Valve block having a valve assembly

What is claimed is: 1. A valve assembly, comprising: a plurality of control valves, each control valve including a control piston configured to control a direction and speed of a respective consumer connected to the valve assembly, the control piston forming a metering orifice, and the plurality of control valves separated into a first subset of control valves and a second subset of control valves; a respective pressure compensator assigned to each control valve such that a pressure upstream of the metering orifice and a pressure downstream of the metering orifice of each control valve is signaled to the respective pressure compensator, each pressure compensator configured to regulate a pressure gradient at the metering orifice of the assigned control valve toward a constant value irrespective of a load of the respective consumer, and the pressure downstream of the metering orifice of each control valve registered, in each case, to the respective pressure compensator by a respective load-sensing flow path; a shuttle valve that includes an outlet connection, and that is configured to connect the respective load-sensing flow path of the first subset of control valves having a highest pressure to the outlet connection of the shuttle valve; a pressure-limiting valve disposed downstream of the outlet connection of the shuttle valve, and configured to limit the highest pressure of the load-sensing flow paths of the first subset of control valves, the second subset of control valves disposed downstream of the pressure-limiting valve such that the pressure limiting valve is disposed between the first subset and the second subset; and a restrictor disposed in a fluid connection parallel to the pressure-limiting valve. 2. The valve assembly according to claim 1 , further comprising a respective restrictor configured to register the pressure downstream of the metering orifice of each control valve. 3. The valve assembly according to claim 1 , wherein: the shuttle valve includes a plurality of shuttle valve units corresponding to the control valves in the first subset of control valves, each shuttle valve unit having a first inlet connection connected to the respective load sensing path of a corresponding control valve; the shuttle valve units are connected to each other to form a shuttle valve cascade, whereby a second inlet connection of each succeeding shuttle valve unit is connected to an outlet of a preceding shuttle valve unit; and the outlet of the last shuttle valve unit in the shuttle valve cascade forms the outlet connection of the shuttle valve, and is configured to connect to a variable-capacity pump configured to sense the highest pressure of the load-sensing flow paths of the first subset of control valves. 4. A valve block, comprising: a valve assembly including: a plurality of control valve disks, a first subset of the control valve disks forming a first block part and a second subset of the control valve disks forming a second block part downstream of the first block part, each control valve disk having: a respective control valve with a control piston configured to control a direction and speed of a respective consumer connected to the control valve disk, the control piston forming a metering orifice of the respective control valve; and a respective pressure compensator assigned to the respective control valve such that a pressure upstream of the metering orifice and a pressure downstream of the metering orifice of the respective control valve is signaled to the respective pressure compensator, each pressure compensator configured to regulate a pressure gradient at the metering orifice of the assigned control valve toward a constant value irrespective of a load of the respective consumer, and the pressure downstream of the metering orifice of the respective control valve registered, in each case, to the respective pressure compensator by a respective load-sensing flow path; a shuttle valve that includes an outlet connection, and that is configured to connect the respective load-sensing flow path of the control valve disks in the first block part having a highest pressure to the outlet connection of the shuttle valve; and a pressure limiting valve disk positioned between the first block part and the second block part; the pressure limiting valve disk having a pressure-limiting valve disposed downstream of the outlet connection of the shuttle valve, and configured to limit the highest pressure of the load-sensing flow paths of the control disks in the first block part. 5. The valve block according to claim 4 , further comprising a pump part connected to the second block part or the pressure-limiting valve disk. 6. The valve block according to claim 4 , further comprising an end piece connected to the first block part. 7. The valve block according to claim 4 , wherein the shuttle valve includes a plurality of shuttle valve units such that each control valve disk in the first block part includes a respective shuttle valve unit; the respective shuttle valve unit of each control valve disk in the first block part having a first inlet connection connected to the respective load-sensing flow path of the respective control valve, a second inlet connection connected to a respective first connection side of the control valve disk, and an outlet connection connected to a second connection side of the control valve disk. 8. The valve block according to claim 7 , further comprising: a pump part connected to the second block part or the pressure-limiting valve disk; wherein the pressure-limiting valve disk includes a passage extending between a first connection side of the pressure-limiting valve disk and a second connection side of the pressure-limiting valve disk and forming a fluid connection between (i) the outlet connection of the shuttle valve unit of an outer-most control valve disk of the control valve disks in the first block part and (ii) an adjacent control valve disk of the second block part or the pump part. 9. The valve block according to claim 4 , wherein each of the control valve disks are of identical configuration. 10. The valve block according to claim 4 , wherein the control valve disks and the pressure-limiting valve disk form a common inlet port, a common outlet port, a common control fluid inlet port, and a common control fluid outlet port. 11. The valve block according to claim 4 , wherein each of the control valve disks includes two working connections that are connected to the respective control valve via a feed port and a return port. 12. The valve assembly of claim 4 , wherein the pressure limiting valve disk further includes a restrictor disposed in a fluid connection parallel to the pressure-limiting valve. 13. The valve assembly of claim 4 , wherein each control valve disk further has a respective restrictor configured to register the pressure downstream of the metering orifice of the respective control valve. 14. A valve assembly, comprising: a plurality of control valve disks, each control valve disk configured to connect to a respective consumer and including: a control piston configured to control a direction and speed of the respective consumer; a pressure compensator configured to regulate a pressure gradient for the respective consumer toward a constant value irrespective of a load of the respective consumer; and a shuttle valve connected to the pressure compensator and configured such that, in a configuration whereat multiple control valve disks are positioned in a stack, the shuttle valve of a control valve disk at a bottom of the stack outputs a highest pressure of the pressure co