JPH07328569A - Method and equipment for electromagnetic acoustic washing - Google Patents
Method and equipment for electromagnetic acoustic washingInfo
- Publication number
- JPH07328569A JPH07328569A JP6131897A JP13189794A JPH07328569A JP H07328569 A JPH07328569 A JP H07328569A JP 6131897 A JP6131897 A JP 6131897A JP 13189794 A JP13189794 A JP 13189794A JP H07328569 A JPH07328569 A JP H07328569A
- Authority
- JP
- Japan
- Prior art keywords
- cleaning
- spiral coil
- cleaned
- coil
- cleaning tank
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Cleaning By Liquid Or Steam (AREA)
- Apparatuses For Generation Of Mechanical Vibrations (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、電磁音響変換技術を応
用した電磁音響洗浄方法及びこの方法の実施に適した電
磁音響洗浄器に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electromagnetic acoustic cleaning method to which an electromagnetic acoustic conversion technique is applied and an electromagnetic acoustic cleaning device suitable for carrying out this method.
【0002】[0002]
【従来の技術】湿式洗浄を行う装置の代表例として超音
波洗浄器が知られている。図3は、この種の超音波洗浄
器の構成図であり、30は洗浄槽、31は水等の洗浄
液、32は被洗浄物、33は超音波振動子、34は電気
的エネルギーを生成する超音波発振器である。超音波振
動子33は、超音波発振器34からの電気的エネルギー
を得て振動するものであり、洗浄槽30の所定部位、例
えば上記振動を洗浄液31に伝えることができる外底部
に取り付けられる。この取付は、ロー付け、エポキシ等
による接着、あるいはスタッドボルトによるネジ結合等
によりなされる。2. Description of the Related Art An ultrasonic cleaner is known as a typical example of an apparatus for performing wet cleaning. FIG. 3 is a configuration diagram of an ultrasonic cleaning device of this type. 30 is a cleaning tank, 31 is a cleaning liquid such as water, 32 is an object to be cleaned, 33 is an ultrasonic vibrator, and 34 is electric energy. It is an ultrasonic oscillator. The ultrasonic vibrator 33 vibrates by receiving electric energy from the ultrasonic oscillator 34, and is attached to a predetermined portion of the cleaning tank 30, for example, an outer bottom portion capable of transmitting the vibration to the cleaning liquid 31. This attachment is made by brazing, adhesion with epoxy or the like, or screw connection with stud bolts.
【0003】上記構成の超音波洗浄器を用いて被洗浄物
の洗浄を行うときは、まず、超音波振動子33の共振周
波数に近い周波数で超音波発振器34を動作させ、これ
により発生する電気的エネルギーを超音波振動子33へ
供給する。超音波振動子33は、供給された電気的エネ
ルギーを機械的振動エネルギーに変換し、これを洗浄槽
30を介して洗浄液31中に音圧の変化として伝える。
この音圧がある値を超えると洗浄液31の中ではキャビ
テーションが発生する。このキャビテーションの作用等
によって洗浄物32の表面の汚れが吸引剥離される。When the object to be cleaned is cleaned using the ultrasonic cleaner having the above structure, first, the ultrasonic oscillator 34 is operated at a frequency close to the resonance frequency of the ultrasonic vibrator 33, and the electric power generated by the ultrasonic oscillator 34 is generated. Energy is supplied to the ultrasonic transducer 33. The ultrasonic vibrator 33 converts the supplied electric energy into mechanical vibration energy, and transmits this to the cleaning liquid 31 via the cleaning tank 30 as a change in sound pressure.
When this sound pressure exceeds a certain value, cavitation occurs in the cleaning liquid 31. Due to the action of this cavitation and the like, the dirt on the surface of the cleaning object 32 is sucked and peeled off.
【0004】[0004]
【発明が解決しようとする課題】上述のように、超音波
洗浄器においては、超音波振動子33が、ロー付けやエ
ポキシ等による接着、あるいはスタッドボルトによるネ
ジ結合等により洗浄槽30に取り付けられているため、
エネルギー変換を行う上で、その信頼性は必ずしも十分
でない。また、超音波振動子33の取付に際してかなり
の工程を必要とするため、コスト低減を図る上でも限界
があった。更に、超音波洗浄器における大部分のエネル
ギーは、電気的エネルギーから機械的振動エネルギーへ
の変換、機械的振動エネルギーから音響エネルギーへの
変換、及び、洗浄液31にキャビテーションを発生させ
るためのエネルギーに向けられ、熱となって消費されて
しまうので、洗浄効率が悪いという問題点もあった。As described above, in the ultrasonic cleaner, the ultrasonic vibrator 33 is attached to the cleaning tank 30 by brazing, adhesion with epoxy or the like, or screw connection with stud bolts. Because
The reliability of energy conversion is not always sufficient. Further, since the ultrasonic vibrator 33 requires a considerable number of steps to be attached, there is a limit in reducing the cost. Furthermore, most of the energy in the ultrasonic cleaner is directed to the conversion of electrical energy into mechanical vibration energy, the conversion of mechanical vibration energy into acoustic energy, and the energy to generate cavitation in the cleaning liquid 31. Since it is consumed as heat and consumed, there is also a problem that cleaning efficiency is poor.
