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250QJR Deep Well Submersible Pump

250QJR Deep Sumur Pompa Submersible

Laksanakeun pamrosésan OEM! Numutkeun sarat pamaké, rarancang jeung pabrik rupa-rupa sarat husus motor submersible non-standar sarta pompa. Standar palaksanaan produk: GB / T2816-2014 "pompa sumur submersible", GB / T2818-2014 "motor Asynchronous ogé submersible". WhatsApp: 17855846335
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Tinjauan produk

The hot water pump adopts 50W400 grade high quality cold rolled silicon steel, stamped by high speed punch, with the advantages of low stator iron loss and low self-heating. The motor winding is specially designed for high temperature and anti-aging hot water motor. The winding is waterproof, and the high quality accessories such as 3CR13 stainless steel impeller shaft and high temperature durable bushing make it able to operate at high temperature for a long time, and can be used with frequency converter, which can be automatically adjusted according to the water consumption.

 

 
Kaayaan Pamakéan

1, catu daya: tilu-fase AC 380V (kasabaran + / - 5%), 50HZ (kasabaran + / - 1%).

2, kualitas cai:

(1) suhu cai teu leuwih luhur ti 20 °C;

(2) eusi najis padet (rasio massa) teu leuwih gede ti 0,01%;

(3) Nilai PH (pH) 6,5-8,5;

(4) eusi hidrogén sulfida teu leuwih gede ti 1.5mg/L;

(5) eusi ion klorida teu leuwih gede ti 400mg/L.

3, motor ditutup atawa struktur baseuh cai-kaeusi, saméméh pamakéan rongga motor submersible kudu pinuh ku cai bersih, pikeun nyegah palsu pinuh, lajeng tighten suntik cai, bolts release hawa, disebutkeun teu diwenangkeun ngagunakeun.

4, pompa submersible kudu sagemblengna submerged dina caina, jero diving teu leuwih gede ti 70m, handap pompa submersible ti handap sumur teu kurang ti 3m.

5, aliran cai sumur kudu bisa minuhan kaluaran cai pompa submersible sarta operasi kontinyu, kaluaran cai pompa submersible kudu dikawasa dina 0.7 - 1.2 kali aliran dipeunteun.

6, sumur kudu lempeng, pompa submersible teu bisa dipaké atawa dumped, ngan pamakéan nangtung.

7, pompa submersible kudu loyog jeung kabel nurutkeun sarat, jeung alat panyalindungan overload éksternal.

8, pompa nu mastikeun dilarang tanpa cai no-beban mesin test

 

 
Model Harti

Read More About 110 volt deep well submersible pump

 
Rujukan Modél parsial
Modél Aliran (m3/h) Sirah
(m)

Laju puteran

(robah / titik)

