200QJB Profundus Bene Submersible Pump

OEM processus suscipe! Secundum usus usorum, consilium et fabricare varias species speciales requisita submersible motor et sentina non vexillum. Exsequendi signa: GB/T2816-2014 "Sentinam bene submersibilem", GB/T2818-2014 "Motorem asynchronum bene submersibile". Whatsapp： 17855846335

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Product Overview

This product adopts variable frequency winding design, ensuring the motor stable long-term conversion operation between 1HZ-50HZ. Its characteristics of energy saving and prolonged service life make it an ideal choice. Through this design, users can achieve efficient energy utilization while prolonging the service life of the product, which meets the modern society's demand for environmental protection and sustainable development. Whether for industrial production or home use, this product will bring users more convenient and efficient experience, becoming the leading choice in the industry.

Conditiones usus

This three-phase AC 380V (tolerance ± 5%), 50HZ (tolerance ± 1%) submersible pump is a reliable pump equipment, can be used in a variety of application scenarios. In terms of the use of conditions, to ensure good water quality, including water temperature is not higher than 20 °C, solid impurities content is not more than 0.01%, pH value is 6.5-8.5, hydrogen sulfide content is not more than 1.5mg / L, chloride ion content is not more than 400mg / L. The motor adopts a closed or water-filled wet structure, the inner cavity must be filled with clean water before use to prevent false filling. The pump must be completely immersed in water, and the immersion depth shall not exceed 70m, the distance from the bottom of the pump and the bottom of the well shall not be less than 3m. The water source shall meet the requirements of the pump inflow and continuous operation, the pump water control in the rated flow of 0.7-1.2 times. The well must be vertical, the pump can not be used horizontally or tilted, only vertical use. The pump must be equipped with cables and external overload protection device as required. It is strictly prohibited to dry turn the pump test. The design of the equipment is safe and reliable, meets the use of standards, is an indispensable ideal choice in all kinds of engineering projects and industrial applications.

