Apollo™ APOLLOEXPRESS® 61LF50201 61LF-500, CVBE38LF Standard In-Line Ball Cone Check Valve, 3/8 in Nominal, FNPT End Style, 1.21 gpm Flow Rate, Lead Free Bronze Body, Domestic
CBPN: 247506
UPC:670750349393
MPN:61LF-502-01
DESCRIPTION
Apollo™ 61LF50201, In-Line Ball Cone Check Valve, Standard, Series: 61LF-500, 3/8 in Nominal, FNPT x FNPT End Style, 400 psi CWP Pressure, 350 deg F, Yes Low Lead Compliance, 1.21 gpm Flow Rate, Media: Liquid, Spring-Loaded Latch-Lock Handle Actuator, 2.12 in Inlet to Outlet Length, Bronze Body, Brass Trim, 1.12 in H Dimensions, Domestic
The Apollo™ CVB-LF (61LF Series) Ball Cone® check valves offer reliable protection against reverse flow and exceptional resistance to chemicals and corrosion using proven ASTM grade Lead Free* materials. They are well-suited for a broad range of applications, including saturated steam and chemical service. They may be installed in both horizontal and vertical orientation with upward flow.
Apollo™ APOLLOEXPRESS® 61LF50201 61LF-500, CVBE38LF Standard In-Line Ball Cone Check Valve, 3/8 in Nominal, FNPT End Style, 1.21 gpm Flow Rate, Lead Free Bronze Body, Domestic
CBPN: 247506
MPN:61LF-502-01
UPC:670750349393
DESCRIPTION
Apollo™ 61LF50201, In-Line Ball Cone Check Valve, Standard, Series: 61LF-500, 3/8 in Nominal, FNPT x FNPT End Style, 400 psi CWP Pressure, 350 deg F, Yes Low Lead Compliance, 1.21 gpm Flow Rate, Media: Liquid, Spring-Loaded Latch-Lock Handle Actuator, 2.12 in Inlet to Outlet Length, Bronze Body, Brass Trim, 1.12 in H Dimensions, Domestic
The Apollo™ CVB-LF (61LF Series) Ball Cone® check valves offer reliable protection against reverse flow and exceptional resistance to chemicals and corrosion using proven ASTM grade Lead Free* materials. They are well-suited for a broad range of applications, including saturated steam and chemical service. They may be installed in both horizontal and vertical orientation with upward flow.
Specifications
Item Features
- 1/2 psi standard spring cracking pressure
- Tight shut-off with liquid media
- Straight-through flow design efficiency
