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產(chǎn)品分類: 油泵
產(chǎn)品名稱:導(dǎo)熱油泵,高溫油泵
流量范圍:Q=4.5~370m3/h
揚程范圍:H=15~85m
輸送溫度:-20-350℃
吸入壓力:-0.08-0.3 MPa
密封形式:填料密封、機械密封
密封材質(zhì):HT200、HT250、QT600、ZG、304、316、316L、317L
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WRY型系列熱油泵在我國熱載體加熱系統(tǒng)中得到了廣泛的使用,已經(jīng)進(jìn)入石油、化工、橡膠、塑料、制藥、紡織、印染、筑路、食品等各個工業(yè)領(lǐng)域,主要用于輸送不含固體顆粒的弱腐蝕性高溫液體,使用溫度≤350℃,是一種理想的熱油循環(huán)泵…
WRY系列熱油泵是我廠消化吸收國外油泵的基礎(chǔ)上研制開發(fā)的第二代產(chǎn)品,基本結(jié)構(gòu)形式為單級單吸懸臂腳支撐結(jié)構(gòu),泵的進(jìn)口為軸向吸入,出口為中心垂直向上,和電機同裝于底座上。
WRY系列熱油泵的支撐采用了雙端球軸承支撐的結(jié)構(gòu)形式,前端采用潤滑油潤滑,后端采用潤滑脂潤滑,中間有一導(dǎo)油管,用以隨時觀察密封情況和回收導(dǎo)熱油。
采用自然散熱結(jié)構(gòu),改變了傳統(tǒng)的水冷卻結(jié)構(gòu),使結(jié)構(gòu)簡單,體積小,節(jié)約運行費用,性能好,使用可靠。
WRY系列熱油泵:(1)采用填料密封和機械密封相結(jié)合的形式,填料密封用耐高溫的填料,具有良好的熱態(tài)適應(yīng)性,而機械密封采用機械強度高,耐磨性好的硬質(zhì)合金材料,保證了高溫情況下的密封性能。
(2)采用第三代聚四氟乙烯(簡稱PTFE)做唇型密封,使密封性能產(chǎn)生了飛躍,比橡膠類密封可靠性提高25倍,耐腐蝕性極強。
WRY型系列熱油泵在我國載體加熱系統(tǒng)中得到了廣泛的使用,已進(jìn)入石油、化工、橡膠、塑料、制藥、紡織、印染、筑路、食品等各個工業(yè)領(lǐng)域,主要用于輸送不含固體顆粒的弱腐蝕性高溫液體,使用溫度≤350℃,是一種理想的熱媒油循環(huán)泵。
WRY series hot oil pumps have been widely used in China's heat carrier heating system and have entered various industrial fields such as petroleum, chemical industry, rubber, plastics, pharmaceuticals, textiles, printing and dyeing, road construction, and food. They are mainly used to transport weakly corrosive high-temperature liquids without solid particles, with a use temperature of ≤350℃, and are an ideal thermal oil circulation pump.
The WRY series hot oil pump is the second-generation product developed by our factory based on the digestion and absorption of foreign oil pumps. The basic structural form is a single-stage single-suction cantilever foot support structure. The pump inlet is axially suctioned, the outlet is vertically upward in the center, and it is mounted on the base with the motor.
The support of the WRY series hot oil pump adopts the structure form of double-end ball bearing support. The front end adopts lubricating oil lubrication, the rear end adopts grease lubrication, and there is a guide oil pipe in the middle to observe the sealing condition and recover the heat transfer oil at any time.
It adopts a natural cooling structure, which changes the traditional water cooling structure, making the structure simple, small in size, saving operating costs, good in performance, and reliable in use.
The WRY series hot oil pump: (1) adopts a combination of packing seal and mechanical seal. The packing seal uses high-temperature-resistant packing with good thermal adaptability, while the mechanical seal uses hard alloy materials with high mechanical strength and good wear resistance to ensure sealing performance under high temperature conditions.
(2) Adopt the third-generation polytetrafluoroethylene (PTFE) as the lip seal, which has made a leap in sealing performance, increasing reliability by 25 times compared with rubber seals and having extremely strong corrosion resistance.
