- Overview
- Product Description
- Unique FAQs
Basic Info.
Model NO.
modulating
Driving Mode
Electric
Nominal Pressure
PN1.0-32.0MPa
Channel
Straight Through Type
Structure
Flexible Ball Valve
Type
Flexible Ball Valve
Temperature
Normal Temperature
Application
Industrial Usage, Water Industrial Usage, Household Usage
Ambient Temperature
15-50 Celsius
Working Temperature
0-90 Celsius
Working Pressure
10 Bar Max.
Open/Close Time
5 Sec.
Rated Protection
IP67
Nominal Voltage
AC230V Working Current 0.5 AMPS
Specifications
Compact Design Light Weight Small Actuator with Fa
Size
DN8 1/4′′
Pressure
Medium Pressure
Transport Package
Bubble Wrap Plus Carton
Specification
DC12V 24V AC110 220V 380V
Trademark
LEADWIN
Origin
China
Production Capacity
3000piece/Day
Packaging & Delivery
Package Size
11.00cm * 8.50cm * 7.50cm
Package Gross Weight
0.300kg
Lead Time
35 days (1 - 10000 Pieces)
To be negotiated ( > 10000 Pieces)
To be negotiated ( > 10000 Pieces)
Product Description
Mini Electric Ball Valve
Compact design and light weight, small electrical actuator with fail-safe function (NC)
About the"Capacitors return"function,there are twokinds of valve:normally closed and normally open.
Normally closed:
the valve will be auto closed when the power is off(without power);the valve will be auto open when the power is on.
Normally open:
the valve will be auto open when the power is off(without power);the valve will be auto closed when the power is on.
Kindly Remind:
please charge the motorized ball valve before using.
2.What role do valve electric actuators play in preventing leaks and spills in industrial processes?
Valve electric actuators, with their precise control capabilities, play a crucial role in preventing leaks and spills. By swiftly and accurately modulating valve positions, these actuators contribute to the overall safety and integrity of industrial processes, reducing the risk of environmental incidents.
3.Are there advancements in remote monitoring and control of valve electric actuators?
Yes, advancements in communication technologies have facilitated remote monitoring and control of valve electric actuators. Smart actuators, equipped with connectivity features, allow operators to monitor and adjust valve positions remotely, enhancing operational flexibility and efficiency.
4.How do valve electric actuators contribute to process optimization in manufacturing plants?
Valve electric actuators contribute to process optimization by providing precise control over fluid flow. This level of control enhances the overall efficiency of manufacturing processes, ensuring consistent quality and minimizing wastage.
5.What measures are in place to ensure the cybersecurity of smart valve electric actuators?
As smart technologies become more prevalent, ensuring the cybersecurity of valve electric actuators is paramount. Manufacturers implement robust security measures, including encryption and authentication protocols, to safeguard against cyber threats and unauthorized access.
Compact design and light weight, small electrical actuator with fail-safe function (NC)
PRODUCT DESCRIPTION | ||
TECHNICAL PARAMETERS | ||
Valve size | NPT/BSP 1/4"3/8"1/2"3/4"1"1-1/4"(Optional) | |
Type | Shutoff ballvalve,power is electricity | |
Maximum working pressure | 1.0MPa | |
Circulation medium | Fluid,air | |
Rated voltage | DC3.5V DC5V DC12V DC24V AC/DC9-24V DC9-35V AC110-230V (Optional) | |
Wiring diagram | CR201 CR202 CR301 CR302 CR303 CR304 CR305 CR306 CR401CR501CR502CR701CR702CR703CR704(Optional) | |
Open/close time | ≤500mA | |
Life time | ≤5S | |
Valve body material | 70000times(testingpressureis0.4MPa,medium is water) | |
Actuator material | Brass SS304 SS316(Optional) | |
Sealing materia | Engineering Plastics PPO | |
Actuator rotation | 90° | |
Torque force | 2N.m | |
Cable Length | 0.5m | |
Environment temperature | 15ºC~60ºC | |
Liquid temperature | 2°ºC~90ºC | |
Manual operation | YesNo(Optional) | |
Open/close indicator | Yes No(Optional) | |
Protection class | IP67 | |
Company quality management system | SO9001:2015 |
