair of second discharge passages 246 discharged to the discharge tube 321 may be formed.
  • the compressed air transferred from the pair of second supply tubes 313 sequentially passes through the pair of first supply passages 241 and the pair of second supply passages 242. It is transmitted to both sides of the outer circumferential surface of the impeller 230 through the pair of third supply passages 243, respectively, to increase the rotational force of the impeller 230 more.
  • the impeller cover 240 has a cross-sectional area of the first supply passage 241 wider than that of the second supply passage 242 and a cross-sectional area of the third supply passage 243, and the second supply passage.
  • a cross-sectional area of 242 may be wider than that of the third supply passage 243.
  • the compressed air transferred from the pair of second supply tubes 313 is provided with the pair of first supply passages 241, the pair of second supply passages 242, and the pair of third supply passages.
  • the pressure and flow rate of the compressed air increase while passing sequentially through 243, the rotational force of the impeller 230 is further increased.
  • impeller cover 240 may have a cross-sectional area of the second discharge passage 246 wider than that of the first discharge passage 245.
  • the compressed air blown by the rotation of the impeller 230 in the receiving groove 212 sequentially passes through the pair of first discharge passages 245 and the pair of second discharge passages 246. While being discharged to the pair of discharge tubes 321 while the pressure and flow rate of the compressed air are lowered again, the time of ionization while staying in the ionizer 400 for a longer time may be increased.
  • the impeller cover 240 is the first supply passage 241, the second supply passage 242 and the third supply passage 243 are all formed in an orifice structure, the pair of first supply passage ( 241, the pair of second supply passages 242 and the pair of third supply passages 243 may be sequentially passed to increase the pressure and flow rate of the compressed air.
  • the motor cover 210 may be formed such that a pair of fitting grooves 213 are spaced apart from each other at an outer circumferential surface of the receiving groove 212.
  • the impeller cover 240 further includes a pair of supply holes 240-1 fitted into the pair of fitting grooves 213, and the second inside of the supply hole 240-1.
  • a portion of the supply passage 242 and the third supply passage 243 may be formed, respectively, and the third supply passage 243 may be formed in a direction opposite to the center of the impeller.
  • the impeller cover 240 is not a structure surrounding all the outer circumferential surface of the impeller, the pair of supply holes 240-1 is formed in a structure surrounding only a part of the outer circumferential surface of the impeller, so that the blowing air of the impeller It is possible to prevent the maximum influence on the flow of compressed air generated by the.
  • 250 is the first O-ring 250 is coupled to the outer circumferential surface of the drive shaft for airtight
  • 260 is the second coupling to the rim of the receiving groove 212 and the fitting groove 213 O-ring 260
  • 330 is a tube assembly 330 is installed between the air carrier 300 and the impeller cover 240.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Toxicology (AREA)
  • Elimination Of Static Electricity (AREA)

Abstract

The present invention relates to a self-powered ion air gun comprising: a case, which has an injection hole and an insertion hole respectively formed at one end and the other end in a longitudinal direction, and has a guide rail provided on the outer peripheral surface of the insertion hole; a power generator, which includes a motor cover slidably mounted on the guide rail and having a motor rail hole provided on the outer peripheral surface thereof, a power generation motor mounted inside the motor cover and having a drive shaft disposed on the surface facing the injection hole, and an impeller coupled to the drive shaft; an air delivery body, which includes a supply assembly body for supplying compressed air to the impeller and rotating the same, and a discharge assembly in which the compressed air blown by the rotation of the impeller is introduced and discharged through the injection hole; and an ionizer provided in the injection hole, and ionizing the compressed air transferred from the discharge assembly by using a current generated in the power generation motor.

Description

자가발전형 이온 에어건Self-Powered Ion Air Gun
본 발명은 압축공기만을 동력수단으로 활용하는 자가발전형 이온 에어건에 관한 것이다.The present invention relates to a self-generating ion air gun utilizing only compressed air as a power means.
일반적으로, 불량률 저감을 위하여 정전기 관리가 필수적인 사업영역 즉, LCD, PDP 등의 제조 공정, 플라스틱 표면도장, 인쇄공정, 포장공정 및 전자제품 조립공정 등에서 이온 에어건이 광범위하게 사용되고 있다. 이온 에어건은 통상의 압축공기를 이용하는 이온 에어건에 이오나이저를 부착하여 구성되는 것으로, 대상물에 발생하는 정전기의 중화 및 정전기를 함유한 먼지 등의 제거를 목적으로 하고, 상기 두 작업이 동시에 이루어 질 수 있어 그 활용도가 광범위한 장비이다.In general, ion air guns are widely used in business areas in which static electricity management is essential for reducing defect rates, that is, manufacturing processes such as LCD and PDP, plastic surface coating, printing process, packaging process, and electronic product assembly process. The ion air gun is constructed by attaching an ionizer to an ion air gun using ordinary compressed air, and aims to neutralize static electricity generated in an object and to remove dust containing static electricity, and the two operations can be performed simultaneously. There is extensive use of the equipment.
도 1은 종래의 이온 에어건을 나타낸 개략도이다.1 is a schematic view showing a conventional ion air gun.
