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KAI WEI XI CHAN PIN FEN LEI

ZAZX Electric Three-way Diverging Control Valve
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Phone：+86（577）6730 7899
Mobile：+86 195 1816 9569
Fax：+86（577）6738 7099
Email：Lucas@kaiweixi.com
Address：No. 1, Linxia Road, Oubei Street, Yongjia County, Wenzhou City, Zhejiang Province,china
Website：https://www.kaiweixi.com

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ZAZX Electric Three-way Diverging Control Valve

Model：ZAZX-16C/ZAZX-25C/ZAZX-40C/ZAZX-64C/ZAZX-16P/ZAZX-25P/ZAZX-40P/ZAZX-64P//ZAZX-16R/ZAZX-25R/ZAZX-40R/ZAZX-64R
Specification：DN25-DN300
Temperature：-60~450℃
Medium：Common fluids, etc

Pressure：PN1.6、PN2.5、PN4.0、PN6.4
Connection method：flange
Driving method：Electric
Material：Cast Steel,Stainless Steel,Duplex Stainless Steel

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ZAZX Electric Three-way Diverging Control ValveOverview

ZAZX electric three-way diverging control valve is an industrial automation control valve composed of a linear electric actuator and a three-way diverging globe-style valve body. The valve receives standard analog signals of 4-20mA DC or 0-10V DC from control systems (such as PLC, DCS) to drive the valve stem, moving the diverging-type valve plug axially between two valve seats. Its unique "one-inlet and two-outlet" structural design is specifically used to distribute a single inlet fluid into two outlet streams in a set proportion or to divert fluid into a bypass system. In heat exchanger bypass control, industrial proportional distribution, and fluid switching conditions, one three-way diverging valve can effectively replace two single-seated control valves, which not only significantly simplifies process piping but also improves the accuracy and economy of system distribution adjustment.

Product Image:ZAZX Electric Three-way Diverging Control Valve

ZAZX Electric Three-way Diverging Control ValveCharacteristic

1.Precise diverging adjustment logic:The valve body features one inlet (Port C) and two outlets (Ports A and B). By driving the valve plug position change via the actuator, the flow area of the two outlets is adjusted synchronously to achieve precise proportional distribution of flow from 0% to 100%.
2.Pipeline layout optimization:The integrated three-way structure reduces pipeline welding points, elbows, and supports. The compact design lowers installation space requirements, significantly shortens construction cycles, and reduces material costs.
3.Powerful self-locking drive:Equipped with a high-performance electric actuator, featuring large output thrust, fast response speed, and excellent mechanical self-locking. No air supply system is required, simplifying energy matching and reducing maintenance intensity.
4.Anti-interference stability design:Targeting the turbulent characteristics generated in diverging conditions, the valve plug adopts an enhanced guiding structure. Its flow path is optimized via fluid dynamics to effectively suppress mechanical vibration and fluid noise during media distribution.
5.Linear proportional characteristics:The valve plug profile is precision-machined to ensure the sum of the two outlet flows remains relatively stable during adjustment. The flow distribution curve has excellent linearity, facilitating parameter tuning in closed-loop control systems.
6.Comprehensive intelligent protection:The actuator integrates electronic limit protection, overload torque protection, and thermal protection. It supports fail-safe functions such as fail-in-place or pre-set safety positions (e.g., maintaining distribution ratio) to ensure system safety under extreme conditions.
7.Material and environmental adaptability:Valve body materials are available in cast iron (HT200), cast steel (WCB), and stainless steel (CF8/CF8M). Internal parts support hardening treatments, widely adapting to hot water, thermal oil, and general chemical media.
8.Modular rapid maintenance:Adopting a top-pressed structural design. In-depth inspection and replacement of the actuator, valve plug, and seals can be completed from the top without removing the valve body, significantly reducing long-term operation and maintenance costs.

ZAZX Electric Three-way Diverging Control Valvestructure principle

Structural Drawing:ZAZX Electric Three-way Diverging Control Valve

List of Component Names and Materials

Name	Material
Valve body	Cast Steel,Stainless Steel,Duplex Stainless Steel
Valve cover	HT200, ZG230-450, ZG1Cr18Ni9Ti
Valve core	1Cr18Ni9Ti, Stellite alloy surfacing
Valve seat	1Cr18Ni9Ti, Stellite alloy surfacing
Push rod	2Cr13, 1Cr18Ni9Ti
Valve stem	2Cr13, 1Cr18Ni9Ti
Packing	PTFE, flexible graphite, stainless steel bellows
Gasket	Rubber asbestos board, 1Cr18Ni9Ti, graphite spiral wound gasket
Bushing	2Cr13

ZAZX Electric Three-way Diverging 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	-60-450				℃

ZAZX Electric Three-way Diverging 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

Drawing:ZAZX Electric Three-way Diverging Control Valve

Outline dimension table(Unit: mm)

Nominal Diameter(DN)			25	32	40	50	65	80	100	125	150	200	250	300
Flange Distance(L)		PN16	185	200	220	250	275	300	350	410	450	550	670	770
		PN40	190	200	220	255	285	310	360	430	465	560	690	795
		PN64	200	210	235	265	295	320	370	440	475	570	752	819
Standard Bonnet H1		PN16	805	821	843	878	989	1014	1016	1149	1210	1230	1980	2100
		PN40	805	821	843	878	989	1014	1016	1149	1210	1230	1980	2100
		PN64	825	841	863	898	1009	1034	1056	1179	1216	1300	2120	2460
Medium Temp Type Bonnet H1		PN16	1005	1021	1043	1078	1239	1264	1266	1469	1530	1550	2330	2450
		PN40	805	821	843	878	989	1014	1016	1149	1210	1230	2330	2450
		PN64	1025	1041	1063	1098	1259	1284	1306	1499	1526	1620	2370	2710
H2	PN16		140	150	160	180	200	222	220	270	280	306	474	584
	PN40		140	150	160	180	200	222	220	270	280	306
	PN64	diversion	160	170	180	200	220	242	260	300	322	376
	PN64	confluence	160	170	180	200	220	242	260	325	322	376
B			460				530						630
Flange Standard			GB：1.6、2.5、4.0、6.4Mpa ANSI：150、300、600Lb JIS：10K、20K、30K

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

ZAZX Electric Three-way Diverging Control Valve

More Electric Control Valve>>

More control valve>>

More valve>>

ZAZX Electric Three-way Diverging Control Valve