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KAI WEI XI CHAN PIN FEN LEI

CV3000-HCN Low Noise Cage Guided Control Valve
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Address：No. 1, Linxia Road, Oubei Street, Yongjia County, Wenzhou City, Zhejiang Province,china
Website：https://www.kaiweixi.com

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CV3000-HCN Low Noise Cage Guided Control Valve

Model：CV3000HCN-16C/CV3000HCN-25C/CV3000HCN-40C/CV3000HCN-64C/CV3000HCN-16P/CV3000HCN-25P/CV3000HCN-40P/CV3000HCN-64P/CV3000HCN-16R/CV3000HCN-25R/CV3000HCN-40R/CV3000HCN-64R
Specification：DN10~200
Temperature：-40~450℃
Medium：Common fluids, gas phase media, light oils, low-pressure steam, corrosive fluids

Pressure：PN16、PN25、PN40、PN64
Connection method：Flange
Driving method：Pneumatic
Material：Cast Steel, Stainless Steel, Duplex Stainless Steel

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CV3000-HCN Low Noise Cage Guided Control ValveOverview

The CV3000-HCN low-noise cage-guided control valve is an intelligent control unit specifically engineered for modern industrial processes involving high differential pressures, high flow velocities, and stringent environmental noise requirements. This valve combines a high-performance actuator with a pressure-balanced body equipped with a specialized multi-hole silencing cage. Its core technology involves dividing the medium fluid into a large number of micro-jets through a perforated throttling cage, effectively suppressing hydrodynamic and aerodynamic noise by utilizing fluid dispersion and step-by-step kinetic energy dissipation. Compared to standard cage valves, the CV3000-HCN significantly reduces operating decibels and prevents cavitation damage. The valve receives standard analog signals from DCS or PLC systems to achieve precise proportional regulation of steam, gas, or high-pressure water, making it an ideal execution device for silent control and high-reliability operation in power, petroleum, chemical, and urban heating systems.

Product Image of CV3000-HCN Low Noise Cage Guided Control Valve

CV3000-HCN Low Noise Cage Guided Control ValveCharacteristic

1.Exceptional noise and vibration reduction:Utilizes a specially designed silencing cage to alter the frequency characteristics of the fluid via small-hole throttling technology. Under typical high pressure drop conditions, it can reduce noise by 15-25 decibels while effectively minimizing valve body vibration caused by fluid impact.
2.Pressure-balanced plug structure:The plug features precision balance holes that utilize the medium's own pressure to offset most of the unbalanced force acting on the plug. This design significantly reduces the thrust required from the actuator, allowing low-power drives to achieve stable control over high-pressure fluids.
3.Superior anti-cavitation protection:The multi-hole throttling structure guides the fluid pressure to recover slowly within the cage windows, thereby inhibiting the occurrence of cavitation. This greatly protects internal sealing surfaces from cavitation erosion and significantly extends the valve's service life under harsh pressure differentials.
4.High-precision linear regulation:The shape of the throttling windows is designed through computer-aided fluid simulation to ensure the flow characteristic curve strictly conforms to linear or equal percentage requirements. High positioning resolution and minimal dead zones ensure process parameters remain stable with minimal fluctuation around the set point.
5.Full-stroke precision cage guiding:The large-area side-guiding design ensures the plug remains precisely aligned axially throughout its entire stroke. This robust guiding mechanism effectively resists mechanical stress and turbulent interference, ensuring long-term dynamic stability.
6.Excellent material durability and resistance:Valve bodies and key internals are available in high-strength carbon steel, stainless steel, and wear-resistant alloy steel. Sealing surfaces are typically hard-faced with Stellite or nitrided to ensure excellent sealing integrity in abrasive media such as high-temperature and high-pressure steam.
7.Intelligent control and protection:Equipped with an intelligent actuator with a built-in high-precision servo system. It supports auto-calibration, self-diagnosis, and various fail-safe logic. Comprehensive electrical protection functions facilitate integration into highly automated Industrial IoT control systems.
8.Convenient modular maintenance:Adopts a top-entry assembly structure. During maintenance, the internal cage and plug assembly can be quickly inspected or replaced by vertically extracting the actuator and bonnet without removing the valve body from the pipeline, significantly shortening O&M time.

CV3000-HCN Low Noise Cage Guided Control Valvestructure principle

Structural Drawing of CV3000-HCN Low Noise Cage Guided Control Valve

List of Component Names and Materials

Valve Body Material：Cast Steel (WCB), Stainless Steel (304, 316, 316L)

Packing：V-type PTFE packing, PTFE impregnated asbestos packing, Woven asbestos packing, Graphite packing

CV3000-HCN Low Noise Cage Guided Control Valvetechnology parameter

Performance Specification Sheet

Performance Specification Sheet
Nominal Pressure	1.6	2.5	4.0	6.4	MPa
Strength test pressure	2.4	3.8	6.0	9.6
Sealing test pressure	1.76	2.8	4.4	7.04
Applicable Temperature	-40-450				℃