도 1 내지 도시된 바와 같이, 한국등록특허 제0807151호의 파워리스 이온 에어건(100)은 압축공기를 분사하여 정전기를 제거하는 통상의 이온 에어건(100)에 있어서, 상기 이온 에어건(100)은 압축공기의 통로 상에 마련되는 발전유닛; 상기 발전유닛에서 발전된 전기를 승압시키며, 압축공기의 통로 상에 구비되고, 내부에 상기 유입된 압축공기에 의해 냉각되는 승압코일(320)을 포함하는 제어유닛(300); 및 상기 제어유닛(300)으로부터의 고압 전류를 이용하여 압축공기를 이온화시키는 토출유닛(400);을 포함한다. 미설명된 부호 110은 손잡이, 210은 유입통로, 220은 에어밸브, 230은 제너레이터, 240은 임펠러이며, 상기 발전유닛은 발전모터를 의미한다.As shown in FIG. 1 to FIG. 1, the powerless ion air gun 100 of Korean Patent No. 0807151 is a conventional ion air gun 100 that removes static electricity by spraying compressed air, and the ion air gun 100 is compressed air. Power generation unit provided on the passage of; Control unit 300 for boosting the electricity generated in the power generation unit, provided on the passage of compressed air, including a boosting coil 320 is cooled by the compressed air introduced therein; And a discharge unit 400 that ionizes the compressed air by using the high voltage current from the control unit 300. Reference numeral 110 is a handle, 210 is an inflow passage, 220 is an air valve, 230 is a generator, 240 is an impeller, the power generation unit means a power generation motor.
그러나 종래기술은 상기 발전유닛 교체시에 다음과 같은 복잡한 공정을 수행하여야 되었다.However, the prior art had to perform the following complicated process when replacing the power generation unit.
1)상기 이온 에어건(100)의 상판과 하판을 분리1) separating the upper plate and the lower plate of the ion air gun 100
2)상기 이온 에어건(100)의 내부에 장착된 발전유닛을 탈거2) Remove the power generation unit mounted inside the ion air gun 100
3)상기 이온 에어건(100)의 내부에 다른 발전유닛을 장착3) Install another power generation unit inside the ion air gun 100
4)상기 이온 에어건(100)의 상판과 하판을 다시 서로 결합4) the upper plate and the lower plate of the ion air gun 100 are coupled to each other again
이에 따라, 종래기술은 상기 발전유닛의 교체 공정이 매우 복잡하며 상기 발전유닛의 교체 공정 소요 시간이 많이 소요되는 문제점이 있었다.Accordingly, the prior art has a problem that the replacement process of the power generation unit is very complicated and takes a long time to replace the power generation unit.
따라서 상술한 문제점을 해결하기 위한 다양한 이온 에어건의 개발이 필요한 실정이다.Therefore, it is necessary to develop various ion air guns to solve the above problems.
본 발명은 상기한 문제점을 해결하기 위하여 안출된 것으로, 본 발명의 목적은 발전기의 교체 공정을 단순화할 수 있는 자가발전형 이온 에어건을 제공하기 위한 것이다.The present invention has been made to solve the above problems, an object of the present invention is to provide a self-powered ion air gun that can simplify the replacement process of the generator.
본 발명에 따른 자가발전형 이온 에어건은 길이방향 일단 및 타단에 각각 분사홀 및 삽입홀이 형성되며, 상기 삽입홀의 외주면에 가이드레일이 설치되는 케이스; 상기 가이드레일에 슬라이딩 장착되는 모터레일홀이 외주면에 설치되는 모터커버와, 상기 모터커버의 내부에 장착되며 상기 분사홀에 대향하는 대향면에 구동축이 배치되는 발전모터와, 상기 구동축에 결합되는 임펠러를 포함하는 발전기; 상기 임펠러로 압축공기를 공급하여 회전시키는 공급조립체와, 상기 임펠러의 회전에 의해 송풍되는 압축공기가 유입되어 상기 분사홀로 토출되는 토출조립체를 포함하는 공기전달체; 및 상기 분사홀에 설치되며 상기 발전모터에 발생하는 전류를 이용하여 상기 토출조립체에서 이송된 압축공기를 이온화시키는 이온화기;를 포함하는 것을 특징으로 한다.Self-powered ion air gun according to the present invention is a case in which the injection hole and the insertion hole is formed in one end and the other end in the longitudinal direction, respectively, the guide rail is installed on the outer peripheral surface of the insertion hole; A motor cover having a motor rail hole slidingly mounted to the guide rail installed on an outer circumferential surface thereof, a power generation motor mounted inside the motor cover and disposed on an opposite surface of the motor cover opposite to the injection hole, and an impeller coupled to the drive shaft; Generator comprising a; An air carrier including a supply assembly for supplying and rotating the compressed air to the impeller, and a discharge assembly in which compressed air blown by the rotation of the impeller is introduced and discharged into the injection hole; And an ionizer installed in the injection hole to ionize the compressed air transferred from the discharge assembly by using the current generated in the power generation motor.
또한, 상기 공급조립체는 컴프레서에서 이송된 압축공기가 유입되는 제1공급튜브와, 상기 제1공급튜브에서 이송된 압축공기의 압력을 조절하는 레귤레이터와, 상기 레귤레이터에서 이송된 압축공기를 상기 임펠러의 외주면 양측에 각각 전달하는 한 쌍의 제2공급튜브를 더 포함하며, 상기 토출조립체는 상기 임펠러의 회전에 의해 송풍되는 압축공기가 유입되어 상기 이온화기로 토출되는 한 쌍의 토출튜브와, 상기 이온화기와 상기 제1공급튜브를 서로 연통하는 바이패스튜브를 더 포함하는 것을 특징으로 한다.The supply assembly may include a first supply tube into which compressed air transferred from a compressor is introduced, a regulator for adjusting a pressure of compressed air delivered from the first supply tube, and compressed air transferred from the regulator of the impeller. It further comprises a pair of second supply tube which is respectively delivered to both sides of the outer circumferential surface, the discharge assembly is a pair of discharge tube is introduced into the compressed air blown by the rotation of the impeller discharged to the ionizer, and the ionizer It characterized in that it further comprises a bypass tube for communicating the first supply tube with each other.
