|
MOQ: | 1 |
Price: | Customized |
Standard Packaging: | Plywood Case |
Delivery Period: | 30 Days |
Payment Method: | T/T |
Supply Capacity: | 10 Sets Per Month |
Dryer Air Volume Test Equipment For Measure Air Volume Or Airflow Performance Of Dryer IEC 61855
Standards For Dryer Air Volume Test Equipment:
QB/T1876-20XX Hair Care Appliances for Household and Similar Purposes 5.7.1 and Figure 6 and IEC61855 Figure 9
Product Overview For Dryer Air Volume Test Equipment:
The test system adopts PLC control and computer operation, the test work of the equipment is completed automatically, and the test data is recorded, saved and the airflow report is generated automatically, which is characterized by accurate data, good repeatability, high efficiency and convenient data storage. The action mechanism adopts servo motor drive + precision sliding table transmission, to ensure the smooth running of the test process and displacement accuracy: the use of imported high-precision precision anemometers to measure wind speed, accurate test data: the test system is placed in the test room, the operator can be controlled remotely, and will not have an impact on the wind field.
A dryer air volume test system is a specialized apparatus used to measure and evaluate the air volume or airflow performance of dryers. This system provides quantitative data about the amount of air being circulated or exhausted by a dryer, which is crucial for assessing its efficiency and functionality. The system typically consists of the following components:
Airflow Measurement Equipment: This includes airflow meters, anemometers, or other types of airflow measurement devices. These instruments are used to directly measure the velocity, volume, or pressure of the air moving through the dryer system.
Test Chamber or Ducting: The dryer air volume test system is usually set up with a test chamber or ducting, which allows for the controlled flow of air through the dryer. The chamber or ducting is specially designed to simulate the real-world airflow conditions of the dryer being tested.
Airflow Control Mechanism: The system may incorporate adjustable dampers, valves, or flow restrictors to control and regulate the airflow through the dryer. This allows for precise adjustments and replicates different operating conditions.
Pressure Measurement Devices: Pressure sensors or gauges are employed to measure the pressure differentials within the dryer system. These measurements help evaluate the resistance to airflow and identify any potential issues or blockages.
Data Acquisition and Analysis System: The dryer air volume test system is typically equipped with data acquisition equipment and software to record and analyze the airflow measurements. This allows for accurate data logging, real-time monitoring, and detailed analysis of the airflow performance.
Safety Features: Safety considerations are implemented to protect the operators and ensure safe testing procedures. This may include emergency stop buttons, protective enclosures, and safety interlocks to prevent any hazards during the testing process.
By utilizing a dryer air volume test system, manufacturers and quality control departments can determine the actual airflow performance of dryers, compare it against specified standards or design requirements, and identify any deviations or inefficiencies. This information helps optimize the dryer's performance, improve energy efficiency, and ensure proper functionality in various applications such as laundry dryers, industrial dryers, or HVAC systems.
Principle For Dryer Air Volume Test Equipment:
PLC control is adopted to drive the moving arm of the anemometer through the Ho-serve motor to realize the testing of the wind speed of each point in the corresponding area of the hair dryer, and then calculate the wind volume of each point, and then sum up the wind volume of all the points with the wind speed value of not less than 24m/min, to arrive at the total wind volume of the hair dryer.
Q total =Σi=N(0.00025 )
Q total = total air volume
N=Number of squares with wind speed measurement value not less than 24m/min, =Wind speed of each measurement point.
Structure For Dryer Air Volume Test Equipment:
1. As Figure 1, the equipment is mainly composed of control system, specimen mounting bracket, automatic moving mechanism, wind speed collection unit and specimen power supply unit.
Figure1
2. The specimen mounting bracket by the X-axis sliding table, specimen mounting fixture composed of X-axis can be infinitely adjustable to match the standard requirements of the specimen and the distance between the anemometer and the anemometer 200mmm.
3. According to the standard figure 2 along the y-axis "standard for the x-axis) arrangement of hot-wire anemometer, the arrangement of 1, automatic moving mechanism to drive the mobile spacing 5mm.
4. The use of Ho service motor-driven mobile arm, driven hot-wire anemometer along the Z-axis (standard figure for the Y-axis) automatically move up and down (each time the move 5mm to collect the wind speed value of each point).
Milli-flat light
Machine Bureau
5. The anemometer adopts imported German brand.
6. Equipment can supply power to the specimen.
7. The control system adopts PLC intelligent central control, touch one body type computer operation, with remote start function, to prevent the operator to the wind field.
8. The software is prepared according to the requirements of the standard test methods, can be run test and standby test. The report format can reflect all standard requirement parameters.
