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According to user requirements, design, production and manufacture of various types of special requirements of non-standard submersible motors and pumps.

The submersible pump is a well pump, composed of YQS submersible motor and QJ submersible pump. It is suitable for extracting groundwater from deep wells. It is widely used in cities, industrial and mining enterprises, cooling systems, water supply and drainage and agricultural irrigation and drainage. Its main feature is that the motor and water pump are integrated into the water to work, without the need for pump house construction, its structure is simple, easy to use and maintain, high efficiency, safe and reliable operation.

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Product Details

1. Overview

The submersible pump is a well pump, composed of YQS submersible motor and QJ submersible pump. It is suitable for extracting groundwater from deep wells. It is widely used in cities, industrial and mining enterprises, cooling systems, water supply and drainage and agricultural irrigation and drainage. Its main feature is that the motor and water pump are integrated into the water to work, without the need for pump house construction, its structure is simple, easy to use and maintain, high efficiency, safe and reliable operation.

This product implementation standards are: GB/T2816-2014 "well submersible pump", GB/T2818-2014 "well submersible asynchronous motor".

2. conditions of use

1. Power supply: three-phase AC 380V (tolerance 5%),50HZ (tolerance 1%).

2, water quality:(1) the water temperature is not higher than 20 degrees;

(2) The solid impurity content (mass ratio) is not more than 0.01;

(3)PH value (pH) 6.5-8.5;

(4) The content of hydrogen sulfide is not more than 1.5mg/L;

(5) The content of chloride ion is not more than 400mg/L.

3. The inner cavity of the submersible motor must be filled with clean water.

4, submersible pump must be completely submerged into the water to work, the depth of the submersible pump is not more than 70m, the bottom of the submersible pump from the bottom of the well is not less than 3m.

The water inflow of the well should be able to meet the water output and continuous operation of the submersible pump, and the water output of the submersible pump should be controlled at 0.7- 1.2 times the rated flow.

6, the well should be upright, submersible pump can not be used horizontally, can only be used vertically.

7, submersible pump must be required to match the cable, and external overload protection device.

3. model, specification and performance

1. model meaning:

2. specifications and performance: (see Table 1)

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
100QJ5-16	5	16	2850	51	40	More than 100	0.55	380	2.41	51.0	0.68	96
100QJ5-24		24					0.75		2.96	55.0	0.7
100QJ5-32		32					1.1		3.93	59.0	0.72
100QJ5-36		36					1.1		3.93	59.0	0.72
100QJ5-48		48					1.5		4.97	62.0	0.74
100QJ5-64		64					2.2		6.87	64.0	0.76
100QJ5-72		72					2.2		6.87	64.0	0.76
100QJ5-88		88					3		8.97	66.0	0.77
100QJ5-96		96					3		8.97	66.0	0.77
100QJ8-14	8	14	2850	53	50	More than 100	0.75	380	2.96	55.0	0.7	96
100QJ8-21		21					1.1		3.93	59.0	0.72
100QJ8-28		28					1.5		4.97	62.0	0.74
100QJ8-32		32					1.5		4.97	62.0	0.74
100QJ8-42		42					2.2		6.87	64.0	0.76
100QJ8-45		45					2.2		6.87	64.0	0.76
100QJ8-56		56					3		8.97	66.0	0.77
100QJ8-63		63					3		8.97	66.0	0.77
100QJ10-26	10	26	2850	54	50	More than 100	1.5	380	4.97	62.0	0.74	96
100QJ10-39		39					2.2		6.87	64.0	0.76
100QJ10-55		55					3		8.97	66.0	0.77
100QJ10-72		72					4		11.96	66.0	0.77
125QJ5-34	5	34	2850	53	40	More than 125	1.5	380	4.23	70.0	0.77	118
125QJ5-51		51					2.2		6.03	72.0	0.77
125QJ5-68		68					3		8.01	73.0	0.78
125QJ5-85		85					4		10.53	74.0	0.78
125QJ5-102		102					5.5		14.1	75.0	0.79
125QJ5-119		119					5.5		14.1	75.0	0.79
125QJ10-24	10	24	2850	60	50	More than 125	1.5	380	4.23	70.0	0.77	118
125QJ10-32		32					2.2		6.03	72.0	0.77
125QJ10-48		48					3		8.01	73.0	0.78
125QJ10-56		56					4		10.53	74.0	0.78
125QJ10-72		72					5.5		14.1	75.0	0.79
125QJ10-80		80					5.5		14.1	75.0	0.79
125QJ10-104		104					7.5		19.0	76.0	0.79

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
125QJ10-120	10	120	2850	60	50	125 Above	7.5	380	19.0	76.0	0.79	118
125QJ10-136	10	136	2850	60	50	125 Above	9.2	380	22.7	77.0	0.8	118
125QJ15-36	15	36	2850	63	50	More than 125	2.2	380	6.03	72.0	0.77	118
125QJ15-39		39					3		8.01	73.0	0.78
125QJ15-46		46					4		10.53	74.0	0.78
125QJ15-52		52					4		10.53	74.0	0.78
125QJ15-59		59					5.5		14.1	75.0	0.79
125QJ15-65		65					5.5		14.1	75.0	0.79
125QJ15-78		78					7.5		19.0	76.0	0.79
125QJ15-91		91					7.5		19.0	76.0	0.79
125QJ15-104		104					9.2		22.7	77.0	0.8
125QJ20-16	20	16	2850	64	50	More than 125	2.2	380	6.03	72.0	0.77	118
125QJ20-24		24					3		8.01	73.0	0.78
125QJ20-32		32					4		10.53	74.0	0.78
125QJ20-40		40					4		10.53	74.0	0.78
125QJ20-48		48					5.5		14.1	75.0	0.79
125QJ20-56		56					5.5		14.1	75.0	0.79
125QJ20-64		64					7.5		19.0	76.0	0.79
125QJ20-72		72					7.5		19.0	76.0	0.79
125QJ20-80		80					9.2		22.7	77.0	0.8
125QJ25-12	25	12	2850	64	65	More than 125	2.2	380	6.03	72.0	0.77	118
125QJ25-18		18					3		8.01	73.0	0.78
125QJ25-24		24					4		10.53	74.0	0.78
125QJ25-30		30					4		10.53	74.0	0.78
125QJ25-36		36					5.5		14.1	75.0	0.79
125QJ25-48		48					7.5		19.0	76.0	0.79
125QJ25-60		60					9.2		22.7	77.0	0.8
125QJ32-24	32	24	2850	64	80	More than 125	4	380	10.53	74.0	0.78	118
125QJ32-30		30					5.5		14.1	75.0	0.79
125QJ32-42		42					7.5		19.0	76.0	0.79
125QJ32-54		54					9.2		22.7	77.0	0.8
150QJ5-100	5	100	2850	58	40	150	3	380	7.9	74.0	0.78	143

