A&D AX-ION-25 User manual
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AX-ION-25
࢜ࢼࢨ
(
㝖㟁ჾ
)
ྲྀᢅㄝ᭩
ὀព
ᮏ᭩ࡢ୍㒊ࡲࡓࡣ㒊ࢆ↓᩿㌿㍕ࡍࡿࡇࡣᅛࡃ࠾᩿ࡾࡋࡲࡍࠋ
ᮏ᭩ࡢෆᐜࡘ࠸࡚ࡣᑗ᮶ண࿌࡞ࡋኚ᭦ࡍࡿࡇࡀ࠶ࡾࡲࡍࠋ
ᮏ᭩ࡢෆᐜࡣࢆᮇࡋ࡚సᡂࡋ࡚࠾ࡾࡲࡍࡀ㺂ࡈᑂ࡞Ⅼࡸㄗࡾ㺂
グ㍕ࡶࢀ࡞࠾Ẽ࡙ࡁࡢⅬࡀ࠶ࡾࡲࡋࡓࡽ㺂ࡈ㐃⤡ࡃࡔࡉ࠸ࠋ
ᘢ♫࡛ࡣ㺂ᮏᶵࡢ㐠⏝ࢆ⌮⏤ࡍࡿᦆኻ㺂㐓ኻ┈➼ࡢㄳồࡘ࠸࡚
ࡣࠊ๓㡯ࢃࡽࡎ࠸࡞ࡿ㈐௵ࡶ㈇࠸ࡡࡲࡍࠋ
170
-
0013
ᮾி㒔㇏ᓥ༊ᮾụ⿄
3-23-14
㺞㺼㺐㺨㺠㺃㺤㺍㺜㺐ụ⿄㺩㺼㺷
5F
࠾ᐈᵝ┦ㄯࢭࣥࢱ࣮
0120
-
514
-
019
ཷ㛫
9:00
㹼
12:00
㺂
13:00
㹼
17:00
㏻ヰᩱ↓ᩱ
᭶᭙᪥㹼㔠᭙᪥⚃᪥ᘢ♫ఇᴗ᪥ࢆ㝖ࡃ
1WMPD4004252A
ࡣࡌࡵ
ᮏ᭩ࡣ AX-ION-25࢜ࢼࢨࡢ〇ရᴫせタᐃࠊタ⨨ࡲ
࡛ࡢㄝ᭩࡞ࡾࡲࡍࠋᮏᶵࢆ༑ศά⏝ࡋ࡚࠸ࡓࡔࡃࡓ
ࡵࠊ⏝๓ᮏ᭩ࢆࡼࡃ࠾ㄞࡳࡃࡔࡉ࠸ࠋ
≉㛗
ᮏᶵࡣࠊࢥࣟࢼᨺ㟁ࡼࡾ 4ᴟࡢᨺ㟁㟁ᴟࡽṇᴟᛶࡲࡓࡣ
㈇ᴟᛶࡢ࢜ࣥࢆ⏕ᡂࡋ㺂ᑐ㇟≀↷ᑕࡍࡿࡇ࡛㝖㟁ࢆ⾜࠸
ࡲࡍࠋ
㢼ࢆⓎ⏕ࡉࡏࡎᖏ㟁ࡋࡓ ᐃ≀ࢆィ㔞๓㝖㟁ࡍࡿࡇ
ࡀ࡛ࡁ㺂㟼㟁Ẽࡼࡿィ㔞ㄗᕪࢆపῶࡋࡲࡍࠋ
ኳࡧࢇᮏయࡽ㟁※ࡀ౪⤥ࡉࢀࡿࡓࡵ㺂ู㏵㟁※౪⤥ࡢࡓ
ࡵࡢ AC ࢲࣉࢱࡀᚲせ࠶ࡾࡲࡏࢇࠋ
ᮏᶵࡣ㺂ෆⶶࡢ IR ࢭࣥࢧ㠀᥋ゐࡢ㉥እ⥺㏆᥋ࢭࣥࢧู
ရࡢ IR ࢫࢵࢳAX-IR-SWITCHࡼࡾືసࡉࡏࡿࡇ
ࡀྍ⬟࡛ࡍࠋ
ᨺ㟁㟁ᴟࣘࢽࢵࢺࡣྲྀࡾእࡋ࡛ࡁ㺂༢య࡛Ύᤲࡀྍ
⬟࡛ࡍࠋ
㟼㟁Ẽ
୍⯡⢊య㺂ࣇࣝࢱ㺂⸆ໟ⣬㺂ࣉࣛࢫࢳࢵࢡ࡞ࡢ⤯⦕
≀ࡣࠊ‵ᗘ 45 %RH ௨ୗ࡞ࡿᖏ㟁ࡋࡸࡍࡃ࡞ࡾ㺂ィ
㔞ࡢ㝿ᩘ mg ࡢㄗᕪࡀ⏕ࡌࡿሙྜࡀ࠶ࡾࡲࡍࠋ
ᮏᶵࢆ⏝ࡍࡿࡇࡼࡾ㺂ຠ⋡ࡼࡃ㝖㟁ࡍࡿࡇࡀ࡛
ࡁࡲࡍࠋ
࠾࠸࠸ࡓࡔࡃ๓
ᮏᶵࢆᏳࡈ⏝࠸ࡓࡔࡃࡓࡵ௨ୗࡢὀព㡯ࢆࡼࡃ࠾ㄞࡳࡃࡔࡉ࠸㹿
ᮏᶵࡣ⢭ᐦᶵჾ࡛ࡍࡢ࡛㺂ྲྀࡾᢅ࠸ࡣ༑ศࡈὀពࡃࡔࡉ࠸ࠋ
ḟࡢሙᡤタ⨨ࡋ࡞࠸࡛ࡃࡔࡉ࠸ࠋ
Ỉࡢࡿᡤ㺂ື㺃⾪ᧁࡀ࠶ࡿᡤ㺂┤ᑕ᪥ගࡀᙜࡿᡤ㺂ࡇࡾࡢከ࠸ᡤࠊ
ሷศ㺃⭉㣗ᛶ࢞ࢫࢆྵࡴ✵Ẽ୰㺂ᘬⅆᛶ࢞ࢫࡢ࠶ࡿᡤࠋ