Model Meaning

200QJB Deep Well Submersible Pump

Partialis Model Reference

Model	Flow (m3/h)	Caput (m)	Rotatingspeed(change/point)	Aqua sentinam(%)	Outlet diametri (mm)	Lorem bene diametri (mm)	Ratum power(KW）	Ratum voltage(V)	Ratum current (A *	Motorefficiency (%)	power factorcosφ	Unitas Aculeis Maximus amplitudo (mm)	Animadverte
200QJ20-40	20	40	2850	66	50	200supra	4	380	10.1	76.0	0.79	184
200QJ20-54		54					5.5		13.6	77.0	0.8
200QJ20-81		81					7.5		18.0	78.0	0.81
200QJ20-93		93					9.2		21.7	78.5	0.82
200QJ20-108		108					11		25.8	79.0	0.82
200QJ20-121		121					13		29.8	80.0	0.83
200QJ20-148		148					15		33.9	81.0	0.83
200QJ20-175		175					18.5		41.6	81.5	0.83
200QJ20-202		202					22		48.2	82.5	0.84
200QJ20-243		243					25		54.5	83.0	0.84
200QJ20-270		270					30		65.4	83.0	0.84
200QJ20-360		360					37		79.7	84.0	0.84
200QJ20-442		442					45		96.9	84.0	0.84
200QJ25-28	25	28	2850	68	65	200supra	4	380	10.1	76.0	0.79	184
200QJ25-42		42					5.5		13.6	77.0	0.8
200QJ25-56		56					7.5		18.0	78.0	0.81
200QJ25-70		70					9.2		21.7	78.5	0.82
200QJ25-98		98					11		25.8	79.0	0.82
200QJ25-112	25	112	2850	68	65	200supra	13	380	29.8	80.0	0.83	184
200QJ25-126		126					15		33.9	81.0	0.83
200QJ25-154		154					18.5		41.6	81.5	0.83
200QJ25-182		182					22		48.2	82.5	0.84
200QJ25-210		210					25		54.5	83.0	0.84
200QJ25-252		252					30		65.4	83.0	0.84
200QJ25-308		308					37		79.7	84.0	0.84
200QJ25-378		378					45		96.9	84.0	0.84
200QJ32-26	32	26	2850	70	80	200supra	4	380	10.1	76.0	0.79	184
200QJ32-39		39					5.5		13.6	77.0	0.8
200QJ32-52		52					7.5		18.0	78.0	0.81
200QJ32-65		65					9.2		21.7	78.5	0.82
200QJ32-78		78					11		25.8	79.0	0.82
200QJ32-91		91					13		29.8	80.0	0.83
200QJ32-104		104					15		33.9	81.0	0.83
200QJ32-130		130					18.5		41.6	81.5	0.83
200QJ32-143		143					22		48.2	82.5	0.84
200QJ32-169		169					25		54.5	83.0	0.84
200QJ32-195		195					30		65.4	83.0	0.84
200QJ32-247		247					37		79.7	84.0	0.84
200QJ32-299		299					45		96.9	84.0	0.84
200QJ40-26	40	26	2850	72	80	200supra	5.5	380	13.6	77.0	0.8	184
200QJ40-39		39					7.5		18.0	78.0	0.81
200QJ40-52		52					9.2		21.7	78.5	0.82
200QJ40-65		65					11		25.8	79.0	0.82
200QJ40-78		78					15		33.9	81.0	0.83
200QJ40-104		104					18.5		41.6	81.5	0.83
200QJ40-117		117					22		48.2	82.5	0.84
200QJ40-143		143					25		54.5	83.0	0.84
200QJ40-169		169					30		65.4	83.0	0.84
200QJ40-208		208					37		79.7	84.0	0.84
200QJ40-247		247					45		96.9	84.0	0.84
200QJ50-26	50	26	2850	74	80	200supra	5.5	380	13.6	77.0	0.8	184
200QJ50-39		39					9.2		21.7	78.5	0.82
200QJ50-52		52					11		25.8	79.0	0.82
200QJ50-65		65					15		33.9	81.0	0.83
200QJ50-78		78					18.5		41.6	81.5	0.83
200QJ50-91		91					22		48.2	82.5	0.84
200QJ50-104		104					25		54.5	83.0	0.84
200QJ50-130		130					30		65.4	83.0	0.84
200QJ50-156		156					37		79.7	84.0	0.84
200QJ50-208		208					45		96.9	84.0	0.84
200QJ63-24	63	24	2850	74	80	200supra	7.5	380	18.0	78.0	0.81	184
200QJ63-36		36					11		25.8	79.0	0.82
200QJ63-60		60					18.5		41.6	81.5	0.83
200QJ63-72		72					22		48.2	82.5	0.84
200QJ63-84		84					25		54.5	83.0	0.84
200QJ63-96		96					30		65.4	83.0	0.84
200QJ63-120		120					37		79.7	84.0	0.84
200QJ63-144		144					45		96.9	84.0	0.84
200QJ80-22	80	22	2850	75	100	200supra	7.5	380	18.0	78.0	0.81	184
200QJ80-33		33					11		25.8	79.0	0.82
200QJ80-44		44					15		33.9	81.0	0.83
200QJ80-55		55					18.5		41.6	81.5	0.83
200QJ80-66		66					22		48.2	82.5	0.84
200QJ80-88		88					30		65.4	83.0	0.84
200QJ80-99		99					37		79.7	84.0	0.84
200QJ80-121		121					45		96.9	84.0	0.84
200QJ100-18	100	18	2850	75	100	200supra	9.2	380	21.7	78.5	0.82	184
200QJ100-27		27					13		29.8	80.0	0.83
200QJ100-36		36					18.5		41.6	81.5	0.83
200QJ100-45		45					22		48.2	82.5	0.84
200QJ100-54		54					25		54.5	83.0	0.84
200QJ100-63		63					30		65.4	83.0	0.84
200QJ100-72	100	72	2850	75	100	200supra	37	380	79.7	84.0	0.84	184
200QJ100-90		90					45		96.9	84.0	0.84