型號WRY | 流量m3/h | 揚程m | 轉(zhuǎn)速r/min | 功率KW | 效率n% | 氣蝕余量NPSH m | |
軸功率 | 配用功率 | ||||||
26-20-100 | 4.5 | 15 | 2825 | 0.45 | 0.75 | 40 | 0.8 |
50-32-150 | 8 | 22 | 2840 | 1 | 1.5 | 42 | 1.1 |
50-32-160 | 10 | 25 | 2840 | 1.5 | 2.2 | 42 | 1.2 |
65-40-160 | 12.5 | 25 | 2880 | 2.5 | 3 | 45 | 1.2 |
50-50-170 | 12.5 | 32 | 2890 | 3.2 | 4 | 45 | 1.2 |
50-50-150 | 24 | 18 | 2890 | 3.2 | 4 | 46 | 1.2 |
65-40-190 | 18 | 40 | 2900 | 4.5 | 5.5 | 52 | 1.4 |
65-50-180 | 32 | 32 | 2900 | 4.5 | 5.5 | 52 | 1.7 |
65-50-170 | 40 | 25 | 2900 | 4.5 | 5.5 | 52 | 1.8 |
65-40-200 | 25 | 50 | 2900 | 6.7 | 7.5 | 53 | 1.6 |
80-50-180 | 40 | 40 | 2900 | 6.7 | 7.5 | 63 | 1.8 |
80-50-170 | 60 | 20 | 2900 | 6.7 | 7.5 | 63 | 2.8 |
100-65-190 | 60 | 38 | 2930 | 9.2 | 11 | 68 | 2.6 |
100-65-200 | 80 | 40 | 2930 | 12.5 | 15 | 70 | 3.1 |
100-65-220 | 58 | 50 | 2930 | 12.5 | 15 | 68 | 2.4 |
100-65-210 | 90 | 45 | 2930 | 15.7 | 18.5 | 70 | 3.4 |
100-65-235 | 58 | 60 | 2930 | 15.5 | 18.5 | 62 | 2.3 |
100-65-230 | 100 | 55 | 2940 | 19.5 | 22 | 70 | 3.6 |
125-100-190 | 155 | 30 | 2940 | 17.6 | 22 | 72 | 5.6 |
100-65-240 | 100 | 70 | 2950 | 25.5 | 30 | 69.8 | 3.5 |
100-65-257 | 100 | 80 | 2950 | 32.5 | 37 | 67 | 3.5 |
125-100-220 | 160 | 45 | 2950 | 25.5 | 37 | 75 | 3.5 |
125-80-250 | 160 | 60 | 2970 | 35.5 | 45 | 74 | 5 |
125-80-270 | 150 | 85 | 2970 | 46 | 55 | 73 | 4.7 |
125-100-250 | 200 | 60 | 2970 | 42.8 | 55 | 76.8 | 6 |
125-100-257 | 260 | 70 | 2970 | 64.3 | 75 | 77 | 7.4 |
125-100-265 | 200 | 80 | 2970 | 59 | 75 | 74 | 5.8 |
125-100-260 | 300 | 70 | 2970 | 75.3 | 90 | 78.2 | 8 |
125-100-270 | 220 | 85 | 2970 | 68 | 90 | 76 | 6 |
150-125-250 | 350 | 60 | 2970 | 75.2 | 90 | 76 | 9 |
150-125-240 | 400 | 50 | 2970 | 72 | 90 | 76 | 10.5 |
150-125-270Y | 340 | 76 | 2970 | 89.5 | 110 | 78.6 | 8.5 |
150-125-250Y | 400 | 60 | 2970 | 88 | 110 | 74 | 9.8 |
150-125-280Y | 400 | 78 | 2970 | 106 | 132 | 80.6 | 9.8 |