 Pompa cai(%)  Outlet
diameter
(mm)		 Lumaku ogé
diaméterna (mm) 		  Dipeunteun
power(KW)		 Dipeunteun
tegangan (V)		 Dipeunteun
ayeuna (A)		 Efisiensi motor (%) faktor kakuatan φ   Unit
Ukuran Radial Maximum (mm)		 Nyarios
250QJ50-40 50 40 2875 72 80  250di luhur 9.2 380 21.7 78.5 0.82 233  
250QJ50-60 60 13 30.1 80.0 0.82  
250QJ50-80 80 18.5 40.8 82.0 0.84  
250QJ50-100 100 22 47.9 83.0 0.84  
250QJ50-120 120 25 53.8 84.0 0.84  
250QJ50-140 140 30 64.2 84.5 0.84  
250QJ50-160 160 37 77.8 85.0 0.85  
250QJ50-200 200 45 94.1 85.5 0.85  
250QJ50-240 240 55 114.3 86.0 0.85  
250QJ50-280 280 63 131.0 86.0 0.85  
250QJ50-320 320 75 152.3 87.0 0.86  
250QJ50-400 400 90 182.8 87.0 0.86  
250QJ50-440 440 100 203.1 87.0 0.86  
250QJ63-40 63 40 2875 74 80  250di luhur 11 380 25.8 79.0 0.82 233  
250QJ63-60 60 18.5 40.8 82.0 0.84  
250QJ63-80 80 22 47.9 83.0 0.84  
250QJ63-100 100 30 64.2 84.5 0.84  
250QJ63-120 120 37 77.8 85.0 0.85  
250QJ63-160 160 45 94.1 85.5 0.85  
250QJ63-200 200 55 114.3 86.0 0.85  
250QJ63-220 220 63 131.0 86.0 0.85  
250QJ63-260 260 75 152.3 87.0 0.86  
250QJ63-300 300 90 182.8 87.0 0.86  
250QJ63-360 360 100 203.1 87.0 0.86  
250QJ80-20 80 20 2875 75 100  250di luhur 7.5 380 18.0 78.0 0.81 233  
250QJ80-40 40 15 33.9 81.0 0.83  
250QJ80-60 60 22 47.9 83.0 0.84  
250QJ80-80 80 30 64.2 84.5 0.84  
250QJ80-100 100 37 77.8 85.0 0.85  
250QJ80-120 120 45 94.1 85.5 0.85  
250QJ80-160 80 160 2875 75 100  250di luhur 55 380 114.3 86.0 0.85 233  
250QJ80-180 180 63 131.0 86.0 0.85  
250QJ80-200 200 75 152.3 87.0 0.86  
250QJ80-240 240 90 182.8 87.0 0.86  
250QJ80-280 280 100 203.1 87.0 0.86  
250QJ100-18 100 18 2875 75 100  250di luhur 7.5 380 18.0 78.0 0.81 233  
250QJ100-36 36 15 33.9 81.0 0.83  
250QJ100-54 54 25 53.8 84.0 0.84  
250QJ100-72 72 30 64.2 84.5 0.84  
250QJ100-90 90 37 77.8 85.0 0.85  
250QJ100-108 108 45 94.1 85.5 0.85  
250QJ100-126 126 55 114.3 86.0 0.85  
250QJ100-144 144 63 131.0 86.0 0.85  
250QJ100-162 162 75 152.3 87.0 0.86  
250QJ100-198 198 90 182.8 87.0 0.86  
250QJ100-216 216 100 203.1 87.0 0.86  
250QJ125-16 125 16 2875 76 125  250di luhur 9.2 380 21.7 78.5 0.82 233  
250QJ125-32 32 18.5 40.8 82.0 0.84  
250QJ125-48 48 25 53.8 84.0 0.84  
250QJ125-64 64 37 77.8 85.0 0.85  
250QJ125-80 80 45 94.1 85.5 0.85  
250QJ125-96 96 55 114.3 86.0 0.85  
250QJ125-112 112 63 131.0 86.0 0.85  
250QJ125-128 128 75 152.3 87.0 0.86  
250QJ125-160 160 90 182.8 87.0 0.86  
250QJ125-176 176 100 203.1 87.0 0.86  
250QJ125-192 192 110 219.6 87.5 0.87  
250QJ140-15 140 15 2875 76 125  250di luhur 9.2 380 21.7 78.5 0.82 233  
250QJ140-30 30 18.5 40.8 82.0 0.84  
250QJ140-45 45 30 64.2 84.5 0.84  
250QJ140-60 60 37 77.8 85.0 0.85  
250QJ140-75 45 45 94.1 85.5 0.85  
250QJ140-90 90 55 114.3 86.0 0.85  
250QJ140-105 140 105 2875 76 125  250di luhur 63 380 131.0 86.0 0.85 233  
250QJ140-120 120 75 152.3 87.0 0.86  
250QJ140-150 150 90 182.8 87.0 0.86  
250QJ140-165 165 100 203.1 87.0 0.86  
250QJ140-180 180 110 219.6 87.5 0.87  
250QJ200-20 200 20 2875 75 150  250di luhur 18.5 380 40.8 82.0 0.84 233  
250QJ200-40 40 37 77.8 85.0 0.85  
250QJ200-60 60 55 114.3 86.0 0.85  
250QJ200-80 80 75 152.3 87.0 0.86  
250QJ200-100 100 90 182.8 87.0 0.86  
250QJ200-120 120 100 203.1 87.0 0.86  
250QJ200-140 140 125 249.5 87.5 0.87  

 

