This invention relates to containers for liquids to be drunk from, and, more particularly, to such a drinking container equipped with a built-in drinking straw.
It is known in the prior art to combine the concept of a drinking container and a drinking straw into one convenient device. Moreover, it is also known to provide the straw in the form of a tube which is wrapped around the container. Such combinations are depicted in U.S. Pat. No. 4,428,490 (FIG. 7), as well as U.S. Design Pat. Nos. 279,250 and 360,558. In these three designs, the straw is shown wrapped around the outside of the drinking container. There are also prior art designs involving a spiral straw and drink container wherein the straw is provided in some other relationship to the container. For example, U.S. Pat. No. 4,191,302 shows a spiral tube provided as the base of the container, with the container vessel mounted on top of it. U.S. Pat. No. 5,439,125 shows a container with a spiral drinking tube disposed inside the container. In addition, U.S. Pat. No. 5,570,863 shows a holder for supporting a drink container in the form of a spiral tube with an extension at the bottom which is meant to be inserted into the ground. This design, of course, does not actually show a drinking straw.
All of the above designs suffer from certain disadvantages. In particular, the two design patents, as well as the design shown in Utility U.S. Pat. No. 4,428,490 all show the drinking straw or tube spirally wound around an outside surface of the container which is smooth. That is, the drinking tube and the wall of the container do not co-act in any way. In other words, the tube is not mounted securely with respect to the container, but is simply loosely wound around it. With such an arrangement, it is highly unlikely that the straw will be able to maintain any kind of fixed position with relation to the drink container.
Furthermore, these designs are somewhat lacking aesthetic appeal. The straw appears to be something simply added onto the container, and not integrally designed therewith. Thus, when such a prior art combination is grasped by the user, the hand encounters the straw, rather than the container wall. This also makes the container difficult to grasp.
It would be desirable to provide a combination drinking container and drinking straw in which the straw is attached to the container in a secure, semi-permanent matter.
It would be also desirable to provide such a combination which presents an aesthetically pleasing, integrated, and easy-to-use design.
The present invention is designed to overcome the shortcomings in the prior art noted above. It is a combination drinking container in the form of a bottle and straw and method of manufacture. The bottle includes a wall, a defining chamber, a bottom, and an open top. A lip may be one embodiment formed on an upper edge of the outer wall proximate the open top of the bottle for insertion of a cap thereon. The cap and lip, preferably, include mating grooves formed thereon so that the cap may be screwed onto the top.
The bottle is molded from an easily moldable plastic such as polyethylene and has at least one straw retaining member disposed on either an outside or inside surface thereof, or alternatively, formed by shaping the wall so that it includes a constricted portion, such as a stem. The straw retaining member is configured to retain a portion of hollow drinking straw which is inserted therein and the path of the straw around the bottle is defined by the path of the various retaining members. A first end of the straw forms a continuous drinking passage with the container chamber, either by extending into the chamber, or by being in fluid communication therewith by means of an aperture formed in the container wall, the straw first end being attached thereto.
In one embodiment, the cap, if included, has an aperture formed therein through which the first end of the straw may be inserted. It should be noted that the cap may be secured onto and off of the bottle without removing the straw, the upper portion of the straw serving as a “hinge” in this embodiment. In a further refinement of the concept, the straw may be formed with an elongated loop to serve as the “hinge,” and also to function as a carrying loop by which the bottle may conveniently be carried by inserting a finger or two therethrough. Alternatively, the first portion may extend directly through an aperture formed in the bottle wall, itself, either near the top or bottom of the bottle.
A second end of the straw extends upwardly and outwardly from the bottle so that it may be sipped by the user. The path traced between a middle portion of the straw between the first and second ends may take various configurations, or be separate straw segments and chambers connected together to form a continuous drinking passage. In one configuration, the retaining member may comprise a groove molded into the bottle. Preferably, the groove is molded to contain most of the straw. In this way, the bottle presents a smooth profile, with the straw flush to the outer surface. When a user grasps the combination container of the present invention, the hand encounters the smooth bottle wall, rather than a bumpy straw.
The first end of the straw may extend straight down the side of the bottle and then spiral around the bottle upwardly until it joins the second end. The loops of the spiral may be, themselves, configured in the form of waves to make the path of the liquid sipped through the straw more interesting. At certain points, the configuration of the straws path will be determined by the configuration of the groove which is molded into the outside surface of the bottle.
In another embodiment, the molded groove may be formed in portions, rather than continuous. For example, diametrically opposed portions of the container may be left ungrooved for ease of molding.