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
150QJ5-150	5	150	2850	58	40	More than 150	4	380	10.25	75.0	0.79	143
150QJ5-200		200					5.5		13.74	76.0	0.8
150QJ5-250		250					7.5		18.5	77.0	0.8
150QJ5-300		300					9.2		22.12	78.0	0.81
150QJ10-50	10	50	2850	63	50	More than 150	3	380	7.9	74.0	0.78	143
150QJ10-66		66					4		10.25	75.0	0.79
150QJ10-78		78					4		10.25	75.0	0.79
150QJ10-84		84					5.5		13.74	76.0	0.8
150QJ10-91		91					5.5		13.74	76.0	0.8
150QJ10-100		100					5.5		13.74	76.0	0.8
150QJ10-128		128					7.5		18.5	77.0	0.8
150QJ10-150		150					7.5		18.5	77.0	0.8
150QJ10-200		200					11		26.28	78.5	0.81
150QJ10-250		250					13		30.87	79.0	0.81
150QJ10-300		300					15		35.62	79.0	0.81
150QJ15-33	15	33	2850	63	50	More than 150	3	380	7.9	74.0	0.78	143
150QJ15-42		42					4		10.25	75.0	0.79
150QJ15-50		50					4		10.25	75.0	0.79
150QJ15-60		60					5.5		13.74	76	0.8
150QJ15-65		65					5.5		13.74	76.0	0.8
150QJ15-72		72					5.5		13.74	76.0	0.8
150QJ15-81		81					7.5		18.5	77.0	0.8
150QJ15-90		90					7.5		18.5	77.0	0.8
150QJ15-98		98					7.5		18.5	77.0	0.8
150QJ15-106		106					9.2		22.12	78.0	0.81
150QJ15-114		114					9.2		22.12	78.0	0.81
150QJ15-130		130					11		26.28	78.5	0.81
150QJ15-146		146					13		30.87	79.0	0.81
150QJ15-162		162					13		30.87	79.0	0.81
150QJ15-180		180					15		35.62	79.0	0.81
150QJ20-26	20	26	2850	64	50	More than 150	3	380	7.9	74.0	0.78	143
150QJ20-33	20	33	2850	64	50	More than 150	3	380	7.9	74.0	0.78	143

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
150QJ20-39	20	39	2850	64	50	More than 150	4	380	10.25	75.0	0.79	143
150QJ20-52		52					5.5		13.74	76.0	0.8
150QJ20-65		65					7.5		18.5	77.0	0.8
150QJ20-78		78					7.5		18.5	77.0	0.8
150QJ20-91		91					9.2		22.12	78.0	0.81
150QJ20-98		98					9.2		22.12	78.0	0.81
150QJ20-104		104					11		26.28	78.5	0.81
150QJ20-111		111					11		26.28	78.5	0.81
150QJ20-130		130					13		30.87	79.0	0.81
150QJ20-143		143					13		30.87	79.0	0.81
150QJ20-156		156					15		35.62	79.0	0.81
150QJ20-182		182					18.5		43.12	79.5	0.82
150QJ25-24	25	24	2850	64	65	More than 150	3	380	7.9	74.0	0.78	143
150QJ25-32		32					4		10.25	75.0	0.79
150QJ25-40		40					5.5		13.74	76.0	0.8
150QJ25-48		48					5.5		13.74	76.0	0.8
150QJ25-56		56					7.5		18.5	77.0	0.8
150QJ25-64		64					7.5		18.5	77.0	0.8
150QJ25-72		72					9.2		22.12	78.0	0.81
150QJ25-77		77					9.2		22.12	78.0	0.81
150QJ25-84		84					11		26.28	78.5	0.81
150QJ25-96		96					11		26.28	78.5	0.81
150QJ25-104		104					13		30.87	79.0	0.81
150QJ25-110		110					13		30.87	79.0	0.81
150QJ25-120		120					15		35.62	79.0	0.81
150QJ25-128		128					15		35.62	79.0	0.81
150QJ25-136		136					18.5		43.12	79.5	0.82
150QJ25-154		154					18.5		43.12	79.5	0.82
150QJ32-18	32	18	2850	66	80	More than 150	3	380	7.9	74.0	0.78	143
150QJ32-24		24					4		10.25	75.0	0.79
150QJ32-30		30					5.5		13.74	76.0	0.8
150QJ32-36		36					5.5		13.74	76.0	0.8

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
150QJ32-42	32	42	2850	66	80	More than 150	7.5	380	18.5	77.0	0.8	143
150QJ32-54		54					9.2		22.12	78.0	0.81
150QJ32-66		66					11		26.28	78.5	0.81
150QJ32-72		72					13		30.87	79.0	0.81
150QJ32-84		84					13		30.87	79.0	0.81
150QJ32-90		90					15		35.62	79.0	0.81
150QJ32-96		96					15		35.62	79.0	0.81
150QJ32-114		114					18.5		43.12	79.5	0.82
150QJ40-16	40	16	2850	66	80	More than 150	3	380	7.9	74.0	0.78	143
150QJ40-24		24					5.5		13.74	76.0	0.8
150QJ40-30		30					5.5		13.74	76.0	0.8
150QJ40-40		40					7.5		18.5	77.0	0.8
150QJ40-48		48					9.2		22.12	78.0	0.81
150QJ40-56		56					11		26.28	78.5	0.81
150QJ40-64		64					13		30.87	79.0	0.81
150QJ40-72		72					13		30.87	79.0	0.81
150QJ40-80		80					15		35.62	79.0	0.81
150QJ40-96		96					18.5		43.12	79.5	0.82
150QJ50-16	50	16	2850	65	80	More than 150	4	380	10.25	75.0	0.79	143
150QJ50-22		22					5.5		13.74	76.0	0.8
150QJ50-28		28					7.5		18.5	77.0	0.8
150QJ50-34		34					9.2		22.12	78.0	0.81
150QJ50-40		40					9.2		22.12	78.0	0.81
150QJ50-46		46					11		26.28	78.5	0.81
150QJ50-52		52					13		30.87	79.0	0.81
150QJ50-57		57					15		35.62	79.0	0.81
150QJ50-74		74					18.5		43.12	79.5	0.82
150QJ50-80		80					18.5		43.12	79.5	0.82
150QJ63-12	63	12	2850	60	80	More than 150	4	380	10.25	75.0	0.79	143
150QJ63-18		18					7.5		18.5	77.0	0.8
150QJ63-30		30					9.2		22.12	78.0	0.81
150QJ63-36		36					11		26.28	78.5	0.81