150-125-285Y | 370 | 85 | 2970 | 106 | 132 | 80 | 9.5 |
泵的使用和維護(hù)
首先泵與管道安裝好后,不論是采用水壓、氣壓,泵的進(jìn)出口閥門一定要關(guān)閉,方可進(jìn)行試壓,以防損壞密封件,造成漏油。
1.開機準(zhǔn)備
(1)清理現(xiàn)場,擰開軸承座螺絲,加入干凈導(dǎo)熱油作潤滑油。110KW以上大油泵加注潤滑油時由一孔注入直到另一孔有油溢出為止,在灌注過程中用手撫過聯(lián)軸器,待孔內(nèi)不再有氣體冒出即可擰緊螺孔螺栓。
(2)檢查電機轉(zhuǎn)向是否與泵旋轉(zhuǎn)方向一致。
(3)用手搬動聯(lián)軸器泵應(yīng)轉(zhuǎn)動靈活。
(4)開車前應(yīng)使用所輸送的導(dǎo)熱油將泵灌滿,以驅(qū)除泵中空氣,此時吐出口管道上R的閘閥應(yīng)關(guān)閉。
(5)所輸送的導(dǎo)熱油在開車前要均勻加熱,預(yù)熱是利用被輸送的導(dǎo)熱油不斷通過泵體進(jìn)行的,應(yīng)避免溫度的劇烈波動,如有異常情 況,應(yīng)立即停機檢查。
預(yù)熱標(biāo)準(zhǔn):泵殼溫度不得低于入口油溫40℃,預(yù)熱速度為50℃/ 小時,在開車預(yù)熱時應(yīng)將泵支架上的側(cè)螺釘松開0.3-0.5亳米,預(yù)熱完畢應(yīng)擰緊螺釘。
(6)開車前應(yīng)檢查基礎(chǔ)及螺栓有無松動,密封是否正常。
2.開機
(1)全面檢查各項準(zhǔn)備工作是否已經(jīng)完善。
(2)打開各種儀表的開關(guān)。
(3)接通電源,當(dāng)泵達(dá)到正常轉(zhuǎn)速,且儀表顯示出相當(dāng)壓力后,逐漸打開輸出管路上的閘閥,并調(diào)節(jié)到需要工況。在輸出管路上的閘閥關(guān)閉的情況下,泵連續(xù)工作不能超過3分鐘。
(4)泵初始運行期間,把生產(chǎn)流程中的設(shè)備緩緩加熱到100~130℃,并且保持在該溫度下繼續(xù)運行,脫水脫氣到導(dǎo)熱油中的水分完全蒸發(fā),才把設(shè)備加熱到操作溫度。
(5)在機組初次投入使用,運行于工作狀態(tài)之后(或?qū)嶋H試運行 3-4小時〉,應(yīng)再次停機檢查兩聯(lián)軸器同軸度是否發(fā)生變化,如有變動可仍然按上述機組的安裝與檢查中的規(guī)定來調(diào)節(jié)聯(lián)軸器同軸度,直到符合要求且泵軸能用手輕松盤動時即可。
(6)開機過程中,要時時注意電動機的功率讀數(shù)及振動情況,振動值不超過0.6毫米,如有異常應(yīng)停車檢查。
3.維護(hù)
(1)泵軸在前端設(shè)置有填料箱,密封性能較為可靠,同時在軸承座中設(shè)置有機械密封和油封裝置,因此大量的泄漏不可能出現(xiàn),而少量的泄漏可以通過泄漏管口排出接收。在開始運行初期有少量泄露是正常的,在經(jīng)過一定時間密封面磨合后泄漏將會減少或停止。
(2)輸送介質(zhì)傳到泵蓋和軸承上的熱量,由泵蓋和軸承座的表面散熱,使軸承座的溫度適應(yīng)于軸密封性能的溫度。因此選擇泵的安裝位置時,要使泵蓋和軸承座的熱量便于擴(kuò)散,不出現(xiàn)任何蓄熱現(xiàn)象。
(3)軸承座中設(shè)置有兩個球軸承,靠泵葉輪側(cè)的一個球軸承用所輸送的導(dǎo)熱油潤滑,靠聯(lián)軸器側(cè)的一個球軸承則用高溫潤滑脂潤滑。
每個球軸承在運行3000小時之后,必須拆下用柴油清洗干凈后,檢查接觸面是否損壞,如有損壞,必須換新的軸承。
靠葉輪側(cè)的球軸承安裝時,有防塵蓋的一側(cè)要朝向葉輪專 機前注入導(dǎo)熱油潤滑。
靠聯(lián)軸器側(cè)的球軸承,用復(fù)合鈣基高溫潤滑脂(ZFG-4),該軸承重新安裝時,有防塵蓋的一側(cè)同樣要朝向葉輪側(cè)安裝,安裝時充填潤滑脂(約1/2球軸承與殼體的空間〉。
在軸承運行48小時后,要用潤滑脂槍向軸承蓋上的壓注油杯注入補充潤滑脂。
(4)不允許用輸入管上的閘閥調(diào)節(jié)流量,避免產(chǎn)生氣蝕。
(5)泵不宜低于30%設(shè)計流量下連續(xù)運轉(zhuǎn),如果必須在該條件下運轉(zhuǎn),則應(yīng)在出口裝旁通管,且使流量達(dá)到上述最小值以上。
