The present invention broadly relates to apparatus for use during the manufacturing process of producing filled-tube products. More particularly, the present invention is directed to hold down assemblies for use during the ejection stage of the manufacturing process. The invention specifically concerns hold down assemblies which reduce or prevent the risk of dislodgement of tube holders during the ejection stage of the manufacturing process, as well as methodologies incorporating the same.
The packaging of products for storage and consumption is a significant global industry. Various known packages include cartons, boxes, cans, tubes, and pouches, to name a few. Packaged products encompass virtually any type of product that is available for consumption from large appliances to small incidental items.
One of the major types of packaging is the tubular container. A tubular container is generally circular in configuration, although other tubular container cross sections are known. Typically, these tubular containers are sealed at each end by an end closure. In some instances, the end closure is provided by a creased or folded seal so that the container takes on what is known as a tooth-paste tube configuration. Other tubular containers have end closures that are either pressed fit or roll sealed on the end of the tube.
When tubular containers are filled with the desired commodity, a bulk supply of tubes is usually provided with each of these tubes having one end closure already in place. The tube is placed vertically in a machine with the open end of the container oriented vertically. The commodity to be packaged is then dispensed into the tubular container and the remaining open end is sealed so that the product is packaged for ultimate use.
In one type of manufacturing process used, a transport apparatus is used which contains a plurality of tube holders which receivably retain the tubes at different stages while they are being filled and sealed. Typically, this process also includes an unload stage whereby the filled and sealed tube is ejected from its tube holder and deposited into a collection bin or the like. During the unload process, an unload assembly typically has an ejector rod which travels upwardly through the tube holder to punch-out the tube.
Unfortunately, it is not uncommon during the unload stage for the unload assembly and the associated tube holder to improperly align in registration with one another such that the ejector rod does not properly contact the tube as it plunges upwardly in an effort to knock out the tube from its holder. This can cause improper ejection of the filled tube, dislodgement of its tube holder, or other problems which disrupt the manufacturing process. Accordingly, there remains a need to provide a new and useful apparatus and methodology for ensuring proper alignment and registration of tube holders with unload assemblies during the unload stage of the manufacturing process. There is a further need to overcome the drawbacks associated with the prior art in such a manner which does not disrupt the manufacturing process. The present invention is particularly directed to satisfying these needs.
It is an object of the present invention to provide a new and useful improvement to a tubular container transport apparatus, and particularly the unload station thereof.
Another object of the present invention to provide a new and useful hold down assembly for use during a manufacturing process involved in the production of filled tube products.
Yet another object of the present invention to provide such a hold down assembly for use during the unload/ejection stage of the manufacturing process whereby filled tubes are ejected for collection.
A further object of the present invention is to provide such a hold down assembly which is selectively adjustable to accommodate varying production parameters.
Still a further object of the present invention is to provide such a hold down assembly which reduces the risk of dislodgement of tube holders during the production process.
It is still a further object of the present invention to provide such a hold down assembly which is relatively easily constructed and which may be retrofitted for use with existing unload stage constructions.
It is still yet another object of the present invention to provide a method for preventing dislodgement, or reducing the risk of dislodgement, of tube holders during the unload/ejection stage of the manufacturing process for creating filled tube products.
In accordance with these objectives, the present invention in one sense relates to an improvement, in the form of a hold down assembly, to a tubular container transport apparatus that is used during the production of filled tube products. Transport apparatus includes spaced apart upper and lower platforms mounted for relative movement, such as being journaled for relative rotation about an axle. A plurality of tube holders are supported by the upper platform, and a drive motor is employed for moving the platforms relative to one another into indexed positions. The base platform incorporates an unload station which includes a mounting plate and an associated ejector rod. The ejector rod is operative, when a tube holder carrying a filled tube product is indexed into an unload position above the base platform, to travel upwardly through the tube holder to eject the filled tube product out of the holder so that it may be collected.
The hold down assembly of the present invention is disposed proximately to the ejector rod and is adapted to be magnetically interfaced between the base platform and the tube holder as the tube holder is indexed into the unload position. Broadly, the hold down assembly comprises a lower piece seated on the mounting plate and an upper piece moveably mounted to the lower piece and adapted to magnetically interact with a bottom of the tube holder, thereby retaining the tube holder in registered alignment relative to the ejector rod during ejection of the filled tube product.
The hold down assembly is suitable for use with known tube holders which are provided with a central opening at their base and a metallic annular ring surrounding the central opening. With such an environment, the upper piece of hold down assembly preferably includes a plurality of magnetic elements, such as neodymium discs, for interacting with the metallic annular ring along magnetic lines of force. To this end, the upper piece may include an annular end cap which supports the neodymium discs.
In the exemplary embodiment, the upper and lower pieces are telescopically mounted to one another and generally cylindrical in configuration, with the upper piece being telescopically received within the lower piece. The pieces are moveably mounted to one another whereby height of the hold down assembly can be selectively adjusted. A locking structure, which may be in the form of a threaded bolt and a locking handle, is employed to retain the pieces in a selected locked position.
