德國(guó)陽(yáng)光蓄電池電極設(shè)計(jì)
一般常用的德國(guó)陽(yáng)光蓄電池在生產(chǎn)設(shè)計(jì)時(shí),其陽(yáng)光電池樁較粗些的一端為正電極,另一端則細(xì)些為負(fù)電極,同時(shí)可辨認(rèn)一下電瓶樁柱的顏色,其中正電極樁柱呈現(xiàn)深棕色,而負(fù)電極則呈現(xiàn)為深灰色。另外有些電瓶的正負(fù)標(biāo)記用英文字母表示,即P表示為正電極,N表示為負(fù)電極,這在檢修充電時(shí)可千萬(wàn)不能搞錯(cuò)。
Commonly used sunshine German batteries in the design and production, its sunlight battery pile is thicker at one end for the positive electrode, and the other end is fine for the negative electrode, and can identify the color of the battery pile column, which is electrode pile column show dark brown, and the negative electrode showed dark gray color. In addition, some battery positive and negative markers in the English alphabet, that P is expressed as a positive electrode, N is expressed as a negative electrode, which can not make mistakes in the maintenance of charging.
利用德國(guó)陽(yáng)光蓄電池整流二極管測(cè)定
Determination of rectifier diodes using German sunlight battery
電源穩(wěn)壓器中的整流二極管具有單向?qū)щ娦阅芸烧乙恢д鞫O管,一只40w白熾燈.然后依次按電瓶的一個(gè)樁柱→二極管+端→二極管-端→白熾燈→電瓶另一樁柱順序串接起來(lái),形成一個(gè)電燈串聯(lián)回路,此時(shí)若回路中的白熾燈被點(diǎn)燃發(fā)光,則證明二極管極端與電瓶樁柱連接處為電瓶的正電極,另一端為電瓶的負(fù)電極。
Power voltage regulator rectifier diode has unidirectional conductivity can find a rectifying diode, a 40W incandescent lamp. Followed by according to the battery of a pile, + diode end, diode end, incandescent lamp, battery another pile column order can be connected in series, forming a lamp series circuit, at this point, if the loop of the incandescent lamp is light, the connection of diodes and extreme battery pile for the positive electrode of the battery, and the other end is provided with a negative electrode of a battery.
采用德國(guó)陽(yáng)光蓄電池導(dǎo)線短路進(jìn)行識(shí)別
The use of the German sunshine battery wire short circuit identification
將兩根銅芯電源線分別跨接在待測(cè)定的舊電瓶電極處,再將正常配置好的電解液(濃鹽水)倒入一只玻璃茶杯內(nèi),將電源線兩端分別插入茶杯內(nèi),并各自擱放在玻璃杯兩側(cè)邊沿(兩線在杯中不能相碰),然后觀察各自引線端在電解液中的冒泡情況,如果某一電線線端氣泡上泛的小泡明顯而又較多時(shí),則說(shuō)明電源線連接電瓶的一端為負(fù)電極,氣泡上泛少而又不明顯端則為電瓶的正電極。
Will two copper core power line respectively cross to be determined the old battery electrode connected to the, then the normal configuration of the electrolyte (brine) into a glass cup, the both ends of the power cord are respectively inserted into the cup, and each put in the glass on both sides of the edge (two lines in the cup can not collide), and then observe the leads are each end of the bubble in the electrolyte. If a wire end bubble on the pan vesicles obvious and is large, power line connected at one end of the battery negative electrode, the bubble pan less without obvious side for the positive electrode of the battery.
可將萬(wàn)用表?yè)苤林绷鲹跷簧希瑑杀砉P分別跨接在蓄電瓶?jī)呻姌O上,此時(shí)若電瓶顯示出正常電壓值,則證明紅色表筆所觸的電極為電瓶正電極.而黑表筆處則為負(fù)電極。有時(shí)測(cè)得電瓶無(wú)正常電壓存在,則可測(cè)量電瓶的弱微存電量加以判斷。當(dāng)兩表筆碰觸電瓶電極后,表針若向右微微晃動(dòng),即證明紅筆處為電瓶正電極.黑表筆處為負(fù)電極。但如果萬(wàn)用表指針向左晃動(dòng)(表針?lè)创?,則證明紅筆所觸及處為電瓶的負(fù)電極。
The multimeter to DC gear, two pens are respectively connected on the two electrodes of the accumulator jar, at this time if the battery shows normal voltage value, then the proof of red pen touch electrode for battery positive electrode. And the black pen for the negative electrode. Sometimes the battery does not measure the existence of normal voltage, the battery can be measured to determine the weak electricity to determine the amount of electricity. When after two pens and touch the electrodes of battery, needle if right shaking slightly, that is, a red pen for the battery positive electrode. The black pen at the negative electrode. But if the meter pointer to the left (shaking hands, anti play) that red pen touches at the negative electrode of the battery.
采用德國(guó)陽(yáng)光蓄電池萬(wàn)用表電壓擋測(cè)量
The use of the German sunshine battery meter voltage measurement