JPH0616892Y2 - Ozone generator unit - Google Patents
Ozone generator unitInfo
- Publication number
- JPH0616892Y2 JPH0616892Y2 JP4792890U JP4792890U JPH0616892Y2 JP H0616892 Y2 JPH0616892 Y2 JP H0616892Y2 JP 4792890 U JP4792890 U JP 4792890U JP 4792890 U JP4792890 U JP 4792890U JP H0616892 Y2 JPH0616892 Y2 JP H0616892Y2
- Authority
- JP
- Japan
- Prior art keywords
- ozone generator
- socket
- power supply
- reservoir
- ozone
- 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.)
- Expired - Lifetime
Links
Landscapes
- Oxygen, Ozone, And Oxides In General (AREA)
Description
【考案の詳細な説明】 (産業上の利用分野) この考案はオゾンを生成するオゾン生成体ユニットに関
する。DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to an ozone generator unit for generating ozone.
(従来の技術) 従来より、殺菌、脱臭、美容、治療等にオゾンの利用が
図られており、このオゾンを生成するオゾン生成ユニッ
トとして例えば文献I:特開昭63−190702号公
報に開示されるものがある。この従来ユニットは特定の
共振周波数で共振する圧電素子の層と誘電体の層とを直
列に接続して設け、これら層を挟持するように給電端子
を設けた構造を有し、特定周波数の高電界をこれら圧電
素子及び誘電体の層に印加することにより選択的に酸素
をイオン化してオゾンを発生させる。(Prior Art) Conventionally, ozone has been used for sterilization, deodorization, beauty treatment, treatment, and the like, and as an ozone generation unit for generating this ozone, for example, it is disclosed in JP-A-63-190702. There are things. This conventional unit has a structure in which a layer of a piezoelectric element that resonates at a specific resonance frequency and a layer of a dielectric are connected in series, and a power supply terminal is provided so as to sandwich these layers. By applying an electric field to these piezoelectric element and dielectric layers, oxygen is selectively ionized to generate ozone.
この従来ユニットでは、給電端子が生成されたオゾンガ
ス中にさらされるため腐食しやすく、そこでこの腐食を
防止するためシリコン等の腐食防止剤を給電端子に指で
塗布していた。In this conventional unit, since the power supply terminal is exposed to the generated ozone gas, it is easily corroded, and in order to prevent this corrosion, a corrosion inhibitor such as silicon is applied to the power supply terminal with a finger.
(考案が解決しようとする課題) しかしながら指で塗布する作業は給電端子が比較的小さ
くしかもこの小さい給電端子の全面に万遍なく腐食防止
剤を塗布しなければならないため、大変な作業であっ
た。(Problems to be solved by the invention) However, the work of applying with fingers was a difficult work because the power supply terminal was relatively small and the corrosion inhibitor had to be evenly applied to the entire surface of this small power supply terminal. .
この考案の目的は上述した従来の問題点を解決するた
め、腐食防止剤を溜める溜め部を備えたオゾン生成体ユ
ニットを提供することにある。An object of the present invention is to provide an ozone generator unit having a reservoir for storing a corrosion inhibitor in order to solve the above conventional problems.
(課題を解決するための手段) この目的の達成を図るため、この考案のオゾン生成体ユ
ニットはオゾン発生体と、このオゾン発生体の端部から
突出させてオゾン発生体の端部に設けた給電端子と、オ
ゾン発生体に固定されるソケットとを備え、ソケット
は、腐食防止剤を溜める溜め部及びこの溜め部と連通さ
せた腐食防止剤の注入部を有し、ソケットを、給電端子
を溜め部の腐食防止剤中に保持するように、オゾン発生
体に固定することを特徴とする。(Means for Solving the Problem) In order to achieve this object, the ozone generator unit of the present invention is provided on the ozone generator and at the end of the ozone generator so as to project from the end thereof. The socket has a power supply terminal and a socket fixed to the ozone generator, and the socket has a reservoir for storing the corrosion inhibitor and an injection portion for the corrosion inhibitor in communication with the reservoir. It is characterized in that it is fixed to the ozone generator so as to be held in the corrosion inhibitor of the reservoir.