タ⨨ࡀࡍࡿࡲ࡛ࡣ㟁※ࢆᢞධࡋ࡞࠸࡛ࡃࡔࡉ࠸ࠋ㟁※ࢆษ᩿ࡍࡿࢫ
ࢵࢳࡣᮏᶵࡣ࠶ࡾࡲࡏࢇࠋ
ᵝ
࢜ࣥⓎ⏕᪉ᘧ ┤ὶࢥࣟࢼᨺ㟁
㝖㟁᥎ዡ㊥㞳 ᨺ㟁㟁ᴟ㔪ࡼࡾ 7cm ௨ෆ ᅗ1ཧ↷
࿘ᅖ ᗘ࣭‵ᗘ 5 °C㹼40 °C㺂85 %RH ௨ୗ⤖㟢࡞ࡁࡇ
ᨺ㟁㟁ᴟ㔪 ࢱࣥࢢࢫࢸࣥ ᑑࡣ࠾ࡼࡑ 10000 㛫
እᙧᑍἲ 68W128D163Hmm
ᮏయ㉁㔞 ⣙370 g
㒊ရࡢྡ⛠
ᨺ㟁㟁ᴟ㔪 ๓㠃
IR SENSOR
㠀᥋ゐࡢ㉥እ⥺
㏆᥋ࢭࣥࢧ
Power ࣛࣥࣉ
㟁※ࢆᢞධࡍࡿ
Ⅼⅉࡋࡲࡍ
ION ࣛࣥࣉ
㝖㟁୰Ⅼⅉࡋࡲࡍ
⫼㠃 タᐃኚ᭦ࢫࢵࢳ
IR ࢫࢵࢳูရ
᥋⥆⏝ࢥࢿࢡࢱ
ኳࡧࢇ᥋⥆ࢣ࣮ࣈࣝ⏝
ࢥࢿࢡࢱ
ኳࡧࢇ᥋⥆ࢣ࣮ࣈࣝ 60 cm
⏝᪉ἲ
ኳࡧࢇࡢ᥋⥆᪉ἲ
ὀព ኳࡧࢇࡢ AC ࢲࣉࢱࢆᢤ࠸ࡓ≧ែ࡛᥋⥆ࡋ࡚ࡃࡔࡉ࠸ࠋ
1. ᮏᶵᒓࡋ࡚࠸ࡿኳࡧࢇ᥋⥆ࢣ࣮ࣈࣝࢆ⏝
ࡋ࡚㺂ᮏᶵ⫼㠃ࡢኳࡧࢇ᥋⥆ࢥࢿࢡࢱኳࡧࢇ
ࢆ᥋⥆ࡋࡲࡍࠋ
2. ᥋⥆ᚋ㺂ኳࡧࢇ AC ࢲࣉࢱࢆ᥋⥆ࡋ࡚
㟁※ࢆධࢀࡿ㺂ᮏᶵ๓㠃ࡢ Power ࣛࣥࣉ
ࡀⅬⅉࡋࡲࡍࠋ
ᮏᶵࡀ᥋⥆ྍ⬟࡞ኳࡧࢇࡣ㺂2021 ᖺ5᭶
Ⅼ࡛ BA ࢩ࣮ࣜࢬࡢࡳ࡛ࡍ㹿
᥋⥆ྍ⬟࡞ኳࡧࢇࡘ࠸࡚ࡢ᭱᪂ሗࡣ㺂
ᘢ♫࣮࣒࣮࣍࣌ࢪ
https://www.aandd.co.jp
ࢆࡈཧ↷ࡃࡔࡉ࠸ࠋ
ኳࡧࢇഃ
⫼㠃
ኳࡧࢇ᥋⥆ࢣ࣮ࣈࣝ
㝖㟁ࡢ᪉ἲ
1. ᅗ1ࢆཧ⪃㺂ィ㔞≀ࢆᮏᶵࡢ๓᪉⨨ࡁࡲࡍࠋ
2. ᮏᶵ๓㠃ࡢ IR ࢭࣥࢧ㠀᥋ゐࡢ㉥እ⥺㏆᥋ࢭࣥࢧࡲࡓࡣูရࡢ IR ࢫ
ࢵࢳࢆ⏝ࡍࡿࡇ࡛㝖㟁ࡀ㛤ጞࡉࢀࠊ㝖㟁୰ࢆ♧ࡍ ION ࣛࣥࣉࡀⅬ
ⅉࡋࡲࡍࠋ
3. ᅗ1ࢆཧ⪃㝖㟁ࢆ⾜ࡗ࡚ࡃࡔࡉ࠸ࠋฟⲴタᐃ࡛ࡣ 3⛊㝖㟁ࢆ⾜࠺
㝖㟁ࡀ⮬ື࡛ṆࡲࡾࠊION ࣛࣥࣉࡀᾘⅉࡋࡲࡍࠋ10 cm ࡼࡾ㐲ࡃ࡛㝖㟁
ࢆ⾜࠺ሙྜࡣ㺂㺀9.タᐃ᪉ἲ㺁ࢆཧ↷ࡋ࡚㝖㟁᪉ᘧ㝖㟁㛫ࡢタᐃࢆ⾜ࡗ
࡚ࡃࡔࡉ࠸ࠋ
ୖࡽぢࡓᅗ
㝖㟁᥎ዡ⠊ᅖ
0 cm 5cm 7cm 10 cm
㊥㞳
ᶓࡽぢࡓᅗ
㝖㟁᥎ዡ⠊ᅖ
1 ⛊1.5 ⛊3 ⛊
㝖㟁㛫
ᅗ1㝖㟁᥎ዡ⠊ᅖ
እ㒊ᶵჾࡢ᥋⥆᪉ἲ
ὀព እ㒊ᶵჾ᥋⥆ࡍࡿ㝿ࡣᮏᶵࡢ㟁※ࢆษࡗࡓ≧ែ࡛⾜ࡗ࡚ࡃࡔࡉ࠸㹿
ᮏᶵࡣෆⶶ IR ࢭࣥࢧࡢ௦ࢃࡾูရࡢ IR ࢫࢵࢳࢆ᥋⥆ࡍࡿࡇ
࡛ࡶ㝖㟁ືసࢆไᚚࡍࡿࡇࡀ࡛ࡁࡲࡍࠋ
IR ࢫࢵࢳࢆ࠸ᮏᶵࡽኳࡧࢇ PRINT㺂RE-ZERO ࡢ