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
150QJ63-42	63	42	2850	60	80	More than 150	13	380	30.87	79.0	0.81	143
150QJ63-48		48					15		35.62	79.0	0.81
150QJ63-54		54					18.5		43.12	79.5	0.82
175QJ10-42	10	42	2850	53	50	More than 175	3	380	7.8	74.0	0.79	168
175QJ10-56		56					4		10.1	76.0	0.79
175QJ10-70		70					4		10.1	76.0	0.79
175QJ10-84		84					5.5		13.6	77.0	0.8
175QJ10-112		112					7.5		18.4	77.5	0.8
175QJ10-126		126					7.5		18.4	77.5	0.8
175QJ10-140		140					9.2		22.1	78.0	0.81
175QJ15-42	15	42	2850	58	50	More than 175	4	380	10.1	76.0	0.79	168
175QJ15-55		55					5.5		13.6	77.0	0.8
175QJ15-65		65					5.5		13.6	77.0	0.8
175QJ15-85		85					7.5		18.4	77.5	0.8
175QJ15-112		112					9.2		22.1	78.0	0.81
175QJ20-26	20	26	2850	64	50	More than 175	3	380	7.8	74.0	0.79	168
175QJ20-39		39					4		10.1	76.0	0.79
175QJ20-52		52					5.5		13.6	77.0	0.8
175QJ20-78		78					7.5		18.4	77.5	0.8
175QJ20-91		91					9.2		22.1	78.0	0.81
175QJ20-104		104					11		26.1	79.0	0.81
175QJ20-130		130					13		30.1	80.0	0.82
175QJ20-156		156					15		34.7	80.0	0.82
175QJ20-182		187					18.5		42.6	80.5	0.82
175QJ20-208		208					22		49.7	81.0	0.83
175QJ20-247		247					25		56.5	81.0	0.83
175QJ20-273		273					30		66.6	81.5	0.84
175QJ20-299		299					30		66.6	81.5	0.84
175QJ20-325		325					32		71.0	81.5	0.84
175QJ20-364		364					37		82.1	81.5	0.84
175QJ25-26	25	26	2850	66	65	More than 175	3	380	7.8	74.0	0.79	168
175QJ25-39	25	39	2850	66	65	More than 175	5.5	380	13.6	77.0	0.8	168

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
175QJ25-65	25	65	2850	66	65	More than 175	7.5	380	18.4	77.5	0.8	168
175QJ25-78		78					9.2		22.1	78.0	0.81
175QJ25-91		91					11		26.1	79.0	0.81
175QJ25-104		104					13		30.1	80.0	0.82
175QJ25-130		130					15		34.7	80.0	0.82
175QJ25-156		156					18.5		42.6	80.5	0.82
175QJ25-182		182					22		49.7	81.0	0.83
175QJ25-208		208					25		56.5	81.0	0.83
175QJ25-221		221					30		66.6	81.5	0.84
175QJ25-247		247					30		66.6	81.5	0.84
175QJ25-260		260					32		71.0	81.5	0.84
175QJ25-299		299					37		82.1	81.5	0.84
175QJ30-30	30	30	2850	67	80	175 Above	4	380	10.1	76.0	0.79	168
175QJ30-40	30	40	2850	67	80	175 Above	5.5	380	13.6	77.0	0.8	168
175QJ32-24	32	24	2850	67	80	More than 175	4	380	10.1	76.0	0.79	168
175QJ32-36		36					5.5		13.6	77.0	0.8
175QJ32-48		48					7.5		18.4	77.5	0.8
175QJ32-60		60					9.2		22.1	78.0	0.81
175QJ32-72		72					11		26.1	79.0	0.81
175QJ32-84		84					13		30.1	80.0	0.82
175QJ32-96		96					15		34.7	80.0	0.82
175QJ32-120		120					18.5		42.6	80.5	0.82
175QJ32-144		144					22		49.7	81.0	0.83
175QJ32-168		168					25		56.5	81.0	0.83
175QJ32-180		180					30		66.6	81.5	0.84
175QJ32-192		192					30		66.6	81.5	0.84
175QJ32-204		204					32		71.0	81.5	0.84
175QJ32-240		240					37		82.1	81.5	0.84
175QJ35-60	35	60	2850	67	80	175 Above	10	380	25.0	78.0	0.78	168
175QJ35-75		75					13		30.1	80.0	0.82
175QJ35-100		100					17		40.9	80.0	0.79