(作用) このような構成のオゾン生成体ユニットによれば、腐食
防止剤(例えばシリコン)中に保持される給電端子は生
成されたオゾンガスにさらされないので、オゾンによる
腐食を受けにくい。(Operation) According to the ozone generator unit having such a configuration, since the power supply terminal held in the corrosion inhibitor (for example, silicon) is not exposed to the generated ozone gas, it is less likely to be corroded by ozone.
また、腐食防止剤を注入部から溜め部に注入することに
よって給電端子を腐食防止剤中に保持できるので、給電
端子を腐食防止剤中に保持する作業は簡単である。Further, since the power supply terminal can be held in the corrosion inhibitor by injecting the corrosion inhibitor from the injection portion into the reservoir, the work of holding the power supply terminal in the corrosion inhibitor is simple.
(実施例) 以下、図面を参照し、この考案の実施例につき説明す
る。尚、図面はこの考案が理解できる程度に概略的に示
してあるにすぎない。Embodiment An embodiment of the present invention will be described below with reference to the drawings. It should be noted that the drawings are merely schematic for the understanding of the present invention.
第1図はこの考案の第一実施例の構成を示す分解斜視
図、及び第2図はこの考案の第一実施例の組立て状態を
示す断面図である。FIG. 1 is an exploded perspective view showing a configuration of a first embodiment of the present invention, and FIG. 2 is a sectional view showing an assembled state of the first embodiment of the present invention.
これら図にも示すように、この実施例のオゾン生成体ユ
ニット10は、オゾン発生体12と、オゾン発生体12
の端部から突出させてオゾン発生体12の端部に設けた
給電端子14と、オゾン発生体12に固定されるソケッ
ト16とを備え、ソケット16は腐食防止剤を溜める溜
め部22、24及び腐食防止剤の注入部18、20を有
し、ソケット16を、給電端子14を溜め部22の腐食
防止剤中に保持するように、オゾン発生体12の端部に
固定する構造を有する。As shown in these figures, the ozone generator unit 10 of this embodiment includes an ozone generator 12 and an ozone generator 12
Of the ozone generator 12 and a socket 16 fixed to the ozone generator 12, and the socket 16 has reservoirs 22, 24 for accumulating a corrosion inhibitor and a socket 16 fixed to the ozone generator 12. It has corrosion inhibitor injection portions 18 and 20, and has a structure in which the socket 16 is fixed to the end of the ozone generator 12 so as to hold the power supply terminal 14 in the corrosion inhibitor of the reservoir portion 22.
この実施例では、オゾン発生体12を中空の円筒状の絶
縁体(或は誘電体)121例えばセラミック基板と圧電
素子122例えば圧電セラミックとから構成し、絶縁体
121の側面に圧電素子122を設けてこれら121、
122の直列回路を形成する。In this embodiment, the ozone generator 12 is composed of a hollow cylindrical insulator (or dielectric) 121 such as a ceramic substrate and a piezoelectric element 122 such as piezoelectric ceramic, and the piezoelectric element 122 is provided on the side surface of the insulator 121. These 121,
122 to form a series circuit.
そして正極及び負極用の給電端子14をオゾン発生体1
2に設ける。各給電端子14は金属端子141及びコネ
クター用ピン142から成り、正極用の金属端子141
を圧電素子122に及び負極用の金属端子141を絶縁
体121に設け、絶縁体121及び圧電素子122の直
列回路にこれら正極及び負極用の端子141を介し電圧
を与える。The positive and negative power supply terminals 14 are connected to the ozone generator 1
Provided in 2. Each power supply terminal 14 includes a metal terminal 141 and a connector pin 142, and the metal terminal 141 for the positive electrode
Is provided on the piezoelectric element 122 and the metal terminal 141 for the negative electrode is provided on the insulator 121, and a voltage is applied to the series circuit of the insulator 121 and the piezoelectric element 122 via the terminals 141 for the positive electrode and the negative electrode.
