在安裝(zhuang)和使(shi)用ETS386-2-150-000型(xing)德國HYDAC溫度(du)傳(chuan)感器時(shí)(shi)應(yīng)(ying)註意事項(xiàng)(xiang):
1�����、德國HYDAC溫度(du)傳(chuan)感器安(an)裝(zhuang)不(bu)當(dāng)(dang)引(yin)入的(de)誤(wu)差
如熱電(dian)偶安裝(zhuang)的(de)位置(zhi)及(ji)插(cha)入深度不能反(fan)映(ying)爐(lu)膛(tang)的(de)真(zhen)實(shí)(shi)溫度(du)等(deng),換句話說(shuo)�����,熱電(dian)偶不應(yīng)(ying)裝(zhuang)在太靠近門和加熱的地方����,插(cha)入的(de)深度至少應(yīng)(ying)為(wei)保護(hù)管(guan)直徑的8~10倍(bei);熱(re)電(dian)偶的保護(hù)套(tao)管與(yu)壁(bi)間的(de)間隔未填(tian)絕熱(re)物質(zhì)致使(shi)爐內(nèi)熱溢出或冷(leng)空(kong)氣(qi)侵(qin)入,因(yin)此(ci)熱(re)電(dian)偶保護(hù)管(guan)和爐壁(bi)孔(kong)之(zhi)間的(de)空(kong)隙(xi)應(yīng)(ying)用耐(nai)火(huo)泥或石(shi)棉繩等(deng)絕熱(re)物質(zhì)堵(du)塞以免冷(leng)熱空(kong)氣(qi)對(duì)流(liu)而(er)影響(xiang)測(cè)溫的(de)準(zhǔn)(zhun)確(que)性;熱(re)電(dian)偶冷(leng)端太靠近爐體(ti)使(shi)溫度(du)超(chao)過100℃;熱電(dian)偶的安裝(zhuang)應(yīng)(ying)盡(jin)可能避開(kai)強(qiáng)(qiang)磁(ci)場(chǎng)和強(qiáng)(qiang)電(dian)場(chǎng)����,所以(yi)不(bu)應(yīng)(ying)把熱(re)電(dian)偶和動(dòng)(dong)力電(dian)纜線(xian)裝(zhuang)在同壹根導(dǎo)(dao)管(guan)內(nèi)(nei)以免引(yin)入幹(gan)擾(rao)造(zao)成(cheng)誤(wu)差;熱電(dian)偶不能安(an)裝(zhuang)在被測(cè)介質(zhì)(zhi)很(hen)少流動(dòng)(dong)的區(qū)域(yu)內(nèi)(nei)�,當(dāng)(dang)用(yong)熱(re)電(dian)偶測(cè)量(liang)管(guan)內(nèi)氣(qi)體(ti)溫度(du)時(shí)(shi),必須(xu)使(shi)熱電(dian)偶逆著流(liu)速方向(xiang)安裝(zhuang)��,而(er)且充(chong)分與(yu)氣(qi)體(ti)接(jie)觸(chu)�。
2、德國HYDAC溫度(du)傳(chuan)感器絕緣變差而(er)引(yin)入的(de)誤(wu)差
如熱電(dian)偶絕緣了(le)�,保(bao)護(hù)管(guan)和拉線(xian)板汙垢(gou)或鹽(yan)渣(zha)過多致使(shi)熱電(dian)偶極間與(yu)爐壁(bi)間絕緣不良,在高溫下(xia)更(geng)為(wei)嚴(yán)(yan)重(zhong)��,這不(bu)僅(jin)會(huì)(hui)引(yin)起熱(re)電(dian)勢(shì)(shi)的損(sun)耗(hao)而(er)且還(hai)會(huì)(hui)引(yin)入幹(gan)擾(rao)�,由(you)此(ci)引(yin)起的(de)誤(wu)差有時(shí)可達(dá)(da)上(shang)百�。
3����、德國HYDAC溫度(du)傳(chuan)感器熱(re)惰性引(yin)入的(de)誤(wu)差
