Proportional Throttle Valve with Shut-Off Valve - Series TEA | Product Series

Filtrar por

    No hay ningún filtro seleccionado

Conexión del puerto

Función

Material de la junta

Voltaje de entrada

Opción del solenoide

Consiga su cuenta de Parker hoy mismo!

Cree una cuenta para gestionar todo lo que haga con Parker, desde sus preferencias de compra hasta su acceso a la aplicación.


LOADING IMAGES
Proportional Throttle Valve with Shut-Off Valve - Series TEA Proportional Throttle Valve with Shut-Off Valve - Series TEA Proportional Throttle Valve with Shut-Off Valve - Series TEA

Proportional Throttle Valve with Shut-Off Valve - Series TEA

Puntos de venta

With flow rates up to 9500 l/min and fast response times, proportional throttle valves series TEA are predestined for injection molding and die cast applications. The directional valve integrated in the pilot circuit provides the safety function.

Especificaciones técnicas

  • Serie del producto: Throttle valve
  • Tipo de operación: Pilot
  • Tipo de accionamiento: Proportional
  • Función: 2-way
  • Tipo de montaje: Slip-in cartridge
  • Posición de montaje: Unrestricted
  • Configuración: N/A
  • Presión de trabajo máxima: 350 bar
  • Presión mínima del piloto: > 25 % of system pressure
  • Índice de caudal máximo: Depending on size, 500 - 9500 L/min
  • Caudal: N/A
  • Dirección de flujo: A to B, B to A
  • Temperatura máxima de funcionamiento: 60 °C
  • Temperatura mínima de funcionamiento: -20 °C
  • Material de la junta: NBR, FPM
  • Para tipo de fluido: Hydraulic oil according to DIN 51524, Water Glycol
  • Peso: 7.5 to 85 kg Depending on Size
  • Material del cuerpo: Steel/Cast iron (cover)

Descripción completa del producto

Parker's proportional throttle valves in cartridge design with shut-off valve series TEA combine high flow and fast response times and thus provide high efficiency. These accumulator discharge valves are preferably used in hydraulic systems where high flow rates are discharged from hydraulic accumulators over a short operating period (in the range of milliseconds).

Typical applications are injection molding and die cast machines as well as hydraulic presses. Basically the function of an accumulator discharge valve corresponds to the function of a TDA throttle valve. In addition a directional valve is integrated in the pilot circuit to meet the relevant safety regulations.

Markets:
• Industrial
• Molding

Features/Benefits:
• Cavity and mounting pattern according to ISO 7368 - for quick, easy integration
• Maximum operating pressure up to 350 bar - suitable for demanding hydraulic applications
• High flow rates up to 9500 l/min - enables efficient operation
• Various sizes, NG25 - NG100 - allows extremely variable use
• Short delivery time for most sizes - no warehousing necessary

Applications:
• General presses
• Injection molding
• Die cast

Safety function:
The directional valve provides the safety function. When the solenoid is deenergized and the spring is in end position, pilot pressure from X presses the control piston into lower end position and the main poppet is closed. As a result the flow from B to A or from the reservoir system to the machine is blocked.