そしてコネクター用ピン142の一方の端部に嵌入穴を
設け、この嵌入穴に金属端子141を嵌着固定して金属
端子141及びコネクター用ピン142を一体と成す。A fitting hole is provided at one end of the connector pin 142, and the metal terminal 141 is fitted and fixed in the fitting hole to integrally form the metal terminal 141 and the connector pin 142.
さらにこの実施例では、ソケット16を第一部材161
1及び第二部材1612から成る枠体161とソケット
端子162とから構成する。枠体161は絶縁性を有し
オゾンガスに対する耐腐食性を有する材料例えばセラミ
ック或は塩化ビニルから成る。Further, in this embodiment, the socket 16 is connected to the first member 161.
The frame body 161 including the first and second members 1612 and the socket terminal 162. The frame body 161 is made of a material having an insulating property and a corrosion resistance against ozone gas, such as ceramic or vinyl chloride.
第一部材1611は凹状の溜め部22と溜め部22に連
通させた穴から成る注入部18と、コネクター用ピン1
42を挿通させる貫通穴26とを有する。またソケット
端子16には正極及び負極用のものをそれぞれ用意し、
各端子16の一方の端部に嵌入穴を設ける。そしてコネ
クター用ピン142の他方の端部を溜め部22の側から
この22とは反対の側へと貫通穴26に挿通させて第一
部材1611から延出させるように、オゾン発生体12
の端部を溜め部22に嵌着固定し、さらにこのピン14
2の延出させた他方の端部をソケット端子162の嵌入
穴に嵌着固定し相対応する極性のコネクター用ピン14
2とソケット端子162とを一体と成す。The first member 1611 includes an injecting portion 18 having a concave reservoir portion 22 and a hole communicating with the reservoir portion 22, and the connector pin 1
And a through hole 26 through which 42 is inserted. Moreover, the socket terminals 16 are prepared for positive and negative electrodes, respectively.
A fitting hole is provided at one end of each terminal 16. Then, the other end of the connector pin 142 is inserted from the reservoir portion 22 side to the side opposite to the reservoir portion 22 through the through hole 26 so as to extend from the first member 1611.
The end of the pin is fitted and fixed to the reservoir 22, and the pin 14
The other extended end of 2 is fitted and fixed in the fitting hole of the socket terminal 162, and the corresponding pin 14 for the connector having the corresponding polarity
2 and the socket terminal 162 are integrally formed.
また第二部材1612は凹状の溜め部24と溜め部24
に連通させた注入部20とソケット端子162を挿通さ
せる貫通穴28とこの第二部材1612の固定に用いる
止め穴30とを有する。そしてソケット端子16の他方
の端部を溜め部24の側からこの24とは反対の側へと
貫通穴28に挿通させるように、第一部材1611の溜
め部22とは反対側の端部を第二部材1612の溜め部
24に嵌着固定する。尚、注入部18、20を穴の他例
えばスリットとするようにしてもよい。In addition, the second member 1612 includes a concave reservoir 24 and a reservoir 24.
The through hole 28 for inserting the injection part 20 and the socket terminal 162 which are communicated with each other and the stop hole 30 used for fixing the second member 1612 are provided. The end portion of the first member 1611 opposite to the reservoir portion 22 is inserted so that the other end portion of the socket terminal 16 is inserted into the through hole 28 from the reservoir portion 24 side to the opposite side. The second member 1612 is fitted and fixed to the reservoir 24. The injection parts 18 and 20 may be holes instead of holes, for example.