由於熱電(dian)偶的熱惰(duo)性(xing)使(shi)儀表的指(zhi)示(shi)值(zhi)落後於(yu)被測(cè)溫度(du)的(de)變化,在進(jìn)行(xing)快(kuai)速測(cè)量(liang)時(shí)(shi)這種(zhong)影響(xiang)尤(you)為(wei)突出(chu)��。所以(yi)應(yīng)(ying)盡(jin)可能采用熱(re)電(dian)極較(jiao)細(xì)(xi)��、保護(hù)管(guan)直徑較(jiao)小的(de)熱電(dian)偶����。測(cè)溫環(huán)(huan)境(jing)許可時(shí),甚(shen)至(zhi)可將保護(hù)管(guan)取(qu)去����。由於(yu)存在測(cè)量(liang)滯後,用(yong)熱(re)電(dian)偶檢(jian)測(cè)出(chu)的(de)溫度(du)波(bo)動(dòng)(dong)的振幅較(jiao)爐溫波(bo)動(dòng)(dong)的振幅小�。測(cè)量(liang)滯後越大(da),熱(re)電(dian)偶波動(dòng)(dong)的振幅就越小(xiao)����,與(yu)實(shí)際爐(lu)溫的(de)差別也就越大(da)���。當(dāng)(dang)用(yong)時(shí)(shi)間常數(shù)(shu)大的(de)熱電(dian)偶測(cè)溫或控(kong)溫時(shí)(shi)�����,儀表顯(xian)示(shi)的(de)溫度(du)雖然(ran)波(bo)動(dòng)(dong)很(hen)小�,但實(shí)(shi)際爐(lu)溫的(de)波(bo)動(dòng)(dong)可能很(hen)大。為(wei)了(le)準(zhǔn)(zhun)確(que)的測(cè)量(liang)溫度(du)��,應(yīng)(ying)當(dāng)(dang)選擇時(shí)間(jian)常數(shù)(shu)小的(de)熱電(dian)偶����。時(shí)間常數(shù)(shu)與(yu)傳熱系(xi)數(shù)(shu)成反(fan)比(bi),與(yu)熱電(dian)偶熱端的(de)直徑��、材(cai)料(liao)的密(mi)度及比(bi)熱(re)成(cheng)正(zheng)比(bi)����,如(ru)要減小時(shí)間(jian)常數(shù)(shu),除增加傳熱系(xi)數(shù)(shu)以外(wai)��,有效的辦法(fa)是(shi)盡(jin)量減小(xiao)熱(re)端(duan)的尺寸���。使(shi)用中����,通(tong)常采用導(dǎo)(dao)熱(re)性(xing)能好(hao)的(de)材(cai)料(liao)��,管壁(bi)薄、內(nèi)徑(jing)小(xiao)的保(bao)護(hù)套(tao)管����。在較(jiao)精密(mi)的溫度(du)測(cè)量(liang)中(zhong),使(shi)用無保護(hù)套(tao)管的裸(luo)絲熱(re)電(dian)偶��,但熱(re)電(dian)偶容(rong)易損(sun)壞�����,應(yīng)(ying)及時(shí)(shi)校正(zheng)及更(geng)換�。
4、德國HYDAC溫度(du)傳(chuan)感器熱(re)阻(zu)誤(wu)差
高溫時(shí)(shi)���,如(ru)保護(hù)管(guan)上(shang)有壹層煤灰����,塵埃(ai)附在上面(mian)����,則(ze)熱(re)阻(zu)增加,阻(zu)礙(ai)熱的(de)傳導(dǎo)(dao)���,這(zhe)時(shí)(shi)溫度(du)示(shi)值(zhi)比(bi)被(bei)測(cè)溫度(du)的(de)真值(zhi)低���。因此,應(yīng)(ying)保持(chi)熱(re)電(dian)偶保護(hù)管(guan)外(wai)部(bu)的(de)清(qing)潔(jie)�����,以減小誤(wu)差�。
德國HYDAC溫度(du)傳(chuan)感器是(shi)通(tong)過物體(ti)隨溫度(du)變(bian)化而(er)改變(bian)某(mou)種特性來間(jian)接(jie)測(cè)量(liang)的(de)。不少(shao)材(cai)料(liao)����、元件(jian)的(de)特性都(dou)隨(sui)溫度(du)的(de)變化而(er)變化,所以(yi)能(neng)作(zuo)溫度(du)傳(chuan)感器的(de)材(cai)料(liao)相當(dāng)(dang)多�。溫度(du)傳(chuan)感器隨(sui)溫度(du)而(er)引(yin)起物理參數(shù)(shu)變化的(de)有(you):膨脹(zhang)、電(dian)阻(zu)��、電(dian)容(rong)���、而(er)電(dian)動(dòng)(dong)勢(shì)(shi)����、磁(ci)性能(neng)�、頻(pin)率、光學(xué)(xue)特性及熱(re)噪聲等(deng)等(deng)��。