2-way A20 PVC Electrical ball valve | |||||
DN | SIZE | weight/g | inner box size/cm | outer box size/cm | piece/box |
DN8 | 1/4" | 310 | 11x8.5x7.5 | 39x35x20 | 30 |
DN10 | 3/8" | 320 | 11x8.5x7.5 | 39x35x20 | 30 |
DN15 | 1/2" | 380 | 11x8.5x7.5 | 39x35x20 | 30 |
DN20 | 3/4" | 480 | 11x8.5x7.5 | 39x35x20 | 30 |
DN25 | 1" | 540 | 11x8.5x7.5 | 39x35x20 | 30 |
DN32 | 1 1/4" | 720 | 11x8.5x7.5 | 39x35x20 | 30 |
WIRING DIAGRAM | |||||
CR201 WIRING DIAGRAM(2 WIRES CONTROL) | |||||
RD connect with positive,the BK connect with negative,the valve closed, the actuator automatically power off after in place,the valve remains fully closed position. | |||||
·BK connect with positive,the RD connect with negative,the valve open, the actuator automatically power off after in place,the valve remains fully open position | |||||
*Suitable Working Voltage:DC5V,DC12V,DC24V | |||||
*Exceeding the working voltage is forbidden | |||||
RD:Red wire BK:Black wire GR:Green wire BL:Blue wire | |||||
CR202 WIRING DIAGRAM | |||||
(2 wires control-"Capacitors return"in case of the power is failure) | |||||
·When SW is CLOSED,the valve OPEN,the actuator automatically power off after in place. | |||||
·When SW is OPEN,the valve CLOSED,the actuator automatically power off after in place. | |||||
*Suitable Working Voltage:DC5V,AC/DC9-24V,DC9-35V,AC110V-230V *Exceeding the working voltage is forbidden | |||||
CR301 WIRING DIAGRAM (3 WIRES CONTROL) | |||||
·RD&GR connect with positive,BK connect with negative | |||||
·When RD&SW connected,the valve open,the actuator automatically power off after in place,valve remains fully open position | |||||
·When GR&SW connected,the valve closed,the actuator automatically power off after in place,valve remains fully closed position. | |||||
*Suitable Working Voltage:DC5V,DC12V,DC24V *Exceeding the working voltage is forbidden |
CR302 WIRING DIAGRAM (3 WIRES CONTROL) | ||||||||
RD connect with positive,the BK &GR connect with negative | ||||||||
·SW CLOSED,the valve OPEN,the actuator automatically power off after in place | ||||||||
·SW OPEN,the valve CLOSED,the actuator automatically power off after in place. | ||||||||
*Suitable Working Voltage:DC9-35V | ||||||||
*Exceeding the working voltage is forbidden | ||||||||
CR303 WIRING DIAGRAM (3 WIRES CONTROL) | ||||||||
·RD&GR connect with positive,the BK connect with negative. ·SW CLOSED,the valve OPEN,the actuator automatically power off after in place. | ||||||||
·SW OPEN,the valve CLOSED,the actuator automatically power off after in place. | ||||||||
*Suitable Working Voltage:AC/DC9-24V,DC9-35V,AC110-230V *Exceeding the working voltage is forbidden | ||||||||
CR304 WIRING DIAGRAM (3 WIRES CONTROL ) | ||||||||
·RD&GR connected with positive,and the BK connected with negative ·When RD&SW connected,the valve closed,the actuator automatically | ||||||||
power off after in place,remains fully closed position | ||||||||
·When GR&SW connected,the valve open,the actuator automatically power off after in place,remains fully open position. *Suitable Working Voltage:DC5V,DC12V,DC24V *Exceeding the working voltage is forbidden |
CR305 WIRING DIAGRAM | ||||||
(3 wires control-"Capacitors return"in case of the power is failure) | ||||||
·RD&GR connect with positive,the BK connect with negative. ·SW CLOSED,the valve OPEN,the actuator automatically power off after in place. | ||||||
·SW OPEN,the valve CLOSED,the actuator automatically power off after in place. | ||||||
*The valve will be auto closed when power is failure. *Suitable Working Voltage:AC/DC9-24V,AC110-230V *Exceeding the working voltage is forbidden | ||||||
CR306 WIRING DIAGRAM | ||||||
(3 wires control-"Capacitors return"in case of the power is failure) | ||||||
·RD&GR connect with positive,the BK connect with negative. ·SW CLOSED,the valve CLOSED,the actuator automatically power off after in place | ||||||
·SW OPEN,the valve OPEN,the actuator automatically power off after in place. | ||||||
*The valve will be auto closed when power is failure. *Suitable Working Voltage:AC/DC9-24V,AC110-230V *Exceeding the working voltage is forbidden |
