Hydraulic apparatus and hydraulic appliance usable therein

What is claimed is: 1. A hydraulic apparatus structured to manage supplying of hydraulic fluid to a device, the hydraulic apparatus comprising: a first control leg structured to be connected in fluid communication with the device; a second control leg structured to be connected in fluid communication with the device; a check valve that is connected in fluid communication between the first control leg and the second control leg, the check valve resisting hydraulic fluid flow in a direction from the first control leg toward the second control leg and permitting hydraulic fluid flow in a direction from the second control leg toward the first control leg; a bypass apparatus that is connected in fluid communication between the first control leg and the second control leg and that is connected in parallel with the check valve, the bypass apparatus being operable between a first state and a second state, the bypass apparatus in the first state resisting hydraulic fluid flow between the first and second control legs, the bypass apparatus in the second state permitting hydraulic fluid flow between the first and second control legs; a number of first valves connected in fluid communication with the first control leg, the number of first valves further being connected in fluid communication with a supply of hydraulic fluid that is at a first pressure and with a drain that is at a second pressure, the first pressure being greater than the second pressure, the number of first valves being operable between a first state and a second state; in the first state of the number of first valves and the first state of the bypass apparatus: the first control leg being in fluid communication with the supply; in the second state of the number of first valves and the first state of the bypass apparatus: the first control leg being in fluid communication with the drain, and the second control leg via the check valve being in fluid communication with the drain; in the first state of the number of first valves and the second state of the bypass apparatus: the first control leg being in fluid communication with the supply and being in fluid communication with the second control leg via the bypass apparatus; in the second state of the number of first valves and the second state of the bypass apparatus the first control leg being in fluid communication with the drain, and the second control leg via the check valve and the bypass apparatus being in fluid id communication with the drain; a number of second valves connected in fluid communication with the second control leg, the supply, and the drain, the number of second valves being operable between a first state and a second state; in the first state of the number of second valves and the first state of the bypass apparatus: the second control leg being in fluid communication with the supply; in the second state of the number of second valves and the first state of the bypass apparatus: the second control leg being in fluid communication with the drain; in the first state of the number of second valves and the second state of the bypass apparatus: the second control leg being in fluid communication with the supply and being in fluid communication with the first control leg via the bypass apparatus; in the second state of the number of second valves when the bypass apparatus is in the second state: the second control leg being in fluid communication with the drain, and the first control leg being in fluid communication via the bypass apparatus with the drain. 2. The hydraulic apparatus of claim 1 wherein the bypass apparatus comprises a number of poppet logic valves. 3. The hydraulic apparatus of claim 2 wherein the bypass apparatus further comprises a number of solenoid valves that are in fluid communication with the number of poppet logic valves. 4. A hydraulic appliance usable in a hydraulic apparatus that is structured to manage supplying of hydraulic fluid to a device, the hydraulic apparatus including a first control leg structured to be connected in fluid communication with the device, a second control leg structured to be connected in fluid communication with the device, a number of first valves connected in fluid communication with the first control leg, the number of first valves further being connected in fluid communication with a supply of hydraulic fluid that is at a first pressure and with a drain that is at a second pressure, the first pressure being greater than the second pressure, the number of first valves being operable between a first state and a second state, in the first state of the number of first valves and the first state of the bypass apparatus, the first control leg being in fluid communication with the supply; in the second state of the number of first valves and the first state of the bypass apparatus, the first control leg being in fluid communication with the drain, and the second control leg via the check valve being in fluid communication with the drain; in the first state of the number of first valves and the second state of the bypass apparatus, the first control leg being in fluid communication with the supply and being in fluid communication with the second control leg via the bypass apparatus; in the second state of the number of first valves and the second state of the bypass apparatus, the first control leg being in fluid communication with the drain, and the second control leg via the check valve and the bypass apparatus being in fluid communication with the drain; a number of second valves connected in fluid communication with the second control leg, the supply, and the drain, the number of second valves being operable between a first state and a second state, in the first state of the number of second valves and the first state of the bypass apparatus, the second control leg being in fluid communication with the supply; in the second state of the number of second valves and the first state of the bypass apparatus, the second control leg being in fluid communication with the drain; in the first state of the number of second valves and the second state of the bypass apparatus, the second control leg being in fluid communication with the supply and being in fluid communication with the first control leg via the bypass apparatus; in the second state of the number of second valves when the bypass apparatus is in the second state, the second control leg being in fluid communication with the drain, and the first control leg being in fluid communication via the bypass apparatus with the drain, the hydraulic appliance comprising: a check valve that is structured to be connected in fluid communication between the first control leg and the second control leg, the check valve resisting hydraulic fluid flow in a direction from the first control leg toward the second control leg and permitting hydraulic fluid flow in a direction from the second control leg toward the first control leg; and a bypass apparatus that is structured to be connected in fluid communication between the first control leg and the second control leg and that is connected in parallel with the check valve, the bypass apparatus being operable between a first state and a second state, the bypass apparatus in the first state resisting hydraulic fluid flow between the first and second control legs, the bypass apparatus in the second state permitting hydraulic fluid flow between the first and second control legs.