Plastic article or earthenware shaping or treating: apparatus – Means treating shaped work
Reexamination Certificate
2000-12-20
2002-05-07
Davis, Robert (Department: 1722)
Plastic article or earthenware shaping or treating: apparatus
Means treating shaped work
C425S526000, C425S547000
Reexamination Certificate
active
06382954
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a device for temperature adjustment of an object, especially a device and a method for temperature adjustment of a molded object after removal from a mold cavity of an injection molding machine.
2. Summary of the Prior Art
In order to improve the productivity of injection molding equipment, it has been known to reduce the cycle time for molding an object by removing the molded object from the mold cavity while it is still at high temperature. The molded object has thus to be cooled in a subsequent step in order to reduce the temperature of the molded object below its crystallization temperature range.
Turret style injection machines comprise a rotatable turret block with a plurality of movable mold halves and a stationary mold half and platen. Each of the movable mold halves includes a set of mold cores adapted for engagement with a set of mold cavities located in stationary mold half and platen. After a set of objects has been formed on the mold cores of the first movable mold halve, the turret block rotates to a second position, in which the second movable mold halve is positioned for engagement with the stationary mold half. The set of objects remains on the mold cores of the first movable mold and is cooled by a cooling fluid, which is blown onto the exterior surface of the object. U.S. Pat. No. 4,449,913 discloses such a rotary injection turret for use in making preforms. The patent teaches a turret block rotatable on a vertical axis, which block uses two of the turret block positions for post mold treatment of preforms while the preforms are still on mold cores. Accordingly, after injection, hold and some cooling at a first station, the turret block rotates to a second position where cooling fluid is blown onto the exterior surface of the preforms in order to cool the preforms. At a third position, the preforms are inserted into a conditioning mold from the turret block where further temperature conditioning is performed by blowing a cooling gas onto the exterior surface.
While the cooling with a cooling gas permits to condition the object without making contact with its surface, it does however not provide the best available heat exchange. In fact, the best possible heat exchange is provided by conduction cooling, i.e. by a heat transfer contact between the exterior surface of the object and a cooled surface.
Hence it has been found to provide cooling tubes comprising at least one cooling channel through which a cooling fluid is passed. The cooling tube has an inner shape corresponding substantially to the outer shape of the object, so that when the object is inserted into the cooling tube, a large surface contact is established between the cooled inner surface of the cooling tube and the outer surface of the object. While this type of conditioning device is very efficient, the establishment of a contact between the surface of the object and the cooling tube always bears the risk of damaging the outer surface of the object. This risk is especially high if the exterior surface of a freshly molded object is still at high temperature and therefore very fragile.
It follows that a device of this type requires a very exact alignment with the object as it is moved to enclose the exterior surface of the object while the object is on the mold core. While the exact robotic alignment is already rather difficult for a single cooling tube, the task gets impossible if a plurality of cooling tubes, typically up to 96, have to be simultaneously aligned with an equal number of objects on the respective molding cores. The slight misalignments in the positioning of such multiple tube devices can cause the tubes to scratch the exterior surface of the object as the multiple tubes are moved over the multiple cores.
In order to reduce the risk of damaging the freshly molded object, U.S. Pat. No. 4,102,626 teaches to mount a cooling tube yieldably onto a base member, so as to enable the cooling tube to yield by moving substantially axially in response to introduction of an object. To this effect, a rearward end of the cooling tube is received in a guiding opening of the base member and biased towards the object by means of helical springs. This guiding of the cooling tube by its rearward end constitutes a major disadvantage of the cooling tube of U.S. Pat. No. 4,102,626. In fact the cooling tube is susceptible to tilting, thereby blocking the axial movement of the cooling tube. Furthermore the tilting of the cooling tube increases the misalignment with respect to the object to be introduced. A further disadvantage of this device is that due to the movability of the cooling tube, the connection of the cooling channel of the cooling tube to a cooling fluid supply is more expensive than the connection of a stationary cooling tube.
SUMMARY OF THE INVENTION
The object of the present invention is to provide an improved device for cooling a molded object, which reduces the risk of damaging the object.
This object is achieved by a device for temperature adjustment of an object, comprising a conditioning tube with at least one temperature conditioning means, said conditioning tube having a rear end for fixedly mounting said conditioning tube on a base member and an open front end for receiving said object at least partially, wherein a conditioning sleeve is slideably arranged inside said conditioning tube, said conditioning tube having an open front end for receiving said object at least partially and an inner cooling surface for leaning against an outer surface of said object, said conditioning sleeve being biased towards the front end of said conditioning tube by an elastic means.
Unless the device of U.S. Pat. No. 4,102,626, the cooling tube of the present invention will be fixedly mounted on a base member. Hence, the cooling tube can not tilt and accordingly, no further misalignment between the object and the cooling tube can occur. In addition, the stationary cooling tube can easily be supplied with conditioning fluid through the base member. In the case of a slight misalignment between the conditioning tube of the present invention and an object, the surface of the object will come into contact with the conditioning sleeve. This conditioning sleeve can then slide into the conditioning tube against the action of the elastic means. It follows that the force acting on the surface of the object is reduced to the reaction force of the elastic means, which will be considerably smaller than the positioning forces of the conditioning tube. By using a suitably elastic means, i.e. an elastic means having a small spring rate, the forces acting on the surface of the object can in fact be easily reduced below a critical value so that no damage of the surface occurs.
It has to be noted that the spring rate of the elastic means needs to be sufficiently high in order to enable the elastic means the overcome the friction between the conditioning tube and the conditioning sleeve. By choosing an elastic means having a spring rate close to the minimum value, the force acting on the surface of an object in case of misalignment tends towards zero.
The conditioning sleeve can have an inner shape which substantially matches an outer shape of said object. It follows that the conditioning surface of the conditioning sleeve will exactly match the outer surface of the object when said object is inserted into the sleeve. It follows that a large surface contact is established immediately upon insertion of the object. If the device for conditioning an object is used for cooling a molded plastic part which is normally tapered in order to facilitate removal from the injection mold, the conditioning sleeve will have a matching internal taper. Accordingly the conditioning sleeve will be urged into contact with the external surface of the molded part by the elastic means, such that there is an “intimate fit” between the matching surfaces, which allows rapid transfer of heat from the plastic part to the sleeve. As the plastic part cools its exter
Davis Robert
Husky Injection Molding Systems Ltd.
Katten Muchin & Zavis
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