200800402 九、發明說明: 【發明所屬之技術領域】 就廣義而言,本發明係關於一種吹送式離子器的自動 式針清理裝置;更具體而言,本發明係描述一種可使用一 馬達自動清理一離子器内部之諸多針的裝置。 【先前技術】 習用之吹送式離子器因本身所產生之正負離子的不 平衡與減少而有離子化效率低的P4題,故正負離子的量 有加以平衡化的必要,且維持離子器送出之正負離子的 產生亦有其必要性。正負離子所產生之不平衡的原因有 諸多種,其一為吹送式離子器之針被污染,故多數使用 者利用定期清理吹送式離子器之針的方式解決此一問題 。亦即,使用者可根據原本設定的清理條件清理該針。舉 例而言,若所產生之離子量下降至約正常動作時的80%, 則使用者清理該針;且若所產生之離子量下降為約正常操 作時的60%,則一指明針需要快速清理完成的警示信號被 發送給該使用者。但是,由於諸多針皆係安裝於一吹送式 離子器中’故針不易被以一只接一只的方式清洗完成,如 此亦需要花費大量時間和成本。第二種使正負離子之產生 不平衡的原因為零件受到破壞及已使用年數的增加。第三 種理由為強充電體或鄰近地體效應會影響條狀物的感測 單元。因此,有效以低成本解決習知技術之問題的技術便 有其提出的必要性。 200800402 【發明内容】 葬;^發Γ之目的在於提供—種可在針被視為已污毕時 動馬達自動利用刷清理針㈣置,以平衡所產生 門月之其它目的與優點將可在閱讀詳細說 閱所附圖式之後變得更為清楚。 【實施方式】 多放之吹达式料11的自動式針清理裝置包含諸 馬達2G、諸多刷軸3〇、—關節單元扣、 於令開關6g ’其中該諸多放電針ig被對稱安裝 器之離子產生單元之孔的周緣處,該馬達2〇被 固ΐ至:n中央’亚形成旋轉動力’該諸多刷轴3〇被 柄達的樞轴上,該㈣單元4g㈣定至每一刷 達’並在該馬達運作時為⑽力所張開,且在該馬 置,f刷5〇被安裝於每一關節單元的端 達的運作/月理黏著在该針上的灰塵’該開關則控制該馬 土在本發明中,該等放電針以被安裝於同一平面上為更 ’該馬達的運相為賴子器之—外部卩㈣控制為更 佳0 在本毛月中,5亥等馬達之一或多者以該離子器的一外 ^開關控制、或被遠端集中控制為更佳。 200800402 在本發明中,該等馬達的運作以各自被控制為更佳。 在本發明中’該刷之材料的強度足以在針電極上掃除 黏著的灰塵(如可為PE)。 同時,本發明中針的污染量需被根據一特定準則估 計,針在每一適當時間至即被清理的作法並不具效率。 以下將介紹數種估計清理離子器之時間區段之方法 的一者。 首先,開啟該離子器。接著,加上一固定高壓(如土6KV) Φ 至該放電針,並在感測板上感生一電壓(如小於5V,在過 去則為小於IV)。接著,將該經感生電壓登記為感生電壓 中之最佳狀態者(如4V)。藉此,污染量被估計,且一警 告或警示信號被發出,且自動平衡作用被達成。 在過去,一種針類型被用為一感測板,但該經感生電 壓因強度弱而在使用該針類型時不易被從雜訊中分出,因 該經感生信號的強度弱之故,因此在本發明中感測板並有 安全網的使用。 •在下一步驟中,對平衡感測器加以操作,藉控制外部 之加入電壓以控制高壓產生器。此時,線性控制功能被達 成,且直流18至22V(交流模式時)或直流7至8V(直流模 式)被自外部加上。若該經加上之電壓被提升+3.5V,-2.5V 的電荷增加,且若此係於瞬間完成,則離子量被平衡;但 若未被平衡,則一系統故障警示信號被發出,以維護整個 系統的安全。 且若低離子化效率的問題出現時,對該經感生電壓加 200800402 以測試,並在其低於標準感生電壓之時對之加以提升。 本發明可被加以各種修改,並以多種形式體現,並已 以特定例說明及圖示如上。然而,當了解本發明並不僅限 於上述之特定形式,且本發明包含所有屬於本發明之精神 及範圍之内的修改、等效及替代内容,其所包含之範圍並 被定義於申讀專利範圍中。 [功效] 首先,本發明之離子器的效率因針可在一適當時間被 鲁 加清理而得到提升。 其次,一吹送式離子器之針可只在需要時被清理,故 本發明可維持一特定的離子產生效率。 第三,該結構簡單,使用操作開關之控制及遠端控制 皆可行,諸多離子器之針可藉遙控的方式立即被清理,或 該等針可各自被手動清理。 第四,所產生之離子量的不平衡問題得到解決,且產 生離子的能力可被維持。 10 200800402 【圖式簡單說明】 第一圖為本發明之一吹送式離子器之自動式針清理 裝制操作狀態圖。 第二圖為第一圖之裝置在未被操作時的侧視圖。 【主要元件符號說明】 10 放電針 20 馬達 30 刷軸 40 關節單元 50 刷200800402 IX. Description of the Invention: [Technical Field of the Invention] In a broad aspect, the present invention relates to an automatic needle cleaning device for a blown ionizer; more specifically, the present invention describes an automatic cleaning using a motor A device for a plurality of needles inside an ionizer. [Prior Art] The conventional blown ionizer has a low ionization efficiency P4 problem due to the imbalance and reduction of positive and negative ions generated by itself, so the amount of positive and negative ions is necessary to be balanced, and the ionizer is sent out. The generation of positive and negative ions is also necessary. There are many reasons for the imbalance between positive and negative ions. One of them is that the needle of the blown ionizer is contaminated, so most users solve this problem by periodically cleaning the needle of the blown ionizer. That is, the user can clean the needle according to the originally set cleaning conditions. For example, if the amount of ions produced drops to about 80% of normal operation, the user cleans the needle; and if the amount of ions produced drops to about 60% of normal operation, then a specified needle needs to be fast. A warning signal that the cleaning is completed is sent to the user. However, since many needles are mounted in a blown ionizer, the needles are not easily cleaned one by one, and it takes a lot of time and cost. The second reason for the imbalance between positive and negative ions is that the parts are damaged and the number of years of use has increased. The third reason is that the strong charge or adjacent ground effect affects the sensing unit of the strip. Therefore, the technology that effectively solves the problems of the prior art at a low cost has its necessity. 