Test procedure For Dryer Air Volume Test Equipment:
1. Sample making: the heating function of the hair dryer is put into a non-working state.
2. Installation of the sample: Installation of the fixed sample, so that the hairpiece outlet and anemometer plane parallel, adjust the sample outlet end distance Dd anemometer 200m (axis), the sample is adjusted to the highest gear
3. To run the test, the automatic mechanism moves the anemometer located at the center of the air outlet in the positive direction of the shaft at a spacing of 5 until it detects a wind speed no greater than 2/n and stops. Back to the center point, and then detect the negative direction of the shaft
The anemometer will move in the positive direction of the shaft at a spacing of 5 until it detects a wind speed of not more than 24m/min and stops.
4. The automatic mechanism returns to the center point, moves along the 2-axis positive direction 5, and then repeats the third step. Repeat this until the wind speed in the positive direction of the Z-axis is detected to be no greater than 24m/min.
5. The automatic mechanism returns to the center point, moves 5 along the 2-axis negative direction, and then repeats the third step. This is repeated until the wind speed in the negative direction of the 2-axis is no more than 2m/min.
6. Record the wind speed at all points, and calculate the wind volume at each point by the following equation
Q=UXs
1. Calculate the total air volume of the specimen based on the calculated air volume at each point and the number of squares traveled by the automatic mechanism.
Q total =Σ i=1N (0.00025 )
1.At the end of the test, the total air volume data is obtained, forming a printed report, which can be linked to a printer to print.
Number |
Parameter |
Content |
|
|
Input power supply |
AC220V 50Hz |
|
|
Electrical control |
PLC control, computer operation, data acquisition, analysis, computer judgment, can directly print the report |
|
|
Specimen |
Comply with the QB/T1876/IEC61855 need to measure the wind volume of hair processing equipment |
|
|
Test mounting bracket |
With X moving mechanism, Z-axis lifting mechanism and specimen rotation mechanism around the Y-axis, to ensure that the specimen is installed after the air outlet aligned with the center of the wind speed measurement mobile arm position, and parallel to the anemometer, the following chart fixture reference |
|
|
Wind speed measurement |
Automatic moving mechanism: servo motor drive + precision ball screw slide combination, can be Y and Z-axis direction 0-+100mm range of movement, i.e., the measurable area of 200 X200mm. |
|
Measuring time per point: 0-999.9s can be preset, default 30s. |
|||
Imported wind speed sensor: 0-30m/s, resolution: 0-30m/s, resolution: 0-30m/s 0-30m/s, resolution 0.01m/s, error 0.03m/s +4% reading |
|||
|
Specimen power supply |
Provide rated supply voltage universal socket |
|
|
Equipment Size Weight |
WDH=900X800X1650mm,about 150kg |
|
MOQ: | 1 |
Price: | Customized |
Standard Packaging: | Plywood Case |
Delivery Period: | 30 Days |
Payment Method: | T/T |
Supply Capacity: | 10 Sets Per Month |
Dryer Air Volume Test Equipment For Measure Air Volume Or Airflow Performance Of Dryer IEC 61855
Standards For Dryer Air Volume Test Equipment:
QB/T1876-20XX Hair Care Appliances for Household and Similar Purposes 5.7.1 and Figure 6 and IEC61855 Figure 9
Product Overview For Dryer Air Volume Test Equipment:
The test system adopts PLC control and computer operation, the test work of the equipment is completed automatically, and the test data is recorded, saved and the airflow report is generated automatically, which is characterized by accurate data, good repeatability, high efficiency and convenient data storage. The action mechanism adopts servo motor drive + precision sliding table transmission, to ensure the smooth running of the test process and displacement accuracy: the use of imported high-precision precision anemometers to measure wind speed, accurate test data: the test system is placed in the test room, the operator can be controlled remotely, and will not have an impact on the wind field.
A dryer air volume test system is a specialized apparatus used to measure and evaluate the air volume or airflow performance of dryers. This system provides quantitative data about the amount of air being circulated or exhausted by a dryer, which is crucial for assessing its efficiency and functionality. The system typically consists of the following components:
Airflow Measurement Equipment: This includes airflow meters, anemometers, or other types of airflow measurement devices. These instruments are used to directly measure the velocity, volume, or pressure of the air moving through the dryer system.
Test Chamber or Ducting: The dryer air volume test system is usually set up with a test chamber or ducting, which allows for the controlled flow of air through the dryer. The chamber or ducting is specially designed to simulate the real-world airflow conditions of the dryer being tested.
Airflow Control Mechanism: The system may incorporate adjustable dampers, valves, or flow restrictors to control and regulate the airflow through the dryer. This allows for precise adjustments and replicates different operating conditions.
Pressure Measurement Devices: Pressure sensors or gauges are employed to measure the pressure differentials within the dryer system. These measurements help evaluate the resistance to airflow and identify any potential issues or blockages.
Data Acquisition and Analysis System: The dryer air volume test system is typically equipped with data acquisition equipment and software to record and analyze the airflow measurements. This allows for accurate data logging, real-time monitoring, and detailed analysis of the airflow performance.