德國HYDAC溫度(du)傳(chuan)感器檢(jian)定裝(zhuang)置(zhi)功(gong)能和特點(diǎn):
1、檢(jian)定K����、E、J�、N、B��、S��、R��、T等(deng)多種型(xing)號(hào)(hao)的(de)工作(zuo)用(yong)熱電(dian)偶��;
2�����、檢(jian)定Pt100�、Pt10、Cu50��、Cu100等(deng)各(ge)種(zhong)工作(zuo)用(yong)熱電(dian)阻(zu)��,玻(bo)璃液(ye)體(ti)溫度(du)計(jì)(ji)、壓力式(shi)溫度(du)計(jì)(ji)�����、雙金屬溫度(du)計(jì)(ji)����;
3���、多路低電(dian)勢(shì)(shi)自動(dòng)(dong)轉(zhuǎn)換開關(guān)(guan)�����,寄生(sheng)電(dian)勢(shì)(shi)≤0.4μV����;
4����、控制(zhi)1-4臺(tái)高溫爐(lu);
5��、溫場(chǎng)(chang)測(cè)試(shi):可進(jìn)行(xing)檢(jian)定爐����、油槽(cao)����、水槽(cao)���、低溫恒(heng)溫槽(cao)的溫場(chǎng)(chang)測(cè)試(shi)�;
6���、線(xian)制(zhi)轉(zhuǎn)換:可進(jìn)行(xing)二(er)線(xian)制(zhi)���、三(san)線(xian)制(zhi)、四(si)線(xian)制(zhi)電(dian)阻(zu)檢(jian)定�����;
7����、軟件具有(you)比(bi)對(duì)(dui)實(shí)(shi)驗(yàn)(yan)、重(zhong)復(fù)性(xing)實(shí)(shi)驗(yàn)(yan)��、溫場(chǎng)(chang)實(shí)(shi)驗(yàn)等(deng)相關(guān)(guan)實(shí)(shi)驗(yàn)功(gong)能�����;
8、在Windows2000/XP以上(shang)平臺(tái)�����,全中(zhong)文(wen)界面(mian)����,標(biāo)(biao)準(zhǔn)(zhun)Windows操(cao)作系(xi)統(tǒng)(tong)�,方(fang)便(bian)快捷?�?蓪?shí)現(xiàn)(xian):
1)設(shè)(she)備(bei)自(zi)檢(jian)�、查線(xian);
2)屏幕顯(xian)示(shi)並(bing)保存控溫曲(qu)線(xian)≤0.4μV����;
3)檢(jian)測(cè)數(shù)(shu)據(jù)自(zi)動(dòng)(dong)采集;
4)自(zi)動(dòng)(dong)生成(cheng)符(fu)合(he)要求的檢(jian)定記錄�;
5)自動(dòng)(dong)保存檢(jian)定結(jié)(jie)果(guo),且不可人(ren)工更(geng)改(gai)����;
6)查(zha)詢(xun)各(ge)種(zhong)熱電(dian)偶、熱電(dian)阻(zu)分度(du)表及其(qi)它幫(bang)助;
7)熱(re)電(dian)偶��、熱電(dian)阻(zu)所有(you)歷(li)史檢(jian)定數(shù)(shu)據(jù)���、控(kong)溫曲(qu)線(xian)查(zha)詢(xun) 統(tǒng)(tong)計(jì)及計(jì)(ji)量(liang)的智能化管(guan)理(li)功(gong)能�����。
產(chǎn)品(pin)實(shí)物如下(xia)圖所示(shi):
上壹篇
德國BURKERT角(jiao)座閥(fa)00251981型(xing)正(zheng)確安(an)裝(zhuang)與(yu)維修(xiu)手(shou)冊(cè) 下(xia)壹篇
8.5020.0050.0100.S110.0015型(xing)德國KUBLER編(bian)碼器工作(zuo)時(shí)(shi)的原理手冊(cè)