In yet another embodiment, the straw retaining members may comprise bumps or knobs around which the straw is wrapped to trace the desired pathway. Alternatively, the members may be molded as “pinch points or holes.” A retaining ring may be added to help hold the straw in place. The various types of straw retaining members may also be combined.
In yet another embodiment of the container of the present invention, the path of the straw may diverge from the surface of the bottle to form loops, knots, and handles.
The container body may also be configured in a variety of ways. For example, it may be shaped as a typical “sports bottle” to hold drinking water for those engaged in activities. It can be molded in novelty shapes, such as a pumpkin. It can be formed in the shape of a mug. In another embodiment, it can be formed as a stemmed glass such as a champagne flute. The mug and drinking glass embodiments typically do not include a lid. In these embodiments, the straw may include a loop engaging portion which is force fitted past the stem into the bottom of the container, thus retaining the straw in the container.
The combination bottle and straw of the present is formed in the following manner. First, the bottle is blow molded using a two part mold which closes around a continuous extrusion. The pattern of the straw retaining members is shaped into the mold. A parison is first formed, then the two parts of the mold closed over the parison, thereby sealing the bottom of the bottle. Air under high pressure is then injected into the parison to blow it out against the walls of the mold to form the final shape including the pattern of grooves, bumps, knobs, pinch points, or holes. The molded bottle is cooled sufficiently, the mold is opened and the bottle released.
The embodiment of the bottle having a continuous groove presents a special molding problem. In order to allow the bottle to be easily released from the mold when it is opened, the continuous groove has opposed straight and parallel sections that span the parting line (where the two halves of the mold join). If the groove sections were not straight along the parting line, the bottle would be stuck on the mold (“undercut” or “overhung” in molding terminology). Preferably, the bottle is molded from high density polyethylene.
To form the straw, a straight rod is extruded using standard pipe extrusion techniques. Preferably, the straw is formed of PETG. The straight tube is then reheated either in an oven or with an appropriately shaped heating element. The first top end of the straw is inserted into a hole either in the cap or in the bottle. The straw is then curved downward and around the bottle, winding it around the various grooves, bumps, knobs, holes and pinch points until the entire path pattern has been followed. The free end of the straw is then molded upward from the bottle with a slight curve to easily reach the consumer's mouth for sipping. Alternately, the straw is formed of a highly malleable material and simply inserted into the groove, thus omitting the heating step.
Alternatively, a very flexible unheated straw could be similarly wound around the bottle. Pinch points retaining rings or knots may serve as retaining members in this version, or the straw could be glued to the bottle for added security.
In an alternate embodiment of the bottle of the present invention, the first end of the straw is provided with a connector so that it may be attached to the main body of the straw proximate the lid of the bottle. In this way, the straw and lid may be easily removed from the bottle.
Similarly, it is understood that in all of the embodiments mentioned in this specification, that when the term “straw” is used, it refers not only to a simple tube, but to any hollow passageway that brings liquid from the inside of the container to the users mouth to form a drinking passage. This passageway could include multiple pieces connected together, flexible pieces, ridged pieces, pieces with ornamentation, pieces that are puffed out into shapes, or pieces that diverge and come back together or pieces with valves, etc., as well as any combination of these enumerated structures. In the depicted embodiments, a simple tube, flexible or ridged, is depicted for simplicity's sake.
In another alternative embodiment, the straw is molded integral with the container. Alternatively, the groove may be formed either partially or entirely on the inside of the container, with the straw inserts thereinto.
In most of the above mentioned embodiments, it is understood that the straw comprised of different sections connected together and the differential sections could be formed of either flexible or ridged plastic. Thus, the straw or its various sections could be “unwrapped” or unthreaded or unbent (or some combination) and removed from the container and then put back on again. If one or more sections of the straw are flexible and the container includes pinch points, part or all of the straw could trace a different path when placed back on the container by using only some or all of the pinch points in different combinations or sequences. The defining characteristic of this embodiment is that only certain pinch points may hold the straw in place.
Furthermore, in any above mentioned embodiments, one or more parts of the straw may move or be bent in different configurations while the remainder of the straw are confined by the surface of the container.
Any of the above mentioned containers can be filled with added products such as candy or trinkets to add value to the combined product, with the implied later use of the container as a drinking device. Once these added products are removed, then the user can fill the drinking container and use it as such.