ᣦ♧ࢆ㏦ࡿࡇࡣ࡛ࡁࡲࡏࢇࠋ
ูရIR ࢫࢵࢳ
タᐃ᪉ἲ
ᮏయ⫼㠃ࡢタᐃኚ᭦ࢫࢵࢳࢆษࡾ᭰࠼ࡿࡇ࡛㺂⾲ࡢࡼ࠺ᮏᶵࡢタ
ᐃࢆኚ᭦ࡍࡿࡇࡀ࡛ࡁࡲࡍࠋᅗ 1ࡢ㝖㟁᥎ዡ⠊ᅖእ࡛㝖㟁ࢆࡍࡿሙྜ
ࡣ㺂ࢫࢵࢳ 1ࢫࢵࢳ 2ࡢタᐃࢆኚ᭦ࡋ࡚ࡃࡔࡉ࠸ࠋ
ON ON ฟⲴ࡚ ON
タᐃኚ᭦ࢫࢵࢳࡢࣀࣈ
OFF 1 2 3 4
ࢫࢵࢳ 1 㹼ࢫࢵࢳ 4
ฟⲴタᐃࡣ 4ࡘࡍ࡚ࡢࢫࢵࢳࡀ ONୖഃ࡛㺂㝖㟁᪉ᘧࡀࢱ࣐࣮
࣮ࣔࢻ㺂㝖㟁㛫ࡀ 3⛊㺂ෆⶶࡢ IR ࢭࣥࢧࢆ⏝㺂ࣈࢨ࣮ࢆ㬆ࡽࡍタᐃ
࡞ࡗ࡚࠸ࡲࡍࠋ
ࢫࢵࢳ No.㸭㡯┠ࢫࢵࢳࡢ≧ែෆᐜ
ࢫࢵࢳ 1
㝖㟁᪉ᘧ
ON ୖࢱ࣐࣮ 1
OFF ୗ࣐ࢽࣗࣝ 2
ࢫࢵࢳ 2
㝖㟁㛫3
ON ୖ3 ⛊
OFF ୗ10 ⛊
ࢫࢵࢳ 3
ෆⶶ IR ࢭࣥࢧ
ON ୖ⏝ࡍࡿ
OFF ୗ⏝ࡋ࡞࠸
ࢫࢵࢳ 4
ࣈࢨ࣮4
ON ୖ㬆ࡽࡍ
OFF ୗ㬆ࡽࡉ࡞࠸
1ࢫࢵࢳ 1࡛㝖㟁᪉ᘧࢆࢱ࣐࣮㑅ᢥࡍࡿ㺂ࢫࢵࢳ 2࡛㑅ᢥࡋࡓ
㝖㟁㛫ࡔࡅ㝖㟁ࢆ⾜࠸ࡲࡍࠋ
2ࢫࢵࢳ 1࡛㝖㟁᪉ᘧࢆ࣐ࢽࣗࣝ㑅ᢥࡍࡿ㺂㝖㟁ࢆ㛤ጞᚋࠊࡧ
IR ࢭࣥࢧࠊIR ࢫࢵࢳࢆືసࡉࡏࡿࡲ࡛㝖㟁ࢆࡋ⥆ࡅࡲࡍࠋ⮬ື࡛㝖
㟁ࢆṆࡍࡿᶵ⬟ࡣ࠶ࡾࡲࡏࢇࠋ
3㝖㟁㛫ࡢタᐃࡣࠊ㝖㟁᪉ᘧࡀࢱ࣐࣮࣮ࣔࢻࢫࢵࢳ
1ࡀONࡢࡢࡳ᭷ຠ࡞ࡾࡲࡍࠋ
4ࣈࢨ࣮ࡣ㟁※ᢞධ࠾ࡼࡧ IR ࢭࣥࢧࡲࡓࡣ㺂IR ࢫࢵࢳ
ࡀືసࡍࡿࡓࡧ㬆ࡾࡲࡍࠋ
ಖᏲ
ὀព ឤ㟁ࡍࡿ༴㝤ࡀ࠶ࡾࡲࡍࡢ࡛ᮏᶵࡢືస୰ࡣࠊᨺ㟁㟁ᴟ
ࣘࢽࢵࢺゐࡽ࡞࠸࡛ࡃࡔࡉ࠸ࠋ
ᮏᶵࢆ㛗㛫⏝ࡍࡿᨺ㟁㟁ᴟ㔪ࡢ࿘ࡾ࣍ࢥࣜ➼ࡀ
╔ࡋࠊ㝖㟁⬟ຊࡀపୗࡋ࡚࠸ࡁࡲࡍࠋᛶ⬟ࢆ⥔ᣢࡍࡿ
ࡓࡵᐃᮇⓗ࠸ࡓ⥥Წ➼࡛ᨺ㟁㟁ᴟࣘࢽࢵࢺෆࡢ㟁
ᴟ㔪ࡢᤲ㝖ࢆࡋ࡚ࡃࡔࡉ࠸ࠋ
ᨺ㟁㟁ᴟࣘࢽࢵࢺෆࡢ㟁ᴟ㔪ࡢඛ➃ࡀ☻⁛ࡋ࡚ࠊ㔪ࢆᤲ
㝖ࡋ࡚ࡶ㝖㟁⬟ຊࡀᅇࡋ࡞࠸ሙྜࡣࠊᨺ㟁㟁ᴟࣘࢽࢵ
ࢺ4ಶࡍ࡚ࢆ᪂ࡋ࠸ࡶࡢࡋ࡚ࡃࡔࡉ࠸ࠋᨺ㟁㟁
ᴟࣘࢽࢵࢺࡢᑑࡣ࠾ࡼࡑ 10000 㛫࡛ࡍࠋ
ࡢᡭ㡰
1. ኳࡧࢇ᥋⥆ࢣ࣮ࣈࣝࢆᢤ࠸࡚㟁※ࢆ࢜ࣇࡋࡲࡍࠋ
2. ᨺ㟁㟁ᴟࣘࢽࢵࢺࢆィᅇࡾ 45°ᅇࡋ࡚ᘬࡁᢤࡁࡲࡍࠋ
3. ᪂ࡋ࠸ᨺ㟁㟁ᴟࣘࢽࢵࢺࢆᤄධࡋ࡚ィᅇࡾ 45°ᅇࡋ㺂
ᅛᐃࡋࡲࡍࠋ
㟁ᴟ㔪 Ύᤲࡍࡿ
ᡭ㡰 2 ᡭ㡰 3
ᨺ㟁㟁ᴟࣘࢽࢵࢺ
ูရ
ᨺ㟁㟁ᴟࣘࢽࢵࢺ AX-BM-NEEDLESET 4ಶධࡾ
ᮏᶵࡢ⏝ᨺ㟁㟁ᴟࣘࢽࢵࢺ࡛ࡍࠋ