Salus Cautelae

This well submersible pump is designed for clean water. It is strictly prohibited to discharge sediment and mud in the newly drilled well. The voltage standard of the submersible pump is 380/50HZ. Other voltage levels of the submersible motor need to be customized. Underground cables must be waterproof and equipped with start-up equipment, such as distribution box, etc. Start-up equipment should have common motor comprehensive protection functions, such as short circuit overload protection, phase loss protection, undervoltage protection, grounding protection, idling protection, etc., so that the protection device can trip in time in case of abnormal conditions. The pump must be reliably grounded during installation and use. It is prohibited to push and pull the switch when hands and feet are wet. The power supply must be cut off before installation and maintenance of the pump. An obvious "anti-electric shock" sign must be set up where the pump is used. Before going down the well or installation, the inner cavity of the motor must be filled with distilled water or non-corrosive clean cold water, and the water / drain bolts must be tightened. When testing the pump on the ground, water must be injected into the pump chamber to lubricate the rubber bearings. The instantaneous start time shall not exceed one second to check whether the steering is correct, as indicated by the steering indicator. Pay attention to safety and ensure that the pump is erected to prevent overturning and causing injury. Strictly in accordance with the provisions of the pump lift and flow range of use, to prevent the pump with a large flow at low lift, or at high lift with a large pull, resulting in extreme wear of thrust bearings and other parts, the motor overload burnout. After the pump into the well, the need to measure the insulation resistance of the motor and the ground, not less than 100MΩ. After the start, regular observation of voltage and current, check whether the motor winding insulation meets the requirements of the provisions. If the temperature of the storage location is lower than the freezing point, the water in the motor cavity should be drained to prevent the water in the motor cavity from freezing and damaging the motor due to low temperature.

Introductio ad Structuram

Brevis introductio structurae: pars sentinae maxime componitur ex stipite sentinali, impulsore, putamine diversio, globulus portante, valvae corporis (partes ad libitum) et alia membra inspicienda. Pars motor maxime composita ex basi, pressione cinematographico moderante, bracteae impulsus portans, fixurae laminae, dux inferior sedem gerens, stator, rotor, dux superior sedem gerens, annulum harenae, aqua limbum sectio, funem et alia elementa.

Pelagus features productum includit:

1.The motor is a water-filled wet submersible three-phase asynchronous motor, the motor cavity is full of clean water, used to cool the motor and lubricate the bearing, the pressure regulating film at the bottom of the motor is used to adjust the expansion and contraction pressure difference of the water inside the body caused by the change of the temperature rise of the motor.

2, Ut arena in puteo aquae motoris ne ingrediatur, superior finis motoris scapus duobus sigillis olei instructus est, et anulus arenarius instituitur ad structuram arcendam ne structuram formandam.

3, Ad ne scapi sentinam excurrere incipiendo, scapi sentinae et scapus motoriis coitu inter se conexi sunt, superiorque impulsus in inferiore parte motoris instituitur.

IV, lubricatio motoris et sentinae afferentis est aqua lubricatio.

5, Motor stator coluber factus est altae qualitatis filum flexuosum submersibile, cum magna operatione velit.

VI, Sentina ab computatrum CAD designatur, cum simplici structura et operatione technica bona.

install

(I) Praeparatio ante institutionem:
1. Perspice an sentinam submersibilem usui conditionibus occurrat et ambitum in manuali definitum.
2. Utens obiectu gravi cum diametro aequali maximo diametro exterioris sentinae submersibilis, metire an inneldiametri putoris sentinam submersibilem aptare possit, et metire an puteus profundus ad institutionem requisita occurrat.
3. Reprehendo utrum puteus mundus sit, et si puteus aqua turbidus est. Numquam uti sentinam electricam submersibilem ad lavandum putorem sentinam lutum et aquam arenam ad vitandum praematurum damnum ad sentinam electricam submersibilem.
4. Reprehendo an positio fibulae institutionis welhead sit conveniens et an qualitatem totius unitatis sustinere possit
5. Reprehendo si partes sentinae submersibiles sint perfectae et rite institutae secundum schematis conventus in manu-Removeo velum colum et gyrari queat ad videndum an mollius circumagatur.
6. Aquam cochleae et cavum mobilem reple, non mordax aqua (ex corrosivis (vide ut eam sursum), tum obstringas aqualram. Post 12 horas aquae injectiones, insulatio motoris resistentia non minus quam 150M Q mensurata est cum 500V tabula quatiens.
7. Cable joint, cut off a 120mm rubber sleeve from one end of the outgoing cable and the matching cable with an electrician's knifethen stagger the length of the three core wires in a stepped shape, peel off a 20mm copper core, scrape of the oxide layer on theoutside of the copper wire with a knife or sand cloth, and insert the two connected wire ends in palirs.After tying the layer tightly with fine copper wire, solder it thoroughly and firmly, and sand of any. burrs on the surface. Then, forthe three joints, use polyvester insulation tape to wrap them in a semi stacked manner for three lavers. Wrap the two ends of thewrapping layer tightywith nyion thread,and then use a semi stacked method to wrap the tape for three layers. Wrap the outellayer with high-pressure insulation tape for three layers. Finally, fold the threestrands together and repeatedly wrap them for fivelayers with high-pressure tape. Each layer must be tightly tied, and the interlayer joints must be tight and fimm to prevent water frompenetrating and damaging the insulation, After wrapping, soak in water at room temperature of 20 ’c for 12 hours, and measurethe insulation resistance with a shaking table, which should not be less than 100M Ω