第2図からも理解できるように、組立てを終えたオゾン
生成体ユニット10の注入部18、20より腐食防止剤
例えば液状のシリコンを溜め部22、24に注入する
と、これら溜め部22、24に溜められた腐食防止剤中
に給電端子14及びソケット端子162を保持でき、従
ってこれら端子14、162をオゾンによる腐食から守
ることができる。As can be understood from FIG. 2, when a corrosion inhibitor such as liquid silicon is injected into the reservoirs 22 and 24 from the injectors 18 and 20 of the ozone generator unit 10 which has been assembled, the reservoirs 22 and 24 are injected into the reservoirs 22 and 24. The power supply terminal 14 and the socket terminal 162 can be held in the accumulated corrosion inhibitor, and thus the terminals 14 and 162 can be protected from corrosion by ozone.
第3図は第一実施例の使用状態の一例を示す斜視図であ
って、第一実施例のオゾン生成体ユニット10を用いて
構成したオゾン発生装置の全体構成を示す図である。
尚、上述した第一実施例では止め穴30を設けたが、第
3図の使用例では止め穴30を設けない。FIG. 3 is a perspective view showing an example of a usage state of the first embodiment, and is a diagram showing an overall configuration of an ozone generator configured by using the ozone generator unit 10 of the first embodiment.
Although the stop hole 30 is provided in the above-described first embodiment, the stop hole 30 is not provided in the use example of FIG.
同図に示すオゾン発生装置32はオゾン生成体ユニット
10、オゾン発生体12用の駆動電源部34及び図中、
一点鎖線で示すシールドカバー36から成る。駆動電源
部34は複数のソケット341を有し、オゾン生成体ユ
ニット10のソケット16をソケット341に着脱自在
に固定しこの固定状態でユニット10と、駆動電源部3
4の駆動回路とを電気的に接続する。そしてシールドカ
バー36を駆動電源部34に着脱自在に取付け、これら
36及び34が形成する格納空間内にオゾン生成体ユニ
ット10を保持し、これによりオゾン生成体ユニット1
0の破損を防止し或は人が駆動中のオゾン生成体ユニッ
ト10に触れるのを防止する。シールドカバー36は網
目、パンチ穴等の多数の通気孔を有し、オゾン生成体ユ
ニット10により生成されたオゾンガスをこの通気孔を
介してオゾン生成体ユニット10の格納空間外へと供給
し、またオゾン生成用ガス例えば空気をオゾン生成体ユ
ニット10の格納空間内へと供給する。この他、シール
ドカバー36をプラスチック等から成る非通気性部材と
し、これに吸気口及び排気口を設け、ファンやエアポン
プ等を用いてこれら吸排気口を介しオゾンガス及びオゾ
ンガス生成用ガスの供給を行なうようにしてもよい。
尚、第3図中の符号342及び343はプラグ及び電源
コードを示す。The ozone generator 32 shown in the figure includes an ozone generator unit 10, a drive power supply unit 34 for the ozone generator 12, and
It is composed of a shield cover 36 shown by a chain line. The drive power supply unit 34 has a plurality of sockets 341, and the socket 16 of the ozone generator unit 10 is detachably fixed to the socket 341. In this fixed state, the unit 10 and the drive power supply unit 3
4 is electrically connected to the drive circuit. Then, the shield cover 36 is detachably attached to the drive power source 34, and the ozone generator unit 10 is held in the storage space formed by these 36 and 34, whereby the ozone generator unit 1
0 damage or prevent human touching the ozone generator unit 10 during operation. The shield cover 36 has a large number of vent holes such as meshes and punch holes, and supplies the ozone gas generated by the ozone generator unit 10 to the outside of the storage space of the ozone generator unit 10 through the vent holes. An ozone generating gas such as air is supplied into the storage space of the ozone generator unit 10. In addition to this, the shield cover 36 is made of a non-air-permeable member made of plastic or the like, an intake port and an exhaust port are provided in the shield cover 36, and ozone gas and ozone gas generating gas are supplied through the intake and exhaust ports using a fan, an air pump, and the like. You may do it.
Incidentally, reference numerals 342 and 343 in FIG. 3 denote a plug and a power cord.
第4図はこの考案の第二実施例の構成を示す側面図であ
る。FIG. 4 is a side view showing the construction of the second embodiment of the present invention.