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
175QJ40-24	40	24	2850	70	80	More than 175	5.5	380	13.6	77.0	0.8	168
175QJ40-30		30					5.5		13.6	77.0	0.8
175QJ40-36		36					7.5		18.4	77.5	0.8
175QJ40-48		48					9.2		22.1	78.0	0.81
175QJ40-60		60					11		26.1	79.0	0.81
175QJ40-72		72					13		30.1	80.0	0.82
175QJ40-84		84					15		34.7	80.0	0.82
175QJ40-96		96					18.5		42.6	80.5	0.82
175QJ40-120		120					22		49.7	81.0	0.83
175QJ40-132		132					25		56.5	81.0	0.83
175QJ40-144		144					30		66.6	81.5	0.84
175QJ40-156		156					30		66.6	81.5	0.84
175QJ40-168		168					32		71.0	81.5	0.84
175QJ40-192		192					37		82.1	81.5	0.84
175QJ50-24	50	24	2850	72	80	More than 175	5.5	380	13.6	77.0	0.8	168
175QJ50-36		36					9.2		22.1	78.0	0.81
175QJ50-48		48					11		26.1	79.0	0.81
175QJ50-60		60					13		30.1	80.0	0.82
175QJ50-70		70					17		40.9	80.0	0.79
175QJ50-84		84					18.5		42.6	80.5	0.82
175QJ50-96		96					22		49.7	81.0	0.83
175QJ50-108		108					25		56.5	81.0	0.83
175QJ50-120		120					30		66.6	81.5	0.84
175QJ50-132		132					30		66.6	81.5	0.84
175QJ50-144		144					32		71.0	81.5	0.84
175QJ50-156		156					37		82.1	81.5	0.84
175QJ63-22	63	22	2850	72	80	175 Above	7.5	380	18.4	77.5	0.8	168
175QJ63-44		44					13		30.1	80.0	0.82
175QJ63-55		55					15		34.7	80.0	0.82
175QJ63-66		66					18.5		42.6	80.5	0.82
175QJ63-77		77					22		49.7	81.0	0.83
175QJ63-88		88					25		56.5	81.0	0.83

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
175QJ63-99	63	99	2850	72	80	More than 175	30	380	66.6	81.5	0.84	168
175QJ63-110		110					32		71.0	81.5	0.84
175QJ63-132		132					37		82.1	81.5	0.84
175QJ80-9	80	9	2850	73	100	More than 175	4	380	10.1	76.0	0.79	168
175QJ80-18		18					7.5		18.4	77.5	0.8
175QJ80-27		27					11		26.1	79.0	0.81
175QJ80-36		36					15		34.7	80.0	0.82
175QJ80-45		45					18.5		42.6	80.5	0.82
175QJ80-54		54					22		49.7	81.0	0.83
175QJ80-63		63					25		56.5	81.0	0.83
175QJ80-72		72					25		56.5	81.0	0.83
175QJ80-81		81					30		66.6	81.5	0.84
175QJ80-90		90					32		71.0	81.5	0.84
175QJ80-98		98					37		82.1	81.5	0.84
200QJ20-40	20	40	2850	66	50	More than 200	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	More than 200	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

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
200QJ25-112	25	112	2850	68	65	More than 200	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	More than 200	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	More than 200	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

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
200QJ50-26	50	26	2850	74	80	200 Above	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	200 Above	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	200 Above	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	200 Above	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

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
200QJ100-72	100	72	2850	75	100	200 Above	37	380	79.7	84.0	0.84	184
200QJ100-90	100	90	2850	75	100	200 Above	45	380	96.9	84.0	0.84	184
250QJ50-40	50	40	2875	72	80	250 Above	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	250 Above	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	250 Above	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

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
250QJ80-160	80	160	2875	75	100	250 Above	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	250 Above	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	250 Above	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	250 Above	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

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Specifications Model	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
250QJ140-105	140	105	2875	76	125	250 Above	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	More than 250	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
300QJ200-40	200	40	2900	76	150	More than 300	37	380	77.8	85.0	0.85	281
300QJ200-60		60					55		115	85.5	0.85
300QJ200-80		80					75		154.1	86.0	0.86
300QJ200-100		100					90		183.8	86.5	0.86
300QJ200-120		120					100		204.3	86.5	0.86
300QJ200-140		140					125		249.5	87.5	0.87
300QJ200-160		160					140		277.8	88.0	0.87
300QJ200-180		180					160		317.5	88.0	0.87
300QJ200-200		200					185		367.2	88.0	0.87
300QJ200-240		240					220		436.6	88.0	0.87
300QJ320-30	320	30	2900	77	200	More than 300	45	380	94.6	85.0	0.85	281
300QJ320-60		60					90		183.8	86.5	0.86
300QJ320-90		90					125		249.5	87.5	0.87
300QJ320-120		120					160		317.5	88.0	0.87
400QJ400-40	400	40	2900	77	200	400 Above	63	380	131.7	85.5	0.85	377
400QJ500-40	500	40	2900	77	200	400 Above	75	380	154.1	86	0.86	377

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Non-standard custom series

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
125QJ5-240	5	240	2850		40	More than 125	11	380	26.28			118
125QJ5-280		280					13		30.87
125QJ5-320		320					15		35.62
125QJ10-180	10	180	2850		50	125 Above	11	380	26.28			118
125QJ10-210		210					13		30.87
125QJ10-240		240					15		35.62
125QJ15-120	15	120	2850		50	More than 125	11	380	26.28			118
125QJ15-142		142					13		30.87
125QJ15-162		162					15		35.62
125QJ20-100	20	100	2850		50	125 Above	11	380	26.28			118
125QJ20-120		120					13		30.87
125QJ20-136		136					15		35.62
125QJ25-82	25	82	2850		65	More than 125	11	380	26.28			118
125QJ25-97		97					13		30.87
125QJ25-110		110					15		35.62
125QJ32-68	32	68	2850		80	More than 125	11	380	26.28			118
125QJ32-80		80					13		30.87
125QJ32-92		92					15		35.62
125QJ40-46	40	46	2850		80	More than 125	11	380	26.28			118
125QJ40-54		54					13		30.87
125QJ40-62		62					15		35.62
135QJ5-34	5	34	2850		40	More than 135	1.5	380	4.23			128
135QJ5-51		51					2.2		6.03
135QJ5-68		68					3		8.01
135QJ5-85		85					4		10.53
135QJ5-102		102					5.5		14.1
135QJ5-119		119					5.5		14.1
135QJ5-240		240					11		26.28

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Non-standard custom series

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
135QJ5-280	5	280	2850		40	135 Above	13	380	30.87			128
135QJ5-320	5	320	2850		40	135 Above	15	380	35.62			128
135QJ10-24	10	24	2850		50	More than 135	1.5	380	4.23			128
135QJ10-32		32					2.2		6.03
135QJ10-48		48					3		8.01
135QJ10-56		56					4		10.53
135QJ10-72		72					5.5		14.1
135QJ10-80		80					5.5		14.1
135QJ10-104		104					7.5		19.0
135QJ10-120		120					7.5		19.0
135QJ10-136		136					9.2		22.7
135QJ10-180		180					11		26.28
135QJ10-210		210					13		30.87
135QJ10-240		240					15		35.62
135QJ10-300		300					18.5		43.12
135QJ15-36	15	36	2850		50	More than 135	2.2	380	6.03			128
135QJ15-39		39					3		8.01
135QJ15-46		46					4		10.53
135QJ15-52		52					4		10.53
135QJ15-59		59					5.5		14.1
135QJ15-65		65					5.5		14.1
135QJ15-78		78					7.5		19.0
135QJ15-91		91					7.5		19.0
135QJ15-104		104					9.2		22.7
135QJ15-120		120					11		26.28
135QJ15-142		142					13		30.87
135QJ15-162		162					15		35.62
135QJ15-200		200					18.5		43.12