The following detailed description is best understood with reference to the following drawings in which:
a and 5b shows an embodiment of the bottle with knobs and with the straw tracing different pathways around them;
a–10f show various designs of a drinking glass embodiment of the present invention;
a shows a perspective view of yet another embodiment with a repositionable straw;
b and 11c show the same embodiment of the invention, but with the straw in two different positions;
a and 12b show two views of yet another embodiment wherein the straw is ridged and is attached only by gripping two slots;
Throughout the following detailed description, like reference numerals are used to refer to the elements of the present invention shown in multiple figures thereof. Referring now to the drawings, and in particular to
Preferably, as can be seen in
The straw 30, which is in the form of a hollow tube, includes a first end 32 disposed in the inside of the container 12 proximate the bottom 16. The straw 30 extends up through the container 12 and out through the hole 24 in lid 22. The straw terminates in an upwardly and outwardly extending second end 34 so that beverage may be sipped through from container 12 by the user. A portion 36 of the straw 30 between first and second ends 32, 34 is configured to wind around container 12. To that end, it is disposed inside groove 20. The exact configuration which the straw 12 takes will, thus, be determined by the configuration of groove 20. As can be seen in
In an alternate embodiment of the straw 30 depicted in
The manner of manufacture of the sport bottle of
A blow molded plastic bottle necessarily has a seam running down the two sides where the two portions of the mold meet. This is called the parting line. A key design element of the present invention is the fact groove 20 has straight parallel sections in any location where the groove spans the parting line. This allows the bottle 12 to be easily removed from the mold when it opens. If the groove did not have straight, parallel sections in the area of the parting line, the bottle would be likely to remain struck on the mold (this is known as “undercut” or “overhang” in molding terminology). While a blow molded part made with complicated parting lines to allow for more complicated straw paths may be employed in practicing the method of the present invention, the two part, parallel separation is the most economical.
The drinking container could also be injection molded, but the container walls would have to be very thick to allow for the release of the inside part of the mold. Of course, all the extra plastic and mold costs would make it very costly to produce an injection molded product. Hence, the blow-molded embodiment is described in detail as the best and most economical way to produce the part.
To form the straw 30, a straight, hollow rod of PETG (a glycol-modified copolymer of polyester) is extruded using standard pipe extrusion techniques. The straight tube is then reheated, either in an oven or with an appropriately shaped heating element. The oven temperature is approximately 250°. The straw is removed from the heat when it is malleable. It is then inserted first into the hole 24 and cap 22. Then the straw 30 is curved downward to enter into groove 20 at the top 18 of the container 12. The straw 30 is molded into the groove 20 continuously until the entire path of groove 20 has been followed. The second end 36 of straw 30 is molded upward from the container with a slight curved to easily reach the consumer's mouth for sipping. It is contemplated that a jig or holder for the bottle could support the container while the straw is being bent and inserted into the grooves.
Alternatively, the straw 30 could be molded of a highly malleable polymer, in which case the heating step would be unnecessary. The straw 30 would simply be inserted into the groove 20.
Other embodiments of the sport bottle of the present invention are illustrated in
a and 5b show yet further refinements 60 and 61 of a container according to the present invention in which the straw retaining members are in the form of bumps 62 and a short groove 64. In this case, the straw 66 can be installed onto the container so that the combination has the appearance of a smiley face. The respective
a–10b show how the container of the present invention can be shaped as a drinking or stemmed glass.
c and 10d both depict a stemmed martini glass 300 with drinking straw 302 embedded therein, again with
e and 10f show a flared pilsner glass 400 with embedded straw 402, the
a shows a perspective view of another embodiment 500 of a drink container with a retaining groove 502 formed on the bottom of the glass. Rigid straw 504 is held in place by groove 502 but the top 506 of the straw is still free to move back and forth.
a and 12b show two 90° rotated views of yet another embodiment 600. Rigid straw 602 is held on the container 604 by a pair of opposed slots 606. The straw has a restricted field of motion (depicted by the arrow c) as the straw slides up and down the slots 606. Area 608 provides a convenient place to hold this embodiment since straw 602 is easy to remove and place back on the container 604. In manufacturing this embodiment, it would be best to first mold the straw and then let it cool and then place it on the container.
Also it is important to note that both holes 708, 710 are formed as tunnels which punch directly through the wall of container 704 at diametrically opposed points thereon to the other side. In this embodiment, if the straw is flexible, the contoured through bores and handle will help the straw stay in this shape, and if the straw is ridged the tunnels and handle will keep the straw attached to the container.
Furthermore, due to the blow molding of the container and the perpendicular mold release of the mold in relation to the entrance to the top of the container, it is easy to produce lots of undercuts of this nature to have the straw grab and keep the straw retained in the container.