(6)經(jīng)常檢查地腳螺栓的松動情況,泵殼溫度與入口溫度是否一致,出口壓力表的波動情況和泵的振動情況。
(7)注意泵運行有無雜音,如發(fā)現(xiàn)異常狀態(tài)時,應(yīng)及時處理。
4.停機
(1)切斷電源。
(2)將泵內(nèi)液體放空,清洗且應(yīng)定期把葉輪旋轉(zhuǎn)180°以防止軸變形,直至泵體完全冷卻為止。
泵的拆卸和裝配
1.泵的拆卸順序
(1)放凈泵內(nèi)液體及軸承托架內(nèi)的潤滑油。
(2)擰下電機固定螺栓,將電機搬離底座,拆下兩半聯(lián)軸器。
(3)拆下泵蓋聯(lián)接,松開軸承座托架螺栓,將泵蓋連同軸承托架和轉(zhuǎn)子部分一起從泵體內(nèi)抽出。
(4)擰下葉輪螺母,拆下葉輪。
(5)擰下泵蓋與軸承座螺栓,拆下泵蓋。
(6)擰下右端軸承蓋螺栓,拆去軸承蓋。
(7)拆下軸承擋圈。
(8)將泵軸從軸承座中壓出。
(9)將泵軸壓出軸承和取下機械密封件動環(huán)和“O”形圈彈簧(不損壞,無須取下〉。
(10)在軸承座內(nèi)壓出靜環(huán)“O”形圈。
2.泵的裝配
泵的裝配順序可按拆卸相反順序進(jìn)行。拆卸后再裝配時要檢查機械密封件和各零件是否失效,如有失效損壞現(xiàn)象等發(fā)生,一定要換新的配件,安裝時務(wù)必小心謹(jǐn)慎,不要敲打,以免損壞零件。
機組的安裝和檢查
1.泵安裝的好壞對泵的平穩(wěn)運行和使用壽命有很重要的影響,所以安裝工作必須仔細(xì)地進(jìn)行,不得草率行事。
2.泵吸入管的安裝高度、長度和管徑應(yīng)滿足計算值,力求簡短,管道彎頭中心到泵底座頭部距離一般應(yīng)小于1米并有焊接鐵板及支撐,見圖1、圖2、圖3所示。
3.吸入和吐出管路也應(yīng)有管架或支撐,泵不允許承受管路的負(fù)荷。
警告:管道上的熱膨脹所產(chǎn)生的應(yīng)力,如果傳遞到泵機上,會造成泵機變形,損壞聯(lián)軸器和軸承以及泵軸等,所以在靠近泵體時,一定要進(jìn)行支撐。
4.安裝地點應(yīng)足夠?qū)挸?,以方便檢修工作和散熱良好。
5. 安裝順序:
(1)將機組放在埋有地腳螺栓的基礎(chǔ)上,在底座與基礎(chǔ)之間放成對墊,作找正用。
(2)松開聯(lián)軸器,用水平儀分別放在泵軸和底座上,通過調(diào)整楔塊墊使機組調(diào)整至水平,適當(dāng)擰緊地腳螺栓,以防走動。
(3)用混凝土灌注底座和地腳螺栓孔。
(4)待混凝土干固后,檢查底座和地腳螺栓是否有不良或松動等現(xiàn)象,檢查合格后應(yīng)擰緊地腳螺栓,并重新檢查泵的水平度。
(5)校正泵軸和電機軸的同軸度,用驗平尺檢驗時在聯(lián)軸器外圓上的圓跳動不得超過0.1毫米,兩聯(lián)軸器平面間的間隙應(yīng)保證在2~3 毫米之間,通過驗平尺相差90°對聯(lián)軸器進(jìn)行校驗時另一方向的圓跳動也不得超過0.1毫米,調(diào)節(jié)時一般相對于泵來調(diào)節(jié)電機,可用平板墊的墊入方法來調(diào)整聯(lián)軸器的同軸度。
(6)在接好管路及確定原動機轉(zhuǎn)動方向后,再接上聯(lián)軸器,并再校核一遍聯(lián)軸器外圓的同軸度。
注意:聯(lián)軸器不同心時,會造成聯(lián)軸器及彈性塊磨損過大,也會導(dǎo)致軸承和軸封的損壞,以及泵軸折斷。同軸度達(dá)不到安裝要求嚴(yán)禁開車。
(7)在安裝過程中為防止雜物落入機器內(nèi),應(yīng)將機組所有孔眼均蓋好。
(8)泵在開啟前應(yīng)對進(jìn)出管道進(jìn)行清洗,特別是對于焊接式管道應(yīng)注重處理毛刺和焊渣及氧化皮,在泵的進(jìn)口段需加上過濾器,以防雜物進(jìn)入泵內(nèi)。
Pump usage and maintenance:
Firstly, after the pump and pipeline are installed, whether using water pressure or air pressure, the inlet and outlet valves of the pump must be closed before pressure testing to prevent damage to the sealing parts and oil leakage.