ࡣ 4ಶࡍ࡚ࢆࡋ࡚ࡃࡔࡉ࠸ࠋ
᪉ἲࡣ㺀8.ಖᏲ㺁ࢆཧ↷ࡋ࡚ࡃࡔࡉ࠸ࠋ
IR ࢫࢵࢳ AX-IR-SWITCH
㠀᥋ゐࡢ㉥እ⥺㏆᥋ࢭࣥࢧ࡛ࡍࠋ
᥋⥆᪉ἲࡣ㺀6.3. እ㒊ᶵჾࡢ᥋⥆᪉ἲ㺁
ࢆཧ↷ࡋ࡚ࡃࡔࡉ࠸㹿
㏆᥋ࢭࣥࢧᡭࢆࡊࡍࡇ࡛㝖㟁ື
సࡢไᚚࢆ⾜࠺ࡇࡀ࡛ࡁࡲࡍࠋ
- 1 - - 2 - - 3 - - 4 -
AX-ION-25
Ionizer
INSTRUCTION MANUAL
2020 A&D Company Ltd. All rights reserved.
No part of this publication may be reproduced, transmitted,
transcribed, or translated into any language in any form by
any means without the written permission of A&D
Company Ltd.
The contents of this manual and the specifications of the
instrument covered by this manual are subject to change
for improvement without notice.
1WMPD4004253A
1.
Introduction
This manual describes outline of the ionizer (AX-ION-25)
and how to use it correctly. Please thoroughly read this
manual before using the AX-ION-25 and keep it at hand for
future reference.
2.
Features
This ionizer eliminate static electricity on the weighing sample by
generating bipolar ions from 4 electrode needles.
The ionizer can eliminate static electricity on a charged