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Non-standard custom series

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
135QJ20-16	20	16	2850		50	More than 135	2.2	380	6.03			128
135QJ20-24		24					3		8.01
135QJ20-32		32					4		10.53
135QJ20-40		40					4		10.53
135QJ20-48		48					5.5		14.1
135QJ20-56		56					5.5		14.1
135QJ20-64		64					7.5		19.0
135QJ20-72		72					7.5		19.0
135QJ20-80 135QJ20-100		80					9.2		22.7
135QJ20-80 135QJ20-100		100					11		26.28
135QJ20-120		120					13		30.87
135QJ20-136		136					15		35.62
135QJ20-168 135QJ25-12		168					18.5		43.12
135QJ20-168 135QJ25-12	25	12	2850		65	More than 135	2.2	380	6.03			128
135QJ25-18		18					3		8.01
135QJ25-24		24					4		10.53
135QJ25-30		30					4		10.53
135QJ25-36		36					5.5		14.1
135QJ25-48		48					7.5		19.0
135QJ25-60		60					9.2		22.7
135QJ25-82		82					11		26.28
135QJ25-97		97					13		30.87
135QJ25-110		110					15		35.62
135QJ25-130		130					18.5		43.12
135QJ32-24	32	24	2850		80	More than 135	4	380	10.53			128
135QJ32-30		30					5.5		14.1
135QJ32-42		42					7.5		19.0
135QJ32-54		54					9.2		22.7
135QJ32-68		68					11		26.28
135QJ32-80		80					13		30.87
135QJ32-92		92					15		35.62
135QJ32-104		104					18.5		43.12

QJ type submersible pump performance table (QJH type, QJR type submersible pump technical performance and the table below)

Non-standard custom series

Model Specifications	Flow (m³/hour)	lift (m)	Speed (rev/min)	Pump efficiency (%)	Outlet diameter (mm)	Applicable well diameter (mm)	Rated power (kW)	Rated voltage (Volts)	Rated current (Ann)	Motor efficiency (%)	power factor Cosφ	Maximum radial dimension of the unit (mm)	Remarks
135QJ40-46	40	46	2850		80	135 Above	11	380	26.28			128
135QJ40-54		54					13		30.87
135QJ40-62		62					15		35.62
135QJ40-84		84					18.5		43.12
150QJ15-220	15	220	2850		50	150 Above	18.5	380	43.12			143
150QJ15-260		260					22		49.7
150QJ15-300		300					25		56.5
150QJ20-210	20	210	2850		50	More than 150	22	380	49.7			143
150QJ20-240		240					25		56.5
150QJ20-290		290					30		66.6
150QJ25-175	25	175	2850		65	More than 150	22		49.7			143
150QJ25-200		200					30		66.6
150QJ25-290		290					37		82.1
150QJ32-120	32	120	2850		80	More than 150	22	380	49.7			143
150QJ32-132		132					25		56.5
150QJ32-156		156					30		66.6
150QJ32-190		190					37		82.1
150QJ32-240		240					45		96.9
150QJ40-110	40	110	2850		80	More than 150	22	380	49.7			143
150QJ40-121		121					25		56.5
150QJ40-143		143					30		66.6
150QJ40-176		176					37		82.1
150QJ40-220		220					45		96.9
150QJ50-100	50	100	2850		80	More than 150	22	380	49.7			143
150QJ50-110		110					25		56.5
150QJ50-130		130					30		66.6
150QJ50-160		160					37		82.1
150QJ50-200		200					45		96.9

Selection of 4. submersible pump

(I) to understand matters of deep well:

For the rational selection and use of submersible pump, need to understand the following contents.

1. The requirements in the conditions of use.

2. Inner diameter and depth of deep well pipe.

3. Static water level and dynamic water level of deep well.

4, the best water inflow of deep wells.

(2) The base number of the submersible electric pump (suitable for the minimum well diameter) should be less than or equal to the inner diameter of the deep well.

(III) submersible pump flow should be appropriate, can not exceed the optimal water inflow, otherwise it will cause the movement of sand in the aquifer, causing sand in the well, resulting in damage to the submersible pump.

(IV) submersible pump required lift can be calculated according to the following formula.

H 需=H1 H2 H3

In the formula: H requires: the lift required by the submersible pump.

H1: Vertical distance from the dynamic water level in the well to the water outlet.

H2: Loss along the pump pipe inside and outside the well (see the table below).

H3: kinetic head at the outlet (generally less than 0.5 meters can be ignored).

When selecting a water pump, the required lift H must be the basis for selecting the rated lift H of the submersible electric pump. Generally, the rated lift of the selected water pump

The stroke should be greater than or equal to the required head and closest to the required head specification.

Flow → Well pipe ↓	5	8	10	15	20	25	32	40	50	63	80	100	125	140	200
50	1.5	3.9	6.1	13.8	24.5
65			1.5	3.5	6.2	9.6	15.8	24.6
80					2.0	3.2	5.2	8.1	12.7	20.1
100							1.6	2.6	4.0	6.3	10.2	16.0	24.9
125										2.0	3.2	5.0	7.8	9.2	20.1
150												2.0	3.2	4.0	8.1

Note: 1. The unit of flow is ton/hour, and the unit of well pipe is millimeter.

2. The value in the table is the loss along the way (m) of 100 m steel pipe. If plastic pipe is used, the loss along the way is about 0.7 times of that of steel pipe.

Introduction to 5. Structure

The (I) structure is shown in Figure 1:

The water pump part is mainly composed of water pump shaft, impeller, guide shell, rubber bearing, check valve body (optional) and other parts. The motor part mainly includes base, pressure regulating film, thrust bearing, thrust plate, lower guide bearing seat, stator, rotor, upper guide bearing seat, sand throwing ring and water inlet.