1. Preparation before start-up:
(1) Clean the site, loosen the bearing seat screws, and add clean heat transfer oil as lubricating oil. For oil pumps above 110KW, lubricating oil is injected from one hole until oil overflows from another hole. During the filling process, stroke the coupling with your hand until no gas escapes from the hole, then tighten the screw bolt.
(2) Check whether the motor rotation direction is consistent with the pump rotation direction.
(3) Move the coupling pump by hand to ensure flexibility.
(4) Before starting, fill the pump with the heat transfer oil to be transported to remove the air in the pump. At this time, the gate valve R on the outlet pipeline should be closed.
(5) The heat transfer oil to be transported should be evenly heated before starting. Preheating is carried out by continuously passing the heat transfer oil to be transported through the pump body, and temperature fluctuations should be avoided. If there is an abnormal situation, stop immediately for inspection.
Preheating standard: The pump casing temperature should not be lower than the inlet oil temperature of 40℃, and the preheating speed should be 50℃/hour. During preheating, loosen the side screws on the pump bracket by 0.3-0.5 mm. After preheating, tighten the screws.
(6) Before starting, check whether the foundation and bolts are loose and whether the sealing is normal.
2. Start-up:
(1) Check whether all preparations have been completed.
(2) Turn on the switches of various instruments.
(3) Turn on the power supply. When the pump reaches normal speed and the instrument displays a corresponding pressure, gradually open the gate valve on the output pipeline and adjust it to the required working condition. The pump cannot work continuously for more than 3 minutes with the gate valve on the output pipeline closed.
(4) During the initial operation of the pump, slowly heat up the equipment in the production process to 100-130℃ and keep it running at this temperature. Dehydration and degassing of water in the heat transfer oil should be completely evaporated before heating the equipment to the operating temperature.
(5) After the unit is put into use and runs in working condition (or actual trial operation for 3-4 hours), stop again to check whether the coaxiality of the two couplings has changed. If there is a change, adjust the coaxiality of the couplings according to the installation and inspection requirements of the unit until it meets the requirements and the pump shaft can be easily rotated by hand.
(6) During start-up, always pay attention to the power reading and vibration of the motor. The vibration value should not exceed 0.6 mm. If there is an abnormal situation, stop for inspection.
3. Maintenance:
(1) The pump shaft is equipped with a stuffing box at the front end, which has reliable sealing performance. At the same time, there are mechanical seal and oil seal devices in the bearing seat. Therefore, a large amount of leakage cannot occur, and a small amount of leakage can be discharged through the leak pipe. A small amount of leakage at the beginning of operation is normal. After a certain period of time, when the sealing surface is worn in, leakage will decrease or stop.
(2) The heat transmitted by the conveyed medium to the pump cover and bearing is dissipated by the surface of the pump cover and bearing seat, so that the temperature of the bearing seat adapts to the temperature of shaft sealing performance. Therefore, when choosing a pump installation position, make sure that heat dissipation from the pump cover and bearing seat is easy and that no heat storage occurs.
(3) Two ball bearings are installed in the bearing seat, with one ball bearing adjacent to the impeller lubricated with heat transfer oil, and another ball bearing adjacent to the coupling lubricated with high-temperature grease.
After each ball bearing has been running for 3000 hours, it must be removed and cleaned with diesel oil to check whether there is any damage to its contact surface. If there is damage, a new bearing must be replaced.
When installing a ball bearing adjacent to an impeller, make sure that one side of its dust cover faces toward the impeller.