또한, 상기 모터커버는 상기 분사홀에 대향하는 대향면에 상기 구동축과 임펠러가 수납되는 수납홈이 형성되며, 상기 발전기는 상기 수납홈을 덮는 임펠라커버를 더 포함하며, 상기 임펠라커버는 상기 한 쌍의 제2공급튜브에서 이송된 압축공기가 각각 순차적으로 유통되는 한 쌍의 제1공급유로 및 한 쌍의 제2공급유로와, 상기 한 쌍의 제2공급유로에서 이송된 압축공기를 상기 임펠러의 외주면 양측에 각각 전달하는 한 쌍의 제3공급유로와, 상기 임펠러의 회전에 의해 송풍되는 압축공기가 유입되는 한 쌍의 제1토출유로와, 상기 한 쌍의 제1토출유로에서 이송된 압축공기가 유입되어 상기 한 쌍의 토출튜브로 토출되는 한 쌍의 제2토출유로가 형성되는 것을 특징으로 한다.In addition, the motor cover is formed with a receiving groove for receiving the drive shaft and the impeller on the opposite surface facing the injection hole, the generator further includes an impeller cover covering the receiving groove, the impeller cover is a pair A pair of first supply passages and a pair of second supply passages through which the compressed air transferred from the second supply tube of the sequential flow is sequentially distributed, and the compressed air transferred from the pair of second supply passages of the impeller A pair of third supply passages respectively delivered to both sides of the outer circumferential surface, a pair of first discharge passages through which compressed air blown by the rotation of the impeller flows, and compressed air transferred from the pair of first discharge passages Is introduced to form a pair of second discharge passage which is discharged to the pair of discharge tube.
또한, 상기 임펠라커버는 상기 제1공급유로의 단면적이 상기 제2공급유로의 단면적과 제3공급유로의 단면적보다 넓게 형성되며, 상기 제2공급유로의 단면적이 상기 제3공급유로의 단면적보다 넓게 형성되며, 상기 제2토출유로의 단면적이 상기 제1토출유로의 단면적보다 넓게 형성되는 것을 특징으로 한다.The impeller cover may have a cross-sectional area of the first supply channel wider than that of the second supply channel and a cross-sectional area of the third supply channel, and have a cross-sectional area of the second supply channel wider than that of the third supply channel. And a cross sectional area of the second discharge passage is wider than that of the first discharge passage.
또한, 상기 임펠라커버는 상기 제1공급유로, 제2공급유로 및 제3공급유로가 모두 오리피스 구조로 형성되는 것을 특징으로 한다.In addition, the impeller cover is characterized in that the first supply passage, the second supply passage and the third supply passage are all formed in an orifice structure.
또한, 상기 모터커버는 상기 수납홈의 외주면에 한 쌍의 끼움홈이 서로 일정간격 이격되게 형성되며, 상기 임펠라커버는 상기 한 쌍의 끼움홈에 각각 끼워지는 한 쌍의 공급구를 더 포함하며, 상기 공급구의 내부에 상기 제2공급유로의 일부분과 상기 제3공급유로가 각각 형성되며, 상기 제3공급유로는 상기 임펠라의 중심에 대향하는 방향으로 형성되는 것을 특징으로 한다.The motor cover may include a pair of fitting grooves spaced apart from each other by a predetermined distance on an outer circumferential surface of the accommodating groove, and the impeller cover further includes a pair of supply holes respectively fitted into the pair of fitting grooves. A portion of the second supply passage and the third supply passage are respectively formed in the supply port, and the third supply passage is formed in a direction opposite to the center of the impeller.
이에 따라, 본 발명에 따른 자가발전형 이온 에어건은 발전기가 케이스에 슬라이딩 타입으로 탈착 가능하게 장착됨으로써, 발전기의 교체 공정을 단순화할 수 있는 장점이 있다.Accordingly, the self-powered ion air gun according to the present invention has the advantage that the generator is detachably mounted to the case in a sliding type, thereby simplifying the replacement process of the generator.
도 1은 종래의 이온 에어건을 나타낸 개략도1 is a schematic view showing a conventional ion air gun
도 2는 본 발명에 따른 자가발전형 이온 에어건을 나타낸 분해사시도Figure 2 is an exploded perspective view showing a self-powered ion air gun according to the present invention
도 3은 본 발명에 따른 자가발전형 이온 에어건을 나타낸 단면도3 is a cross-sectional view showing a self-powered ion air gun according to the present invention
도 4는 본 발명에 따른 자가발전형 이온 에어건을 나타낸 다른 분해사시도Figure 4 is another exploded perspective view showing a self-powered ion air gun according to the present invention
도 5는 본 발명에 따른 발전기를 나타낸 분해사시도5 is an exploded perspective view showing a generator according to the present invention
도 6은 본 발명에 따른 발전기를 나타낸 단면도6 is a cross-sectional view showing a generator according to the present invention
도 7은 본 발명에 따른 발전기를 나타낸 유동흐름을 나타낸 단면도7 is a cross-sectional view showing the flow of a generator according to the present invention
<부호의 설명><Description of the code>
1000 : 본 발명에 따른 자가발전형 이온 에어건1000: Self-generating ion air gun according to the present invention
100 : 케이스 100: case
101 : 분사홀 101: injection hole
102 : 삽입홀 102: insertion hole
110 : 가이드레일 110: guide rail
200 : 발전기 200: generator
210 : 모터커버 210: motor cover
211 : 모터레일홀 211: motor rail hole
212 : 수납홈 212: storage groove
213 : 끼움홈 213: fitting groove
220 : 발전모터 220: power generation motor
230 : 임펠러 230: impeller
240 : 임펠라커버 240: impeller cover
240-1 : 공급구 240-1: supply port
241 : 제1공급유로 241: first supply passage
242 : 제2공급유로 242: second supply channel
243 : 제3공급유로 243: third supply flow path
245 : 제1토출유로 245: first discharge passage
246 : 제2토출유로 246: second discharge euro
250 : 제1오링 250: first O-ring
260 : 제2오링 260: second O-ring
300 : 공기전달체 300: air carrier
310 : 공급조립체 310: supply assembly
311 : 제1공급튜브 311: first supply tube
312 : 레귤레이터 312: Regulator
313 : 제2공급튜브 313: second supply tube
314 : 누름밸브 314: push valve
315 : 스위치 315: switch
320 : 토출조립체 320: discharge assembly
321 : 토출튜브 321: discharge tube
322 : 바이패스튜브 322: bypass tube
330 : 튜브취합체 330: tube assembly
400 : 이온화기 400: ionizer
이하, 본 발명의 기술적 사상을 첨부된 도면을 사용하여 더욱 구체적으로 설명한다.Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings.