200800402 [Summary] The purpose of burial; ^ hairpin is to provide a kind of other things and advantages that can be used when the needle is considered to be dirty and the motor is automatically used to clean the needle (4) to balance the generated month and month. It becomes clearer after reading the detailed description of the drawings. [Embodiment] The automatic needle cleaning device of the multi-discharge blown material 11 comprises a motor 2G, a plurality of brush shafts 3〇, a joint unit buckle, and a switch 6g' wherein the plurality of discharge needles ig are symmetrically mounted At the periphery of the hole of the ion generating unit, the motor 2 is fixed to: n central 'sub-forming rotational power' on the pivot of the plurality of brush shafts 3〇, the unit 4g (4) is set to each brush 'And when the motor is running, the force is (10) opened, and in the horse, the f brush is mounted on the end of each joint unit for the operation/monthly adhesion to the dust on the needle. In the present invention, the discharge needles are controlled to be more optimally mounted on the same plane for the operation of the motor as the external phase (four). In the present month, 5 hai, etc. One or more of the motors are controlled by an external switch of the ionizer or more centrally controlled by the distal end. 200800402 In the present invention, the operation of the motors is controlled to be better each. In the present invention, the material of the brush is strong enough to remove the adhered dust (e.g., PE) on the needle electrode. At the same time, the amount of contamination of the needle in the present invention needs to be estimated according to a specific criterion, and it is not efficient to clean the needle at every appropriate time. Several of the methods for estimating the time zone for cleaning the ionizer are described below. First, turn on the ionizer. Next, add a fixed high voltage (such as 6KV) Φ to the discharge needle and induce a voltage on the sensing board (eg less than 5V, and in the past it is less than IV). Next, the induced voltage is registered as the best state among the induced voltages (e.g., 4V). Thereby, the amount of pollution is estimated, and a warning or warning signal is issued, and the automatic balancing effect is achieved. In the past, a type of needle was used as a sensing plate, but the induced voltage was not easily separated from the noise when the needle type was used because of the weak intensity, because the intensity of the induced signal was weak. Therefore, in the present invention, the sensing board is used with a safety net. • In the next step, the balance sensor is operated to control the high voltage generator by controlling the external applied voltage. At this time, the linear control function is reached, and DC 18 to 22V (in AC mode) or DC 7 to 8V (DC mode) is added from the outside. If the applied voltage is increased by +3.5V, the charge of -2.5V is increased, and if the system is completed in an instant, the ion amount is balanced; but if not balanced, a system fault warning signal is issued to Maintain the security of the entire system. And if the problem of low ionization efficiency occurs, the induced voltage is added to 200800402 for testing and is boosted when it is below the standard induced voltage. The invention can be variously modified and embodied in various forms and illustrated and illustrated in the specific examples. However, the invention is not limited to the specific forms described above, and the invention includes all modifications, equivalents and alternatives falling within the spirit and scope of the invention, and the scope of the invention is defined in the scope of the patent application. in. [Efficacy] First, the efficiency of the ionizer of the present invention is improved by the fact that the needle can be cleaned up at an appropriate time. Secondly, the needle of a blown ionizer can be cleaned only when needed, so that the present invention maintains a specific ion generation efficiency. Third, the structure is simple, and both the control of the operation switch and the remote control are feasible. Many needles of the ionizer can be cleaned immediately by remote control, or the needles can be manually cleaned. Fourth, the imbalance of the amount of ions produced is solved and the ability to generate ions can be maintained. 10 200800402 [Simple description of the drawings] The first figure is a state diagram of the automatic needle cleaning installation operation of a blown ionizer of the present invention. The second figure is a side view of the device of the first figure when it is not being operated. [Main component symbol description] 10 Discharge needle 20 Motor 30 Brush shaft 40 Joint unit 50 brush
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