故障 | 原因 | 排除方法 |
一、泵輸送流量不足,壓力偏低 | 1、泵輸出管路助力大 | 1-1輸出管路布置是否合理,管輕不能偏小,管路轉(zhuǎn)彎角不能偏多 |
1-2檢查閥門是否靈活 | ||
1-3適當(dāng)打開出口閥門,直到工況點 | ||
2、油內(nèi)水分、氣體較多 | 2-1把油內(nèi)的水分,氣泡控制在100℃~120℃左右溫度,緩慢排盡后,可逐步升溫到工況點 | |
2-2管路布置是否合理 | ||
2-3安裝排氣閥 | ||
3、管道與葉輪流道堵塞 | 3-1清除管道內(nèi)與葉輪流道內(nèi)的雜物 | |
3-2檢查閥門閘閥是否失靈 | ||
4、進(jìn)口濾網(wǎng)堵塞 | 4-1定期清洗濾網(wǎng) | |
4-2濾網(wǎng)目數(shù)不能過密 | ||
5、泵體進(jìn)口密封口環(huán)與葉輪密封口環(huán)嚴(yán)重磨損 | 5-1更換磨損部件 | |
5-2泵的吸入口徑小于或等于100mm時,口環(huán)間隙大于1.5mm時應(yīng)更換,吸入口徑大于或等于125mm時口環(huán)間隙在大于2mm時,應(yīng)修理及時更換 | ||
6、轉(zhuǎn)速與轉(zhuǎn)向不正確 | 6-1檢查轉(zhuǎn)速值(用測速器測量) | |
6-2檢查線路連接情況 | ||
6-3是否反向運轉(zhuǎn) | ||
7、輸送油液的密度粘度偏離基本值 | 7-1當(dāng)介質(zhì)偏離定購參數(shù)而產(chǎn)生故障時應(yīng)向本廠咨詢 | |
8、裝置NPS過低(氣蝕余量太低) | 8-1檢查高位槽液位,必要時進(jìn)行調(diào)節(jié) | |
8-2泵進(jìn)口閥門完全打開,并檢查過濾器 | ||
8-3當(dāng)高位槽至泵進(jìn)口管路阻力過大時重新布管 | ||
二、泵振動及噪聲 | 1、底板底腳安裝不平穩(wěn) | 1-1校正底板平穩(wěn)性 |
2、各部壓緊螺絲松動 | 2-1調(diào)整各部螺栓均勻壓緊 | |
3、管道與泵進(jìn)出口連接嚴(yán)重偏差,承受阻力大 | 3-1調(diào)整管道與泵出口的連接垂直度 | |
3-2架設(shè)支撐架(泵不能承受管道壓力) | ||
4、泵與電機的同軸度偏差及聯(lián)軸器之間端面無間隙 | 4-1調(diào)正泵與電機的同軸度 | |
4-2調(diào)整聯(lián)軸器之間端面間隙規(guī)定值3mm左右 | ||
5、泵軸與軸承損壞 | 5-1更換泵軸或軸承 | |
6、泵內(nèi)有雜物 | 6-1清除泵內(nèi)雜物 | |
7、流速不穩(wěn)定 | 7-1排除管內(nèi)的氣泡和空氣 | |
7-2管道不暢通,彎曲處較多 | ||
8、緩沖圈損壞 | 8-1更換緩沖圈 | |
三、泵的泄露 | 1、各部壓緊螺栓松動 | 1-1均勻壓緊各部螺栓 |
2、密封墊損壞 | 2-1更換密封墊 | |
3、部件氣砂孔 | 3-1在可能情況下進(jìn)行焊補。及更換部件 | |
4、泵軸與油封磨損 | 4-1更換泵軸與油封 | |
5、泵與電機同軸度偏差 | 5-1調(diào)正同軸度要求 | |
6、管道與泵連接不成直線造成泵的扭力大 | 6-1調(diào)正管道與泵的直線度,平衡度 | |
6-2均勻擰緊各部螺栓 | ||
四、軸承發(fā)熱、溫度升高 | 1、泵與電機同軸度偏差 | 1-1調(diào)正同軸度,平衡度 |
2、軸承內(nèi)腔長期失油運轉(zhuǎn) | 2-1定時注油(油脂)不能過多或或少 | |
3、軸承內(nèi)外殼跑圈 | 3-1更換軸承及相關(guān)磨損部件 | |
4、軸向力太大 | 4-1清洗、調(diào)正密封口環(huán)間隙要求0.2~0.3mm之間 | |
4-2更正葉輪平衡孔直徑,及效驗靜平衡值 | ||
5、軸承損壞 | 5-1更換軸承 | |