첨부된 도면은 본 발명의 기술적 사상을 더욱 구체적으로 설명하기 위하여 도시한 일예에 불과하므로 본 발명의 기술적 사상이 첨부된 도면의 형태에 한정되는 것은 아니다.The accompanying drawings are only examples to illustrate the technical idea of the present invention in more detail, and thus the technical idea of the present invention is not limited to the forms of the accompanying drawings.
도 2는 본 발명에 따른 자가발전형 이온 에어건을 나타낸 분해사시도, 도 3은 본 발명에 따른 자가발전형 이온 에어건을 나타낸 단면도, 도 4는 본 발명에 따른 자가발전형 이온 에어건을 나타낸 다른 분해사시도이다.Figure 2 is an exploded perspective view showing a self-powered ion air gun according to the present invention, Figure 3 is a cross-sectional view showing a self-powered ion air gun according to the present invention, Figure 4 is another exploded perspective view showing a self-powered ion air gun according to the present invention. to be.
도 2 내지 도 4에 도시된 바와 같이, 본 발명에 따른 자가발전형 이온 에어건(1000)은 케이스(100), 발전기(200), 공기전달체(300) 및 이온화기(400)를 포함한다.As shown in FIGS. 2 to 4, the self-generating ion air gun 1000 according to the present invention includes a case 100, a generator 200, an air carrier 300, and an ionizer 400.
상기 케이스(100)는 본 발명의 기본몸체로서, 길이방향 일단 및 타단에 각각 분사홀(101) 및 삽입홀(102)이 형성되며, 상기 삽입홀(102)의 외주면 상에 슬라이딩 장착을 위한 가이드레일(110)이 설치된다.The case 100 is a basic body of the present invention, the injection hole 101 and the insertion hole 102 is formed at one end and the other end in the longitudinal direction, respectively, the guide for sliding mounting on the outer peripheral surface of the insertion hole 102 Rail 110 is installed.
도 2 내지 도 4를 참조하면, 상기 가이드레일(110)은 상기 삽입홀(102)의 하단에 설치될 수 있으며, ‘T’자 구조로 형성될 수 있으나, 본 발명은 이에 한정되지 아니한다.2 to 4, the guide rail 110 may be installed at the lower end of the insertion hole 102 and may be formed in a 'T' structure, but the present invention is not limited thereto.
상기 발전기(200)는 압축공기의 유동에 의해 발전하는 것으로서, 모터커버(210), 발전모터(220), 임펠라(230)를 포함한다.The generator 200 generates power by the flow of compressed air, and includes a motor cover 210, a power generation motor 220, and an impeller 230.
상기 모터커버(210)는 상기 가이드레일(110)에 슬라이딩 장착되는 모터레일홀(211)이 외주면에 설치된다. 이 때, 상기 모터레일홀(211)은 상기 가이드레일(110)에 대응하는 구조로 형성된다. 즉, 상기 발전기(200)는 상기 모터커버(210)의 모터레일홀(211)을 통해 상기 케이스(100)의 가이드레일(110)에 슬라이딩 타입으로 탈착가능하게 결합된다.The motor cover 210 has a motor rail hole 211 slidingly mounted to the guide rail 110 on an outer circumferential surface thereof. At this time, the motor rail hole 211 is formed in a structure corresponding to the guide rail (110). That is, the generator 200 is detachably coupled to the guide rail 110 of the case 100 through the motor rail hole 211 of the motor cover 210.
상기 발전모터(220)는 상기 모터커버(210)의 내부에 장착되며 상기 분사홀(101)에 대향하는 대향면에 구동축이 배치되며, 상기 구동축이 회전되면 전류가 생성된다.The power motor 220 is mounted in the motor cover 210 and a drive shaft is disposed on an opposite surface of the motor cover 210 opposite to the injection hole 101. When the drive shaft is rotated, current is generated.
상기 임펠라(230)는 상기 구동축에 결합되며 압축공기의 유동에 의해 회전되어 상기 구동축을 연동 회전시킨다.The impeller 230 is coupled to the drive shaft and rotated by the flow of compressed air to rotate the drive shaft interlocked.
상기 공급조립체(310)는 상기 임펠라(230)로 압축공기를 공급하여 회전시킨다. 이 때, 압축공기는 컴프레서(미도시)에서 공급된 것일 수 있다.The supply assembly 310 rotates by supplying compressed air to the impeller 230. At this time, the compressed air may be supplied from a compressor (not shown).