weighing sample without breeze. A weighing error can be
reduced.
AC adaptor is needless because power of the ionizer is
supplied from main unit of the balance.
This ionizer can be controlled by using built-in IR sensor,
option IR switch (AX-IR-SWITCH).
Electrode unit is removable. A unit can be cleaned and
replaced.
Static electricity
In general, nonconductors such as powder, filter,
medicine wrapping paper, plastic etc. easily become
electrostatically charged when the ambient humidity is
less than 45 %RH. The static electricity may cause
weighing error of approximately few mg at weighing.
This ionizer can perform static elimination effectively.
3.
Cautions before Use
Read the following cautions for safety use of the ionizer.
Operate the ionizer gently because of precision instrument.
Do not install the following place.
Place getting water, vibration, shock, direct sunshine. Dusty place, air
including salt or corrosive gas, a place in flammable gas.
Do not turn on power of the ionizer until the installation is finished. The
switch to turn off is not equipped in the ionizer.
4.
Specifications
Ion generation method Direct corona discharge
Effective range of static
electricity elimination
Approximately 7 cm or shorter from the
electrode needle
Operation temperature and
humidity
5 to 40 °C,
85% RH or less (no condensation)
Discharge electrode needle Tungsten (with a life of approx. 10,000 hours)
Dimensions 68(W)×128(D)×163(H) mm
Mass Approximately 370 g
5.
Part Names
Discharge electrode unit Front
IR SENSOR
Touchless infrared
proximity sensor
Power lamp
Lights when turning on.
ION lamp
Lights when neutralizing.
Rear Optimizing switch
Connecter for option
IR switch
Connector for
connecting balance
Connection cable (60 cm)
6.
How to Use
6.1.
Connecting to the balance
Caution Disconnect the AC adapter before
installing the ionizer to the balance.
1. Connect the ionizer to the balance using
connection cable.
2. Connecting the AC adapter of the
balance, the power lamp lights up.