Adnexa funis processus schematis wiring talis est:
200QJB Deep Well Submersible Pump

8. Multimetro utere ad reprimendam num tria-phasma fila connexa sint et an resistentia DC proxime libratum sit.
9. Perscriptio num ambitus et transformantis capacitas cumulatur, et tunc coniunge cum onere transitum tutelae vel apparatum incipiens. Vide Tabulam 2 ad exempla specifica, et mitte situlam aquae in sentinam aquae ex aqua sentinae exitum ad praestringendum iuvantis gestus in sentinam, et pone sentinam submersibilem electricam erectam et constantem.Start (non plus quam unum secundum) et vide utrum directio gubernii sit cum signo gubernaculo consonans. Sin minus, aliquos duos connexiones trium-phase cables permuto. Deinde colum inaugurare et ad puteum descendere parant. Si in peculiaribus occasionibus adhibeantur (sicut fossae, fossae, flumina, stagna, stagna, etc.), sentinam electricam certo fundari debent.

(2) Installation instrumentorum et instrumentorum;
1. Unum par catenarum levandi plus duobus talentis.
2. Tripode cum perpendiculo non minus quam quattuor metra.
3. Duo funes suspensi (funes filum) qui pondus plus quam unum ton ferre possunt (pondere aquae soleatus completae).
4. duo paria fibulatorum inaugurare (facile).
5. Clavis, malleis, verticillis, instrumentis electricis et instrumentis, etc.

(III) Electric sentinam institutionem:
1. Tabulae institutionis sentinae submersibilis electrici in Figura ostenditur 2. Specificae institutiones dimensiones in Tabula 3 monstrantur "Index institutionis Dimensiones Submersible Electric Pump".

2. Solatus electrici submersibiles cum capite minore quam 30 metra directe levari possunt in puteum caligarum et funiculos filum vel alias funiculos cannabinos, qui plenum pondus totius machinae, fistulae aquae et aquae in tibiis ferre possunt.

3. Pumps cum capite plusquam 30 metrorum utimur fistulis ferreis, et series institutionis haec est:
① Fibulae utere ad fibulae partem superiorem sentinam aquae (motricis et aquae sentinae hoc tempore coniunctae sunt), eam cum cathena pensili tolle, et lente eam in puteum ligabis, donec Fibulae in putei caput auferas et removeas. catena pendula.
② Alterum par fibularum utere ad fistulam fibulae, eam leva cum cathena pendula 15 cm a LABIUM, et lente deprime. Inter fistulam LABIUM et sentinam flangePut Flexilis caudex in loco, et obstringere tibiam et sentinam aequabiliter cum valvis, nucibus et lavatoribus veris.
③ Sentinam submersibilem leviter tolle, fibulam in superiore fine aquae sentinae tolle, funem ligabis ad fistulam aquae cum taenia plastica firmiter, et lente ligabis eam donec Fibulae ad putei caput ponatur.
Eadem methodo omnes aquae fistulas in puteum alligant.
⑤Post funem plumbeum ad imperium transitum coniungitur, cum copia trium phase iungitur.