 
Precautions Kasalametan

 This well submersible pump is a clean water pump. It is strictly prohibited to dig new wells and extract sediment and turbid water. The voltage grade of the well pump is 380/50HZ. Other submersible motors with different voltage grades need to be customized. Underground cables must be waterproof and equipped with starting equipment, such as distribution boxes, etc. The starting equipment should have conventional comprehensive motor protection functions, such as short circuit overload protection, phase loss protection, undervoltage protection, grounding protection and idling protection. In abnormal cases, the protection device should be tripped in time. The pump must be reliably grounded when installed and used. It is prohibited to push and pull the switch when the hands and feet are wet. The power must be cut off before installation and maintenance of the pump. The place where the pump is used must be clearly marked with "anti-electric shock". Before going down the well or installation, the motor must be filled with distilled water or non-corrosive clean cold water. The intake/drain bolts must be tightened. When testing the pump on the ground, water must be added to the pump chamber to lubricate the rubber bearings. The instantaneous start should not exceed one second to check whether the direction is correct. This is also applicable to direction indication. When using the vertical electric pump, pay attention to safety to prevent overturning and injury. Strictly in accordance with the provisions of the pump lift and flow range of use, to prevent the pump in low lift has a large flow or high lift has a large pull, resulting in extreme wear of thrust bearings and other parts, so that the motor overload burned. After the pump into the well, the measurement of the insulation resistance between the motor and the ground shall not be less than 100MΩ. After the start, regular observation of voltage and current, and check whether the motor winding insulation meets the requirements of the provisions. If the pump storage location temperature is below freezing, the water in the motor cavity should be drained to prevent freezing in the motor cavity and damage the motor due to low temperature.

 

 
Bubuka pikeun Struktur

bubuka ringkes struktur: bagian pompa utamana diwangun ku aci pompa, impeller, cangkang diversion, bearing karét, pariksa awak klep (bagian pilihan) sareng komponenana lianna. Bagian Motor utamana diwangun ku basa, tekanan régulasi pilem, dorong bearing, piring dorong, handap pituduh bearing korsi, stator, rotor, pituduh luhur bearing korsi, ring keusik, bagian inlet cai, kabel sareng komponenana lianna.


Fitur utama produk di antarana:

 1, motor nyaéta motor asynchronous tilu-fase baseuh cai-kaeusi cai, rongga motor pinuh ku cai bersih, dipaké pikeun niiskeun motor jeung lubricate bearing nu, tekanan régulasi pilem di handapeun motor dipaké pikeun nyaluyukeun. bédana ékspansi jeung kontraksi tekanan cai di jero awak disababkeun ku parobahan naékna suhu motor.

 2, Dina raraga nyegah keusik dina cai sumur ti ngasupkeun motor, tungtung luhur aci motor dilengkepan dua segel minyak, sarta cingcin keusik dipasang pikeun ngabentuk struktur pencegahan keusik.

 3, Dina raraga nyegah aci pompa ti ngajalankeun up nalika dimimitian, aci pompa jeung aci motor disambungkeun ku gandeng a, sarta hiji bearing dorong luhur dipasang di bagian handap motor.

 4, The lubrication tina motor jeung bearing pompa nyaéta lubrication cai.

 5, The motor stator pungkal dijieunna tina kualitas luhur submersible motor pungkal kawat, kalawan kinerja insulasi tinggi.

 6, pompa dirancang ku komputer CAD, kalawan struktur basajan tur kinerja teknis alus.