【0005】本発明の課題は、上記問題点等に鑑み、低
コストで高効率の洗浄を可能とする湿式の洗浄方法及び
この方法の実施に適した洗浄器を提供することにある。In view of the above problems, an object of the present invention is to provide a wet cleaning method that enables highly efficient cleaning at low cost, and a cleaning device suitable for carrying out this method.
【0006】[0006]
【課題を解決するための手段】本発明は、電磁音響変換
技術を応用した洗浄方法及び洗浄器を提供することによ
り上記課題の解決を図るものである。即ち、第1発明に
係る電磁音響洗浄方法は、洗浄液を収容した絶縁性の洗
浄槽の外底部近傍に渦巻状コイルを配設するとともに、
前記洗浄槽内の前記渦巻状コイルと対向する部位に導電
性の被洗浄物を没入せしめ、前記渦巻状コイルにパルス
電力を給電することにより前記被洗浄物に誘導される渦
電流と、前記渦巻状コイルに流れるコイル電流との相互
作用により前記被洗浄物を振動させることを特徴とす
る。The present invention is intended to solve the above-mentioned problems by providing a cleaning method and a cleaning device to which an electromagnetic sound conversion technique is applied. That is, in the electromagnetic acoustic cleaning method according to the first aspect of the present invention, the spiral coil is arranged near the outer bottom of the insulating cleaning tank containing the cleaning liquid, and
An eddy current induced in the object to be cleaned by immersing a conductive object to be cleaned in a portion of the cleaning tank facing the spiral coil and supplying pulsed power to the spiral coil, and the spiral. The object to be cleaned is vibrated by the interaction with the coil current flowing in the coil.
【0007】また、第2発明に係る電磁音響洗浄方法
は、洗浄液を収容した絶縁性の洗浄槽の外底部近傍に渦
巻状コイルを配設するとともに、前記洗浄槽内の前記渦
巻状コイルと対向する部位に、被洗浄物を収納して成る
導電性且つ通液性の収納容器を没入せしめ、前記渦巻状
コイルにパルス電力を給電することにより前記収納容器
に誘導される渦電流と、前記渦巻状コイルに流れるコイ
ル電流との相互作用により前記収納容器を振動させて前
記被洗浄物の周囲の洗浄液中に圧力変化を生じさせるこ
とを特徴とする。In the electromagnetic acoustic cleaning method according to the second aspect of the present invention, the spiral coil is arranged near the outer bottom of the insulating cleaning tank containing the cleaning liquid, and the spiral coil is opposed to the spiral coil in the cleaning tank. An eddy current induced in the storage container by immersing a conductive and liquid-permeable storage container containing the object to be cleaned and supplying pulsed electric power to the spiral coil, and the spiral. It is characterized in that the storage container is vibrated by an interaction with a coil current flowing in the coil to generate a pressure change in the cleaning liquid around the object to be cleaned.
【0008】また、第3発明に係る電磁音響洗浄方法
は、洗浄液を収容した導電性の洗浄槽の外底部近傍に絶
縁部材を介して渦巻状コイルを配設するとともに、前記
洗浄槽内の前記渦巻状コイルと対向する部位に被洗浄物
を没入せしめ、前記渦巻状コイルにパルス電力を給電す
ることにより前記洗浄槽に誘導される渦電流と、前記渦
巻状コイルに流れるコイル電流との相互作用により前記
洗浄槽を振動させて前記被洗浄物の周囲の洗浄液中に圧
力変化を生じさせることを特徴とする。Further, in the electromagnetic acoustic cleaning method according to the third aspect of the invention, the spiral coil is disposed near the outer bottom portion of the conductive cleaning tank containing the cleaning liquid via an insulating member, and the cleaning coil in the cleaning tank is provided. Interaction between the eddy current induced in the cleaning tank by immersing the object to be cleaned in a portion facing the spiral coil and supplying pulsed power to the spiral coil, and the coil current flowing in the spiral coil. By vibrating the cleaning tank, a pressure change is generated in the cleaning liquid around the object to be cleaned.