第4図にも示すように、第二実施例のオゾン発生体ユニ
ット38はオゾン発生体40及びソケット42、44、
46から成り、複数のオゾン発生体40をソケット44
を介し連結した構成を有する。As shown in FIG. 4, the ozone generator unit 38 of the second embodiment has an ozone generator 40 and sockets 42, 44,
46, and a plurality of ozone generators 40
It has the structure connected through.
第5図(A)〜(E)は第二実施例のオゾン発生体の製
造工程を段階的に示す図である。FIGS. 5 (A) to (E) are views showing stepwise the manufacturing process of the ozone generator of the second embodiment.
まず第5図(A)にも示すように絶縁体401としてグ
リーシートと称するセラミック基板を用意し、その一方
の側面に端子a及びbを備える圧電素子402としてセ
ラミック材料を厚膜印刷により積層する。尚、グリーシ
ートは焼成前は変形自在で焼成後に硬化し形状を維持す
る。First, as shown in FIG. 5 (A), a ceramic substrate called a green sheet is prepared as an insulator 401, and a ceramic material is laminated by thick film printing as a piezoelectric element 402 having terminals a and b on one side surface thereof. . The green sheet is deformable before firing and hardened after firing to maintain its shape.
次に、第5図(B)にも示すように絶縁体401の他方
の側面に端子c及びdを備える圧電素子403としてセ
ラミック材料を厚膜印刷により積層する。Next, as shown in FIG. 5 (B), a ceramic material is laminated by thick film printing on the other side surface of the insulator 401 as a piezoelectric element 403 having terminals c and d.
次に第5図(C)にも示すように絶縁体401を一方の
側面から他方の側面の側へ凸となるように弯曲させて半
円筒状に形状を維持したまま、絶縁体401、圧電素子
402、403を焼成する。Then, as shown in FIG. 5C, the insulator 401 is bent from one side surface to be convex toward the other side surface, and the insulator 401, piezoelectric The elements 402 and 403 are fired.
次に第5図(D)にも示すように、絶縁体401の一方
の端部の側に位置する端子a、cにそれぞれ金属端子4
04を焼付ける。Next, as shown in FIG. 5D, the metal terminals 4 are respectively attached to the terminals a and c located on one end side of the insulator 401.
Bake 04.
次に第5図(E)にも示すように、半円筒状の2つの絶
縁体401を一体と成して中空の円筒状のオゾン発生体
40を形成する。従ってこの実施例のオゾン発生体40
は半円筒状の2つの絶縁体401と、各絶縁体401に
設けた圧電素子401、403と、各圧電素子402、
403の端子a、cに設けた合計4つの金属端子404
とから成る。端子aと接続する金属端子404が正極用
及び端子cと接続する金属端子404が負極用の端子と
なる。Next, as shown in FIG. 5 (E), two semi-cylindrical insulators 401 are integrally formed to form a hollow cylindrical ozone generator 40. Therefore, the ozone generator 40 of this embodiment is
Is two semi-cylindrical insulators 401, piezoelectric elements 401 and 403 provided on each insulator 401, and piezoelectric elements 402,
A total of four metal terminals 404 provided on terminals a and c of 403
It consists of and. The metal terminal 404 connected to the terminal a becomes a positive electrode terminal and the metal terminal 404 connected to the terminal c becomes a negative electrode terminal.
第6図は第二実施例のソケットを示す図であり、第6図
(A)はソケット42の平面図及び第6図(B)は第6
図(A)のVIB−VIB線に沿って取った断面図である。FIG. 6 is a view showing a socket of the second embodiment. FIG. 6 (A) is a plan view of the socket 42 and FIG. 6 (B) is a sixth view.
FIG. 6B is a cross-sectional view taken along line VIB-VIB in FIG.
第6図にも示すように、ソケット42は枠体421及び
ソケット端子422から成る。枠体421は中空部42
11を備える円筒状の形状を有し、その周縁部にリング
状に形成した溝から成る溜め部4212と、溜め部42
12と連通させた穴から成る注入部4213とソケト端
子422を挿通させる貫通穴4214とから成る。As shown in FIG. 6, the socket 42 includes a frame body 421 and socket terminals 422. The frame body 421 is a hollow portion 42.