Section, lead-out cable and other parts.

(II) main features:

1. The motor is a water-filled wet submersible three-phase asynchronous motor. The motor cavity is filled with clean water to cool the motor and lubricate the bearings. 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 temperature rise of the motor.

2. In order to prevent the sand in the well water from entering the inside of the motor, two oil seals are installed at the upper shaft extension of the motor, and a sand ring is installed to form a sand control structure.

3. In order to prevent the water pump shaft from moving up when starting, the water pump shaft and the motor shaft are connected as a whole by a coupling, and an upper thrust bearing is installed at the lower part of the motor.

4. The lubrication of motor and water pump bearing is water lubrication.

5. The motor stator winding adopts high-quality submersible motor winding wire with high insulation performance.

6. The pump adopts computer CAD design, simple structure and good technical performance.

VI. Installation

Preparation before (I) installation:

1. Check whether the submersible pump meets the conditions and scope of use specified in the manual.

2, with a diameter equal to the maximum outer diameter of the submersible pump weight, measure whether the inner diameter of the well hole can be put into the submersible pump, and measure whether the well depth meets the installation requirements.

3. Check whether the well hole is cleaned and whether the well water is turbid. Never use submersible pump to clean the well or pump mud and sand water to avoid premature damage to the submersible pump.

4. Check whether the position of the wellhead installation clamp is appropriate and whether it can withstand the quality of the entire unit.

5. Check whether the submersible pump parts are complete and installed well according to the assembly drawing of the instruction manual. Remove the filter screen and rotate the coupling to see if the rotation is flexible.

6. Unscrew the water filling bolt, fill the motor cavity with non-corrosive clean water (note: be sure to fill it up), and then screw on the water filling bolt. After 12 hours of water injection, the insulation resistance of the motor measured with a 500V shaking table shall not be less than 150MΩ.

7, cable joint, will lead out the cable and cable with one end with an electricist knife to cut 120mm rubber sleeve, and then the three strands of core wire length step staggered, stripping out 20mm copper core, with a knife scraping or emery cloth sand to remove the outer oxide layer of copper wire, will butt the two wire ends inserted, with fine copper wire wrapping layer tied tightly, with soldering, welding, welding, surface sand to scratch. Then the three joints are respectively wrapped with polyester insulating tape in half-stack, the two ends of the wrapping layer are tightly wrapped with nylon thread, then the tape is wrapped in half-stack method in 3 layers, the outside is wrapped with high-voltage insulating tape in 3 layers, finally the 3 strands are folded, and the high-voltage adhesive tape is repeatedly wrapped in 5 layers. Each layer of wrapping must be tightened, and the joints between the layers must be tight and firm to prevent water from damaging the insulation. After bandaging, soak in room temperature water at 20 ℃ for 12 hours, and measure the insulation resistance with a shaking table, which shall not be less than 100MΩ.

Attached cable wiring process drawings are as follows:

58	Lead out cable	Foot
57	Line guard
56	check valve body	1
55	Valve body	1
54	Rubber pad	1
53	Cushioning rubber pad	1
52	valve disc	1
51	Spring pad 12	Foot
50	Bolt M12 × 30	Foot
49	Nameplate of water pump	1
48	Steering Placard	1
47	Rubber bearing
46	taper sleeve
45	Upper Seal Ring
44	Lower seal ring
43	guide shell
42	Impeller
41	Screw	4
40	Water inlet section	1
39	Filter	1
38	Water pump shaft	1
37	Key C8 × 30	2
36	Coupling	1
35	cylindrical screw	2
34	Lock ring	1
33	Join Segment	1
32	Oil seal	3
31	Sand-throwing ring	1
30	Tie rod screw	1
29	Cable pressure ring	1
28	Cable packing	1
27	Cable rubber pad	1
26	Nameplate rivet	8
25	Motor Nameplate	1
24	Upper guide bearing seat	1
23	Rotor	1
22	Stator	1
21	Upper thrust bearing	1
20	Thruster disc	1
19	Thrust bearing seat	1
18	Key C8 × 25	1
17	Left-hand nut	1
16	Lower guide bearing seat	1
15	Thrust seat	1
14	Thrust bearing	1
13	Adjusting bolt	1
12	Nut	1
11	Tie rod screw	8
10	Spring pad 12	8
9	Nut M12	8
8	Base	1
7	Rubber pad	1
6	Water drain screw	1
5	Pressure regulating membrane	1
4	Spring pad 6	4
3	Bolt M16 × 16	4
2	Pressure regulating spring	1
1	Bottom cover	1
Serial Number	Name	Quantity

8. Use a multimeter to check whether the three-phase wires are conductive and whether the DC resistance is approximately balanced.

9. Check whether the capacity of the circuit and transformer is overloaded, and then connect the overload protection switch or starting equipment. See Table 2 for the specific model. Then fill a bucket of water into the water pump from the water outlet of the water pump to lubricate the rubber bearing in the pump. Then the submersible electric pump will be put upright and stable, and start instantaneously (not more than one second) to see if the steering is consistent with the steering sign, if the opposite, the three-phase cable can be replaced with any two joints, and then the filter screen is installed to prepare for going into the well. If it is used in special occasions (such as in ditches, canals, rivers, ponds, pools, etc.), the electric pump must be reliably grounded.

(II) installation equipment and tools:

1, more than two tons of chain one pay.

2. A tripod with a vertical height of not less than four meters.

3. Two ropes (wire ropes) that can bear more than one ton of weight (can bear the weight of a full set of pumps).

4. Install two sets of clamps (splints).

5. Wrenches, hand hammers, screwdrivers, electrical tools and instruments, etc.

(III) electric pump installation:

1. See Figure 2 for the installation drawing of submersible electric pump, and see Table 3 for the installation dimensions of submersible electric pump.

2. Submersible electric pumps with a lift of less than 30 meters can be hoisted in the well directly with wire ropes or other hemp ropes that can bear the full weight of the whole machine, water pipes and water in the pipes.