Read More About 110 volt deep well submersible pump
 
Masang

(1) Persiapan saméméh instalasi:
1. Pariksa naha pompa submersible meets kaayaan pamakéan sarta wengkuan spésifed dina manual.
2. Ngagunakeun obiect beurat kalawan diaméter sarua jeung diaméter luar maksimum pompa submersible, ngukur naha inneldiameter of wellbore nu bisa nyocogkeun ka pompa submersible, sarta ngukur naha jero sumur meets sarat instalasi.
3. Pariksa naha liang sumur beresih jeung cai sumur keruh. Pernah ngagunakeun pompa listrik submersible pikeun ngumbah leutak pompa welor jeung cai keusik pikeun nyegah karuksakan prématur kana pompa listrik submersible.
4. Pariksa naha posisi clamp pamasangan welhead cocog sareng naha éta tiasa tahan kualitas sadaya unit.
5. Pariksa lamun komponén pompa submersible geus réngsé sarta dipasang leres nurutkeun diagram assembly dina manualLeupaskeun layar filter sarta muterkeun gandeng pikeun nempo lamun rotates flexibly
6. Unscrew nu screw cai jeung fillthe rohangan motor jeung bersih, cai non corrosive (catetan. Pastikeun pikeun fil eta nepi), teras tighten waterscrew nu. Saatos 12 jam suntikan cai, résistansi insulasi motor henteu kedah kirang ti 150M Q nalika diukur nganggo méja oyag 500V.
7. Sambungan kabel, potong leungeun baju karét 120mm tina hiji tungtung kabel kaluar jeung kabel cocog jeung péso hiji tukang listrik urang stagger panjang tilu kawat inti dina bentuk stepped, mesek off inti tambaga 20mm, kerok tina oksida. lapisan on theoutside tina kawat tambaga jeung péso atawa lawon keusik, terus selapkeun dua kawat disambungkeun ends di palirs.After tying lapisan pageuh jeung kawat tambaga rupa, solder eta tuntas jeung pageuh, jeung keusik wae. burrs dina beungeut cai. Teras, pikeun tilu sambungan, anggo pita insulasi polyvester pikeun ngabungkus aranjeunna dina cara anu ditumpuk pikeun tilu laver. Bungkus dua tungtung lapisan bungkus sareng benang nyion, teras nganggo metode semi tumpuk pikeun mungkus pita tilu lapisan. Bungkus outellayer ku pita insulasi tekanan tinggi pikeun tilu lapisan. Tungtungna, tilelep tilu untaian babarengan jeung sababaraha kali bungkus eta pikeun lima lapisan jeung pita tekanan tinggi. Unggal lapisan kudu dihijikeun pageuh, sarta mendi interlayer kudu kedap tur fimm pikeun nyegah cai ti penetrating sarta ngaruksak insulasi nu, Saatos wrapping, soak dina cai dina suhu kamar 20 'c salila 12 jam, sarta ngukur lalawanan insulasi ku méja oyag. , nu teu kudu kirang ti 100M Ω

 

Diagram prosés wiring kabel napel nyaéta kieu:
Read More About 4 inch deep well submersible pump

 

8. Paké multimeter pikeun pariksa naha kawat tilu-fase disambungkeun tur naha lalawanan DC kira saimbang.
9. Pariksa naha sirkuit jeung trafo kapasitas overloaded, lajeng sambungkeun switch panyalindungan overload atawa alat dimimitian. Tempo Table 2 pikeun model husus, lajengTuang ember cai kana pompa cai ti outlet pompa cai mun lubricate bantalan karét dina pompa, lajeng nempatkeun pompa listrik submersible orientasi tegak tur steady.Start (teu leuwih ti hiji detik) jeung pariksa naha arah steering konsisten jeung tanda steering. Lamun henteu, swap wae dua panyambungna tina kabel tilu-fase. Lajeng install filter sarta nyiapkeun turun sumur. Upami dianggo dina kaayaan anu khusus (sapertos parit, parit, walungan, balong, balong, jsb.), pompa listrik kedah didasarkeun sacara dipercaya.

 

(2) Alat sareng alat pamasangan:
1. Hiji pasangan ngangkat ranté pikeun leuwih ti dua ton.
2. A tripod kalayan jangkungna nangtung teu kurang ti opat méter.
3. Dua tali gantung (tali kawat) nu bisa nanggung beurat leuwih ti hiji ton (bisa nanggung beurat hiji set lengkep pompa cai).
4. Pasang dua pasang jepitan (splints).
5. Wrenches, palu, obeng, pakakas listrik jeung instrumen, jsb.

 

(3) pamasangan pompa listrik:
1. Diagram instalasi tina pompa listrik submersible ditémbongkeun dina Gambar 2. Dimensi instalasi husus ditémbongkeun dina Table 3 "Daptar Dimensi Instalasi Pompa Electric Submersible".

