TECHNICAL FIELD Non-Limiting embodiments disclosed herein generally relate to a molding system and a related method for the operation thereof.

SUMMARY In accordance with an aspect disclosed herein, there is provided a control structure for a molding system comprising: a vision system with which to appreciate a parameter of a molded article and control operation of the molding system.

In accordance with another aspect disclosed herein, there is provided a method of controlling a molding system comprising appreciating a parameter of a molded article using a vision system and controlling operation of the molding system with reference to the parameter of the molded article.

These and other aspects and features of non-limiting embodiments will now become apparent to those skilled in the art upon review of the following description of specific non-limiting embodiments in conjunction with the accompanying drawings.

DETAILED DESCRIPTION OF THE DRAWINGS The non-limiting embodiments will be more fully appreciated by reference to the accompanying drawings, in which:

FIG. 1 depicts a schematic representation of a molding system according to a non-limiting embodiment;

FIG. 2 depicts a schematic representation of a molding system according to a further non- limiting embodiment.

The drawings are not necessarily to scale and may be illustrated by phantom lines, diagrammatic representations and fragmentary views. In certain instances, details that are not necessary for an understanding of the embodiments or that render other details difficult to perceive may have been omitted.

DETAILED DESCRIPTION OF THE NON-LIMITING EMB ODIMENT(S

Reference will now be made in detail to various non-limiting embodiment(s) of a molding system and a related method for the operation thereof. It should be understood that other non- limiting embodiment(s), modifications and equivalents will be evident to one of ordinary skill in the art in view of the non-limiting embodiment(s) disclosed herein and that these variants should be considered to be within scope of the appended claims.

Furthermore, it will be recognized by one of ordinary skill in the art that certain structural and operational details of the non-limiting embodiment(s) discussed hereafter may be modified or omitted (i.e. non-essential) altogether. In other instances, well known methods, procedures, and components have not been described in detail.

Introduction:

There exists ways and means to check parameters of a molded article after it exits a molding system (i.e. downstream of the molding system), however this is after the fact, and it is time consuming. There may be large numbers of defective molded articles produced before the molding process can be adjusted.

Disclosed is a molding system having an integrated vision system with which to appreciate selected parameter(s) of a molded article molded therein for controlling operation thereof.

The molding parameter may include, for example, one or more selected dimension(s) of the molded article or a temperature thereof. At present there is no means to measure the dimension of the molded article within the molding system (i.e. before it leaves the machine), and to use that information to adjust and control the process. The molding parameter may be inspected at various locations within the molding system, such as, for example in the mold or on a conveyor of a post-mold conditioning apparatus within the molding system.

Furthermore, the molding process may be controlled on the basis of the parameter of the molded article. For example, based on the dimension checking of the molded articles while they are on the conveyor, a controller of the molding system can verify if the molding process is tuned to manufacture defect free molded articles. If it is not, the necessary process parameters can be adjusted to ensure the manufacture of a defect free molded article.

By adjusting the necessary process parameters based on the feedback received from the vision system, the process may be effectively controlled to ensure a defect free molded article.

Non-Limiting Embodiments:

With reference to FIG. 1 there is depicted a schematic representation of a molding system 100 in accordance with a non-limiting embodiment. The molding system broadly includes molding structure that is configured to mold a molded article 180, a controller 170 with which to control the operation of the molding structure, a post- mold conditioning apparatus 150 that is configured to thermally condition the molded article 180 after it has been removed from a mold 120, and a vision system 174 with which to appreciate a parameter of the molded article 180. The molding structure includes a mold clamp 110 that is configured to open, close and clamp the mold 120, a melt preparation device 140 that is configured to prepare and inject molding material for molding in the mold 120, and a molding material distributor 130 that is configured to distribute the molding material to the mold 120. The foregoing elements of the molding structure are well known to those of skill in the art and will not be discussed in detail herein. Suffice it to state that the mold 120 includes a first part 122 and a second part 124 that when closed together define a plurality of molding cavities within which molded articles, such as, for example, preforms of the type for blow molding into containers, are moldable. The first part 122 is mounted to a moving platen 114 of the mold clamp 110. The second part 124 is mounted to the molding material distributor 130 which in turn is mounted on a stationary platen 116 of the mold clamp 110. In operation, the first part 122 is reciprocated relative to the second part 124 for opening and closing the mold 120 through relative movement between the moving platen 114 and the stationary platen 116. The molding material preparation device 140 is configured to prepare (e.g. melt) molding material (not shown) and to inject the molding material through the melt distributor 130 and into the plurality of molding cavities of the mold 120.

