Some standard content:
Machinery Industry Standard of the People's Republic of China
JB/T2663
1999-08-06
Zhonggan Shipbuilding
2001-01-01 Small Cable
This standard is a revision of JB2663-80 "ADP Series AC Servo Motor". This standard has been reorganized and arranged in accordance with the requirements of GB/T1.1, GB/T1.22, and GB/T1.3. Some deletions have been made to the text while the main technical content remains unchanged. This standard The main differences with standard B2663-80 are: 1. This standard is the legal measurement unit of the basic standard. 2 This standard adds "1 Scope\.
3 This standard adds "2 Small Standards". 4 This standard adds "3 Product Category".
5 This standard changes the original standard " "3 Acceptance Rules" is modified to "6 Inspection Rules" and "7 Quality Assurance Period". 6 This standard modifies the original standard "Four Marks, Packaging, Transportation and Storage" to "8 Marks, Packaging, Transportation and Storage". Note: For type AIIII-1 motors, compared with ADP-1 motors, they are only structurally different. The main dimensions, original electrical rating data, technical data, detection methods, etc. are the same. For this reason, they are listed in this standard. The testing of AIIII-1 motors shall be based on the technical requirements of ADP-1 motors.
This standard will replace JB2663-80 from the date of implementation. This standard is under the jurisdiction of the National Micromotor Standardization Technical Committee. : Beijing Micromotor General Factory of Beijing Jingye Electrical Group. The main drafters of this standard are: Ma Xiuru and Liu Xianda. The original standard was first released on July 1, 1980, and the standard number is JB2663-80: This time it is a revision of the 1980 ministry standard. The first revision
This standard is entrusted to the National Micromotor Standardization Technical Committee for interpretation I
JB/T26631999
JB266380|| tt||This standard specifies the technical requirements, test methods, inspection rules, frequency guarantee period and marking, packaging, transportation and storage of ADP series AC servo motors
This standard applies to ADI series AC servo motors. , this series of motors are protected two-phase capacitor cup-shaped rotor asynchronous motors: Reference standards
The provisions contained in the following standards, through reference in this standard, constitute the provisions of this standard. When the standard is published, all Minor versions are valid. All standards will be revised. Parties using this standard should explore the possibility of using the latest version of the following standards GB/T 2828—1987
GB/T 2900.26—1994
GB/T 7345—1994
JB/T8162-[999
3 Product Classification
3.1 Model
Batch-by-Batch Inspection and Counting Sampling Procedure and Sampling Table Electrical Terminology Control Motor
Basic technical requirements for control micromotors
Packaging technical conditions for control micromotors
The motor model consists of the following parts:
Frame number and performance parameter code||tt| |Product name code
3.1.1 Product name code
ADP AC servo motor
3.1.2 Frame number and performance parameter code
1, 120, 123 , 123B, 202, 261, 262, 263263A, 362, 363363A, 562, 563A respectively represent different frame numbers and performance parameters.
3.1.3 Model Example
ADP-263A refers to the No. 2 frame. AC servo motor that meets 263A performance parameters. 3.2 Appearance and installation ruler
豻jiman 1999-08-06 tumor
2001-01-01 Small cable
JB/T26631999
Motor appearance and installation ruler It should comply with the requirements of Figures 1 to 6 and Tables 1 to 2. a) ADP-1 motor shall comply with the requirements of Figure 1:
b) ADP-120 motor shall comply with the requirements of Figure 2; c) ADP-123, ADP-123B motor shall comply with the requirements of Figure 3 d) ADP-202 The central machine should comply with the requirements of Figure 4; e) ADP--362, ADP--562 The central machine should comply with the requirements of Figure 5 and Table 1; f) ADP-261, ADP262, ADP263, ADP--263A, ADP-363, ADP —363A, ADP—563A motors should comply with the requirements in Figure 6 and Table 2.
