US-12618485-B2 - Valves for controlling flow of pressurized fluid to a tool

Abstract

A valve is for controlling flow of a pressurized fluid to a tool. The valve has a manifold, a poppet biased into an unseated position in which the pressurized fluid may flow from the manifold via a tank outlet, a piston configured to move the poppet into a seated position when the pressurized fluid flows into the manifold via the manifold inlet at a first fluid pressure, and a check valve biased into a closed position in which the pressurized fluid is prevented from flowing from the manifold via the tool outlet. A retainer retains the poppet relative to the piston and is configured so that when the poppet is in the seated position, the piston is independently movable relative to the poppet and thus permits the poppet to remain in the seated position upon variations in fluid pressure in the manifold.

Inventors

• Nathaniel Olbrich
• Eric D. Norquist
• Arnold Decker

Assignees

• ENERPAC TOOL GROUP CORP.

Dates

Publication Date

20260505

Application Date

20241009

Claims (20)

1. 1 . A valve for controlling flow of a pressurized fluid to a tool, the valve comprising: a manifold having: a manifold inlet configured to receive the pressurized fluid from a source; a tool outlet configured to discharge the pressurized fluid to the tool; and a tank outlet configured to discharge the pressurized fluid to a tank; a poppet biased into an unseated position in which the pressurized fluid may flow from the manifold via the tank outlet, the poppet being movable into a seated position in which the pressurized fluid is prevented from flowing from the manifold via the tank outlet; a piston configured to move the poppet into the seated position when the pressurized fluid flows into the manifold via the manifold inlet at a first fluid pressure; and a check valve biased into a closed position in which the pressurized fluid is prevented from flowing from the manifold via the tool outlet, the check valve being movable into an open position in which the pressurized fluid may flow from the manifold via the tool outlet when the pressurized fluid flows into the manifold via the manifold inlet at a second fluid pressure which is greater than the first fluid pressure; wherein the piston and poppet are coupled together so that when the poppet is in the seated position, the piston is independently movable relative to the poppet so that the poppet may remain in the seated position upon variations in fluid pressure in the manifold.
2. 2 . The valve according to claim 1 , comprising a retainer configured to retain the poppet relative to the piston so that the poppet remains in the seated position upon said variations in fluid pressure in the manifold.
3. 3 . The valve according to claim 2 , wherein the retainer is disposed in or part of the piston.
4. 4 . The valve according to claim 2 , wherein the retainer is a separate piece from the piston and configured to move with the piston in the manifold upon said variations in fluid pressure in the manifold.
5. 5 . The valve according to claim 2 , wherein at least one of the retainer and the poppet define a gap which permits independent movement of the piston relative to the poppet.
6. 6 . The valve according to claim 2 , wherein the poppet comprises a flange which is slidable back and forth in a gap between the poppet and the retainer.
7. 7 . The valve according to claim 2 , wherein the poppet comprises a body having a first end configured, in the seated position, to seat in a seat on the manifold and a second end operably engaged with the retainer, wherein engagement between the first end and the seat forms a seal.
8. 8 . The valve according to claim 7 , wherein the retainer surrounds the second end of the poppet and further wherein a slot is defined between the retainer and the piston which permits movement of the piston relative to the poppet.
9. 9 . The valve according to claim 1 , comprising a piston spring biasing the poppet into the unseated position.
10. 10 . The valve according to claim 9 , wherein the piston spring biases the piston away from the poppet when the poppet is in the seated position.
11. 11 . The valve according to claim 10 , configured so that when the pressurized fluid flows into the manifold at the first fluid pressure, the piston is moved with the poppet as the poppet moves into the seated position.
12. 12 . The valve according to claim 10 , configured so that when the poppet is in the seated position and the pressurized fluid in the manifold is reduced below the first fluid pressure, the piston spring moves the piston back alongside the poppet and then into engagement with the poppet.
13. 13 . The valve according to claim 12 , comprising a flange and a slot which are movable relative to each other, the flange engaging opposite ends of the slot to engage the piston with the poppet.
14. 14 . The valve according to claim 1 , comprising a check valve spring biasing the check valve into the closed position.
15. 15 . The valve according to claim 1 , wherein the check valve comprises a ball valve.
16. 16 . The valve according to claim 1 , comprising a piston spring biasing the poppet into the unseated position, a check valve spring biasing the check valve into the closed position, wherein the piston spring and the check valve spring are coaxial.
17. 17 . The valve according to claim 16 , wherein the check valve spring is disposed in the poppet.
18. 18 . The valve according to claim 16 , wherein the check valve comprises a ball valve which in the closed position engages a seat in the piston.
19. 19 . The valve according to claim 1 , further comprising an orifice permitting leakage of the pressurized fluid from the manifold.
20. 20 . A valve for controlling flow of a pressurized fluid to a tool, the valve comprising: a manifold having: a manifold inlet configured to receive the pressurized fluid from a source; a tool outlet configured to discharge the pressurized fluid to the tool; and a tank outlet configured to discharge the pressurized fluid to a tank; a poppet biased into an unseated position in which the pressurized fluid may flow from the manifold via the tank outlet, the poppet being movable into a seated position closing the tank outlet so that the pressurized fluid is prevented from flowing from the manifold via the tank outlet; a piston configured to move the poppet into the seated position when the pressurized fluid flows into the manifold via the manifold inlet at a first fluid pressure, wherein the poppet extends into the piston; and a check valve on the poppet, the check valve being biased into a closed position closing the manifold inlet so that the pressurized fluid is prevented from flowing from the manifold via the tool outlet, the check valve being movable into an open position in which the pressurized fluid may flow from the manifold via the tool outlet when the pressurized fluid flows into the manifold via the manifold inlet at a second fluid pressure which is greater than the first fluid pressure; wherein the piston and poppet are coupled together so that when the poppet is in the seated position, the piston is independently movable relative to the poppet so that the poppet may remain in the seated position upon variations in fluid pressure in the manifold.