五、泵運行不穩(wěn)定、運轉(zhuǎn)卡死、負(fù)荷超重 | 1、油內(nèi)水分較多 | 1-1把油內(nèi)水,氣通過高位槽緩慢排盡(油溫控制在100℃~120℃左右)排盡水、氣后,逐步升溫到工況點 |
2、泵內(nèi)與葉輪密封口環(huán)配合間隙過小或過大。過小受熱膨脹卡死,間隙過大運行不穩(wěn)定 | 2-1調(diào)正密封口環(huán)間隙為0.2~0.3之間 | |
2-2加以復(fù)修或更換磨損部件 | ||
3、軸承損壞 | 3-1更換軸承 | |
4、葉輪運轉(zhuǎn)不平衡 | 4-1葉輪密封口環(huán)嚴(yán)重磨損,進(jìn)行修正或更換磨損部件 | |
4-2重新測試靜平衡值 | ||
5、泵與管道裝置嚴(yán)重偏差,造成泵的扭力增大(在安裝時特別要注意) | 5-1重新調(diào)正泵與管道的偏差垂直度、平衡度,并架設(shè)支撐架 | |
5-2重新調(diào)正泵與電機同軸度 | ||
6、電氣線路接線不恰當(dāng)及電氣部件質(zhì)量差,螺栓松動 | 6-1檢查電氣柜箱線路是否接錯 | |
6-2更換質(zhì)量度的電氣部件 | ||
7、電動機故障 | 7-1更換電動機 | |
8、泵運轉(zhuǎn)方向不正確 | 8-1調(diào)正電機轉(zhuǎn)向 | |
9、輸送導(dǎo)熱油的密度,粘度偏離基本值 | 9-1更換輸送油液或泵型 | |
9-2與制造泵廠聯(lián)系咨詢 | ||
六、高位油槽油氣外溢、壓力不穩(wěn)定 | 1、油內(nèi)水分較多 | 1-1把油內(nèi)的水分在加熱到100℃~120℃溫度時,緩慢的排盡后可逐步升溫到工況點 |
2、油氣外溢 | 2-1加熱速度過快,溫度過高,一般需排盡油內(nèi)的水分1~4天左右,要求與1-1相同 | |
3、壓力不穩(wěn)定 | 3-1排盡油內(nèi)的水分,空氣 | |
3-2進(jìn)口濾網(wǎng)堵塞 | ||
3-3泵內(nèi)磨損件多,更換磨損零件 | ||
七、流量揚程不足 | 1、管道與葉輪流道不暢通 | 1-1清洗管道與葉輪流道 |
2、進(jìn)口濾網(wǎng)堵塞及濾網(wǎng)目數(shù)太密 | 2-1清洗進(jìn)口濾網(wǎng) | |
2-2更換目數(shù)少的濾網(wǎng) | ||
3、運轉(zhuǎn)方向不正確 | 3-1調(diào)正電機轉(zhuǎn)向 | |
4、裝置NPSH過低(泵吸入側(cè)真空度高) | 4-1檢查高位槽液位,必要時進(jìn)行調(diào)節(jié) | |
4-2泵的進(jìn)口閥門完全打開 | ||
4-3當(dāng)高位槽至泵進(jìn)口管路阻力過大時,重新布管 | ||
5、管路輸送距過長,彎頭過多 | 5-1裝置接力泵(可與生產(chǎn)泵廠咨詢) | |
5-2更改管道設(shè)施 | ||
八、電機發(fā)熱產(chǎn)生跳閘 | 1、三相接線裝頭螺栓松動及接錯線路 | 1-1檢查電氣箱內(nèi)的各部線路是否有接錯及擰緊裝頭螺栓 |
2、熱繼電器質(zhì)量差 | 2-1更換熱繼電器 | |
3、電機質(zhì)量差 | 3-1跟換電機 | |
4、泵內(nèi)有雜物,轉(zhuǎn)動不靈活,加重電機負(fù)荷 | 4-1清除泵內(nèi)雜物,調(diào)正同軸度偏差 | |
九、壓力太大 | 壓力表位置不準(zhǔn)確 | 1-1應(yīng)在閥門后 |
1-2更換葉輪,或外徑縮小點 | ||
1-3進(jìn)出口閥適當(dāng)關(guān)小點 | ||
1-4出口管道適當(dāng)換大點,出口壓力會減小 | ||
十、爐子加油后溫度加不上 | 1、導(dǎo)熱油一般使用三年左右需要換油一次 | |
2、換油要一次性換清,不能留有原使用過的油在內(nèi) | ||
3、要清洗爐子與管道內(nèi)的結(jié)焦是主要原因之一 |
This is a list of troubleshooting steps for pump issues:
