Molding machine

Details Molding machine Molding machine

2002-01-14

2004-05-25

Mackey, James P. (Department: 1722)

Plastic article or earthenware shaping or treating: apparatus

Female mold and charger to supply fluent stock under...

With means to close mold

C425S451200, C425S451700, C425S590000, C425S595000

Reexamination Certificate

active

06739864

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a molding machine formed as a press for the production or reshaping of pressings or as an injection molding machine for the injection molding of plastics and having a mold space between two mold carriers, wherein one of the mold carriers is movable relative to the other by a drive.
2. Description of the Related Art
An injection molding machine conventionally comprises two mold halves which are fixed to mold mounting plates and have to be pressed toward one another with great force during the injection of the current molding composition into the mold cavity to ensure that the injected material does not escape through area where the two mold mounting plates are joined. Conventionally, one of the two mold mounting plates is rigidly connected to a machine frame, while the second mold mounting plate is linearly displaceable for the purpose of unmolding each injection molding produced. Therefore, a system such as , for example, a hydraulic cylinder-and-piston system is provided to effect the displacement of the movable mold mounting plate and apply the necessary closure force. Instead of a hydraulic cylinder-and-piston system, the displacement system of the movable mold mounting plate may also be effected by an electromechanical drive.
A plastics injection molding machine is disclosed in EP 0 626 245 A2 in which a flexurally stiff shackle formed in the shape of a recumbent C engages on the back of the fixed mold mounting plate and is guided to the other side of the machine frame of the injection molding machine, the movable mold mounting plate being disposed within the space encompassed by the C-shaped shackle. Disposed between the movable mold mounting plate and the end of the C-shaped shackle which lies opposite the stationary mold mounting plate is a toggle which is selectively actuated via a spindle drive moved by an electric motor. The movable mold mounting plate is retracted (i.e., moved to the open position) by folding the toggle and brought into the closed position by extending the toggle. The closing force here is applied via actuation of the electric motor spindle drive.
An injection molding machine is disclosed in DE 196 43 366 A1 whose mold closing device is likewise actuated by a toggle system driven by an electric motor. A first connecting rod of the toggle system is pivotably connected to a stationary mold mounting plate and a second connecting rod is connected to the movable mold mounting plate. In one embodiment, one of the two connecting rods of the toggle system, which is provided as pair of rods, is formed as a C-shaped shackle which engages around the mold mounting plates. The C-shaped shackle is connected in an articulated manner to the back of the stationary mold mounting plate and at its other end to the second connecting rod. The second connecting rod, for its part, is pivotably connected by means of the shaft of an electrical rotary drive to the back of the movable mold mounting plate and is also connected to the other end of the C-shaped shackle. The toggle system can be selectively folded and extended to a closed position and an open position, respectively, by actuating the rotary drive. A hydraulic piston-and-cylinder system in the form of a short-stroke cylinder is preferably disposed between the stationary mold mounting plate and the point of articulation of the C-shaped shackle. This system sets the mold height and may also be used to apply the closing force with the toggle system closed. In this case, therefore, the toggle system serves merely to perform the displacement movements of the movable mold mounting plate and to lock the closed position, while the extent of the closing force is determined solely by the hydraulic pressure being applied at the time.
A disadvantage of hydraulically actuated plastics injection molding machines or other molding machines with high closing forces is that, to a certain extent, it is always necessary to expect a leakage of hydraulic fluid, in other words, conventionally, hydraulic oil. This is all the more serious if the hydraulic seals become loose due to wear. Precautions therefore have to be taken to prevent damage caused by escaping hydraulic fluid. This disadvantage also occurs in what are known as hybrid machines such as the machine disclosed by DE 196 43 366 A1 in which the displacement movement of the movable mold mounting plate and the generation of the closing force are effected by different drive systems.
SUMMARY OF THE INVENTION
It is an object of the present invention further to develop a molding machine having a mold space between two mold carriers, wherein one of the mold carriers is movable relative to the other by a drive, which minimizes the outlay required for the control of leakages in the drive system.
This object is achieved according to the present invention by a molding machine including two mold carriers defining a mold space therebetween, wherein one of the two mold carriers is movable relative to the other of the two mold carriers via a drive. In addition, a power unit is used for generating a predetermined closing force between the two mold carriers when the two mold carriers are moved together. The separate power unit comprises a pressure cushion filled with a highly viscous composition that has a viscosity greater than that of hydraulic oil.
According to the present invention, the closing force is applied by a hydraulic compressive force. However, this closing force is not applied by using a conventional hydraulic fluid, which generally consists of an oil. In contrast, the present invention applies the closing force via a composition which possesses a comparatively high viscosity. One effect of this is that the occurrence of leakages is prevented from the outset as a consequence of the considerably inferior flow properties of this composition by comparison with a conventional hydraulic fluid. Furthermore, if a leakage does occur, the highly viscous composition escapes only in comparatively small amounts, so that even when a leak is beginning to occur this can easily be identified visually. In addition, the solution according to the present invention has the advantage that even in the event of a larger amount of escaping viscous composition this does not flow away like hydraulic oil to cover a large area but remains in the area close to the point of escape.
Grease is preferably used as the highly viscous composition because of its good lubrication qualities.
An electromechanical drive is chosen as the drive for the molding machine according to the present invention, especially a drive having a ball-rolling spindle drive. It is also advantageous here to drive the spindle or the spindle nut of the ball-rolling spindle drive by an electrical hollow-shafted motor, as such motors generate very high drive torques.
The pressure cushion containing the hydraulic composition is disposed in a pressure cylinder which, with respect to the force flow, is supported on the same part of the molding machine as the drive for the currently movable mold carrier. A piston in the pressure cylinder applies the pressure in the pressure cushion to the movable mold carrier. The hydraulic pressure of the pressure cushion may be generated via an auxiliary piston whose piston surface is substantially smaller than the piston surface of the actual pressure cylinder. This auxiliary piston may be moved by an electromechanical linear drive. This may, for example, contain a spindle drive or, alternatively, a combination of a rack and pinion or a worm.
The present invention may be used with injection molding machines, especially plastics injection molding machines. In this case the mold carriers are formed as mold mounting plates. The injection molding machine may comprise a tiebarless injection molding machine in which two stationary plates are retained at their backs via C-shaped shackles and the drive for the movable mold mounting plate is supported on one of the two stationary plates. The separate power unit for applying the closing force ma

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