상기 공기전달체(300)는 상기 임펠라(230)의 회전에 의해 송풍되는 압축공기가 유입되어 상기 분사홀(101)로 토출된다.The air carrier 300 is supplied with compressed air blown by the rotation of the impeller 230 is discharged to the injection hole (101).
상기 이온화기(400)는 상기 분사홀(101)에 설치되며 상기 발전모터(220)에서 발생하는 전류를 이용하여 상기 토출조립체(320)에서 이송된 압축공기를 이온화시킨다.The ionizer 400 is installed in the injection hole 101 and ionizes the compressed air transferred from the discharge assembly 320 using the current generated in the power generation motor 220.
이 때, 상기 이온화기(400)의 내부에는 상기 발전모터(220)에서 발생하는 전류를 이용하여 코로나 방전을 수행하여 압축공기를 이온화하는 이오나이저나 방전침이 설치될 수 있다.At this time, an ionizer or a discharge needle may be installed inside the ionizer 400 to ionize compressed air by performing corona discharge using the current generated from the power motor 220.
이에 따라, 본 발명에 따른 자가발전형 이온 에어건은 발전기(200)가 케이스(100)에 슬라이딩 타입으로 탈착 가능하게 장착됨으로써, 발전기(200)의 교체 공정을 단순화할 수 있는 장점이 있다.Accordingly, the self-powered ion air gun according to the present invention has the advantage that the generator 200 is detachably mounted to the case 100 in a sliding type, thereby simplifying the replacement process of the generator 200.
한편, 상기 공급조립체(310)는 제1공급튜브(311)와, 레귤레이터(312)와, 한 쌍의 제2공급튜브(313)를 더 포함할 수 있다.The supply assembly 310 may further include a first supply tube 311, a regulator 312, and a pair of second supply tubes 313.
상기 제1공급튜브(311)는 컴프레서에서 이송된 압축공기가 유입된다. 이 때, 상기 제1공급튜브(311)와 컴프레서 사이 유로에는 상기 사이 유로를 폐쇄하다가 스위치(315)가 눌러지면 상기 사이 유로를 개방하는 누름밸브(314)가 설치될 수 있다.The first supply tube 311 is introduced into the compressed air transferred from the compressor. In this case, a pressurizing valve 314 may be installed in the flow path between the first supply tube 311 and the compressor to close the flow path and to open the flow path when the switch 315 is pressed.
상기 레귤레이터(312)는 상기 제1공급튜브(311)에서 이송된 압축공기의 압력을 조절한다.The regulator 312 adjusts the pressure of the compressed air transferred from the first supply tube 311.
상기 한 쌍의 제2공급튜브(313)는 상기 레귤레이터(312)에서 이송된 압축공기를 상기 임펠라(230)의 외주면 양측에 각각 전달한다.The pair of second supply tubes 313 deliver the compressed air transferred from the regulator 312 to both sides of the outer circumferential surface of the impeller 230, respectively.
상기 토출조립체(320)는 한 쌍의 토출튜브(321)와, 바이패스튜브(322)를 더 포함할 수 있다.The discharge assembly 320 may further include a pair of discharge tubes 321 and a bypass tube 322.
상기 한 쌍의 토출튜브(321)는 상기 임펠라(230)의 회전에 의해 송풍되는 압축공기가 유입되어 상기 이온화기(400)로 토출된다.The pair of discharge tubes 321 is introduced into the compressed air blown by the rotation of the impeller 230 is discharged to the ionizer 400.
상기 바이패스튜브(322)는 상기 이온화기(400)와 상기 제1공급튜브(311)을 서로 연통하며, 상기 이온화기(400)로 토출되는 압축공기 중 일부를 바이패스하여 상기 이온화기(400)의 내부압력을 낮춰주는 역할을 한다. 또한, 도 4를 참조하면, 상기 바이패스튜브(322)와 제1공급튜브(311) 사이에는 접속튜브(317)가 더 설치될 수 있다.The bypass tube 322 communicates the ionizer 400 and the first supply tube 311 with each other and bypasses some of the compressed air discharged to the ionizer 400 to the ionizer 400. It lowers the internal pressure of). In addition, referring to FIG. 4, a connection tube 317 may be further installed between the bypass tube 322 and the first supply tube 311.
도 5는 본 발명에 따른 발전기를 나타낸 분해사시도, 도 6은 본 발명에 따른 발전기를 나타낸 단면도, 도 7은 본 발명에 따른 발전기를 나타낸 유동흐름을 나타낸 단면도이다.5 is an exploded perspective view showing a generator according to the present invention, Figure 6 is a cross-sectional view showing a generator according to the invention, Figure 7 is a cross-sectional view showing a flow flow showing the generator according to the present invention.
도 5 내지 도 7에 도시된 바와 같이, 상기 모터커버(210)는 상기 분사홀(101)에 대향하는 대향면에 상기 구동축과 임펠라(230)가 수납되는 수납홈(212)이 형성되며, 상기 발전기(200)는 상기 수납홈(212)을 덮는 임펠라커버(240)를 더 포함할 수 있다.As shown in FIGS. 5 to 7, the motor cover 210 has a receiving groove 212 in which the driving shaft and the impeller 230 are received, on an opposite surface facing the injection hole 101, The generator 200 may further include an impeller cover 240 covering the receiving groove 212.
