Abstract: In the case of a method and an apparatus, three-dimensional objects (16) can be produced from a solidifiable material by the sequential discharging of discontinuous drops (15). To this end, the solidifiable material is plasticized in the fluid phase and is introduced into a material store (12) having at least one discharging unit (13) which can be clocked. From there, the material is discharged in a dropwise manner by means of a discharging unit (13) in the direction of an object carrier (14) for an object (16), wherein the object carrier (14) and an outlet opening can be moved at a relative spacing in relation to one another in space in order to influence the drop shape. The creation of the drops is supported by changing the relative spacing in an alternating manner in opposite directions during the discharging of the drops from the discharging unit (13) and during the application of the drops to the three-dimensional object (16) during the production of the object.

Abstract: An injection-molding machine for processing plastics has, on a mold-closing unit (F), at least one injection mold (10) which can be accommodated between a stationary mold carrier (12) and a movable mold carrier (11). The mold carriers are moved by means of at least one pair of toggle levers with two toggle lever mechanisms (K), which are driven in a closing direction (s-s) independently of one another each by a drive unit (A), wherein the toggle lever mechanisms (K) are mounted on a bearing plate (14). Since the bearing plate (14) is mounted on the injection-molding machine such that it can move along guides (28), and the drive units (A) are mounted on the movable bearing plate (14) on which the actuating elements for the at least two toggle lever mechanisms (K) are mounted, it is possible to influence the parallelism of the mold carriers both in the static and in the dynamic state.

Abstract: The invention relates to an injection molding unit for an injection molding machine for processing plastics, comprising an electro-mechanical dosing motor (D) for rotating a worm conveyor (11) during dosing of the plasticizable material, and an electro-mechanical injection motor (E) for the axial movement of the worm conveyor (11) relative to a plasticization unit (10). The injection motor (E) comprises a spindle drive having a spindle (16). The axes of the dosing motor (D) and of the injection motor (E) are aligned with one another. Due to the spindle (16) of the injection motor (E) being rigidly connected to the rotor (12) of the dosing motor (D) and due to the fact that the dosing motor (D) can be blocked by a braking means in a direction of rotation, an alternative compact, energy-saving injection molding unit is created.

Abstract: An injection-moulding machine for processing plastics has, on a mould-closing unit (F), at least one injection mould (10) which can be accommodated between a stationary mould carrier (12) and a movable mould carrier (11). The mould carriers are moved by means of at least one pair of toggle levers with two toggle lever mechanisms (K), which are driven in a closing direction (s-s) independently of one another each by a drive unit (A), wherein the toggle lever mechanisms (K) are mounted on a bearing plate (14). Since the bearing plate (14) is mounted on the injection-moulding machine such that it can move along guides (28), and the drive units (A) are mounted on the movable bearing plate (14) on which the actuating elements for the at least two toggle lever mechanisms (K) are mounted, it is possible to influence the parallelism of the mould carriers both in the static and in the dynamic state.

Abstract: In the case of a method and an apparatus, three-dimensional objects (16) can be produced from a solidifiable material by the sequential discharging of discontinuous drops (15). To this end, the solidifiable material is plasticized in the fluid phase and is introduced into a material store (12) having at least one discharging unit (13) which can be clocked. From there, the material is discharged in a dropwise manner by means of a discharging unit (13) in the direction of an object carrier (14) for an object (16), wherein the object carrier (14) and an outlet opening can be moved at a relative spacing in relation to one another in space in order to influence the drop shape. The creation of the drops is supported by changing the relative spacing in an alternating manner in opposite directions during the discharging of the drops from the discharging unit (13) and during the application of the drops to the three-dimensional object (16) during the production of the object.

Abstract: A device for the production of a three-dimensional object made of solidifiable material having at least one processing unit (11) for the processing of the solidifiable material into a liquid phase to discharge the material from a material reservoir (12) via a discharge unit (13) in the direction of a construction space (17) in the form of intermittent drops (15). The conditions required for this can be satisfied (FIG. 2) via the closing mechanism featuring a plastic malleable solid body joint (24).

Abstract: The invention relates to a mold clamping unit on a plastic injection molding machine, the unit having a clamping mechanism for opening and closing an injection mold, the mechanism having a servo motor as the drive motor (21). The drive motor drives at least one spindle drive (10) which has a spindle nut (12) and spindle which work together on a bearing position (14). A cooling system with cooling channels (25) is provided for removing heat from the clamping mechanism. A more efficient cooling of the spindle drive is achieved in that the cooling channels (25) penetrate the bearing position (14) of the spindle drive (10) and/or one of the cooling plates (23) assigned to the bearing position.

Abstract: A device for the production of a three-dimensional object made of solidifiable material has at least one processing unit for processing of the solidifiable material into a fluid phase in order to discharge the material from a material reservoir via a discharge unit in the direction of a construction space in the form of discrete drops. The closing mechanism has an elastic deformable solid body joint.

Abstract: The invention relates to an injection molding unit for an injection molding machine for processing plastics, comprising an electro-mechanical dosing motor (D) for rotating a worm conveyor (11) during dosing of the plasticizable material, and an electro-mechanical injection motor (E) for the axial movement of the worm conveyor (11) relative to a plasticization unit (10). The injection motor (E) comprises a spindle drive having a spindle (16). The axes of the dosing motor (D) and of the injection motor (E) are aligned with one another. Due to the spindle (16) of the injection motor (E) being rigidly connected to the rotor (12) of the dosing motor (D) and due to the fact that the dosing motor (D) can be blocked by a braking means in a direction of rotation, an alternative compact, energy-saving injection molding unit is created.

Abstract: The invention relates to a mold clamping unit on a plastic injection molding machine, the unit having a clamping mechanism for opening and closing an injection mold, the mechanism having a servo motor as the drive motor (21). The drive motor drives at least one spindle drive (10) which has a spindle nut (12) and spindle which work together on a bearing position (14). A cooling system with cooling channels (25) is provided for removing heat from the clamping mechanism. A more efficient cooling of the spindle drive is achieved in that the cooling channels (25) penetrate the bearing position (14) of the spindle drive (10) and/or one of the cooling plates (23) assigned to the bearing position.