3. The pump with a head of more than 30 meters adopts steel pipe, and the installation sequence is as follows:

① Clamp the upper end of the water pump with a clamp (the motor has been connected with the water pump at this time) and lift it with a lifting chain, slowly tie it into the well until the clamp is put on the wellhead, and remove the lifting chain.

② Clamp a pipe with another clamp, lift it with a chain 15cm away from the flange, and put it down slowly. The pipe flange and the pump flange are in the middle of the rubber pad, and the pipe and the pump are tightened evenly with bolts, nuts and spring pads.

③ Slightly lift the submersible pump, remove the clamp at the upper end of the pump, tie the cable on the water pipe with a plastic band, and tie it down slowly so that the clamp is placed on the wellhead.

④ Use the same method to tie all water pipes into the well.

⑤ After the lead-out cable is connected to the control switch, it is connected to the three-phase power supply.

Precautions during (IV) installation:

1. If stuck phenomenon is found in the process of pumping down, the water delivery pipe should be rotated or pulled to overcome the stuck point. If various measures are still ineffective, do not force down the pump to avoid jamming and damage to the submersible pump and the well.

2. During installation, rubber pads shall be placed at the flange of each pipe and tightened evenly.

3. When the water pump goes down the well, it should be placed in the middle of the well pipe to prevent the pump from vibrating due to the long-term operation of the water pump against the well wall, the motor sweeping and burning.

4, according to the flow of sand, silt well, determine the pump to the bottom of the depth, must not be the pump buried in the silt, pump to the bottom of the distance is generally not less than 3 meters (see Figure 2).

5. The water inlet depth of the water pump should be no less than 1- 1.5 meters from the water inlet (see Figure 2), otherwise, the water pump bearing will be easily damaged.

6. The use head of the water pump cannot be too low. Otherwise, it is necessary to install a gate valve on the wellhead water pipeline to control the flow of the water pump at the rated flow point to prevent the motor from being overloaded and burned due to large flow.

7. During the operation of the water pump, the water output should be continuous and uniform, and the current should be stable (under rated conditions, generally not exceeding 10% of the rated current), without vibration and noise. If there is any abnormality, stop the machine to find out the reason and eliminate it.

8. Pay attention to the setting of the grounding wire of the motor during installation (see Figure 2). When the water delivery pipe is a steel pipe, the lead wire shall be drawn from the wellhead clamp; When the water delivery pipe is a plastic pipe, the lead wire shall be drawn from the grounding mark of the electric pump.

7. submersible pump matching switch, cable table

Table II

Motor power K W → Project ↓	2.2-4	5.5	7.5	9.2	11	13	15	18.5	22
Supporting switch	QZ610-4	0Z610-10			OZ610-17			XJ01-20	XJ01-22
Supporting cable	1.5mm ²	2.5 mm²	4 mm²	4 mm²	4 mm²	6 mm²	6 mm²	10 mm²	10 mm²

Motor power K W → Project ↓	25	30	37	45	55	63	75	90	100
Supporting switch	XJ01-30	XJ01-40	XJ01-40	XJ01-55	XJ01-55	XJ01-75	XJ01-75	XJ01-100	XJ01-100
Supporting cable	10 mm²	16 mm²	16 mm²	25 mm²	25 mm²	35 mm²	35 mm²	50 mm²	50 mm²

Note: 1. The cable length is rated lift of submersible pump plus 2 meters.

2. The cable matching standards listed in this table are for reference only, and the selection shall be increased or decreased according to the change of lift.

List of installation dimensions of submersible pump

Table III

Installation size model	Outlet diameter	Connection dimension of upper guide housing				Connection dimension of check valve body				Size of pump seat
Installation size model	Outlet diameter	Stop	Center distance	Outer diameter	N-φd	Stop	Center distance	Outer diameter	N-φd	Length	Width	Center distance
150QJ5	40	90	110	133	4-φ11	80	98	133	4-φ11	280	230	110
150QJ10/20	50	85/90	110	125/127	4-φ11		110	130	4-φ11	280	230	110
150QJ32	80	95	110	130	4-φ11		110	130	4-φ11	280	230	110
150QJ63	80	110	125	141	4-φ11	110	125	141	4-φ11	350	250	125
175QJ101520	50	110	132	158	4-φ12	110	132	160	4-φ13	350	250	125
175QJ25	65	110	132	158	4-φ12	110	132	160	4-φ13	350	250	132
175QJ324050	80	110	132	162	4-φ12	110	132	160	4-φ13	350	250	132
175QJ6380	80	110	132	160	4-φ12	120	145	162	4-φ13	350	250	132
200QJ2025	50	110	145	170	4-φ13		145	170	4- 13	350	250	125
200QJ324050	80	125	145	170	8-φ13		145	170	8-φ13	350	250	145
200QJ63/80	80/100	125	145	174	3-φ13		145	174	B-φ13	350	250	145
200QT100	100	125	145	180	8-φ13		145	174	8-φ13	350	250	145
250QJ405063	80	120	140	180	8-φ13	120	140	170	8-φ13	350	250	140
250QJ80100125	100	140	160	190	8-φ13	140	160	190	B-φ13	500	350	160
250QJ140	125	140	185	215	3-φ13	140	190	215	8-φ13	500	350	190
250QJ200	150	160	195	220	8-φ13	140	190	215	8-φ13	500	350	190
300QJ125140	125	140	160	190	3-φ13	140	190	215	B-φ13	500	350	190
300QJ200	150	165	210	240	8-φ13	192	210	240	8-φ13	500	350	190
300QJ320	200	195	225	260	8-φ13	204	225	250	8-φ13	630	450	225
400QI500	250	280	315	345	8-φ18		315	340	8-φ18	630	450	315

VII. Maintenance and Maintenance

1. After the submersible pump is installed, check the insulation resistance and three-phase conduction from the switch again, check whether there is any error in the connection of the instrument and the starting equipment, if there is no problem, start the test machine, and observe whether the indicated reading of each instrument exceeds the rated power specified in the nameplate after starting.

Pressure and current, observe whether the pump noise and vibration phenomenon, all normal can be put into operation.

2. After the pump runs for the first time for four hours, it should be stopped to quickly test the thermal insulation resistance of the motor, and its value should not be less than 0.5 megohms.

3. After the pump is stopped, it should be started after an interval of five minutes to prevent the water column in the pipe from flowing back completely and causing the motor to burn out due to excessive current.