The post-mold conditioning apparatus 150 includes a retrieval device 158 that is configured to retrieve the molded article 180 from the mold 120 and to thermally condition the molded article 180 in the process, an auxiliary device 154 that is configured to thermally condition the molded article 180 while it is in the retrieval device 158, an air conditioner 152 that is configured to supply, in use, thermally conditioned air to the auxiliary device 154 for thermally conditioning the molded article 180 and a conveyor 162 that is configured to receive the molded article 180 from the auxiliary device 154 for conveyance thereof outside of the molding system 100. The foregoing elements of the post- mold conditioning apparatus 150 are well known to those of skill in the art and will not be discussed in detail herein. Suffice it to state that the retrieval device 158 includes a group of holders 160 within which to receive the molded articles 180 from the mold 120. In operation the molded articles 180 are cooled within the holders 160 as they are transported from the mold 120. The auxiliary device 154 includes a group of pins 156 from which treated air may be expelled for cooling interior regions of the molded articles 180 while they remain resident in the holders 160 of the retrieval device 158. As such, the auxiliary device 154 is connected to the air conditioner 152 that supplies air at a prescribed temperature and flow rate thereto. Once the molded articles are cool enough to be released they are ejected onto the conveyor 162 for transport away from the molding system 100. The molded articles 180 may continue to cool on the conveyor 162 for a time that it takes for transport from the molding system by virtue of air circulation in a region thereof.

Vision systems are known devices and thus the structure and operation thereof will not be discussed herein. Suffice it to state that the vision system 174 includes one or more camera(s) 175 with which to appreciate a parameter of the molded article(s) 180 of interest. The vision system 174 may further include a controller 171 to execute steps to process information received from the camera. Alternatively, the control structure of the vision system 174 may be executed within the controller 170 of the molding system 100. Either way, the vision system 174 is ultimately connected to the controller 170 by any suitable means to communicate the parameter of the molded article 180 therewith. The camera(s) 175 of the vision system 174 may be positioned to inspect the molded article 180 in the mold (from the top, bottom, and/or side) or elsewhere in the post-mold conditioning apparatus 150. For example, and as shown, the vision system 174 may be positioned to inspect the molded articles 180 while they are on the conveyor 162. In a further example, as shown with reference to FIG. 2, the vision system 174 may be positioned to inspect the molded articles 180 while they are on the mold 120.

As previously mentioned, the controller 170 may be configured to control the molding structure with reference to the parameter of the molded article 180. In this non-limiting embodiment one or more of the mold clamp 110, the melt preparation device 140, the molding material distributor 130, the retrieval device 158, the auxiliary device 154, the air conditioner 152 and the conveyor 162 may be controlled on the basis of the parameter of the molded article 180. For example, the controller 170 may be configured to control a speed of the conveyor 162 (through control of a drive 164 that is associated therewith) on the basis of the parameter (e.g. temperature) of the molded article 180 not being within a pre-determined bound. More particularly, the controller 170 may be configured to slow-down the conveyor 162 if the temperature is too high and speed-up the conveyor 162 if the temperature is too cool.

In another example, the controller 170 may configured to control an operating parameter of the air conditioner (e.g. flow rate, humidity, temperature) on the basis of the parameter (e.g. temperature) of the molded article 180. More particularly, the controller 170 may be configured to increase the flow rate of the air if the temperature is too high and decrease the flow rate of the air if the temperature is too cool.

In another example, the controller 170 may configured to control an operating parameter of the molding material distributor 130 on the basis of the parameter of the molded article 180. Traditionally when the injection molding operation is completed and before the molded articles are ejected, there is no temperature sensing of the molded articles. As such, we can potentially use the vision system 174 to overcome these limitations. The machine vision system can measure a parameter such as, for example, the temperature of the molded articles before they are ejected and send the information to the controller 170.

Based on the feedback, the controller 170 may send commands to control the molding material distributor 130. For example, it may control valve gates (not shown) therein to adjust the melt balance. It may also send feedback to a hot runner controller (not shown) to adjust the temperature settings. The controller can also send commands to a cooling circuit within the mold 120 to adjust the mold cooling temperature.

By adjusting the necessary process parameters based on the feedback received from the vision system 174, the process can be effectively controlled to ensure substantially defect free molded articles.

In yet a further example, the vision system 174 may be configured to gauge a color of the molded articles being molded in contrast with a selected standard to determine if the color is within a predetermined specification. If there is a discrepancy, the controller 170 may control a colorant dispenser 141 (FIG. 2) accordingly. In yet another example the vision system 174 may be configured to sense the presence or absence of the molded articles in the mold 120 and to control adjust or disable the molding system 100 accordingly (i.e. mold protection).

It is noted that the foregoing has outlined some of the more pertinent non-limiting embodiments. It will be clear to those skilled in the art that modifications to the disclosed non-embodiment(s) can be effected without departing from the spirit and scope thereof. As such, the described non- limiting embodiment(s) ought to be considered to be merely illustrative of some of the more prominent features and applications. Other beneficial results can be realized by applying the non- limiting embodiments in a different manner or modifying them in ways known to those familiar with the art. This includes the mixing and matching of features, elements and/or functions between various non-limiting embodiment(s) is expressly contemplated herein so that one of ordinary skill in the art would appreciate from this disclosure that features, elements and/or functions of one embodiment may be incorporated into another embodiment as skill in the art would appreciate from this disclosure that features, elements and/or functions of one embodiment may be incorporated into another embodiment as appropriate, unless described otherwise, above. Although the description is made for particular arrangements and methods, the intent and concept thereof may be suitable and applicable to other arrangements and applications.