Description

CROSS REFERENCE TO RELATED APPLICATION This application claims benefit of priority to U.S. Provisional Application No. 63/617,445, filed Jan. 4, 2024, which is hereby incorporated by reference in entirety. FIELD The present disclosure relates to valves for controlling flow of pressurized fluid to a tool. BACKGROUND Prior art Electric Pump Pilot Operated Dump Valves are commercially available for purchase in association with the E-Series (E-Pulse) Pumps sold by Enerpac, models EP3104DB and EP3104DB-G (100-120 VAC-NEMA 5-15 plug), EP3104DI and EP3104DI-G (200-250 VAC-NEMA 6-15 plug) and EP3104DE and EP3104DE-G (200-250 VAC-Schuko CEE 7/7 plug). U.S. Pat Pub. 2017/0356438 is incorporated herein by reference and discloses a fluid pump system including a housing, a motor, a fan, and a fluid conduit. The housing includes a wall having a first end and a second end, and the housing defines a first axis extending between the first end and the second end. The wall extends at least partially around the first axis and at least partially encloses a chamber. The motor is at least partially positioned within the chamber. The fan is positioned proximate the first end, and the fan generates air flow through the chamber. The fluid conduit is configured to be in fluid communication with a fluid reservoir, and at least a portion of the fluid conduit is positioned within the chamber. U.S. Pat. Pub. 2023/0039274 is incorporated herein by reference and discloses a pump having a frame including a reservoir. The reservoir stores a hydraulic fluid. The pump may also include a motor assembly supported by the frame and a pump assembly operably driven by the motor assembly. The pump assembly is in fluid communication with the reservoir and configured to dispense the hydraulic fluid out of the frame. The pump assembly includes a first piston and a second piston, wherein the first piston dispenses hydraulic fluid out of the frame between a first pressure and a second pressure greater than the first pressure, and the second piston dispenses hydraulic fluid out of the frame between the first pressure and a third pressure, the third pressure being greater than the second pressure. SUMMARY This Summary is provided to introduce a selection of concepts which are further described herein below in the Detailed Description. This Summary is not intended to identify key or essential features of the claimed subject matter, nor is it intended to be used as an aid in limiting scope of the claimed subject matter. In non-limiting examples disclosed herein, a valve is provided controlling flow of a pressurized fluid to a tool. The valve comprises a manifold having a manifold inlet configured to receive the pressurized fluid from a source, a tool outlet configured to discharge the pressurized fluid to the tool, and a tank outlet configured to discharge the pressurized fluid to a tank. The valve further comprises a poppet biased into an unseated position in which the pressurized fluid may flow from the manifold via the tank outlet, the poppet being movable into a seated position in which the pressurized fluid is prevented from flowing from the manifold via the tank outlet. The valve further comprises a piston configured to move the poppet into the seated position when the pressurized fluid flows into the manifold via the manifold inlet at a first fluid pressure. The valve further comprises a check valve biased into a closed position in which the pressurized fluid is prevented from flowing from the manifold via the tool outlet, the check valve being movable into an open position in which the pressurized fluid may flow from the manifold via the tool outlet when the pressurized fluid flows into the manifold via the manifold inlet at a second fluid pressure which is greater than the first fluid pressure. The piston and poppet are coupled together so that when the poppet is in the seated position, the piston is independently movable relative to the poppet so that the poppet may remain in the seated position upon variations in fluid pressure in the manifold. In independent examples, the valve comprises a retainer configured to retain the poppet relative to the piston so that the poppet remains in the seated position upon said variations in fluid pressure in the manifold. The retainer may be disposed in or be part of the piston. The retainer may be a separate piece from the piston and configured to move with the piston in the manifold upon said variations in fluid pressure in the manifold. In independent examples, at least one of the retainer and the poppet define a gap which permits independent movement of the piston relative to the poppet. The poppet may comprise a flange which is slidable back and forth in a gap between the poppet and the retainer. The poppet may comprise a body having a first end configured, in the seated position, to seat in a seat on the manifold and a second end operably engaged with the retainer, wherein engagement between the first end a