4. After the pump is put into normal operation, in order to extend its service life, it is necessary to regularly check whether the power supply voltage, working current and insulation resistance are normal. If the following conditions are found, it should be stopped immediately to eliminate the fault.

① Under rated conditions, the current exceeds 20%.

② The dynamic water level drops to the inlet section, causing intermittent water discharge.

The submersible pump vibration or noise.

The power supply voltage is less than 340 volts.

⑤ One phase of fuse is burnt out.

The water pipe is damaged.

⑦ The insulation resistance of the motor to ground is lower than 0.5 megohm.

5. Unit disassembly:

① Untie the cable tether, remove the pipeline part, and remove the wire guard plate.

② Unscrew the drain bolt to drain the water in the motor cavity.

③ Remove the filter screen and loosen the fixing screw of the motor shaft on the coupling.

④ Unscrew the bolt connected with the motor at the water inlet joint, and separate the water pump from the motor (pay attention to flat the unit during separation to prevent the pump shaft from bending)

⑤ The disassembly sequence of the water pump is: (see Figure 1) Inlet joint, impeller, guide shell, impeller... Check the valve body, and use special workers when disassembling the impeller.

First loosen the tapered sleeve that fixes the impeller, and avoid bending the pump shaft and bruising all parts during disassembly.

⑥ The motor disassembly process is as follows: (see Figure 1) Place the motor on the platform, and sequentially remove the nut, base, shaft head lock nut, thrust plate, key, and lower guide from the bottom of the motor. Bearing seat, stud, and then take out the rotor (be careful not

If the wire package is damaged), finally remove the connection section and the upper guide bearing seat.

⑦ Unit assembly:

Before assembly, the rust and dirt of each component shall be cleaned, the mating surfaces and fasteners shall be coated with sealant, and then assembled in the reverse order of disassembly (the up and down movement of the motor shaft after assembly is about 1mm). After assembly, the coupling shall be moved flexibly, and then the filter screen shall be installed for testing.

6. If the submersible pump has been in operation for one year, or if it has been in operation for less than one year but the diving time has reached two years, the well shall be disassembled and overhauled according to Article 5 and the worn parts shall be replaced.

8. fault causes and troubleshooting

Table IV

Fault phenomenon

Cause

Exclusion method

No water or intermittent

Outlet or less water

1. The motor does not start (if the voltage is low, the wire is too thin and too long, the voltage drop is too large or the pump is stuck and cannot start)

2. The pipeline is blocked or the water filter is blocked

3. Pipeline rupture

4. The suction port is exposed to the water surface

5. The submersible pump turns to the opposite

6. Wear of impeller mouth ring and sealing ring

1. Eliminate circuit faults, find out the cause of sticking and eliminate it

2. Remove blockage

3. Repair the rupture

4. Lower the submersible pump. If there is still no water, it may exceed the lift range of the submersible pump. It is recommended to change the pump.

5. Replace any two connectors of the cable

6. Replace the new impeller and seal ring

Excessive current or electricity

Flow table pointer wobble

1, large flow, low lift beyond the scope of use, motor overload

2. The graphite bearing of the motor is worn, and the rubber bearing or shaft sleeve of the water pump is worn.

3. Wear of thrust bearing and lower seat of impeller

4. The pump shaft is bent and the bearing is not concentric

1. Reduce the flow

2. Replace the new bearing or shaft sleeve

3. Replace the thrust bearing and thrust plate

4. The shaft bending shall be sent to the factory for overhaul, and the new bearing shall be replaced.

Insulation resistance of motor winding to ground thermal state

Less than 0.5 megohms

1. Aging or breakage of electromagnetic wire insulation

2. Damaged rubber cable

3. Sealing joint failure

1. Disassemble the winding, wrap the damaged part with adhesive tape or rewind the new coil

2. Find out the damage and wrap it with adhesive tape or repair it with fire.

3. Disassemble, connect and re-bandage

The motor does not start and there is a buzzing sound.

1. Conductor phase disconnection or switch disconnection (single-phase operation)

2. Motor guide bearing holding shaft

3. There is foreign matter in the impeller and the pump body is stuck

4, the voltage is too low

1. Repair the broken wire and connect the fuse

2. Repair or replace bearings and shaft repair

3. Remove foreign matters

4. Adjust the voltage

Severe vibration of motor

1. Unbalance of motor rotor

2. Imbalance of impeller

3. Pump shaft bending

4. Wear of bearing (shaft sleeve)

1. Dynamic balancing of rotor

2. Static balance of impeller

3. Straightening pump shaft

4. Replace bearing and shaft sleeve

Motor winding burned

1. Water shortage in motor

2. Single-phase operation

3. Long time overload operation

1, pay attention to must be filled with water

2. Check and adjust the starting protection equipment to ensure the normal operation of the motor

3. Reduce the load so that the current and voltage cannot exceed the rated value on the nameplate

Storage and safekeeping of 9. unit

1. Drain all the water in the motor cavity (especially in winter to prevent freezing damage to the motor), and tie up the cable reel.

2. Store in a room with no corrosive substances and gases and a temperature below 40 ℃.

3, long-term use should pay attention to the submersible pump rust.

X. Scope of Complete Belt

1. Submersible pump.

2. Submersible motor. (The volume and weight are small before leaving the factory and the submersible pump have been assembled as a whole).

3, cable, adhesive tape (according to the contract can not be taken).

4, water pipe, elbow, tape, bolt, spring pad, clamp (splint) two (according to the contract without).

5. One certificate (and warranty card).

6. A copy of the instructions.

XI. Vulnerable Parts

1. Impeller

2. Shaft sleeve

3. Rubber shaft sleeve

4. Seal ring

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About Us

Hebei Quanyou Pump Industry Co., Ltd. is a high-tech enterprise integrating research and development, production, sales and service of water pumps. Its main products are QJ series submersible pumps for wells, QJ series stainless steel submersible pumps, and QS series submersible pumps.

Contact Us

Telephone:86-319-7132979

Mobile:86-13932918197

Mailbox:hbqy18197@163.com　yuer@wellpumpqy.com

　　　　yuerzhang27@gmail.com

WhatsApp：86-17855846635(Sissie)

Address: Lincheng County, Xingtai City, Hebei Province, China

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