The combined container and straw of the present invention has numerous advantages over the prior art. The retaining members in the container allow for the straw to be custom molded to the surface of the container. The embodiment with the grooved design on the container has parallel sections at the center of the bottle to allow the blow mold to separate at the parting line and to release the bottle. The molding feature makes the straw and container a compact, single unit. The looped design of the straw at the top of the cap allows the cap to be slid up the straw sufficiently to fill the container from the cap without needing to remove the cap entirely from the container. Additional space between the grooves on both faces of the container allow placement of printed art and logos.
The distinctive shape of the straw of the present invention is an improvement over the common, “sport bottle,” which only has a straw with no bends. The consumer gets enjoyment watching and feeling the liquid travel around the container. The design of the retainer members on the container allows it to be used as a mold to create the final straw shape. Furthermore, many variations of straw shape can be done with the retaining members so long as they are engineered properly for releasing the bottle from the mold.
These embodiments exemplify a novel co-mingling of a straw and the surface of a drinking container. For the embodiments depicting a straw formed of a flexible material, at some point the co-mingling of the container surface acts to hold the straw in its shape. On the other hand, if the straw is formed of a rigid material, then the co-mingling of the container surface acts to hold the straw to the container. Note that at different temperatures or if the straw is made up of different segments made of different materials, the straw might be both flexible and rigid at different points or at different times. Hence, both types of co-mingling could be involved.
A straw that is heated and bent around the contours of the container will use the containers surface to hold its shape. Once it cools and hardens, then the contours of the containers surface cease to help the straw hold its shape, but do help hold the straw to the container. Later, if washed at a high temperature such as in a dishwasher, the straw might once again become flexible, and once again the surface of the container would help the straw stay in its shape.
Furthermore, regardless of whether or not the straw is flexible, if it is at some point recessed into the wall of the container, it becomes desirable to look at and convenient to grasp the container at this point, especially if the straw is flush with the outside of the container. A user could firmly grasp this area of the straw and container at the same time and subtly feel the contours of both the straw and the container, but with an over all smooth effect.
This product can be manufactured in a number of ways. The container could be injection molded, roto molded, hand carved, hand casted, etc., but the economically preferred method of blow molding is described in detail. Likewise, the straw could be formed from the connection of numerous tubes and chambers of many types, all manufactured in various ways, but the most straight forward embodiment of a continuous tube is depicted in most of the embodiments. It is important to note that all methods and variations of methods and permutations of form are captured in the present invention.
What has been described herein is a combination container and straw for sipping liquids. The container is preferably blow molded and includes at least one straw retaining member formed in an inner or outer wall thereof. A malleable hollow straw is installed onto the retaining members so that the straw and container form a single unit. A first end of the straw extends into the container, and a second end extends upwardly from the container so that liquid may be sipped therefrom. The straw may pass through a lid having an aperture formed therein. Because of the looped designed of the straw at the top of the container in this embodiment, the lid may be opened from the container for filling without completely removing the lid from the container.
The herein invention has been described with reference to certain exemplifications and embodiments thereof. Doubtless, different variations and design may occur to one of skill in the art without departing from the spirit of the invention. Thus, it is claims appended hereto, as well as all reasonable equivalence thereof, rather than the exact depicted exemplifications and embodiments, which define the scope of the present invention.
This application is a continuation of U.S. patent application Ser. No. 09/431,492 filed Nov. 2, 1999, now U.S. Pat. No. 6,336,566, which claims priority of U.S. Provisional Application Ser. No. 60/107,419 filed Nov. 6, 1998 and No. 60/119,875 filed Feb. 12, 1999.
Number | Name | Date | Kind |
---|---|---|---|
2052496 | Stassi | Aug 1936 | A |
2557411 | Butsch | Jun 1951 | A |
2885134 | Cohen | May 1959 | A |
4291814 | Conn | Sep 1981 | A |
4462544 | Rutzel et al. | Jul 1984 | A |
4576336 | Cohen et al. | Mar 1986 | A |
4607755 | Andreozzi | Aug 1986 | A |
4830204 | Lin | May 1989 | A |
5005717 | Oilar | Apr 1991 | A |
5048705 | Lynd et al. | Sep 1991 | A |
5054631 | Robbins, III | Oct 1991 | A |
5188283 | Gu | Feb 1993 | A |
5477978 | Lo | Dec 1995 | A |
Number | Date | Country | |
---|---|---|---|
20020043513 A1 | Apr 2002 | US |
Number | Date | Country | |
---|---|---|---|
60119875 | Feb 1999 | US | |
60107419 | Nov 1998 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 09431492 | Nov 1999 | US |
Child | 10022755 | US |