Valve systems and method for enhanced grading control
First Claim
Patent Images
1. A valve assembly, comprising:
- a first assembly inlet port;
a second assembly inlet port;
a first assembly outlet port;
a second assembly outlet port;
a first two-position first solenoid activated valve operationally connected between the first assembly inlet port and the second assembly inlet port, wherein when the first solenoid is energized, fluid may flow therethrough, and wherein when the first solenoid is unenergized fluid may not flow therethrough;
a second two-position second solenoid activated valve operationally connected between the first assembly inlet port and the first assembly outlet port, wherein when the second solenoid is unenergized, fluid may flow therethrough, and wherein when the second solenoid is energized fluid may not flow therethrough;
a third two-position third solenoid activated valve operationally connected between the second assembly inlet port and the second assembly outlet port, wherein when the third solenoid is unenergized, fluid may flow therethrough, and wherein when the third solenoid is energized fluid may not flow therethrough;
a first needle valve operationally connected between the first two-position first solenoid activated valve and the second assembly inlet port;
a three-position double solenoid activated valve having first and second respective valve inlet ports and first and second respective valve outlet ports, wherein the second valve inlet port is connected in fluidic communication with the second inlet port, the first needle valve, and the third two-position third solenoid activated valve, the first valve outlet port is connected in fluidic communication with the first assembly outlet port and the second two-position second solenoid activated valve, and wherein the second valve outlet port is connected in fluidic communication with the second assembly outlet port and the third two-position second solenoid activated valve; and
a second needle valve fluidically connected between the first two-position first solenoid activated valve and the first valve inlet port.
0 Assignments
0 Petitions
Accused Products
Abstract
A valve system, including first, second, third and fourth ports, a first flow path connecting the first and second ports, a second flow path connecting the third and fourth ports, with valves connected in the first and second flow paths, and energizable to block the same. A third flow path connects the first and second ports and a fourth flow path connects the third and fourth ports. The third and fourth flow paths are more restricted than the respective first and second flow paths. A fifth flow path connects the first and fourth ports and a sixth flow path connects the second and third ports. When the third and fourth flow paths are open, the first, second, fifth, and sixth flow paths are blocked. When the first and second flow paths are open, the third, fourth, fifth, and sixth flow paths are blocked. When the fifth and sixth flow paths are open, the first, second, third, and fourth, flow paths are blocked.
-
Citations
13 Claims
-
1. A valve assembly, comprising:
-
a first assembly inlet port; a second assembly inlet port; a first assembly outlet port; a second assembly outlet port; a first two-position first solenoid activated valve operationally connected between the first assembly inlet port and the second assembly inlet port, wherein when the first solenoid is energized, fluid may flow therethrough, and wherein when the first solenoid is unenergized fluid may not flow therethrough; a second two-position second solenoid activated valve operationally connected between the first assembly inlet port and the first assembly outlet port, wherein when the second solenoid is unenergized, fluid may flow therethrough, and wherein when the second solenoid is energized fluid may not flow therethrough; a third two-position third solenoid activated valve operationally connected between the second assembly inlet port and the second assembly outlet port, wherein when the third solenoid is unenergized, fluid may flow therethrough, and wherein when the third solenoid is energized fluid may not flow therethrough; a first needle valve operationally connected between the first two-position first solenoid activated valve and the second assembly inlet port; a three-position double solenoid activated valve having first and second respective valve inlet ports and first and second respective valve outlet ports, wherein the second valve inlet port is connected in fluidic communication with the second inlet port, the first needle valve, and the third two-position third solenoid activated valve, the first valve outlet port is connected in fluidic communication with the first assembly outlet port and the second two-position second solenoid activated valve, and wherein the second valve outlet port is connected in fluidic communication with the second assembly outlet port and the third two-position second solenoid activated valve; and a second needle valve fluidically connected between the first two-position first solenoid activated valve and the first valve inlet port. - View Dependent Claims (2, 3, 4, 9)
-
-
5. A digging machine, comprising:
-
a tractor portion; at least one boom arm portion operationally connected to the tractor portion; a bucket arm portion operationally connected to the at least one boom arm portion; a bucket portion operationally connected to the bucket arm portion; a boom hydraulic piston portion operationally connected to the at least one boom arm portion; a bucket hydraulic piston portion operationally connected to the bucket portion; a hydraulic fluid source operationally connected to each respective hydraulic piston portion; a valve system operationally connected to the hydraulic fluid source; and a hydraulic valve operationally connected to the boom hydraulic piston portion, the valve system, and to the hydraulic fluid source; a microprocessor; a display operationally connected to the microprocessor; and a first sensor operationally connected to the bucket portion and to the microprocessor; wherein each respective hydraulic piston portion has a respective first and a respective second hydraulic fluid port formed therethrough; wherein the hydraulic valve may be engaged