A reservoir 4212 having a cylindrical shape including 11 and formed of a ring-shaped groove in the peripheral edge thereof, and a reservoir 42.
12 includes an injection portion 4213 formed of a hole communicating with 12, and a through hole 4214 through which the socket terminal 422 is inserted.
ソケット端子422には正極及び負極用のものがあり、
それぞれのソケット端子422の一方の端部を相対応す
る極性の給電端子404と電気的に接続する。そしてソ
ケット端子422の他方の端子を貫通穴4214に溜め
部4212の側からこの4212とは反対の側へ挿通さ
せて枠体421から延出させるようにしてオゾン発生体
40の端部を溜め部4212に固定する(第4図参
照)。この固定状態で、ソケット端子422及び給電端
子404を溜め部4212内に収納するようにする。給
電端子404及びソケット端子422は溜め部4212
に注入した防食防止剤中に保持される。Socket terminals 422 are available for positive and negative electrodes,
One end of each socket terminal 422 is electrically connected to the power supply terminal 404 having a corresponding polarity. Then, the other terminal of the socket terminal 422 is inserted into the through hole 4214 from the side of the reservoir portion 4212 to the side opposite to the reservoir portion 4212 so as to extend from the frame body 421 and the end portion of the ozone generator 40 is retained. It is fixed to 4212 (see FIG. 4). In this fixed state, the socket terminal 422 and the power supply terminal 404 are housed in the storage portion 4212. The power supply terminal 404 and the socket terminal 422 are stored in the storage portion 4212.
Retained in anticorrosion agent injected into.
第7図は第二実施例のソケットを示す図であり、第7図
(A)はソケット44の平面図及び第7図(B)は第7
図(A)のVIIB−VIIB線に沿って取った断面を示す。FIG. 7 is a view showing a socket of the second embodiment, FIG. 7 (A) is a plan view of the socket 44, and FIG. 7 (B) is a seventh view.
A cross section taken along line VIIB-VIIB in FIG.
第7図にも示すように、ソケット44は枠体441から
成る。枠体441は中空部4411を備える円筒状の形
状を有し、その周縁部にリング状に形成した溝から成る
溜め部4412、4413と溜め部4412、4413
と連通させて設けた注入部4414、4415と溜め部
4412と4413との間に設けたオゾン発生体40の
位置決めを行なう位置決め部4416と位置決め部44
16に設けた貫通穴4417とから成る。As shown in FIG. 7, the socket 44 is composed of a frame body 441. The frame body 441 has a cylindrical shape with a hollow portion 4411, and reservoir portions 4412 and 4413 and reservoir portions 4412 and 4413 formed of grooves formed in a ring shape on the peripheral edge portion thereof.
Positioning section 4416 and positioning section 44 for positioning the ozone generator 40 provided between the injection sections 4414, 4415 and the reservoir sections 4412 and 4413 provided in communication with
16 and through holes 4417.
ソケット44を介し互いに隣接して連結される一方及び
他方のオゾン発生体40において(第4図参照)、一方
のオゾン発生体40の給電端子404を貫通穴4417
に溜め部4412の側から溜め部4413の側へと挿通
させ溜め部4413内に給電端子404を延出させるよ
うにして一方のオゾン発生体40の端部を溜め部441
2に嵌め込み固定する。そしてこれと共に他方のオゾン
発生体40の給電端子404とは反対側の端子b、dを
一方のオゾン発生体40の給電端子404と接触させ相
対応する極性の端子b、dと給電端子404とが電気的
に接続するようにして他方のオゾン発生体40の端子
b、dの側の端部を溜め部4413に嵌め込み固定す
る。給電端子404は溜め部4412、4413に注入
した腐食防止剤中に保持される。In the one and the other ozone generators 40 that are adjacently connected to each other via the socket 44 (see FIG. 4), the power supply terminal 404 of the one ozone generator 40 is connected to the through hole 4417.
