A device configured to mechanically remove a fat phase from at least one adipose tissue includes a first pressing element and a second pressing element. Furthermore, a method for preparing a preparation including a fat-depleted adipose tissue, comprises mechanically removing a fat phase from at least one adipose tissue. In addition, there is provided a preparation including a fat-depleted adipose tissue, wherein the fat-depleted adipose tissue is prepared by mechanically removing a fat phase from at least one adipose tissue.

A device configured to mechanically remove a fat phase from at least one adipose tissue includes a first pressing element and a second pressing element. Furthermore, a method for preparing a preparation including a fat-depleted adipose tissue, comprises mechanically removing a fat phase from at least one adipose tissue. In addition, there is provided a preparation including a fat-depleted adipose tissue, wherein the fat-depleted adipose tissue is prepared by mechanically removing a fat phase from at least one adipose tissue.

A device configured to mechanically remove a fat phase from at least one adipose tissue includes a first pressing element and a second pressing element. Furthermore, a method for preparing a preparation including a fat-depleted adipose tissue, comprises mechanically removing a fat phase from at least one adipose tissue. In addition, there is provided a preparation including a fat-depleted adipose tissue, wherein the fat-depleted adipose tissue is prepared by mechanically removing a fat phase from at least one adipose tissue.

A device configured to mechanically remove a fat phase from at least one adipose tissue includes a first pressing element and a second pressing element. Furthermore, a method for preparing a preparation including a fat-depleted adipose tissue, comprises mechanically removing a fat phase from at least one adipose tissue. In addition, there is provided a preparation including a fat-depleted adipose tissue, wherein the fat-depleted adipose tissue is prepared by mechanically removing a fat phase from at least one adipose tissue.

A hydraulic press includes a press assembly moveable in relation to a support assembly by actuation of an actuator to provide a compressive force between the top platen and the bottom platen. The press assembly includes a top platen, a counter balance, and at least one platen guide rod interconnected between the top platen and the counter balance. The support assembly includes a bottom platen, a base frame, and at least one counter balance guide rod interconnected between the bottom platen and the base frame. The actuator is mounted between the bottom plate and the counter balance. The actuator is interchangeable with another actuator to change the compressive force of the hydraulic press.

A hydraulic press includes a press assembly moveable in relation to a support assembly by actuation of an actuator to provide a compressive force between the top platen and the bottom platen. The press assembly includes a top platen, a counter balance, and at least one platen guide rod interconnected between the top platen and the counter balance. The support assembly includes a bottom platen, a base frame, and at least one counter balance guide rod interconnected between the bottom platen and the base frame. The actuator is mounted between the bottom plate and the counter balance. The actuator is interchangeable with another actuator to change the compressive force of the hydraulic press.

A high-speed hydraulic forging press is disclosed. The high-speed hydraulic forging press includes a forging hammer, a movable beam, a main hydraulic cylinder, a single-rod elevation hydraulic cylinder, a plurality of main hydraulic pumps, a high-pressure energy accumulator, an intermediate-pressure energy accumulator, an oil tank, a programmable logic controller and a valve-regulation system. During a rolling process, when a rolling resistance applied to the forging hammer increases to cause pressure in the main hydraulic cylinder to reach a predetermined value, the programmable logic controller controls the valve-regulation system so that the high-pressure energy accumulator stops supplying the hydraulic oil to the main hydraulic cylinder, and that the hydraulic oil in the main hydraulic cylinder is supplied by at least one of the plurality of main hydraulic pumps. The high-speed hydraulic forging press exhibits remarkable advantages including a reasonable resource allocation, a simple structure, low equipment investment, and high energy utilization.

A high-speed hydraulic forging press is disclosed. The high-speed hydraulic forging press includes a forging hammer, a movable beam, a main hydraulic cylinder, a single-rod elevation hydraulic cylinder, a plurality of main hydraulic pumps, a high-pressure energy accumulator, an intermediate-pressure energy accumulator, an oil tank, a programmable logic controller and a valve-regulation system. During a rolling process, when a rolling resistance applied to the forging hammer increases to cause pressure in the main hydraulic cylinder to reach a predetermined value, the programmable logic controller controls the valve-regulation system so that the high-pressure energy accumulator stops supplying the hydraulic oil to the main hydraulic cylinder, and that the hydraulic oil in the main hydraulic cylinder is supplied by at least one of the plurality of main hydraulic pumps. The high-speed hydraulic forging press exhibits remarkable advantages including a reasonable resource allocation, a simple structure, low equipment investment, and high energy utilization.

In a hydraulic drive of a tool piston in a cylinder first and second flat contact areas each are contiguous, when moving into and in the open position of the valve member between the detent element and the valve member, wherein a pressure-limiting valve that can be loaded with the pressure in the cylinder from a closed position to an open position and a detent element loaded by a spring in the locking direction to positively hold a neck of a valve member of the pressure-limiting valve are arranged in the open position, wherein the detent element at least via the tool piston at its return to a released position can be moved and, when moving the valve member to the open position of the pressure-limiting valve, non-positively acts on the valve member.

In a hydraulic drive of a tool piston in a cylinder first and second flat contact areas each are contiguous, when moving into and in the open position of the valve member between the detent element and the valve member, wherein a pressure-limiting valve that can be loaded with the pressure in the cylinder from a closed position to an open position and a detent element loaded by a spring in the locking direction to positively hold a neck of a valve member of the pressure-limiting valve are arranged in the open position, wherein the detent element at least via the tool piston at its return to a released position can be moved and, when moving the valve member to the open position of the pressure-limiting valve, non-positively acts on the valve member.