CR401 WIRING DIAGRAM (4 WIRES CONTROL) | |||
1,RD&BK are connected to the power,GY&GR are connected to the controlled wiring, | |||
2,When the SW is closed,the valve open 3,When the SW is open,the valve closed *Suitable Working Voltage:AC110V-230V | |||
*Exceeding the working voltage is forbidden | |||
The control wiring with power DC5V/DC24V,when muitiple motorized valves are working in paralled,must put the same color control wiring together,otherwise the valve could working | |||
CR501 WIRING DIAGRAM(WITH FEEDBACK SIGNAL) | |||
1.RD connect with positive,the BK connect with negative, | |||
the valve closed,the actuator automatically power off after in place. 2.BK connect with positive,the RD connect with negative, | |||
the valve open,the actuator automatically power off after in place. 3.GR&WT are connect when the valve open fully,YW&WT | |||
are connect when the valve closed fully | |||
*Suitable Working Voltage::DC5V,DC12V,DC24V *Exceeding the working voltage is forbidden! |
CR502 WIRING DIAGRAM | |||
(with feedback signal and"Capacitors return"in case of the power is failure) | |||
·When SW is closed ,the valve open.the actuator automatically power off after in place | |||
·When SW is open,the valve closed,the actuator automatically power off after in place | |||
*GR&WT are connect when the valve open fully,YW &WT are connect when the valve closed fully | |||
*Suitable Working Voltage:AC/DC9-24V,DC9-35V,AC110V-230V *Exceeding the working voltage is forbidden | |||
CR701 WIRING DIAGRAM | |||
(7 wires control with feedback signal) | |||
---RD connect with positive | |||
---GR connect with SW and negative wiring | |||
---BK connect with negative wiring | |||
---SW open.the valve open,and keeping fully open. | |||
---SW closed.the valve closed,and keeping fully closed | |||
----BL&GY connect with the valve's fully open signal wiring | |||
---YW&WT connect with the valve's fully closed signal wiring | |||
*Suitable Working Voltage:DC7-35V (wide input range voltage) | |||
*Exceeding the working voltage is forbidden | |||
Feedback with load ability: The Max.off voltage:DC36V AC220V The Max.off current:≤0.4A |
CR702 WIRING DIAGRAM | ||||||||
(7 wires control with feedback signal ) | ||||||||
---RD connect with positive | ||||||||
---GR connect with SW and negative wiring ---BK connect with negative wiring | ||||||||
---SW open.the valve open,and keeping fully open. | ||||||||
---SW closed.the valve closed,and keeping fully closed. | ||||||||
----BL&GY connect with the valve's fully open signal wiring ---YW &WT connect with the valve's fully closed signal wiring. *Suitable Working Voltage:DC7-35V (wide input range voltage) *Exceeding the working voltage is forbidden Feedback with load ability: | ||||||||
The Max.off voltage:DC36V AC220V The Max.off current:≤0.4A | ||||||||
CR702 WIRING DIAGRAM | ||||||||
(7 wires control with feedback signal) | ||||||||
---RD connect with positive | ||||||||
---GR connect with SW and negative wiring ---BK connect with negative wiring | ||||||||
---SW open.the valve open,and keeping fully open. | ||||||||
---SW closed.the valve closed,and keeping fully closed. | ||||||||
---BL&GY connect with the valve's fully open signal wiring ---YW &WT connect with the valve's fully closed signal wiring. *Suitable Working Voltage:DC7-35V (wide input range voltage) *Exceeding the working voltage is forbidden Feedback with load ability: | ||||||||
The Max.off voltage:DC36V AC220V The Max.off current:≤0.4A |
CR703 WIRING DIAGRAM | ||||||
(7 wires control with feedback signal) | ||||||
·RD&GR connect with positive,the BK connect with negative. ·SW CLOSED,the valve OPEN,the actuator automatically power | ||||||
off after in place | ||||||
·SW OPEN,the valve CLOSED,the actuator automatically power off after in place. | ||||||
·BL&GY connect with the valve's fully open signal wiring ·YW&WT connect with the valve's fully closed signal wiring. *Suitable Working Voltage:AC/DC9-24V,DC9-35V *Exceeding the working voltage is forbidden | ||||||