The end portion of one ozone generator 40 is stored in the reservoir portion 441 by inserting the power supply terminal 404 into the reservoir portion 4413 by inserting the power supply terminal 404 from the reservoir portion 4412 side to the reservoir portion 4413 side.
Fit in 2 and fix. Along with this, the terminals b and d on the opposite side of the power supply terminal 404 of the other ozone generator 40 are brought into contact with the power supply terminal 404 of the one ozone generator 40, and the terminals b and d of the polarities corresponding to each other and the power supply terminal 404 are provided. Are electrically connected to each other, and the ends of the other ozone generator 40 on the side of the terminals b and d are fitted and fixed in the reservoir portion 4413. The power supply terminal 404 is held in the corrosion inhibitor injected into the reservoirs 4412 and 4413.
第8図もまた第二実施例のソケットを示す図であり、第
8図(A)はソケット46の平面図及び第8図(B)は
第8図(A)のVIIIB−VIIIB線に沿って取った断面図
である。FIG. 8 is also a view showing the socket of the second embodiment, wherein FIG. 8 (A) is a plan view of the socket 46 and FIG. 8 (B) is along the line VIIIB-VIIIB in FIG. 8 (A). FIG.
第8図にも示すように、ソケット46は枠体461から
成る。枠体461は中空部4611を備えた円筒状の形
状を有し、その周縁部にリング状に形成した溝から成る
嵌め込み部4612を有する。この枠体461の嵌め込
み部4612にオゾン発生体40の端子c、dの側の端
部を嵌め込んで枠体461をオゾン発生体40に固定す
る。オゾン生成体ユニット38の位置決め固定に当って
は、ソケット42、44、46を支持するようにすれば
よい。As shown in FIG. 8, the socket 46 is composed of a frame body 461. The frame body 461 has a cylindrical shape with a hollow portion 4611, and has a fitting portion 4612 formed by a groove formed in a ring shape on the peripheral portion thereof. The end portions of the ozone generator 40 on the terminals c and d sides are fitted into the fitting portions 4612 of the frame body 461 to fix the frame body 461 to the ozone generator 40. When fixing the ozone generator unit 38 in position, the sockets 42, 44 and 46 may be supported.
この考案は上述した実施例にのみ限定されるものではな
く、従って各構成成分の形状、寸法、配設位置、配設個
数、形成方法、形成材料及びその他を任意好適に変更で
きる。The present invention is not limited to the above-mentioned embodiment, and therefore, the shape, size, arrangement position, arrangement number, forming method, forming material and the like of each component can be arbitrarily changed.
(考案の効果) 上述した説明からも明らかなように、この考案のオゾン
生成体ユニットによれば、ソケットはオゾンによる腐食
を防止するための腐食防止剤を溜める溜め部及びこの溜
め部に連通する注入部を有し、このソケットを、給電端
子を溜め部に溜めた腐食防止剤中に保持するようにオゾ
ン発生体に固定する。従って腐食防止剤中に保持された
給電端子はオゾンによる腐食を受けにくい。しかも給電
端子に腐食防止剤を指等で丹念に塗布するという大変な
作業は必要がなく、腐食防止剤を注入部から溜め部に注
入するという簡単な作業によって給電端子を腐食防止剤
中に保持できる。(Effect of the Invention) As is apparent from the above description, according to the ozone generator unit of the present invention, the socket communicates with the reservoir for storing the corrosion inhibitor for preventing the corrosion due to ozone and the reservoir. An injection part is provided, and this socket is fixed to the ozone generator so as to hold the power supply terminal in the corrosion inhibitor stored in the storage part. Therefore, the power supply terminal held in the corrosion inhibitor is less likely to be corroded by ozone. Moreover, it is not necessary to carefully apply a corrosion inhibitor to the power supply terminal with a finger etc., and the power supply terminal is retained in the corrosion inhibitor by a simple work of injecting the corrosion inhibitor from the injection part to the reservoir. it can.