상기 임펠라커버(240)는 상기 한 쌍의 제2공급튜브(313)에서 이송된 압축공기가 각각 순차적으로 유통되는 한 쌍의 제1공급유로(241) 및 한 쌍의 제2공급유로(242)와, 상기 한 쌍의 제2공급유로(242)에서 이송된 압축공기를 상기 임펠라(230)의 외주면 양측에 각각 전달하는 한 쌍의 제3공급유로(243)와, 상기 수납홈(212)에서 상기 임펠라(230)의 회전에 의해 송풍되는 압축공기가 유입되는 한 쌍의 제1토출유로(245)와, 상기 한 쌍의 제1토출유로(245)에서 이송된 압축공기가 유입되어 상기 한 쌍의 토출튜브(321)로 토출되는 한 쌍의 제2토출유로(246)가 형성될 수 있다.The impeller cover 240 includes a pair of first supply passages 241 and a pair of second supply passages 242 in which compressed air transferred from the pair of second supply tubes 313 are respectively sequentially distributed. And a pair of third supply passages 243 for transmitting the compressed air transferred from the pair of second supply passages 242 to both sides of the outer circumferential surface of the impeller 230, and in the receiving groove 212. The pair of first discharge passages 245 into which the compressed air blown by the rotation of the impeller 230 flows in, and the compressed air transferred from the pair of first discharge passages 245 into the pair A pair of second discharge passages 246 discharged to the discharge tube 321 may be formed.
이에 따라, 상기 한 쌍의 제2공급튜브(313)에서 이송된 압축공기는 상기 한 쌍의 제1공급유로(241), 한 쌍의 제2공급유로(242)를 순차적으로 통과한 후, 상기 한 쌍의 제3공급유로(243)를 통해 상기 임펠라(230)의 외주면 양측에 각각 전달되면서 상기 임펠라(230)의 회전력을 좀 더 높이게 된다.Accordingly, the compressed air transferred from the pair of second supply tubes 313 sequentially passes through the pair of first supply passages 241 and the pair of second supply passages 242. It is transmitted to both sides of the outer circumferential surface of the impeller 230 through the pair of third supply passages 243, respectively, to increase the rotational force of the impeller 230 more.
또한, 상기 임펠라커버(240)는 상기 제1공급유로(241)의 단면적이 상기 제2공급유로(242)의 단면적과 제3공급유로(243)의 단면적보다 넓게 형성되며, 상기 제2공급유로(242)의 단면적이 상기 제3공급유로(243)의 단면적보다 넓게 형성될 수 있다.In addition, the impeller cover 240 has a cross-sectional area of the first supply passage 241 wider than that of the second supply passage 242 and a cross-sectional area of the third supply passage 243, and the second supply passage. A cross-sectional area of 242 may be wider than that of the third supply passage 243.
이에 따라, 상기 한 쌍의 제2공급튜브(313)에서 이송된 압축공기는 상기 한 쌍의 제1공급유로(241), 한 쌍의 제2공급유로(242), 한 쌍의 제3공급유로(243)를 순차적으로 통과하면서 압축공기의 압력과 유속이 높아지면서 상기 임펠라(230)의 회전력을 좀 더 높이게 된다.Accordingly, the compressed air transferred from the pair of second supply tubes 313 is provided with the pair of first supply passages 241, the pair of second supply passages 242, and the pair of third supply passages. As the pressure and flow rate of the compressed air increase while passing sequentially through 243, the rotational force of the impeller 230 is further increased.
또한, 상기 임펠라커버(240)는 상기 제2토출유로(246)의 단면적이 상기 제1토출유로(245)의 단면적보다 넓게 형성될 수 있다.In addition, the impeller cover 240 may have a cross-sectional area of the second discharge passage 246 wider than that of the first discharge passage 245.
이에 따라, 상기 수납홈(212)에서 상기 임펠라(230)의 회전에 의해 송풍되는 압축공기는 상기 한 쌍의 제1토출유로(245)와 한 쌍의 제2토출유로(246)를 순차적으로 통과하면서 압축공기의 압력과 유속이 다시 낮아지면서 상기 한 쌍의 토출튜브(321)로 토출된 후, 상기 이온화기(400)에서 좀 더 오랫동안 머무르면서 이온화되는 시간이 좀 더 증가될 수 있다.Accordingly, the compressed air blown by the rotation of the impeller 230 in the receiving groove 212 sequentially passes through the pair of first discharge passages 245 and the pair of second discharge passages 246. While being discharged to the pair of discharge tubes 321 while the pressure and flow rate of the compressed air are lowered again, the time of ionization while staying in the ionizer 400 for a longer time may be increased.
한편, 상기 임펠라커버(240)는 상기 제1공급유로(241), 제2공급유로(242) 및 제3공급유로(243)가 모두 오리피스 구조로 형성됨으로써, 상기 한 쌍의 제1공급유로(241), 한 쌍의 제2공급유로(242), 한 쌍의 제3공급유로(243)를 순차적으로 통과하면서 압축공기의 압력과 유속이 좀 더 높아지게 할 수 있다.On the other hand, the impeller cover 240 is the first supply passage 241, the second supply passage 242 and the third supply passage 243 are all formed in an orifice structure, the pair of first supply passage ( 241, the pair of second supply passages 242 and the pair of third supply passages 243 may be sequentially passed to increase the pressure and flow rate of the compressed air.
또한, 상기 모터커버(210)는 상기 수납홈(212)의 외주면에 한 쌍의 끼움홈(213)이 서로 일정간격 이격되게 형성될 수 있다.In addition, the motor cover 210 may be formed such that a pair of fitting grooves 213 are spaced apart from each other at an outer circumferential surface of the receiving groove 212.