【0009】更に、本発明が提供する電磁音響洗浄器
は、上記各方法を実施するために、洗浄液を収容するた
めの洗浄槽と、該洗浄槽の外底部近傍に配設されそのコ
イル面が被洗浄物の配置部位を指向する渦巻状コイル
と、該渦巻状コイルに給電するための所定周期のパルス
電力を生成するパルス電力生成装置と、を備え、前記渦
巻状コイルに前記パルス電力が給電されたときに前記洗
浄槽又は被洗浄物に渦電流が誘導される構成としたもの
である。Further, the electromagnetic acoustic cleaner provided by the present invention has a cleaning tank for containing a cleaning liquid and a coil surface disposed near the outer bottom portion of the cleaning tank in order to carry out each of the above methods. A spiral coil that directs a position where the object to be cleaned is disposed, and a pulse power generation device that generates pulse power of a predetermined cycle for supplying power to the spiral coil, and the pulse power is supplied to the spiral coil. When the cleaning is performed, an eddy current is induced in the cleaning tank or the object to be cleaned.
【0010】なお、洗浄槽が絶縁性のものであって、被
洗浄物の導電率も低い場合は、洗浄槽内で被洗浄物を収
納するための収納容器を設ける。この収納容器は、被洗
浄物よりも導電率の高い部材により通液可能に形成さ
れ、且つ、前記渦巻状コイルにパルス電力が給電された
ときに絶縁性の洗浄槽を通して渦電流が誘導される形状
のものである。この形状は、渦巻状コイルと対向してい
る部分は板状とし、他の部分は網目状とするのが好まし
い。When the cleaning tank is an insulating one and the conductivity of the object to be cleaned is low, a container for accommodating the object to be cleaned is provided in the cleaning tank. This storage container is formed to be liquid-permeable by a member having a conductivity higher than that of the object to be cleaned, and an eddy current is induced through the insulating cleaning tank when pulse power is supplied to the spiral coil. It is of a shape. In this shape, it is preferable that the portion facing the spiral coil is plate-shaped and the other portions are mesh-shaped.
【0011】[0011]
【作用】第1発明の電磁音響洗浄方法では、パルス電力
生成装置で生成されたパルス電力を渦巻状コイルに給電
すると、絶縁性の洗浄槽を通して被洗浄物に渦電流が誘
導される。その際、この渦電流とコイル電流との間に電
磁反発力が発生し、被洗浄物自体が振動する。これによ
り被洗浄物に付着しているゴミや汚れが振り落とされ
る。また、被洗浄物が振動することによって洗浄液中に
圧力変化が起こり、キャビテーションが発生してその表
面に付着したゴミ等が吸引剥離される。In the electromagnetic acoustic cleaning method of the first aspect of the present invention, when the pulsed electric power generated by the pulsed electric power generator is supplied to the spiral coil, an eddy current is induced in the object to be cleaned through the insulating cleaning tank. At that time, an electromagnetic repulsive force is generated between the eddy current and the coil current, and the object to be cleaned itself vibrates. As a result, dust and dirt attached to the object to be cleaned are shaken off. Further, the vibration of the object to be cleaned causes a pressure change in the cleaning liquid, cavitation occurs, and dust and the like adhering to the surface of the cleaning liquid is sucked and separated.
【0012】第2発明の電磁音響洗浄方法は、導電性の
悪い、あるいは絶縁性の被洗浄物の洗浄に好適な方法で
あり、このような被洗浄物を導電性且つ通液性の収納容
器に収納して洗浄液中に没入せしめ、渦巻状コイルに上
記パルス電力を給電する。これにより絶縁性の洗浄槽を
通して収納容器に渦電流が誘導され、上記電磁反発力に
よって収納容器が振動するので、その内部の被洗浄物に
付着しているゴミや汚れが振り落とされる。また、収納
容器自体が振動することによって洗浄液中に圧力変化が
起こり、キャビテーションが発生して被洗浄物の表面の
ゴミ等が吸引剥離される。The electromagnetic acoustic cleaning method according to the second aspect of the present invention is a method suitable for cleaning an object to be cleaned that has poor electrical conductivity or insulation. Such an object to be cleaned is electrically conductive and liquid-permeable. Then, it is immersed in the cleaning liquid, and the pulse power is supplied to the spiral coil. As a result, an eddy current is induced in the storage container through the insulating cleaning tank, and the storage container vibrates due to the electromagnetic repulsive force, so dust and dirt attached to the object to be cleaned are shaken off. Further, the storage container itself vibrates to cause a pressure change in the cleaning liquid, causing cavitation, and dust or the like on the surface of the object to be cleaned is sucked and separated.