The ionizer supports only BA series as of
May 2021. Refer the following homepage
for the updated information.
https://www.aandd.jp
Balance
Rear
Connection cable (60 cm)
6.2.
Static elimination
1. Put the weighing sample into the effective range shown in the figure 1.
2. Responding the IR sensor (touchless infrared proximity sensor) on the front
panel, option IR switch, the ION lamp lights up and static elimination starts.
3. Perform static elimination referring to the figure 1. Static elimination process
stops automatically in 3 seconds and ION lamp turns off for factory setting.
Referring to "7. Optimizing the Ionizer", optimize static elimination method
and discharging time if the distance between electrode needles and
weighing sample is 10 cm or father.
Top view
Effective range
0 cm 5cm 7cm 10 cm
Range
Side view
Effective range
1sec. 1.5 sec. 3sec.
Discharge time
Figure 1 Effective range of static elimination
6.3.
Connecting Options
Caution Remove power supply cable when connecting peripherals to
the ionizer.
Static elimination process can be controlled by using
option IR switch instead of the built-in IR sensor. The
ionizer can not send PRINT and RE-ZERO command
to the balance by using option IR switch
Option IR switch
7. Optimizing the Ionizer
Static elimination method can be optimized by using switches on the
rear. Refer to the following table for functions of switches. Change the
settings of the switch 1 and switch 2 eliminating static electricity
outside the effective range shown as in the figure 1.
ON ON Factory settings of switches is all ON.
Knob of switch
OFF 1 2 3 4
Switch 1 2 3 4
Factory settings of switches is all ON (Upper side). It means static
elimination method is "Timer mode", "Discharging time" is 3 seconds,
"Built-in IR sensor" and "Buzzer" is available.
Table 1 Functions of the optimizing switches
Switch No. /Item State of switch Descriptions
Switch 1
Static elimination method
ON
Upper side
Timer mode #1
OFF
Lower side
Manual mode #2
Switch 2
Discharging time #3
ON
Upper side
3 seconds
OFF
Lower side
10 seconds
Switch 3
Built-in IR sensor
ON
Upper side
Available
OFF
Lower side
Not Available
Switch 4
Buzzer #4
ON
Upper side
Available
OFF
Lower side
Not Available
#1 When switch 1 is selected "Timer mode", static elimination is
performed for "Discharging time" set by switch 2.
#2 Once static elimination has started, it continues until built-in IR
sensor or option IR switch responds again when switch 1 is selected
"Manual mode". "Manual mode" does not stop static
elimination automatically.
#3 The setting of the switch 2 is effective when switch 1 is
selected "Timer mode".
#4 Buzzer sounds at power on and responding the built-in
IR sensor or option IR switch.
8.
Maintenance
Caution Do not touch the discharge electrode unit to avoid
electric shock during neutralization.
When the ionizer is used continuously, discharge
electrode needle and around may get dirty and
neutralization performance may become weak. Clean the
electrode needle periodically using cotton swabs to
maintain performance.
When the electrode needle wears out and static elimination
performance does not refresh by cleaning, replace all of
discharge electrode units to new ones of option. Life time of
discharge electrode unit is approximately 10000 hours.
Procedure of replacement
1. Remove the connection cable to turn off the ionizer.
2. Rotate a discharge electrode unit to 45 degree
counterclockwise. Remove it.
3. Insert new units and rotate them to 45 degree clockwise.
Needle Clean
Step 2 Step 3
Discharge electrode unit
9.
Options
Discharge electrode unit
AX-BM-NEEDLESET (
A set is 4 units.
)
Replacement electrode units.
Replace all of 4 units with new ones.
Refer to the "
8. Maintenance
" for
replacement procedure.
IR switch
AX-IR-SWITCH
Touchless infrared proximity sensor.
Refer to the "
6.3. Connecting
Options
" how to connect it.
Static elimination operation can be
controlled by moving hand over the
"SENSOR".