## Issue: Insufficient flow rate and low pressure
### Causes:
1. High resistance in output pipeline
2. Presence of water and gas in oil
3. Blockage in pipeline or impeller flow path
4. Clogging of inlet strainer
5. Severe wear of impeller and sealing rings
6. Incorrect speed or direction
7. Deviation in density and viscosity of conveyed fluid
8. Low NPSH (net positive suction head)
### Troubleshooting steps:
1. Check pipeline layout, valve flexibility, and open outlet valve if necessary.
2. Control water and gas in oil at 100-120°C, install air release valve, and ensure proper pipeline layout.
3. Clean debris from pipeline and impeller flow path, and check valve gate.
4. Regularly clean inlet strainer and ensure proper mesh size.
5. Replace worn components according to specifications.
6. Check speed value, wiring connection, and rotation direction.
7. Consult manufacturer when conveyed fluid deviates from ordered parameters.
8. Check high-level slot liquid level, open pump inlet valve, and check filter.
## Issue: Pump vibration and noise
### Causes:
1. Unstable installation of base plate and base foot
2. Loosening of various compression bolts
3. Connection deviation and high resistance between pipeline and pump inlet/outlet
4. Eccentricity between pump and motor or no clearance between end faces of coupling
5. Damage to pump shaft and bearing
6. Debris inside the pump
7. Unstable flow velocity
8. Damage to buffer ring
### Troubleshooting steps:
1. Correct base plate stability.
2. Adjust compression bolts evenly.
3. Adjust pipeline connection perpendicularity, install support frame, and ensure proper pipeline layout.
4. Adjust eccentricity between pump and motor, and ensure proper clearance between end faces of coupling.
5. Replace damaged pump shaft or bearing.
6. Clean debris inside the pump.
7. Remove air bubbles from pipeline and eliminate bends.
8. Replace buffer ring.
## Issue: Pump leakage
### Causes:
1. Loosening of various compression bolts
2. Damage to sealing gasket
3. Air sand holes in components
4. Wear of pump shaft and oil seal
5. Deviation in coaxiality between pump and motor
6. Non-linear connection between pipeline and pump causing increased torque
### Troubleshooting steps:
1. Tighten all compression bolts evenly.
2. Replace damaged sealing gasket.
3. Weld or replace components when possible.
4. Replace pump shaft and oil seal.
5. Adjust coaxiality between pump and motor.
6. Adjust pipeline connection perpendicularity, balance, and tighten all compression bolts evenly.
## Issue: Bearing overheating and temperature rise
### Causes:
1. Deviation in coaxiality between pump and motor
2. Long-term oil loss in bearing cavity
3. Runout of bearing inner/outer shell
4. Too much axial force
5. Bearing damage
### Troubleshooting steps:
1. Adjust coaxiality and balance between pump and motor.
2. Regularly lubricate bearing cavity with appropriate amount of oil or grease.
3. Replace bearing or related worn components.
4. Clean and adjust sealing ring clearance to 0.2-0.3mm.
5. Adjust impeller balance hole diameter and test static balance value.
## Issue: Unstable operation, jamming, overload
### Causes:
1. Presence of water in oil
2. Improper clearance between impeller sealing rings causing jamming or unstable operation
3. Bearing damage
4. Unbalanced impeller operation
5. Deviation in installation causing increased torque
6. Inappropriate electrical wiring or poor quality electrical components causing bolt loosening
7. Motor malfunction
8. Incorrect rotation direction
9. Deviation in density or viscosity of conveyed fluid
### Troubleshooting steps:
1-8: Same as previous issues.
9. Replace conveyed fluid or pump model, or consult manufacturer.
## Issue: High-level oil tank oil-gas overflow, unstable pressure
### Causes:
1-2: Same as previous issues.
3. Wear of pump internal parts
### Troubleshooting steps:
1-2: Same as previous issues.
3. Replace worn parts.
## Issue: Insufficient flow rate and head
### Causes:
1-6: Same as previous issues.
### Troubleshooting steps:
1-6: Same as previous issues.
Note: The above list is not exhaustive and other issues may require additional troubleshooting steps or specialized knowledge to resolve properly.