【0013】第3発明の電磁音響洗浄方法は、洗浄槽が
導電性の場合であり、この洗浄槽が上記作用によって振
動し、被洗浄物の周囲の洗浄液中に圧力変化が起こり、
キャビテーションが発生して被洗浄物の表面のゴミ等が
吸引剥離される。In the electromagnetic acoustic cleaning method according to the third aspect of the present invention, the cleaning tank is electrically conductive, and the cleaning tank vibrates due to the above action, and a pressure change occurs in the cleaning liquid around the object to be cleaned.
Cavitation occurs and dust on the surface of the object to be cleaned is sucked and separated.
【0014】[0014]
【実施例】次に、図面を参照して本発明の実施例を詳細
に説明する。 (第1実施例)図1は、本発明の第1実施例に係る電磁
音響洗浄器の構成図であり、10は例えば塩化ビニルか
ら成る絶縁性洗浄槽、11は水等の洗浄液、12は導電
性の被洗浄物、13は絶縁性洗浄槽10の外底部近傍に
配設される渦巻状コイル、14は渦巻状コイル13にパ
ルス電力を給電するためのパルス電力生成装置である。
渦巻状コイル13の配設に際しては、そのコイル面、即
ち隣設の各コイル表面が形成する共通平面が洗浄槽10
内の被洗浄物12の配置部位を指向していれば良く、必
ずしも洗浄槽10と一体に取り付けなくとも良い。Embodiments of the present invention will now be described in detail with reference to the drawings. (First Embodiment) FIG. 1 is a block diagram of an electromagnetic acoustic cleaner according to a first embodiment of the present invention. 10 is an insulating cleaning tank made of vinyl chloride, 11 is a cleaning liquid such as water, and 12 is a cleaning liquid. A conductive object to be cleaned, 13 is a spiral coil disposed near the outer bottom of the insulating cleaning tank 10, and 14 is a pulse power generation device for supplying pulse power to the spiral coil 13.
When disposing the spiral coil 13, the coil surface, that is, the common plane formed by the adjacent coil surfaces is the cleaning tank 10.
It suffices that it is directed to the position where the article to be cleaned 12 is disposed inside, and it does not necessarily have to be attached integrally with the cleaning tank 10.
【0015】パルス電力生成装置14は、直流電源14
1と、コンデンサ142と、切替スイッチ143とから
構成される。この切替スイッチ143は、図示しない制
御装置によって直流電源141側と渦巻状コイル13側
との間で交互に切替制御がなされるものとする。The pulse power generator 14 includes a DC power source 14
1, a capacitor 142, and a changeover switch 143. The changeover switch 143 is assumed to be alternately controlled between the DC power supply 141 side and the spiral coil 13 side by a control device (not shown).
【0016】上記構成の電磁音響洗浄器においては、洗
浄時に、切替スイッチ143を直流電源141側にセッ
トしてコンデンサ14に電気的エネルギーを蓄積させた
後、切替スイッチ143を直流電源141側から渦巻状
コイル11側に切り替える。これにより渦巻状コイル1
3に瞬間的に大電流(コイル電流)が流れ、同時にこの
コイル電流によって被洗浄物12に渦電流が誘導され
る。渦電流とコイル電流との間には瞬間的に強力な電磁
反発力が作用するので、被洗浄物12が振動し、大勢力
パルス音波(圧力変化)が発生する。このパルス音波の
繰り返し周期は、前述の切替スイッチ143の切替周期
により決められる。In the electromagnetic acoustic cleaner having the above-mentioned structure, at the time of cleaning, the changeover switch 143 is set to the DC power source 141 side to store the electric energy in the capacitor 14, and then the changeover switch 143 is swirled from the DC power source 141 side. Switch to the coil 11 side. As a result, the spiral coil 1
A large current (coil current) instantaneously flows through the coil 3, and an eddy current is induced in the object to be cleaned 12 by this coil current. A strong electromagnetic repulsive force instantaneously acts between the eddy current and the coil current, so that the object to be cleaned 12 vibrates and a large force pulse sound wave (pressure change) is generated. The repetition cycle of the pulse sound wave is determined by the switching cycle of the changeover switch 143 described above.