to connect the respective first and second hydraulic fluid ports formed through the boom hydraulic piston portion in direct hydraulic communication with one another; wherein the microprocessor is operationally connected to the hydraulic fluid source, to the hydraulic valve, and to each respective hydraulic pistons; and wherein the microprocessor may be engaged to assist movement of the bucket portion through a predetermined digging profile; wherein the valve assembly further comprises; a first assembly inlet port; a second assembly inlet port; a first assembly outlet port; a second assembly outlet port; a first two-position first solenoid activated valve operationally connected between the first assembly inlet port and the second assembly inlet port, wherein when the first solenoid is energized, fluid may flow therethrough, and wherein when the first solenoid is unenergized fluid may not flow therethrough; a second two-position second solenoid activated valve operationally connected between the first assembly inlet port and the first assembly outlet port, wherein when the second solenoid is unenergized, fluid may flow therethrough, and wherein when the second solenoid is energized fluid may not flow therethrough; a third two-position third solenoid activated valve operationally connected between the second assembly inlet port and the second assembly outlet port, wherein when the third solenoid is unenergized, fluid may flow therethrough, and wherein when the third solenoid is energized fluid may not flow therethrough; a first needle valve operationally connected between the first two-position first solenoid activated valve and the second assembly inlet port; a three-position double solenoid activated valve having first and second respective valve inlet ports and first and second respective valve outlet ports, wherein the second valve inlet port is connected in fluidic communication with the second inlet port, the first needle valve, and the third two-position third solenoid activated valve, the first valve outlet port is connected in fluidic communication with the first assembly outlet port and the second two-position second solenoid activated valve, and wherein the second valve outlet port is connected in fluidic communication with the second assembly outlet port and the third two-position second solenoid activated valve; and a second needle valve fluidically connected between the first two-position first solenoid activated valve and the first valve inlet port; wherein first assembly inlet port is fluidically connected to a first node; wherein the first node is fluidically connected to a first first two-position solenoid valve port and is fluidically connected to a first second two-position solenoid valve port; wherein a second node is fluidically connected to the second assembly inlet port and is fluidically connected to a third node; wherein the third node is fluidically connected to a first third two-position solenoid valve port; wherein a second third two-position solenoid valve port is fluidically connected to a fourth node; wherein the fourth node is fluidically connected to the second assembly outlet port; wherein a fifth node is fluidically connected to the first assembly outlet port and to a second second two-position solenoid valve port; wherein a sixth node is fluidically connected to a second first two-position solenoid valve port; wherein the first needle valve is fluidically connected between the second and sixth nodes; wherein the second needle valve is fluidically connected between the sixth node and a first three-position double solenoid valve port; wherein the second three-position double solenoid valve port is fluidically connected to the third node; wherein a third three-position double solenoid valve port is fluidically connected to the fifth node; and wherein a fourth three-position double solenoid valve port is fluidically connected to the fourth node. - View Dependent Claims (6, 7, 8, 10)
-
-
11. A valve system, comprising:
-
a first port; a second port; a first flow path fluidically connecting the first and second ports; a third port; a fourth port; a second flow path fluidically connecting the third and fourth ports; a first valve fluidically connected in the first flow path and energizable to block the first flow path; a second valve fluidically connected in the second flow path and energizable to block the second flow path; a third flow path fluidically connecting the first and second port; a fourth flow path fluidically connecting the third and fourth ports; wherein the third and fourth flow paths are more restricted than the respective first and second flow paths; a fifth flow path fluidically connecting the first and fourth ports; a sixth flow path fluidically connecting the second and third ports; wherein when the third and fourth flow paths are open, the first, second, fifth, and sixth flow paths are blocked; wherein when the first and second flow paths are open, the third, fourth, fifth, and sixth flow paths are blocked; and wherein when the fifth and sixth flow paths are open, the first, second, third, and fourth, flow paths are blocked. - View Dependent Claims (12, 13)
-
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneePhilip Paull
-
Original AssigneePhilip Paull
-
InventorsPaull, Philip
-
Primary Examiner(s)Hartmann, Gary S
-
Application NumberUS15/485,319Publication NumberTime in Patent Office622 DaysField of Search37902US Class CurrentCPC Class CodesE02F 3/301 with more than two arms (bo...E02F 3/32 working downwardly and towa...E02F 3/3414 the arms being pivoted at t...E02F 3/3417 Buckets emptying by tilting...E02F 3/401 Buckets or forks comprising...E02F 3/422 Drive systems for bucket-ar...E02F 3/425 Drive systems for dipper-ar...E02F 3/431 for bucket-arms, front-end ...E02F 3/433 horizontal, e.g. self-level...E02F 3/434 providing automatic sequenc...E02F 3/435 for dipper-arms, backhoes o...E02F 3/436 for keeping the dipper in t...E02F 3/437 providing automatic sequenc...E02F 9/0875 Arrangement of valve arrang...E02F 9/2041 Automatic repositioning of ...E02F 9/2228 including an electronic con...E02F 9/2267 Valves or distributors posi...E02F 9/245 for preventing damage to un...E02F 9/262 with follow-up actions to c...E02F 9/265 with follow-up actions (e.g...View All
