Items |
393224 Valves, Hose Break/Check List Price QUOTE
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710029 RB Series Hose Break Valve Cartridge Only List Price QUOTE
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480320 RB Series Hose Break Valve Cartridge Only List Price QUOTE
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480309 RB Series Hose Break Valve Cartridge Only List Price QUOTE
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710098 RB Series Hose Break Valve Cartridge Only List Price QUOTE
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Description |
N/A
HYDAC Hose Break Valves eliminate uncontrolled movements of the actuator in case of line rupture. They are commonly applied with dead weight cylinders. These valves are volume limiting flat seat valves. At normal flow, the poppet is held open by a spring with enough force to counteract the force on the poppet created by the flow. When the supply line is ruptured, the flow from 2 to 1 exceeds the specified flow rate, the P across the poppet creates a force greater than the spring force and closes the valve. |
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Type | N/A Hose Break Valve | |||||||||
Model Code Description | N/A RBE-R1/4 | N/A RBE-R3/4-X-150LPM (STD. SET) | N/A RBE-R3/4-X-30LPM | N/A RBE-R3/8-X-20LPM | N/A RBE-R3/8-X-28LPM | |||||
Style | N/A Cartridge | |||||||||
Weight | N/A | |||||||||
Housing Type | N/A Cartridge Only | |||||||||
Design | N/A Flat Seat Valve | |||||||||
Direction of Flow (1 to 2) | N/A Free Flow | |||||||||
Medium | N/A General Purpose Hydraulic Oil | |||||||||
Fluid Temperature | N/A -20 ºC-4 ºF | |||||||||
Fluid Temperature | N/A 80 ºC176 ºF | |||||||||
Cracking Pressure | N/A | |||||||||
Operating Pressure Ratings [Min] | N/A 10 bar145 psi | |||||||||
Operating Pressure Ratings [Max] | N/A 350 bar5000 psi | |||||||||
Closing Flow Rate [Min] | N/A | N/A 1.6 gpm6 L/min | N/A 1.6 gpm6 L/min | N/A 1 gpm4 L/min | N/A 1 gpm4 L/min | |||||
Closing Flow Rate [Max] | N/A | N/A 12 gpm45 L/min | N/A 12 gpm45 L/min | N/A 4 gpm15 L/min | N/A 4 gpm15 L/min | |||||
Direction of Flow (2 to 1) | N/A Free Flow; valve automatically closes if flow exceeds preset level | |||||||||
Dimensions C (Valve) | N/A | |||||||||
Dimensions D (Valve) | N/A | |||||||||
Dimensions E (Valve) | N/A | |||||||||
Dimensions F (Valve) | N/A | |||||||||
Diameter G (Valve) | N/A | |||||||||
Diameter H (Valve) | N/A | |||||||||
Diameter J (Valve) | N/A | |||||||||
Diameter K (Valve) | N/A | |||||||||
Diameter L (Valve) | N/A | |||||||||
Dimension Hex (Valve) | N/A | |||||||||
Dimension C (Housing) | N/A | N/A 1.375 in | N/A 1.375 in | N/A | N/A | |||||
Dimension D (Housing) | N/A | N/A 1.312 in | N/A 1.312 in | N/A | N/A | |||||
Dimension E (Housing) | N/A | N/A 1.69 in | N/A 1.69 in | N/A | N/A | |||||
Dimension F (Housing) | N/A | N/A 0.106 in | N/A 0.106 in | N/A | N/A | |||||
Dimension Hex (Housing) | N/A | |||||||||
Diameter G (Housing) | N/A | N/A 0.813 in | N/A 0.813 in | N/A | N/A | |||||
Diameter H (Housing) | N/A | N/A 3/4 in.-16UNF-2B | N/A 3/4 in.-16UNF-2B | N/A | N/A | |||||
Diameter J (Housing) | N/A | N/A 0.600 in | N/A 0.600 in | N/A | N/A | |||||
Diameter K Min (Housing) | N/A | N/A 0.422 in | N/A 0.422 in | N/A | N/A | |||||
Dimension L (Housing) | N/A | N/A 15 º | N/A 15 º | N/A | N/A | |||||
End Type | N/A | N/A Cartridge Only | N/A Cartridge Only | N/A Cartridge Only | N/A Cartridge Only | |||||
Connection Size | N/A 1/4 in. | N/A NPT 3/4 | N/A NPT 3/4 | N/A NPT 3/8 | N/A NPT 3/8 | |||||
Second End Type | N/A | |||||||||
Second End Size | N/A | |||||||||
BUn | N/A EA | |||||||||
Recommendations |
N/A
Hose break valves, type RBE must only be used to safeguard users in the event of hose breaks. They must not be used as switching valves for repeated closing actions. If closing actions occur during normal operation, the setting of the hose break valve is not suitable for the operating parameters of the system. The hose break valve must be replaced by a new one with a modified setting. In order to prevent hose break valves reacting to flow rate fluctuations inherent in the system, e.g. due to switching of directional valves, the actuating flow rate should be at least 20% above the normal maximum system flow rate. If high viscosity fluctuations occur, the valves must be set to a higher actuating flow rate to ensure trouble-free operation at high viscosity. However, the valves must still react at a low viscosity. Since this range depends largely on the system, whose operational flow rate fluctuations can also depend on viscosity, the appropriate setting for the valve is best determined on site. |
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Sizing Hose Break Valves |
N/A
In order for a hose break valve to work properly there must be a difference between the normal operating flow rate (from pump) and the emergency flow rate created by a hose or line break. The emergency flow rate must be significantly higher than the normal operating flow. Why? The hose break valve is designed to only be closed in an emergency situation. These valves should not be cycled (opened and closed) with the system. Cycling the valve and/or excessive vibrations will lead to premature failure of the valve components. How do you determine the emergency flow rate? You must perform a test with the actual system in a hose break simulation. This test should be run with the minimum load on the cylinder/lift to determine the minimum emergency flow rate for the system. To test, break the line open or open a directional valve and allow gravity to pull down the cylinder/lift. The flow rate measured during this test is the emergency flow rate. The hose break closing flow rate setting is adjustable and should be set to close at a flow rate between the normal flow rate and the emergency flow rate. The closing flow rate should be set at least 20% higher than the normal flow rate, and should be set at least 20% below the emergency flow rate. How do you set the closing flow rate for the valve? The gap between the poppet and the valve body is adjustable by means of the lock nut and adjustment nut on the end of the poppet. The larger the gap, the higher the closing flow rate for the valve. |
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Additional Information |
N/A
This closing flow rate is adjustable. The valve opens automatically by pressurizing connection1. Depending on the pressure P, the leakage rate through the valve is approximately 0 to 6 in 3 / min. If this is excessive, the valve threads can be sealed and made leak-free. The valves are installed between actuators and possible line breakage points. A cartridge-type valve can be installed into an actuator port. A housing-type valve can be installed close to the actuator or even directly into the actuator itself. |
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Core Products | N/A | |||||||||
Division | N/A | N/A ACCESSORIES | N/A | N/A ACCESSORIES | N/A ACCESSORIES | |||||
Product Group Family | N/A | N/A CARTRIDGE VALVES | N/A | N/A CARTRIDGE VALVES | N/A CARTRIDGE VALVES | |||||
Product | N/A | N/A FLOW CONTROL VALVES | N/A | N/A FLOW CONTROL VALVES | N/A FLOW CONTROL VALVES | |||||
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