【0017】この被洗浄物12の振動によって、表面に
付着しているゴミ、汚れが振り落とされる。また、大勢
力パルス音波により洗浄液11中にキャビテーションが
発生するので、被洗浄物12の表面に残っているゴミ、
汚れが吸引剥離される。Due to the vibration of the object to be cleaned 12, dust and dirt adhering to the surface are shaken off. In addition, since cavitation is generated in the cleaning liquid 11 due to the high-intensity pulse sound wave, dust remaining on the surface of the object 12 to be cleaned,
Dirt is removed by suction.
【0018】このように、本実施例では、被洗浄物12
のみを振動させるので、超音波洗浄に比べてエネルギー
損失が格段に少なく、しかも、渦巻状コイル13は被洗
浄物12に渦電流を誘導させ得る部位に配設すれば足り
るので、洗浄器の組立作業が容易であり、低コストで高
効率の湿式洗浄を容易に実現することができる。As described above, in the present embodiment, the object to be cleaned 12 is
Since only the vibrator is vibrated, the energy loss is much smaller than that of ultrasonic cleaning, and moreover, it is sufficient to dispose the spiral coil 13 at a site where an eddy current can be induced in the object to be cleaned 12. The work is easy, and low-cost and highly efficient wet cleaning can be easily realized.
【0019】(第2実施例)図2は、本発明の第2実施
例に係る電磁音響洗浄器の構成図であり、導電性が低
い、あるいは絶縁性の被洗浄物を洗浄する場合の構成例
を示すものである。なお、図1の構成と同一機能の部品
については同一符号を付してその説明を省略し、異なる
部分についてのみ説明する。(Second Embodiment) FIG. 2 is a block diagram of an electromagnetic acoustic cleaner according to a second embodiment of the present invention, which is used for cleaning an object to be cleaned having low conductivity or insulation. An example is shown. It should be noted that parts having the same functions as those of the configuration shown in FIG. 1 are designated by the same reference numerals, and the description thereof will be omitted.
【0020】この実施例では、洗浄時に、被洗浄物22
を収納するための収納容器23を用いる。この収容容器
23の形状は、洗浄液11の通りを良くするために、例
えば、洗浄槽10の外底部近傍に配設してある渦巻状コ
イル13と対向する部位は板状とし、他の部位は網目状
としたものである。被洗浄物12は、板状の部分の内側
に載置される。なお、被洗浄物22を載置しつつ通液性
を良くする構成であれば足りるので、板状の部分の周縁
をフランジ状に形成したものであっても良い。In this embodiment, the object to be cleaned 22 is cleaned at the time of cleaning.
The storage container 23 for storing is used. The shape of the storage container 23 is, for example, a plate-like portion facing the spiral coil 13 disposed near the outer bottom portion of the cleaning tank 10 in order to improve the flow of the cleaning liquid 11, and the other portion is It has a mesh shape. The object to be cleaned 12 is placed inside the plate-shaped portion. It should be noted that any configuration may be used as long as the article 22 to be cleaned is placed and the liquid permeability is improved. Therefore, the plate-shaped portion may have a flange-like peripheral edge.
【0021】このような構成の電磁音響洗浄器では、被
洗浄物22を収納容器23に収納して洗浄液11中に没
入させ、渦巻状コイル13にパルス電力を給電する。こ
れにより、収納容器23が上記電磁反発力によって振動
し、この振動を被洗浄物22に伝達する。また、収納容
器23が振動することにより大勢力パルス音波が発生
し、キャビテーションが発生して被洗浄物22の表面に
付着したゴミや汚れが吸引剥離される。即ち、本実施例
によれば、被洗浄物22及び収納容器23のみが振動
し、あるいはその付近にキャビテーションが発生して洗
浄が行われるので、第1実施例と同様、高効率の湿式洗
浄を容易に実現することができる。In the electromagnetic acoustic cleaner having such a structure, the object to be cleaned 22 is housed in the container 23, immersed in the cleaning liquid 11, and pulsed power is supplied to the spiral coil 13. As a result, the storage container 23 vibrates due to the electromagnetic repulsive force, and this vibration is transmitted to the object to be cleaned 22. Further, as the storage container 23 vibrates, a large force pulse sound wave is generated, and cavitation is generated, so that dust and dirt adhering to the surface of the object to be cleaned 22 are sucked and separated. That is, according to the present embodiment, only the object to be cleaned 22 and the storage container 23 vibrate, or cavitation occurs in the vicinity of the object to be cleaned, so that high-efficiency wet cleaning is performed as in the first embodiment. It can be easily realized.