또한, 상기 임펠라커버(240)는 상기 한 쌍의 끼움홈(213)에 끼워지는 한 쌍의 공급구(240-1)를 더 포함하며, 상기 공급구(240-1)의 내부에 상기 제2공급유로(242)의 일부분과 상기 제3공급유로(243)가 각각 형성되며, 상기 제3공급유로(243)는 상기 임펠라의 중심에 대향하는 방향으로 형성될 수 있다.In addition, the impeller cover 240 further includes a pair of supply holes 240-1 fitted into the pair of fitting grooves 213, and the second inside of the supply hole 240-1. A portion of the supply passage 242 and the third supply passage 243 may be formed, respectively, and the third supply passage 243 may be formed in a direction opposite to the center of the impeller.
즉, 상기 임펠라커버(240)는 임펠라의 외주면을 전부 둘러싸는 구조가 아니라, 상기 한 쌍의 공급구(240-1)가 상기 임펠라의 외주면 일부만을 둘러싸는 구조로 형성됨으로써, 상기 임펠라의 송풍에 의해 발생하는 압축공기의 유동에 최대한 영향을 주는 것을 방지할 수 있다.That is, the impeller cover 240 is not a structure surrounding all the outer circumferential surface of the impeller, the pair of supply holes 240-1 is formed in a structure surrounding only a part of the outer circumferential surface of the impeller, so that the blowing air of the impeller It is possible to prevent the maximum influence on the flow of compressed air generated by the.
한편, 미설명된 부호에 있어서, 250은 상기 구동축의 외주면에 기밀을 위해 결합되는 제1오링(250)이며, 260은 상기 수납홈(212)과 끼움홈(213)의 테두리에 결합되는 제2오링(260)이며, 330은 상기 공기전달체(300)와 임펠라커버(240) 사이에 설치되는 튜브취합체(330)이다.On the other hand, in the reference numerals, 250 is the first O-ring 250 is coupled to the outer circumferential surface of the drive shaft for airtight, 260 is the second coupling to the rim of the receiving groove 212 and the fitting groove 213 O- ring 260, 330 is a tube assembly 330 is installed between the air carrier 300 and the impeller cover 240.
본 발명은 상기한 실시예에 한정되지 아니하며, 적용범위가 다양함은 물론이고, 청구범위에서 청구하는 본 발명의 요지를 벗어남이 없이 다양한 변형 실시가 가능한 것은 물론이다.The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

Claims (7)

  1. 길이방향 일단 및 타단에 각각 분사홀 및 삽입홀이 형성되며, 상기 삽입홀의 외주면에 가이드레일이 설치되는 케이스;A case in which a injection hole and an insertion hole are formed at one end and the other end of the longitudinal direction, respectively, and a guide rail is installed at an outer circumferential surface of the insertion hole;
    상기 가이드레일에 슬라이딩 장착되는 모터레일홀이 외주면에 설치되는 모터커버와, 상기 모터커버의 내부에 장착되며 상기 분사홀에 대향하는 대향면에 구동축이 배치되는 발전모터와, 상기 구동축에 결합되는 임펠러를 포함하는 발전기;A motor cover having a motor rail hole slidingly mounted to the guide rail installed on an outer circumferential surface thereof, a power generation motor mounted inside the motor cover and disposed on an opposite surface of the motor cover opposite to the injection hole, and an impeller coupled to the drive shaft; Generator comprising a;
    상기 임펠러로 압축공기를 공급하여 회전시키는 공급조립체와, 상기 임펠러의 회전에 의해 송풍되는 압축공기가 유입되어 상기 분사홀로 토출되는 토출조립체를 포함하는 공기전달체; 및An air carrier including a supply assembly for supplying and rotating the compressed air to the impeller, and a discharge assembly in which compressed air blown by the rotation of the impeller is introduced and discharged into the injection hole; And
    상기 분사홀에 설치되며 상기 발전모터에 발생하는 전류를 이용하여 상기 토출조립체에서 이송된 압축공기를 이온화시키는 이온화기;를 포함하는 것을 특징으로 하는 자가발전형 이온 에어건.And an ionizer installed in the injection hole and ionizing compressed air transferred from the discharge assembly by using current generated in the power generation motor.
  2. 제1항에 있어서, The method of claim 1,
    상기 공급조립체는 컴프레서에서 이송된 압축공기가 유입되는 제1공급튜브와, 상기 제1공급튜브에서 이송된 압축공기의 압력을 조절하는 레귤레이터와, 상기 레귤레이터에서 이송된 압축공기를 상기 임펠러의 외주면 양측에 각각 전달하는 한 쌍의 제2공급튜브를 더 포함하며,The supply assembly includes a first supply tube into which the compressed air transferred from the compressor is introduced, a regulator for adjusting the pressure of the compressed air delivered from the first supply tube, and the compressed air transferred from the regulator to both outer peripheral surfaces of the impeller. Further comprising a pair of second supply tube each to deliver to,
    상기 토출조립체는 상기 임펠러의 회전에 의해 송풍되는 압축공기가 유입되어 상기 이온화기로 토출되는 한 쌍의 토출튜브와, 상기 이온화기와 상기 제1공급튜브를 서로 연통하는 바이패스튜브를 더 포함하는 것을 특징으로 하는 자가발전형 이온 에어건.The discharge assembly may further include a pair of discharge tubes in which compressed air blown by the rotation of the impeller is introduced and discharged to the ionizer, and a bypass tube communicating the ionizer and the first supply tube with each other. Self-powered ion air gun.