 

2. Pompa listrik submersible kalawan sirah kirang ti 30 méter bisa hoisted langsung kana sumur ngagunakeun hoses jeung tali kawat atawa tali hemp lianna nu bisa nanggung beurat pinuh ku sakabéh mesin, pipa cai, jeung cai dina pipa.

 

3. Pompa kalayan sirah leuwih ti 30 méter ngagunakeun pipa baja, sarta runtuyan instalasi nyaéta kieu:
①Pake jepitan pikeun ngajepit tungtung luhur bagian pompa cai (motor sareng pompa cai parantos nyambungkeun waktos ayeuna), angkat nganggo ranté gantung, teras dasikeun lalaunan kana sumur dugi ka Pasang jepitan dina sirah sumur teras cabut ranté gantung.
② Paké sapasang clamps séjén pikeun clamp pipa, angkat eta kalawan ranté gantung 15 cm jauh ti flange, sarta nurunkeun eta lalaunan. Antara flange pipe jeung flange pompa Pasang pad karét di tempat sarta tighten pipa na pompa merata kalawan bolts, kacangan sarta spring washers.
③ Angkat pompa beuleum saeutik, cabut jepitan dina tungtung luhur pompa cai, dasi kabelna pageuh kana pipa cai nganggo pita plastik, teras talitikeun lalaunan dugi ka jepitan disimpen dina sumur.
④Paké cara nu sarua pikeun ngabeungkeut sakabéh pipa cai kana sumur.
⑤Saatos kabel timbal-kaluar disambungkeun ka saklar kontrol, éta disambungkeun ka catu daya tilu-fase.


(4) Hal-hal anu kedah diperhatoskeun nalika instalasi:
1. Lamun fenomena jamming kapanggih salila prosés ngompa, balikkeun atawa tarik pipa cai pikeun nungkulan titik jamming. Lamun sagala rupa ukuran masih teu hasil, mangga Ulah maksakeun pompa ka handap pikeun nyegah karuksakan kana pompa listrik submersible jeung sumur.
2. Salila instalasi, a Pad karét kudu ditempatkeun di flange unggal pipa na tightened merata.
3. Nalika pompa cai diturunkeun kana sumur, éta kudu ditempatkeun di tengah-tengah pipa sumur pikeun nyegah pompa tina ngajalankeun kana témbok sumur pikeun lila, ngabalukarkeun pompa ngageter jeung motor keur nyapu jeung kaduruk. .
4. Nangtukeun jero pompa cai ka handapeun sumur dumasar kana keusik anu ngalir sareng kaayaan leutak sumur. Ulah ngubur pompa dina leutak. Jarak ti pompa cai ka handapeun sumur umumna teu kurang ti 3 méter (tingali Gambar 2).
5. Jero asupna cai tina pompa cai kedah teu kurang ti 1-1,5 méter ti tingkat cai dinamis ka titik inlet cai (tingali Gambar 2). Upami teu kitu, bantalan pompa cai tiasa gampang ruksak.
6. The lift tina pompa cai teu tiasa teuing low. Upami teu kitu, klep gerbang kedah dipasang dina pipa cai sumur pikeun ngontrol aliran pompa dina titik aliran anu dipeunteun pikeun nyegah motor kabeungharan sareng kaduruk kusabab laju aliran anu ageung.
7. Nalika pompa cai dijalankeun, kaluaran cai kedah kontinyu sareng malah, arus kedah stabil (dina kaayaan kerja anu dipeunteun, umumna henteu langkung ti 10% tina arus anu dipeunteun), sareng teu kedah aya geter atanapi bising. Upami aya abnormalitas, mesin kedah dieureunkeun pikeun milari panyababna sareng ngaleungitkeunana.
8. Nalika masang, nengetan setelan tina kawat grounding motor (tingali Gambar 2). Nalika pipa cai nyaéta pipa baja, ngarah tina clamp wellhead; lamun pipa cai téh pipa plastik, ngarah tina tanda grounding tina pompa listrik.