【0022】(第3実施例)この実施例は、第1実施例
の構成(図1)において、絶縁性洗浄槽10に代えて、
鉄やニッケル等から成る導電性洗浄槽を用いるとともに
渦巻状コイル13を絶縁性部材を介して該洗浄槽の近傍
に配設し、絶縁性の被洗浄物の洗浄を行う例であり、そ
の他の構成は第1実施例の場合と同様である。(Third Embodiment) In this embodiment, instead of the insulating cleaning tank 10 in the configuration of the first embodiment (FIG. 1),
This is an example in which a conductive cleaning tank made of iron, nickel, or the like is used, and the spiral coil 13 is disposed in the vicinity of the cleaning tank via an insulating member to clean an insulating object to be cleaned. The configuration is similar to that of the first embodiment.
【0023】このような構成の電磁音響洗浄器では、被
洗浄物を洗浄液とともに洗浄槽に入れ、渦巻状コイルに
パルス電力を給電すると、洗浄槽自体が上記電磁反発力
によって振動し、大勢力パルス音波を発生させる。この
パルス音波によって洗浄液中にキャビテーションを発生
させ、被洗浄物の表面に付着したゴミや汚れを吸引剥離
する。即ち、洗浄槽の槽壁が振動体を兼ねるので、第1
及び第2実施例と同様、高効率の湿式洗浄を容易に実現
することができる。In the electromagnetic acoustic cleaner having such a structure, when the object to be cleaned is put into the cleaning tank together with the cleaning liquid and pulsed electric power is supplied to the spiral coil, the cleaning tank itself vibrates due to the electromagnetic repulsive force and a large force pulse is generated. Generates sound waves. Cavitation is generated in the cleaning liquid by this pulse sound wave, and dust and dirt adhering to the surface of the object to be cleaned are sucked and separated. That is, since the tank wall of the cleaning tank also serves as the vibrator,
Also, similarly to the second embodiment, highly efficient wet cleaning can be easily realized.
【0024】以上、本発明を各実施例に基づいて説明し
たが、本発明は、電磁音響変換により被洗浄物、被洗浄
物の収納容器、あるいは洗浄槽を直接に振動させて大勢
力パルス音波を発生させる構成であれば良いので、必ず
しも上記各実施例に限定されるものではない。Although the present invention has been described based on the embodiments, the present invention directly vibrates the object to be cleaned, the container for the object to be cleaned, or the cleaning tank by electromagnetic acoustic conversion to generate a high-power pulse sound wave. However, the present invention is not limited to the above-mentioned embodiments.
【0025】[0025]
【発明の効果】以上の説明から明らかなように、第1発
明の電磁音響洗浄方法では、パルス電力を渦巻状コイル
に給電して洗浄槽内の被洗浄物に渦電流を誘導し、この
渦電流とコイル電流との相互作用により被洗浄物自体を
振動させるので、超音波振動子を用いた洗浄のように電
気的エネルギーから機械的振動エネルギーへの変換過程
が無く、高効率且つ低コストの洗浄が可能となる効果が
ある。As is apparent from the above description, in the electromagnetic acoustic cleaning method of the first invention, pulse power is supplied to the spiral coil to induce an eddy current in the object to be cleaned in the cleaning tank. Since the object to be cleaned itself is vibrated by the interaction between the electric current and the coil current, there is no conversion process from electrical energy to mechanical vibration energy unlike cleaning using an ultrasonic vibrator, and high efficiency and low cost are achieved. It has the effect of enabling cleaning.
【0026】また、第2発明の電磁音響洗浄方法は、被
洗浄物を導電性且つ通液性の収納容器に収納して洗浄液
中に没入せしめ、この収納容器を渦電流とコイル電流と
の相互作用により振動させ、この振動を被洗浄物に伝達
するとともに被洗浄物の周囲に圧力変化を起こさせるの
で、絶縁性の被洗浄物であっても電磁音響変換による洗
浄が可能となり、被洗浄物の材質を問わず、高効率且つ
低コストの洗浄が可能となる効果がある。In the electromagnetic acoustic cleaning method according to the second aspect of the present invention, the object to be cleaned is housed in a conductive and liquid-permeable storage container and immersed in the cleaning liquid, and the storage container is subjected to eddy current and coil current interaction. Since it vibrates due to the action and transmits this vibration to the object to be cleaned and causes a pressure change around the object to be cleaned, even an insulating object to be cleaned can be cleaned by electromagnetic sound conversion. There is an effect that high efficiency and low cost cleaning can be performed regardless of the material.