CV3000-HCN Low Noise Cage Guided Control Valvestandard size

Standard requirements for external dimensions

1. The structural length of the valve shall comply with the standard of GB/T12221

2. Connecting flanges according to GB/T17241.6 standard

Outline Drawing of CV3000-HCN Low Noise Cage Guided Control Valve

Outline dimension table

Nominal Diameter (mm)		10	12	15	20	25	32	40	50	65	80	100	125	150	200
Rated Flow CoefficientCv	Equal Percentage	1.6	2.5	4.0	6.3	10	16	25	40	63	100	160	250	400	630
Rated Flow CoefficientCv	Linear	1.8	2.8	4.4	6.9	11	17.6	27.5	44	69	110	176	275	440	690

Articles related to technology research and development

Dynamic balance electric control valve Patent

The utility model provides a dynamically balanced electric regulating valve, which includes a valve body, a valve cover, a valve rod, a valve core installed inside the valve body and connected to the valve rod, and an actuator installed on the valve cover and connected to the top end of the valve rod. The valve body is internally provided with a water inlet chamber, a valve cavity, and a water outlet chamber in order towards the direction of medium flow. The valve core is in the shape of a bucket with its opening facing downwards. The valve core is located inside the valve cavity and is used for connecting or cutting off between the water inlet chamber and the valve cavity. The top of the valve core is provided with a through port for medium circulation. Above the through port, there is a filter cover detachably connected to the valve core. The valve rod is provided with a step, and the outside of the step is covered with an elastic sleeve that fits it. The top of the filter cover is provided with a fixing hole that fits the elastic sleeve. This utility model can filter the medium, is simple to install, time-saving, labor-saving, and can reduce the medium pressure inside the valve body, extending the service life of the valve core.
1. A dynamic balance electric regulating valve, comprising a valve body, a valve cover, a valve rod, a valve core installed inside the valve body and connected to the valve rod, and an actuator installed on the valve cover and connected to the top end of the valve rod. Its characteristic lies in that the valve body is sequentially provided with an inlet chamber, a valve cavity, and an outlet chamber in the direction of medium flow. The valve core is in the shape of a bucket with an opening facing downwards. The valve core is located inside the valve cavity and is used for connecting or cutting off between the inlet chamber and the valve cavity. The top of the valve core is provided with a port for medium circulation. Above the port, there is a filter cover detachably connected to the valve core. The valve rod is provided with a step, and the outside of the step is covered with an elastic sleeve that fits it. The top of the filter cover is provided with a fixing hole that fits the elastic sleeve.
2. A dynamic balance electric regulating valve according to claim 1, characterized in that the bottom of the valve body is provided with a downward-opening groove, which is connected to the valve cavity through a through hole. A bottom cover connected to the valve body is arranged below the groove, and a pressure relief mechanism is arranged inside the groove. The pressure relief mechanism comprises a force-receiving member, a pressure plate connected to the force-receiving member, and a first spring arranged below the pressure plate and abutting against the bottom cover. The force-receiving member comprises a flow diversion block protruding from the through hole and a connecting rod connected to the flow diversion block, and the connecting rod passes through the pressure plate and is locked and fixed by a nut.
3. A dynamic balance electric regulating valve according to claim 2, characterized in that the top end of the pressure plate is pressed against the top wall of the groove, the bottom of the pressure plate is provided with a boss, and the top end of the first spring is sleeved on the boss.
4. A dynamic balance electric control valve according to claim 1, characterized in that the valve rod is arranged through the valve cover, a sealing cover threadedly connected to the valve cover is sleeved on the valve rod, a convex ring abutting against the valve cover is arranged on the outer circumferential wall of the sealing cover, a nut cover threadedly connected to the sealing cover is arranged at the connection between the sealing cover and the valve rod, an installation groove is arranged at the connection between the nut cover and the valve rod, a plurality of O-rings adapted to the valve rod are stacked in the installation groove, and a packing gland threadedly connected to the installation groove is arranged above the O-rings.
5. A dynamic balance electric control valve according to claim 4, characterized in that a second spring is arranged between the packing gland and the O-ring.
6. A dynamic balance electric control valve according to claim 5, characterized in that a sealing ring adapted to the valve rod is arranged inside the nut cover below the installation groove.
7. A dynamic balance electric control valve according to claim 6, characterized in that the bottom of the sealing cover is provided with a thrust ring that is threadedly connected to the sealing cover and abuts against the bottom end of the valve cover.
8. A dynamic balance electric regulating valve according to claim 1, characterized in that the top surface of the elastic sleeve is higher than the top surface of the filter cover.
9. A dynamic balance electric control valve according to claim 8, characterized in that the filter cover is connected to the valve core through threads.

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Product classification of Kaiweixi

KAI WEI XI CHAN PIN FEN LEI

CV3000-HCN Low Noise Cage Guided Control Valve

More Pneumatic Control Valve>>

More control valve>>

More valve>>

CV3000-HCN Low Noise Cage Guided Control Valve