第1図は、この考案の第一実施例の構成を概略的に示す
分解斜視図、 第2図は、この考案の第一実施例の組立て状態を概略的
に示す断面図、 第3図は、この考案の第一実施例の使用状態の一例を示
す斜視図、 第4図は、この考案の第二実施例の構成を概略的に示す
側面図、 第5図(A)〜(E)は、この考案の第二実施例のオゾ
ン発生体の製造工程の一例を概略的に示す図、 第6図(A)〜(B)、第7図(A)〜(B)及び第8
図(A)〜(B)は、この考案の第二実施例のソケット
の構成を概略的に示す図である。 10、38……オゾン生成体ユニット 12、40……オゾン発生体 14、404……給電端子 16、42、44……ソケット 18、20、4213、4414、4415……注入部 22、24、4212、4412、4413……溜め
部。FIG. 1 is an exploded perspective view schematically showing the configuration of a first embodiment of the present invention, FIG. 2 is a sectional view schematically showing an assembled state of the first embodiment of the present invention, and FIG. Fig. 4 is a perspective view showing an example of a usage state of a first embodiment of the present invention, Fig. 4 is a side view schematically showing a configuration of a second embodiment of the present invention, and Figs. 5 (A) to (E). FIG. 6 is a diagram schematically showing an example of a process of manufacturing an ozone generator according to a second embodiment of the present invention, FIGS. 6 (A) to (B), 7 (A) to (B) and 8
(A)-(B) is a figure which shows schematically the structure of the socket of the 2nd Example of this invention. 10, 38 ... Ozone generator unit 12, 40 ... Ozone generator 14, 404 ... Power supply terminal 16, 42, 44 ... Socket 18, 20, 4213, 4414, 4415 ... Injecting part 22, 24, 4212 , 4412, 4413 ... Reservoir part.
Claims (1)
ら突出させてオゾン発生体の端部に設けた給電端子と、
前記オゾン発生体に固定されるソケットとを備え、 前記ソケットは、腐食防止剤を溜める溜め部及び該溜め
部と連通させた腐食防止剤の注入部を有し、 前記ソケットを、給電端子を前記溜め部の腐食防止剤中
に保持するように、前記オゾン発生体に固定することを
特徴とするオゾン生成体ユニット。1. An ozone generator, and a power supply terminal provided at the end of the ozone generator so as to project from the end of the ozone generator.
A socket fixed to the ozone generator, the socket having a reservoir for storing a corrosion inhibitor and a corrosion inhibitor injection portion communicating with the reservoir, the socket, the power supply terminal An ozone generator unit, wherein the ozone generator is fixed to the ozone generator so as to be held in the corrosion inhibitor in the reservoir.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4792890U JPH0616892Y2 (en) | 1990-05-08 | 1990-05-08 | Ozone generator unit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4792890U JPH0616892Y2 (en) | 1990-05-08 | 1990-05-08 | Ozone generator unit |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH047627U JPH047627U (en) | 1992-01-23 |
JPH0616892Y2 true JPH0616892Y2 (en) | 1994-05-02 |
Family
ID=31564290
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP4792890U Expired - Lifetime JPH0616892Y2 (en) | 1990-05-08 | 1990-05-08 | Ozone generator unit |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0616892Y2 (en) |
Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5166059U (en) * | 1974-11-14 | 1976-05-25 | ||
JPS5651489Y2 (en) * | 1977-08-22 | 1981-12-01 | ||
JPS54153555U (en) * | 1978-03-31 | 1979-10-25 | ||
JPS61166932U (en) * | 1985-04-04 | 1986-10-16 | ||
JP2006265009A (en) * | 2005-03-22 | 2006-10-05 | Haruo Ito | Ozone production device |
-
1990
- 1990-05-08 JP JP4792890U patent/JPH0616892Y2/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
JPH047627U (en) | 1992-01-23 |
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EXPY | Cancellation because of completion of term |