  3. 제2항에 있어서,The method of claim 2,
    상기 모터커버는 상기 분사홀에 대향하는 대향면에 상기 구동축과 임펠러가 수납되는 수납홈이 형성되며,The motor cover has a receiving groove for receiving the drive shaft and the impeller is formed on the opposite surface facing the injection hole,
    상기 발전기는 상기 수납홈을 덮는 임펠라커버를 더 포함하며,The generator further includes an impeller cover covering the receiving groove,
    상기 임펠라커버는 상기 한 쌍의 제2공급튜브에서 이송된 압축공기가 각각 순차적으로 유통되는 한 쌍의 제1공급유로 및 한 쌍의 제2공급유로와, 상기 한 쌍의 제2공급유로에서 이송된 압축공기를 상기 임펠러의 외주면 양측에 각각 전달하는 한 쌍의 제3공급유로와, 상기 임펠러의 회전에 의해 송풍되는 압축공기가 유입되는 한 쌍의 제1토출유로와, 상기 한 쌍의 제1토출유로에서 이송된 압축공기가 유입되어 상기 한 쌍의 토출튜브로 토출되는 한 쌍의 제2토출유로가 형성되는 것을 특징으로 하는 자가발전형 이온 에어건.The impeller cover is conveyed from a pair of first supply passages and a pair of second supply passages through which compressed air transferred from the pair of second supply tubes are sequentially distributed, respectively, and from the pair of second supply passages. A pair of third supply passages for respectively conveying the compressed air to both sides of the outer circumferential surface of the impeller, a pair of first discharge passages through which the compressed air blown by the rotation of the impeller flows, and the pair of first A self-powered ion air gun, characterized in that a pair of second discharge passage in which compressed air transferred from the discharge passage flows into and discharged into the pair of discharge tubes.
  4. 제3항에 있어서, 상기 임펠라커버는The method of claim 3, wherein the impeller cover
    상기 제1공급유로의 단면적이 상기 제2공급유로의 단면적과 제3공급유로의 단면적보다 넓게 형성되며, 상기 제2공급유로의 단면적이 상기 제3공급유로의 단면적보다 넓게 형성되며,The cross-sectional area of the first supply channel is wider than the cross-sectional area of the second supply channel and the cross-sectional area of the third supply channel, and the cross-sectional area of the second supply channel is wider than that of the third supply channel.
    상기 제2토출유로의 단면적이 상기 제1토출유로의 단면적보다 넓게 형성되는 것을 특징으로 하는 자가발전형 이온 에어건.And a cross-sectional area of the second discharge passage is wider than that of the first discharge passage.
  5. 제4항에 있어서, 상기 임펠라커버는The method of claim 4, wherein the impeller cover
    상기 제1공급유로, 제2공급유로 및 제3공급유로가 모두 오리피스 구조로 형성되는 것을 특징으로 하는 자가발전형 이온 에어건.And the first supply channel, the second supply channel, and the third supply channel are all formed in an orifice structure.
  6. 제3항 내지 제5항 중 선택되는 어느 한 항에 있어서,The method according to any one of claims 3 to 5,
    상기 모터커버는 상기 수납홈의 외주면에 한 쌍의 끼움홈이 서로 일정간격 이격되게 형성되며,The motor cover is formed with a pair of fitting grooves spaced apart from each other on the outer circumferential surface of the receiving groove,
    상기 임펠라커버는 상기 한 쌍의 끼움홈에 각각 끼워지는 한 쌍의 공급구를 더 포함하며,The impeller cover further includes a pair of supply holes respectively fitted in the pair of fitting grooves,
    상기 공급구의 내부에 상기 제2공급유로의 일부분과 상기 제3공급유로가 각각 형성되며, 상기 제3공급유로는 상기 임펠라의 중심에 대향하는 방향으로 형성되는 것을 특징으로 하는 자가발전형 이온 에어건.A portion of the second supply passage and the third supply passage are formed in the supply port, respectively, wherein the third supply passage is formed in a direction opposite to the center of the impeller.
  7. 제2항에 의한 자가발전형 이온 에어건에 설치되는 임펠라 커버로서, An impeller cover installed in a self-powered ion air gun according to claim 2,
    상기 임펠라커버는 상기 모터커버의 상기 분사홀에 대향하는 대향면에 상기 구동축과 임펠러가 수납되는 수납홈을 덮으며, 상기 한 쌍의 제2공급튜브에서 이송된 압축공기가 각각 순차적으로 유통되는 한 쌍의 제1공급유로 및 한 쌍의 제2공급유로와, 상기 한 쌍의 제2공급유로에서 이송된 압축공기를 상기 임펠러의 외주면 양측에 각각 전달하는 한 쌍의 제3공급유로와, 상기 임펠러의 회전에 의해 송풍되는 압축공기가 유입되는 한 쌍의 제1토출유로와, 상기 한 쌍의 제1토출유로에서 이송된 압축공기가 유입되어 상기 한 쌍의 토출튜브로 토출되는 한 쌍의 제2토출유로가 형성되는 것을 특징으로 하는 임펠라커버.The impeller cover covers a receiving groove in which the drive shaft and the impeller are accommodated on an opposing surface of the motor cover opposite to the injection hole, and as long as the compressed air transferred from the pair of second supply tubes is sequentially distributed. A pair of first supply passages and a pair of second supply passages, a pair of third supply passages for respectively conveying compressed air transferred from the pair of second supply passages to both outer peripheral surfaces of the impeller, and the impeller A pair of first discharge passages through which compressed air blown by the rotation of the air flows in, and a pair of second discharged compressed air conveyed from the pair of first discharge passages and discharged into the pair of discharge tubes An impeller cover, characterized in that the discharge passage is formed.
PCT/KR2017/005344 2016-07-08 2017-05-23 Self-powered ion air gun WO2018008844A1 (en)

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KR10-2016-0086974 2016-07-08
KR1020160086974A KR101836884B1 (en) 2016-07-08 2016-07-08 Self generation type Ion air gun

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