(4.) Notae in installation:
1. Si vallum phaenomenon in flantibus processum inveniatur, vertere vel fistulam aquam trahere, ut punctum vallum superetur. Si variae mensurae adhuc non operantur, quaeso Noli sentinam cogere ad vitandum damnum in sentinam electricam et puteum submersibilem.
2. In institutione, codex iuvantis ad cuiusque fistulae LABIUM collocari debet et aequaliter coarctari.
3. Cum aqua sentina in puteum demissa, in media fistula putei poni debet, ne sentinam contra murum putei diu curreret, sentinam pulsum et motorem verrere et comburere. .
4. Determinare profunditatem aquae sentinae ad imum putei iuxta arenam fluentem et condiciones putei limum. Sentinam in luto non sepelias. Distantia aquae sentinae ad fundum putei fere non minus quam 3 metra (vide figura 2).
5. Aquae viscus profunditas aquae sentinae non minus esse debet quam 1-1.5 metra a gradu aquae dynamicae ad nodi aquae diverticulum (vide Figure 2). Alioquin aquae sentinae gestus facile laedantur.
6. Aquae levare sentinam nimis humilis esse non potest. Alioquin valvae portae aquae putei fistulae inaugurari debet ut fluere sentinam fluere apud punctum aestimatum fluere prohibeat ne motor oneretur et exuratur propter magnas rates fluxus.
7. Cum aqua currit sentina, aqua output continuum et par esse debet, currens sit stabilis (sub condiciones operationis aestimatae, plerumque non plus quam 10% currentis aestimatae), nec vibratio nec strepitus esse debet. Si qua deprauatio est, machina cessari debet causam cognoscendi et removendi.
8. Cum inaugurari, attende ad occasum filum fundationis motoris (vide Figure 2). Fistula cum aqua est ferrea tibia, a puteo fibulato duc; cum fistula aquatica fistula plastica est, eam a fundamento sentinae electrici notam duc.

Tutela et sustentationem

1. Post sentinam submersibilem inauguratur, velit resistentia et tres phases conductionis ex switch iterum retentare, inspicias num instrumentum et nexum instrumentorum initii fallant, si dubium non est, machina temptatio inchoari potest; et vide an lectiones instrumenti indicativi excedant intentionem aestimatam et currentem in nominato post initium determinatam, et vide an sentinam habeat phaenomenon strepitum et vibrationem, et in operando si omnia normalia sunt.
2. Post primam sentinam operationem per quattuor horas, motor occlusus debet esse ad resistentiam scelerisque velitandi explorandam cito, eiusque valor non minus quam 0.5 megaohm esse debet.
3. Post occlusam sentinam, incepit post quinque minutas ne columna aqua in tibia omnino refluxit et causans excessus motoris et burnout.
4. Post sentinam in operationem normalem ponatur, ut vitam suam proroget, necesse est ut inspicias an copia intentionum, currentium et velitium resistentiae normales regulariter sint. Si sequentes condiciones inveniantur, antliae statim ad troubleshoot claudenda.
- In conditione aestimata, hodierna 20% excedit.
— Aquae dynamicae in gradu aquae guttae ad sectio limbi aquae causando aquam intermissam.
- Sentinam submersibilem habet gravem vibrationem vel strepitum.
— Copia intentionis infra 340 voltas est.
5.A fuse is burned out.
6.The water supply pipe is damaged.
7.The motor's thermal insulation resistance is lower than 0.5 megaohm.
Unit disassembly:
1.Untie the cable tie, remove the pipeline part, and remove the wire plate.
2.screw down the water bolt, put the water in the motor chamber.
3.remove the filter, loose the fixed screw on the coupling to fix the motor shaft.
4.screw down the bolt connecting the water inlet section with the motor, and separate the pump from the motor (pay attention to the unit cushion when separating, to prevent the bending of the pump shaft)
5.the disassembly sequence of the pump is: (see figure 1) water inlet section, impeller, diversion shell, impeller...... check valve body, when removing the impeller, use special tools to loosen the conical sleeve of the fixed impeller first, and avoid bending and bruising the pump shaft in the process of disassembly.
6.the disassembly process of the motor is: (see figure 1) place the motor on the platform, and remove the nuts, base, shaft head locking nut, thrust plate, key, lower guide bearing seat and double head bolt from the bottom of the motor in turn, and then take out the rotor (pay attention not to damage the wire package) and finally remove the connecting section and upper guide bearing seat.
7.unit assembly: before assembly, the rust and dirt of the parts should be cleaned, and the mating surface and fasteners coated with sealant, and then assembled in the opposite order of disassembly (the motor shaft moves up and down after assembly for about one millimeter), after assembly, the coupling should be flexible, and then the filter screen test machine. Submersible pumps shall be taken out of the well for dismantling and maintenance according to Article 5 after a year of operation, or less than a year of operation but two years of diving time, and the worn parts shall be replaced.