ADP—1 appearance and installation dimensions
Figure 2 ADP--120 appearance and installation dimensions
ADP—362
ADP—562
JB/T2663
Figure 3 ADP-123, ADP-123B appearance and installation dimensions 5.5
Figure 4 ADP-202 appearance and installation dimensions
Figure 5 ADP-362, ADP-562 appearance and installation dimensions table 1 ADP-362, ADP-562 appearance and installation dimensions D,
4[P—261
ADP—1G2
ADP—263
ADP—2G3A| | tt | | ADP163 | and installation dimensions table 2ADP—261, 262, 263, 263A, 363, 363A, 563A appearance and installation dimensions L
The circuit diagram is shown in Figure 7,
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Certificate: ADP--1 type motor electric penetration device is connected in series to the control loop. 3.4 Technical performance parameters
The technical performance parameters of the motor are specified in Table 3 and Table 4. 4
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4 Technical requirements
4.1: Environmental conditions of use
JB /T26631999
4.1.1 The operating environmental conditions of the motor should comply with the requirements in Table 5. Table 5 Operating environmental conditions
ADP—1
ADP—120
ADP-— 123
ADP—123B
ADP—202
ADP—261
ADP—262
ADP—263
ADP- —263A
ADP-362
ADP—363
ADP--363A
ADP—562
ADP-—563A
- 40~ + 40
40~+50
- 40- + 40
at 20℃
relative condensation
95 ± 3|| tt||95 ±3
95 ±3
10,20,30
Double frame
1.4, 0.6, 0.2
1.4 ±0.2
1.4 ± 0.2
4.1.2 The motor can run continuously in the horizontal position, and the ADP-1 electric peach can also work normally in the vertical position. 4.2 Outlet method and marking
4.2. 1. The outlet method adopts the terminal board
Acceleration
4.2.2 The terminal board mark uses the letters L1, L (or 5, J,) to represent the excitation phase winding terminal, K, K, represents the control phase Wrap red terminal 4.3 Appearance and assembly quality
4.3.1 Appearance
The motor surface shall not be rusted, dented, scratched, or coated. The fasteners shall be firmly connected and sealed with magnetic balls. The words and contents of the terminal board and nameplate shall be clear and not fall off. The lead wires shall be intact. 4,3.2 Appearance and installation dimensions
The appearance and installation dimensions of the motor shall comply with the provisions of Article 3.2. 4.3.3 Axial clearance
The axial clearance of the motor shall comply with the provisions of Table 6. Model
ADP—1
ADP—120
ADP—123B
ADP—261
ADP—263
ADP——362
ADP—363A
ADP—563A
Shaft extension radial runout
ADP—123
ADP—202
ADP—262
ADP-263A
ADP—363
ADP—562
JB/T26631999
Table 6 The axial radial runout of the motor should not be greater than 0.02mm. 4,3.5 Radial runout and end runout of the mounting mating surface Axial clearance
0.20-0.40
0.15-0.25
0.20-0.50
The radial runout of the mounting mating surface of the machine should not be greater than 0.09mm. The end runout of the concave edge mounting mating surface should not be greater than 0.10mms4.4 Static friction torque
The static friction torque of the motor should comply with the provisions of Table 4,4 .5 Winding cold back-current resistance
When the temperature is 20℃, the DC resistance of the winding shall comply with the requirements of the motor product drawing. 4.6 Insulation dielectric strength
The insulation dielectric strength test of each phase winding of the motor to the ground and between the windings shall be able to withstand a 50Hz, 1000V sinusoidal voltage for 1min without breakdown (700V for the phase-to-phase test of ADP120, ADP-123, and ADP-123B motor windings). The motor is subjected to the test in cold state or the test voltage is 75% of the original test voltage in hot state: 4.7 Insulation resistance || tt || The insulation resistance of each phase winding of the motor to the casing and between the phases of the windings shall be: a) not less than 100M2 when the temperature is 20±59 and the relative humidity is 60%-70%; b) not less than 50M2 when the temperature is 20±5℃ and the relative humidity is 60%~70%; 9 When the temperature is 20±5℃ and the relative humidity is 95%±3%, the insulation resistance of the motor to the casing and between the phases of the windings shall be: a) not less than 100M2 when the temperature is 20±5℃ and the relative humidity is 60%~70%, the insulation resistance of the motor to the casing and between the phases of the windings shall be: b) not less than 50M2 when the temperature is 20±5℃ and the relative humidity is 95%±3%; After being placed in a constant temperature condensation box for 20 days, take out the mountain, do not wipe off the moisture on the fur surface, and measure no less than 1MΩ within 5 minutes after 25min: For ADP-202 type motor, place it for 5 days under the above conditions, measure no less than 0.25Mf in the box, and then run it for 61 at rated working mode, and no less than 5MQ:
4.8 Rotation direction
The motor is connected according to Figure 8, Figure 9, and Figure 10 respectively. The rotation direction of the motor is viewed from the terminal board end, and the shaft should rotate clockwise. 4.9 No-load overrun voltage
The no-load starting voltage of the motor should comply with the provisions of Table 4.4.10 No-load speed and the speed difference of forward and reverse rotation when no-load The no-load speed of the motor and the speed difference of forward and reverse rotation when no-load should comply with the provisions of Table 4. 4.11 Rated data
JB/T26631999
At rated excitation voltage, rated frequency and rated medium capacity, apply rated load torque to the motor, adjust the control medium voltage (for ADP-120, ADP-123, ADP-123B, ADP-202 motors, adjust the control voltage to the maximum value) to make the motor reach the rated speed. When the motor is in forward and reverse rotation, its rated torque meets the requirements of Table 3. 4.12 Stalling data
At rated excitation voltage, rated frequency, rated capacitance and maximum control voltage, measure the stalling data of the motor respectively, which shall meet the requirements of Table 4:
4.13 Single-phase power supply braking capacity
This test is carried out for ADP-261, ADP-262 and ADP-263 motors. The motor runs at rated voltage and rated frequency without load. When the excitation phase winding is disconnected, the motor should stop rotating automatically. When the control phase winding is disconnected, the motor should also stop rotating automatically.