 

 
Pangropéa sareng Pangropéa
  • (1)After the submersible pump is installed, check the insulation resistance and three-phase conduction from the switch again, check whether the instrument and the connection of the start equipment are wrong, if there is no problem, the trial machine can be started, and observe whether the indicator readings of the instrument exceed the rated voltage and current specified on the nameplate after the start, and observe whether the pump has noise and vibration phenomenon, and put into operation if everything is normal.
  • (2)After the first operation of the pump for four hours, the motor should be shut down to test the thermal insulation resistance quickly, and its value should not be less than 0.5 megaohm.
  • (3)After the pump is shut down, it should be started after five minutes to prevent the water column in the pipe from being completely reflowed and causing excessive motor current and burnout.
  • (4)After the pump is put into normal operation, in order to prolong its service life, it is necessary to check whether the supply voltage, working current and insulation resistance are normal regularly. If the following conditions are found, the pump should be shut down immediately to troubleshoot.
  •  
  • 1 In the rated condition, the current exceeds 20%.
  • 2 Tingkat cai dinamis turun ka bagian inlet cai, ngabalukarkeun cai intermittent.
  • 3 Pompa submersible gaduh geter atanapi bising parah.
  • 4 Tegangan suplai leuwih handap 340 volt.
  • 5 A sekering kaduruk kaluar.
  • 6 Pipa suplai cai ruksak.
  • 7 The motor's thermal insulation resistance is lower than 0.5 megaohm.
  •  
  • (5)Unit disassembly:
  • 1 Untie the cable tie, remove the pipeline part, and remove the wire plate.
  • 2 screw handap baud cai, nempatkeun cai dina chamber motor.
  • 3 nyabut filter nu, leupas screw tetep dina gandeng pikeun ngalereskeun aci motor.
  • 4 screw handap baud nyambungkeun bagian inlet cai jeung motor, sarta misahkeun pompa ti motor (perhatikeun cushion Unit nalika misahkeun, pikeun nyegah bending tina aci pompa)
  • 5 runtuyan disassembly tina pompa nyaeta: (tingali gambar 1) bagian inlet cai, impeller, cangkang diversion, impeller...... pariksa awak klep, nalika nyoplokkeun impeller, ngagunakeun parabot husus ka loosen leungeun baju kerucut tina tetep. impeller munggaran, sarta ulah bending na bruising aci pompa dina prosés disassembly.
  • 6 prosés disassembly motor nyaéta: (tingali gambar 1) nempatkeun motor dina platform, sarta cabut kacangan, basa, aci sirah ngonci nut, dorong plat, konci, handap pituduh bearing korsi jeung baud sirah ganda ti handap. motor dina gilirannana, lajeng nyandak kaluar rotor nu (perhatikeun teu ngaruksak pakét kawat) sarta tungtungna nyabut bagian nyambungkeun jeung pituduh luhur bearing korsi.
  • 7 Unit assembly: saméméh assembly, karat jeung kokotor tina bagian kudu cleaned, sarta permukaan jalangan jeung fasteners coated kalawan sealant, lajeng dirakit dina urutan sabalikna ti disassembly (aci motor ngalir kaluhur jeung ka handap sanggeus assembly salila kira hiji. millimeter), sanggeus assembly, gandeng kudu fléksibel, lajeng mesin test layar filter. Pompa submersible kedah dicandak kaluar tina sumur pikeun ngabongkar sareng pangropéa nurutkeun Pasal 5 saatos sataun operasi, atanapi kirang ti sataun operasi tapi dua taun waktos nyilem, sareng bagian-bagian anu tos digentos kedah diganti.

 

 
Panyimpenan sarta dijagaan

This product is a submersible pump. In order to ensure that your equipment can work effectively for a long time, we provide the following suggestions: In winter, pay special attention to draining the water in the motor cavity to prevent freezing; roll up the cable and tie it well.When storage, select a room with a temperature below 40 °C and no corrosive substances or gases. When not in use for a long time, be sure to prevent the submersible pump from rusting.These simple methods will improve the service life and performance of the product, ensuring that you can fully enjoy the convenience and benefits it brings.

 

 
Ngagem Bagian
  • Impeller
  • leungeun baju aci
  • leungeun baju karét aci

  • Cingcin segel

 
Skenario Aplikasi

01 Asupan cai sumur jero

02 Pasokan cai luhur

03 suplai cai gunung

04 cai munara

05 irigasi tatanén

06 irigasi kebon

07 asupan cai walungan

08 cai domestik

 

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