Safety Features: Safety considerations are implemented to protect the operators and ensure safe testing procedures. This may include emergency stop buttons, protective enclosures, and safety interlocks to prevent any hazards during the testing process.
By utilizing a dryer air volume test system, manufacturers and quality control departments can determine the actual airflow performance of dryers, compare it against specified standards or design requirements, and identify any deviations or inefficiencies. This information helps optimize the dryer's performance, improve energy efficiency, and ensure proper functionality in various applications such as laundry dryers, industrial dryers, or HVAC systems.
Principle For Dryer Air Volume Test Equipment:
PLC control is adopted to drive the moving arm of the anemometer through the Ho-serve motor to realize the testing of the wind speed of each point in the corresponding area of the hair dryer, and then calculate the wind volume of each point, and then sum up the wind volume of all the points with the wind speed value of not less than 24m/min, to arrive at the total wind volume of the hair dryer.
Q total =Σi=N(0.00025 )
Q total = total air volume
N=Number of squares with wind speed measurement value not less than 24m/min, =Wind speed of each measurement point.
Structure For Dryer Air Volume Test Equipment:
1. As Figure 1, the equipment is mainly composed of control system, specimen mounting bracket, automatic moving mechanism, wind speed collection unit and specimen power supply unit.
Figure1
2. The specimen mounting bracket by the X-axis sliding table, specimen mounting fixture composed of X-axis can be infinitely adjustable to match the standard requirements of the specimen and the distance between the anemometer and the anemometer 200mmm.
3. According to the standard figure 2 along the y-axis "standard for the x-axis) arrangement of hot-wire anemometer, the arrangement of 1, automatic moving mechanism to drive the mobile spacing 5mm.
4. The use of Ho service motor-driven mobile arm, driven hot-wire anemometer along the Z-axis (standard figure for the Y-axis) automatically move up and down (each time the move 5mm to collect the wind speed value of each point).
Milli-flat light
Machine Bureau
5. The anemometer adopts imported German brand.
6. Equipment can supply power to the specimen.
7. The control system adopts PLC intelligent central control, touch one body type computer operation, with remote start function, to prevent the operator to the wind field.
8. The software is prepared according to the requirements of the standard test methods, can be run test and standby test. The report format can reflect all standard requirement parameters.
Test procedure For Dryer Air Volume Test Equipment:
1. Sample making: the heating function of the hair dryer is put into a non-working state.
2. Installation of the sample: Installation of the fixed sample, so that the hairpiece outlet and anemometer plane parallel, adjust the sample outlet end distance Dd anemometer 200m (axis), the sample is adjusted to the highest gear
3. To run the test, the automatic mechanism moves the anemometer located at the center of the air outlet in the positive direction of the shaft at a spacing of 5 until it detects a wind speed no greater than 2/n and stops. Back to the center point, and then detect the negative direction of the shaft
The anemometer will move in the positive direction of the shaft at a spacing of 5 until it detects a wind speed of not more than 24m/min and stops.
4. The automatic mechanism returns to the center point, moves along the 2-axis positive direction 5, and then repeats the third step. Repeat this until the wind speed in the positive direction of the Z-axis is detected to be no greater than 24m/min.
5. The automatic mechanism returns to the center point, moves 5 along the 2-axis negative direction, and then repeats the third step. This is repeated until the wind speed in the negative direction of the 2-axis is no more than 2m/min.
6. Record the wind speed at all points, and calculate the wind volume at each point by the following equation
Q=UXs
1. Calculate the total air volume of the specimen based on the calculated air volume at each point and the number of squares traveled by the automatic mechanism.
Q total =Σ i=1N (0.00025 )
1.At the end of the test, the total air volume data is obtained, forming a printed report, which can be linked to a printer to print.
Number |
Parameter |
Content |
|
|
Input power supply |
AC220V 50Hz |
|
|
Electrical control |
PLC control, computer operation, data acquisition, analysis, computer judgment, can directly print the report |
|
|
Specimen |
Comply with the QB/T1876/IEC61855 need to measure the wind volume of hair processing equipment |
|
|
Test mounting bracket |
With X moving mechanism, Z-axis lifting mechanism and specimen rotation mechanism around the Y-axis, to ensure that the specimen is installed after the air outlet aligned with the center of the wind speed measurement mobile arm position, and parallel to the anemometer, the following chart fixture reference |
|
|
Wind speed measurement |
Automatic moving mechanism: servo motor drive + precision ball screw slide combination, can be Y and Z-axis direction 0-+100mm range of movement, i.e., the measurable area of 200 X200mm. |
|
Measuring time per point: 0-999.9s can be preset, default 30s. |
|||
Imported wind speed sensor: 0-30m/s, resolution: 0-30m/s, resolution: 0-30m/s 0-30m/s, resolution 0.01m/s, error 0.03m/s +4% reading |
|||
|
Specimen power supply |
Provide rated supply voltage universal socket |
|
|
Equipment Size Weight |
WDH=900X800X1650mm,about 150kg |