For ADP-262, it is carried out under the condition of 1.961mN·n: 4.14 Single-phase power supply torque
Only the single-phase power supply torque of ADP-1 type motor is checked, and it is required to be no less than 0.147N·n. 4.15 Glide time
The motor is unloaded, and the glide time shall comply with the provisions of Table 4. 4.16 Temperature rise
Under rated working conditions, the temperature rise of the motor winding shall comply with the provisions of Table 7. The windings are overheated
ADP-263A
ADP--363A
ADP-120
ADP-202
ADP-262
ADP-362
ADP-562
ADP-123
ADP-261
ADP-263
ADP—363
ADP—563A
ADP—123B
Note: When the ADP.-1 motor is at the rated voltage of the micro-magnetic phase, the rated single phase and the power supply frequency, the winding temperature is not more than 6SK. 4.17 Load characteristic stability
For ADP—123, ADP—123B, ADP--261, ADP--262 motors, the torque characteristics should be stable, and the speed should increase steadily with the decrease of torque.
4.18 The motor should be able to work normally when the power supply voltage and frequency change. 4.18.1
The power supply voltage and frequency change range of the motor is shown in Table 8. Table 8 Supply voltage and rated voltage variation range
ADP—120
Supply voltage variation range
Supply frequency variation range
120 ± 5
500 ± 15
ADP—123
ADP—123B
ADP—202
110 ±11
400 ± 20
120 15
330 ±10
ADP—262
ADP—362
ADP562
110±10
50 ± 1.5
ADP—263
ADP-—363
110±10
500±15
AD—263A
ADP—363A
ADP-—563A
35 ± 3.5
500 ±15
JB/T26631999
4.18.2 When the power supply voltage and frequency are changed according to Table 8 at rated load torque, rated capacitance and maximum control voltage, the speed change caused by the rated power supply voltage and rated frequency shall not exceed the provisions of Table 9. Table 9 Speed change when the power supply voltage and frequency change simultaneously ADP—123
Speed change when the power supply voltage and frequency
increase at the same time
Speed change when the power supply voltage and frequency
decrease at the same time
ADP—1
ADP--123 B
ADP—120
ADP—202
ADP—261
ADP—262ADP—263
ADP—263ADP—362ADP—363
ADP363A ADP562
ADP-S63A
Note: For ADP-120 motor, when the power supply voltage and rated power increase at the same time, the load torque is 2.94mN·m. When the power supply power decreases at the same time, the load torque is 5.88mV-ml
4.19 Shock and vibration
4.19.1. The motor is subjected to the shock conditions specified in Table 5 for 10 minutes. 4.19.2. The motor is subjected to the vibration conditions specified in Table 5 for 10 minutes. , vibration for 2h (2h for each frequency for ADP-120, ADP-123, ADP-123B motors)
After the test, the rated data should comply with the provisions of Table 3, and there should be no defects such as damage to parts, loose contacts, loose fasteners, etc. For ADP-123, ADP-123B, ADP-202 machines, check that the air-cut starting voltage should comply with the provisions of Table 3. For ADP-1 medium-sized machines, check that the rated speed should comply with the provisions of Table 3: 4.20 Low temperature
At -40±2°C, perform a low temperature test for 3h. The no-load starting voltage shall comply with the requirements of Table 10. Table 10 No-load starting voltage during low temperature test
ADP—123
ADP--123B
ADP—202
AD—261
ADP—262
ADP—362
ADP——263A
ADP—562
ADP—263
ADP—363
ADP—363 A
ADP563A
No-load starting pressure
For ADP-1 motor, at a temperature of -40±2℃, at rated load torque, rated excitation voltage and maximum control voltage, the speed shall not be less than 8500r/min after working for 3h: the difference between forward and reverse speed shall not be less than 500r/min. For ADP-120 motor, at a temperature of -40±2℃, at rated medium source voltage and frequency, the speed shall not differ from the rated speed after working for 10min under rated load torque within ±2%4.21 High temperature
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