【0027】また、第3発明の電磁音響洗浄方法は、洗
浄槽を導電性部材で構成し、この洗浄槽に誘導される渦
電流とコイル電流との相互作用により洗浄槽自体を振動
させて被洗浄物の洗浄を行うので、より低コストの洗浄
が可能となる効果がある。In the electromagnetic acoustic cleaning method of the third invention, the cleaning tank is made of a conductive member, and the cleaning tank itself is vibrated by the interaction between the eddy current and the coil current induced in the cleaning tank. Since the cleaning product is cleaned, there is an effect that cleaning at a lower cost is possible.
【0028】更に、本発明の電磁音響洗浄器は、渦巻状
コイルにパルス電力が給電されたときに洗浄槽、洗浄槽
内部の被洗浄物、あるいは被洗浄物を洗浄槽内で収納す
る収納容器に渦電流が誘導される構成なので、上記第1
乃至第3発明の電磁音響洗浄方法の実施が容易であり、
しかも、渦巻状コイルは、上記渦電流を誘導し得る部位
に配設することで足りるため、組立が超音波洗浄器に比
べて単純化され、信頼性が高く、且つ低コストの洗浄器
を実現することができる。Further, the electromagnetic acoustic cleaner of the present invention is a storage container for storing a cleaning tank, an object to be cleaned in the cleaning tank, or an object to be cleaned in the cleaning tank when pulsed electric power is supplied to the spiral coil. Since the configuration is such that eddy currents are induced in the
Through, it is easy to carry out the electromagnetic acoustic cleaning method of the third invention,
Moreover, since the spiral coil need only be arranged at the site where the eddy current can be induced, the assembly is simpler than the ultrasonic cleaner, and the cleaner has high reliability and low cost. can do.
【図1】本発明の第1実施例に係る電磁音響洗浄器の要
部構成図である。FIG. 1 is a main part configuration diagram of an electromagnetic acoustic cleaner according to a first embodiment of the present invention.
【図2】本発明の第2実施例に係る電磁音響洗浄器の要
部構成図である。FIG. 2 is a configuration diagram of a main part of an electromagnetic acoustic cleaner according to a second embodiment of the present invention.
【図3】一般的な超音波洗浄器の要部構成図である。FIG. 3 is a configuration diagram of a main part of a general ultrasonic cleaner.
10,30 洗浄槽 11,31 洗浄液 12,22,32 被洗浄物 13 渦巻状コイル 14 パルス電力生成装置 141 直流電源 142 コンデンサ 143 切替スイッチ 10,30 Cleaning tank 11,31 Cleaning liquid 12,22,32 Object to be cleaned 13 Spiral coil 14 Pulse power generation device 141 DC power supply 142 Capacitor 143 Changeover switch
───────────────────────────────────────────────────── フロントページの続き (72)発明者 土屋 隆生 岡山県岡山市津島福居2−10−4 (72)発明者 安藤 英一 東京都調布市柴崎2丁目1番地3 島田理 化工業株式会社内 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Takao Tsuchiya 2-10-4 Fukui Tsushima, Okayama City, Okayama Prefecture (72) Eiichi Ando 2-1, Shibasaki, Chofu City, Tokyo 3 Shimada Rika Kogyo Co., Ltd.
Claims (5)
部近傍に渦巻状コイルを配設するとともに、前記洗浄槽
内の前記渦巻状コイルと対向する部位に導電性の被洗浄
物を没入せしめ、前記渦巻状コイルにパルス電力を給電
することにより前記被洗浄物に誘導される渦電流と、前
記渦巻状コイルに流れるコイル電流との相互作用により
前記被洗浄物を振動させることを特徴とする電磁音響洗
浄方法。1. A spiral coil is disposed in the vicinity of the outer bottom of an insulating cleaning tank containing a cleaning liquid, and a conductive object to be cleaned is immersed in a portion of the cleaning tank facing the spiral coil. At least, by virtue of the interaction between the eddy current induced in the object to be cleaned by supplying pulsed electric power to the spiral coil and the coil current flowing in the spiral coil, the object to be cleaned is vibrated. Electromagnetic acoustic cleaning method.