Documentos relacionados

Literature and Reference Materials
CATALOGUE - 2-Way Prop. Throttle Valve with Shut-Off Valve Series TEA
CATALOGUE - Hydraulic Valves Industrial Standard, Offline Version--MSG11-3500/UK
CATALOGUE - Hydraulic Valves Industrial Standard, Online Version--MSG11-3500/UK
General Instructions for Industrial Hydraulic Valves--MSG11-5715-735/UK
Proportional Throttle Valve with Shut-off Function Catalog - TEA Series (North America)
Compliance, Certifications & Safety
CERTIFICATES - DIN ISO 9001:2015 Certificate ISDE
CERTIFICATES - Position Paper ISDE 2006/42/EC and EN ISO 13849
Product Demos & Tutorials
PRODUCT VIDEO - Proportional Slip-in Valves
×
Ver catálogos
compartir / correo electrónico
Imprimir
Productos Conexión del puerto Función Material de la junta Voltaje de entrada Opción del solenoide
TEA032EW09A2NLWJ NG32 Flow direction from A to B NBR 6 VDC 24 V / 1.25 A
TEA032EW09A2NXWJ NG32 Flow direction from A to B NBR 16 VDC 24 V / 1.25 A
TEA032EW09B2NLWJ NG32 Flow direction from B to A NBR 6 VDC 24 V / 1.25 A
TEA032EW09B2NXWG NG32 Flow direction from B to A NBR 16 VDC 205 V / 0.15 A
TEA032EW09B2NXWJ NG32 Flow direction from B to A NBR 16 VDC 24 V / 1.25 A
TEA032EW09B2VXWJ NG32 Flow direction from B to A FPM 16 VDC 24 V / 1.25 A
TEA040EW09A2NLWJ NG40 Flow direction from A to B NBR 6 VDC 24 V / 1.25 A
TEA040EW09A2NXWJ NG40 Flow direction from A to B NBR 16 VDC 24 V / 1.25 A
TEA040EW09A2VXWJ NG40 Flow direction from A to B FPM 16 VDC 24 V / 1.25 A
TEA040EW09B2NLWJ NG40 Flow direction from B to A NBR 6 VDC 24 V / 1.25 A
TEA040EW09B2NXWJ NG40 Flow direction from B to A NBR 16 VDC 24 V / 1.25 A
TEA040EW09B2VLWJ NG40 Flow direction from B to A FPM 6 VDC 24 V / 1.25 A
TEA040EW09B2VXWJ NG40 Flow direction from B to A FPM 16 VDC 24 V / 1.25 A
TEA050EW09A2NLWJ NG50 Flow direction from A to B NBR 6 VDC 24 V / 1.25 A
TEA050EW09A2NXWJ NG50 Flow direction from A to B NBR 16 VDC 24 V / 1.25 A
TEA050EW09A2VXWJ NG50 Flow direction from A to B FPM 16 VDC 24 V / 1.25 A
TEA050EW09B2NLWJ NG50 Flow direction from B to A NBR 6 VDC 24 V / 1.25 A
TEA050EW09B2NLWU NG50 Flow direction from B to A NBR 6 VDC 98 V / 0.31 A
TEA050EW09B2NXWJ NG50 Flow direction from B to A NBR 16 VDC 24 V / 1.25 A
TEA050EW09B2VLWJ NG50 Flow direction from B to A FPM 6 VDC 24 V / 1.25 A
TEA050EW09B2VXWJ NG50 Flow direction from B to A FPM 16 VDC 24 V / 1.25 A
TEA063EW09A2NLWJ NG63 Flow direction from A to B NBR 6 VDC 24 V / 1.25 A
TEA063EW09A2VXWJ NG63 Flow direction from A to B FPM 16 VDC 24 V / 1.25 A
TEA063EW09B2NLWJ NG63 Flow direction from B to A NBR 6 VDC 24 V / 1.25 A
TEA063EW09B2NXWJ NG63 Flow direction from B to A NBR 16 VDC 24 V / 1.25 A
TEA063EW09B2VLWJ NG63 Flow direction from B to A FPM 6 VDC 24 V / 1.25 A
TEA063EW09B2VXWJ NG63 Flow direction from B to A FPM 16 VDC 24 V / 1.25 A
TEA080EW09A2NLWJ NG80 Flow direction from A to B NBR 6 VDC 24 V / 1.25 A
TEA080EW09A2NXWJ NG80 Flow direction from A to B NBR 16 VDC 24 V / 1.25 A
TEA080EW09B2NLWJ NG80 Flow direction from B to A NBR 6 VDC 24 V / 1.25 A
TEA080EW09B2NXWJ NG80 Flow direction from B to A NBR 16 VDC 24 V / 1.25 A
TEA100EW09A2NLWJ NG100 Flow direction from A to B NBR 6 VDC 24 V / 1.25 A
TEA100EW09A2NXWJ NG100 Flow direction from A to B NBR 16 VDC 24 V / 1.25 A
TEA100EW09B2NLWJ NG100 Flow direction from B to A NBR 6 VDC 24 V / 1.25 A
TEA100EW09B2NXWJ NG100 Flow direction from B to A NBR 16 VDC 24 V / 1.25 A
TEA025EW09A2NLWJ NG25 Flow direction from A to B NBR 6 VDC 24 V / 1.25 A
TEA025EW09B2NLWJ NG25 Flow direction from B to A NBR 6 VDC 24 V / 1.25 A
TEA063EW09A2NXWJ NG63 Flow direction from A to B NBR 16 VDC 24 V / 1.25 A
TEA025EW09A2NXWJ NG25 Flow direction from A to B NBR 16 VDC 24 V / 1.25 A
TEA040EW09B2NXWU NG40 Flow direction from B to A NBR 16 VDC 98 V / 0.31 A
TEA025EW09B2NXWJ NG25 Flow direction from B to A NBR 16 VDC 24 V / 1.25 A
Close [ x ]
Full Screen
687852
687478