CR704 WIRING DIAGRAM | ||||||
(7 wires control with feedback signal) | ||||||
·RD&BK are connected to the power,GR&BL are connected to the controlled wiring. | ||||||
·When the SWis closed,the valve open ·When the SW is open,the valve closed | ||||||
·GR&WT connect with the valve's fully open signal wiring ·YW&WT connect with the valve's fully closed signal wiring. | ||||||
Suitable Working Voltage::AC110V-230V | ||||||
*Exceeding the working voltage is forbidden |
CR705 WIRING DIAGRAM | |
(with feedback signal and"Capacitors return"in case of the power is failure) | |
·RD&GR connect with positive,the BK connect with negative. ·SW CLOSED,the valve OPEN,the actuator automatically power | |
off after in place. | |
·SW OPEN,the valve CLOSED,the actuator automatically power off after in place. | |
·When external power is off,the valve closed,the actuator automatically power off after in place. | |
·BL&GY connect with the valve's fully open signal wiring | |
·YW&WT connect with the valve's fully closed signal wiring. *Suitable Working Voltage:AC/DC9-24V,AC110-230V *Exceeding the working voltage is forbidden | |
CR706 WIRING DIAGRAM | |
(with feedback signal and"Capacitors return"in case of the power is failure) | |
·RD&GR connect with positive,the BK connect with negative. | |
·SW CLOSED,the valve CLOSED,the actuator automatically power off after in place. | |
·SW OPEN,the valve OPEN,the actuator automatically power off after in place. | |
·When external power is off,the valve closed,the actuator automatically power off after in place. | |
·BL&GY connect with the valve's fully open signal wiring | |
·YW&WT connect with the valve's fully closed signal wiring. *Suitable Working Voltage:AC/DC9-24V,AC110-230V *Exceeding the working voltage is forbidden |
About the"Capacitors return"function,there are twokinds of valve:normally closed and normally open.
Normally closed:
the valve will be auto closed when the power is off(without power);the valve will be auto open when the power is on.
Normally open:
the valve will be auto open when the power is off(without power);the valve will be auto closed when the power is on.
Kindly Remind:
please charge the motorized ball valve before using.
1.Can valve electric actuators be retrofitted to existing systems?
Yes, in many cases, valve electric actuators are designed to be retrofit-friendly. However, it's crucial to consider compatibility, sizing, and potential modifications to ensure a seamless integration into existing systems. Consulting with manufacturers and industry experts can provide guidance on retrofitting options.2.What role do valve electric actuators play in preventing leaks and spills in industrial processes?
Valve electric actuators, with their precise control capabilities, play a crucial role in preventing leaks and spills. By swiftly and accurately modulating valve positions, these actuators contribute to the overall safety and integrity of industrial processes, reducing the risk of environmental incidents.
3.Are there advancements in remote monitoring and control of valve electric actuators?
Yes, advancements in communication technologies have facilitated remote monitoring and control of valve electric actuators. Smart actuators, equipped with connectivity features, allow operators to monitor and adjust valve positions remotely, enhancing operational flexibility and efficiency.
4.How do valve electric actuators contribute to process optimization in manufacturing plants?
Valve electric actuators contribute to process optimization by providing precise control over fluid flow. This level of control enhances the overall efficiency of manufacturing processes, ensuring consistent quality and minimizing wastage.
5.What measures are in place to ensure the cybersecurity of smart valve electric actuators?
As smart technologies become more prevalent, ensuring the cybersecurity of valve electric actuators is paramount. Manufacturers implement robust security measures, including encryption and authentication protocols, to safeguard against cyber threats and unauthorized access.