It is preferred that the lower piece be removably and magnetically seated on the mounting plate through which the ejector rod travels so that, in the event of a collision between the hold down assembly and a traveling tube holder, the hold down assembly can break away from its magnetic coupling to the mounting plate. To this end also, the hold down assembly is constructed to prevent damage to the ejector rod in the event of a collision. This is accomplished by a slotted channel formed in each of the upper and lower pieces. More particularly, the lower piece preferably includes a slotted channel extending between its opposed ends which is sized and adapted to register with an elevated alignment notch on the mounting plate so that this slotted channel is oriented in an upstream facing direction when magnetically coupled to the mounting plate. The upper piece preferably also includes a slotted channel which extends less than its height so that it resembles an archway. The upper piece slotted channel is rotatably alignable with the slotted channel associated with the lower piece when the hold down assembly is telescopically mounted. In this manner, an inadvertent collision between the traveling tube holder and the hold down assembly will enable the hold down assembly to break away from the mounting plate, whereby the ejector rod can passes through the aligned slotted channels and avoid contact with the hold down assembly.
In addition to an improvement to a tubular container transport apparatus, the present invention also particularly relates to a hold down assembly for use with such a transport apparatus. Here, the hold down assembly broadly includes a lower piece adapted to be removably seated on the mounting plate, and an upper piece movably mountable to the lower piece and adapted to magnetically interact with the metallic base of the tube holder as the tube holder is indexed into the unload position, thereby to retain the tube holder in registered alignment relative to the ejector rod during ejection of the filled tube product. The hold down assembly preferably has the features discussed hereinabove. Finally, the present invention also relates to an improvement in the form of a methodology for ejecting a filled tube product from a tube holder with a reduced risk of dislodgement of the tube holder from the upper platform. According to this methodology, the upper platform is indexed so that the tube holder carrying the filled tube product is advanced toward the unload station. The tube holder is magnetically urged into the unload position wherein the tube holder is placed in registered central alignment above the ejector rod. The tube holder is magnetically retained in the unload position. The ejector rod is then actuated whereby it travels upwardly from a retracted position toward an extended position and through the tube holder to eject the filled tube product therefrom. The ejector rod is then allowed to return to the retracted position. This methodology can also provide for thereafter indexing the upper platform so that the tube holder is urged out of registered, central alignment above the ejector rod.
These and other objects of the present invention will become more readily appreciated and understood from a consideration of the following detailed description of the exemplary embodiments of the present invention when taken together with the accompanying drawings, in which:
a) is a perspective view showing the hold down assembly of the present invention locked in an unelevated position;
b) is a perspective view of the hold down assembly of the present invention shown in an elevated position;
a) is a side view in elevation of the unload stage immediately prior to ejection of the filled-tube product; and
b) is a side view in elevation of the unload stage as the filled tube-product is ejected from its tube holder.
The present invention relates in one sense, to a tube hold down assembly that may be used to improve the efficiency of the manufacturing process involved in the production of filled tube products. Accordingly, the present invention not only contemplates the mechanical structure of such a hold down assembly, but also the method that is inherent in the structure, all of which is described below. Moreover, it should be understood that, while the present invention is described with respect to cylindrical tubular containers having flexible sidewalls, the ordinarily skilled artisan would be able to employ both the process and the apparatus with containers of different shapes and configurations with an appreciation of the teachings herein.
To better appreciate the environment of the present invention, reference is made initially to
Transport apparatus 10 includes an upper platform in the form of an indexing dial/turntable 14 which may be rotatably journaled in the direction of arrow “A” in
In any event, as may also be seen in
As shown in
A preferred construction for tube holder 34 will now be described with reference to
The assemblage for hold down assembly 50, as well as the construction for its various components, may now be best appreciated with reference to
As shown in
Inner, upper telescopic member 80 is shown in
One manner of assembling the various pieces which form hold down assembly 50 is shown in
a), for example, shows assemblage 50 having its telescopic member 70 and 80 situated in their lowermost/unelevated position while
With reference again to
With the above description in mind, aspects of the operation of the hold down and ejection stage 12 can be appreciated with reference now to
From the foregoing description, it should also be appreciated that the present invention also relates to an improvement in the form of a methodology for ejecting a filled tube product from a tube holder with a reduced risk of dislodgement of the tube holder from the upper platform. According to this methodology, the upper platform is indexed so that the tube holder carrying the filled tube product is advanced toward the unload station. The tube holder is magnetically urged into the unload position wherein the tube holder is placed in registered central alignment above the ejector rod. The tube holder is magnetically retained in the unload position. The ejector rod is then actuated whereby it travels upwardly from a retracted position toward an extended position and through the tube holder to eject the filled tube product therefrom. The ejector rod is then allowed to return to the retracted position. This methodology can also provide for thereafter indexing the upper platform so that the tube holder is urged out of registered, central alignment above the ejector rod.
It should be appreciated from the foregoing that variations of the constructions described may be made by the ordinarily skilled artisan in this field without departing from the inventive concepts herein. Moreover, it should also be appreciated that the methodology of the present invention can include any of the processing steps, not limited to those discussed hereinabove, that can be accomplished by the above-described structures.
Accordingly, the present invention has been described with some degree of particularity directed to the exemplary embodiments of the present invention. It should be appreciated, though, that the present invention is defined by the following claims construed in light of the prior art so that modifications or changes may be made to the exemplary embodiments of the present invention without departing from the inventive concepts contained herein.
This application claims benefit of Provisional Application No. 60/423,306, filed Nov. 1, 2002.
Number | Name | Date | Kind |
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3747737 | Brooke | Jul 1973 | A |
4441878 | Harry | Apr 1984 | A |
4640406 | Willison | Feb 1987 | A |
4801001 | Gibbemeyer | Jan 1989 | A |
5121827 | Ribordy | Jun 1992 | A |
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5316127 | Evrard | May 1994 | A |
6311830 | Grimm | Nov 2001 | B1 |
Number | Date | Country | |
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60423306 | Nov 2002 | US |