部近傍に渦巻状コイルを配設するとともに、前記洗浄槽
内の前記渦巻状コイルと対向する部位に、被洗浄物を収
納して成る導電性且つ通液性の収納容器を没入せしめ、
前記渦巻状コイルにパルス電力を給電することにより前
記収納容器に誘導される渦電流と、前記渦巻状コイルに
流れるコイル電流との相互作用により前記収納容器を振
動させて前記被洗浄物の周囲の洗浄液中に圧力変化を生
じさせることを特徴とする電磁音響洗浄方法。2. A spiral coil is disposed in the vicinity of an outer bottom of an insulating cleaning tank containing a cleaning liquid, and an object to be cleaned is stored in a portion of the cleaning tank facing the spiral coil. Immerse the conductive and liquid-permeable storage container
The storage container is vibrated by the interaction between the eddy current induced in the storage container by supplying pulsed power to the spiral coil and the coil current flowing in the spiral coil, and the surroundings of the object to be cleaned are vibrated. An electromagnetic acoustic cleaning method characterized in that a pressure change is generated in the cleaning liquid.
部近傍に絶縁部材を介して渦巻状コイルを配設するとと
もに、前記洗浄槽内の前記渦巻状コイルと対向する部位
に被洗浄物を没入せしめ、前記渦巻状コイルにパルス電
力を給電することにより前記洗浄槽に誘導される渦電流
と、前記渦巻状コイルに流れるコイル電流との相互作用
により前記洗浄槽を振動させて前記被洗浄物の周囲の洗
浄液中に圧力変化を生じさせることを特徴とする電磁音
響洗浄方法。3. A spiral coil is disposed near an outer bottom portion of a conductive cleaning tank containing a cleaning liquid via an insulating member, and an object to be cleaned is located in a portion of the cleaning tank facing the spiral coil. And pulsating the spiral coil to supply pulsed electric power to the spiral coil causes an interaction between an eddy current induced in the cleaning tank and a coil current flowing in the spiral coil to vibrate the cleaning tank to cause the cleaning to be performed. An electromagnetic acoustic cleaning method characterized in that a pressure change is generated in a cleaning liquid around an object.
浄槽の外底部近傍に配設されそのコイル面が被洗浄物の
配置部位を指向する渦巻状コイルと、該渦巻状コイルに
給電するための所定周期のパルス電力を生成するパルス
電力生成装置と、を備え、前記渦巻状コイルに前記パル
ス電力が給電されたときに前記洗浄槽又は被洗浄物に渦
電流が誘導される構成であることを特徴とする電磁音響
洗浄器。4. A cleaning tank for containing a cleaning liquid, a spiral coil disposed near an outer bottom of the cleaning tank and having a coil surface directed to a position where an object to be cleaned is disposed, and power is supplied to the spiral coil. A pulsed power generation device for generating pulsed power of a predetermined cycle for performing eddy current in the cleaning tank or the object to be cleaned when the pulsed power is supplied to the spiral coil. An electromagnetic acoustic cleaner characterized by being present.
て、前記洗浄槽内で被洗浄物を収納するための収納容器
を有して成り、該収納容器は、前記被洗浄物よりも導電
率の高い部材により通液可能に形成され、且つ、前記渦
巻状コイルに前記パルス電力が給電されたときに絶縁性
の洗浄槽を通して渦電流が誘導される形状であることを
特徴とする電磁音響洗浄器。5. The electromagnetic acoustic cleaning device according to claim 4, further comprising a storage container for storing the cleaning target in the cleaning tank, the storage container having a conductivity higher than that of the cleaning target. Electromagnetic acoustic cleaning, characterized in that it is formed so as to be able to pass liquid by a member having a high electrical conductivity, and that eddy currents are induced through an insulating cleaning tank when the pulse power is supplied to the spiral coil. vessel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP13189794A JP3360941B2 (en) | 1994-06-14 | 1994-06-14 | Electromagnetic acoustic cleaning method and electromagnetic acoustic cleaning device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP13189794A JP3360941B2 (en) | 1994-06-14 | 1994-06-14 | Electromagnetic acoustic cleaning method and electromagnetic acoustic cleaning device |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH07328569A true JPH07328569A (en) | 1995-12-19 |
JP3360941B2 JP3360941B2 (en) | 2003-01-07 |
Family
ID=15068720
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JP13189794A Expired - Fee Related JP3360941B2 (en) | 1994-06-14 | 1994-06-14 | Electromagnetic acoustic cleaning method and electromagnetic acoustic cleaning device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3360941B2 (en) |
-
1994
- 1994-06-14 JP JP13189794A patent/JP3360941B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JP3360941B2 (en) | 2003-01-07 |
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