WO2014113853A1 - Plastic bottle and process for manufacturing the bottle, handle, carrying lid, breather lid, tap lid and support base for use with said bottle - Google Patents

Abstract

The present invention (FIGURE 42) in the plastic-packaging sector comprises a set of inventions including a bottle (FIGURE 1) having a novel shape similar to a pear or apple with a tapered, concave waist, which in normal format (FIGURE 2) can also be produced using polymers approved for storing water, which includes the prior production of a novel preform with two bottlenecks, one upper and one lower (FIGURES 43 to 46) and molds, including the bottle mold, and that uses novel production processes involving heating, stretching and blowing (FIGURES 47 to 54), with a capacity of 20 liters (can be produced from 5 liters), designed to store and transport water without leaks or infiltration using a removable and optional carrying handle (42.2), with a pressure carrying lid or a threaded carrying lid (optional on the upper bottleneck: FIGURES 6 and 14) and with a breather lid on the lower bottleneck, all being closed. Water can be served directly from the tap lid (42.5) on the upper bottleneck into external recipients (42.6) without going via "bases" and without the need for internal pipes inside the bottle (PHOTOS 1 to 8), with the bottle (FIGURE 42) inverted and supported on a suitable support base (42.4), and with the breather lid (42.3) open to enable air to enter the base of the bottle as continuous breathing enabling the water to flow out (42.5) of the open tap lid (42.5) previously attached to the supporting element of the upper bottleneck (FIGURE 13) and directly into the recipient (42.6), which is placed on or removed from the support base, these inventions being novel since the prior art for bottles and the production processes thereof does not include the inventions in this set.

Description

 PLASTIC BOTTLE AND BOTTLE MANUFACTURING PROCESS,

TRANSPORT COVER, SUSPENDER COVER, COVER-, TAP AND BASE SUPPORT FOR USE WITH SAID BOTTLE

SET OF INVENTIONS, WHICH INCLUDES PRE-SHAPE MANUFACTURING PROCESSES AND PLASTIC BOTTLE TO STORE WATER, TAKING IT USING TRANSPORT COVER AND HANDLE, AND WHICH IS UNDERGROUNDED AND SUPPORTED. YOUR COVER COVER SERVES (WATER) STRAIGHT TO THE EXTERNAL CONTAINER. FIGURE 42.

The present invention (FIGURE 42.) of the plastic packaging industry consists of a set of inventions composed of an unprecedentedly shaped, large, concave-shaped Flagon Waist similar to an apple or pear bitten through. which can also be produced in the ordinary form (FIGURE 2.), made from polymeric material suitable for storing mineral or potable table water, which includes processes for producing the carboy (FIGURES 47. to 54.) from its mold and their respective unpublished upper and lower 2-neck preforms (FIGURES 43 through 46) having a capacity of 20L (can be produced from 5L). It is designed for storing and transporting liquids, without leakage or seepage, with optional use of unpublished Removable Carry Handle (FIGURE 39.) and use of Pressure or Screw Carrying Cap (optional upper neck. FIGURES 6. and 14 .), with the Bottleneck Sigh Cap (42.3.) closed. The carboy itself serves water, without the aid of "tap bases" and / or without the aid of "inner tubes" in it (PICTURES 1 to 7), simply by inverting it (FIGURE 42.) into the Base Bracket ( 42.4.) And attach the Carry Handle to the Carboy Magnet (42.8) or Carrier Magnet (42.2), and then open the Bottom Bottom Bottom Bottom Sigh Cap (42.3.) Than in the inverted position. allows continuous air to enter and then open the Faucet Cap (16.3.) which is screwed into the Upper Bottom Bracket (15.2), thereby providing water outlet (42.5.) directly to the outer container ( 42.6.) Set through its own opening (42.7.) At the bottom of the Bottom Base Holder, the devices and parts of this set of inventions and their production process are unheard of, evidently because the state-of-the-art plastic carboys or gallons for water do not have bottlenecks and / or gaskets at their bottom, and thus cannot, run water through a tap attached to the upper neck when vertically inverted, unless (PHOTOS 1 to 7), using internal tubes that exit the neck cap and go to the bottom of the carboy to allow air to enter. (sigh), or, using a siphon placed in the upper neck nozzle of the carboy to introduce air internally to press the water outlet through the neck. These solutions, which in fact do not satisfy, because they do not reach the ideal. Therefore, the present invention solves what the current state of the art (PHOTOS 1 to 14) failed to achieve. It should be noted that the very inventions of this set, for the first time, alter the very body of the carboy in what was considered unalterable, allowed by the unprecedented processes of manufacturing the carboy preform and the carboy itself and their molds, which characterize the core of the carboy. all constituting a group of interrelated inventions that integrate a single inventive concept, and some of these inventions may function and / or be used independently of each other and of this set. It is evident that the current state of the art of the carboy manufacturing process (PHOTO 14.) uses only a "one neck" preform (PHOTOS 10., 11. and 12.) to produce the common carboy (PHOTOS 1 . to 9. and 11. to 13.). Already, the carboy manufacturing process of the present invention utilizes "preform" designed with "two" necks (FIGS. 43 to 46.) whereas the usual "upper neck" of the upper carboy contains in this invention recess around its nozzle, unprecedented, to allow it to fit the Pressure Carrying Cap (FIGURE 6.) when transporting water, or to fit the Bottleneck (FIGURE 9), which in turn contains an external thread to allow overlapping screwing thereon of the Screw-Transport Cap (FIGURE 14.); after transport, to serve the water, any of these lids used are replaced by the Tap-Cap (FIGURE 15 and 16) containing the internal thread (FIGURE 17.) to also screw into the Bottleneck Holder (15.2. ) and Faucet (42.5) to close (15.8.) and / or open (16.3.) to serve the water from the carboy to an external container (42.6.). The other "Bottleneck" (FIGURE 27), unpublished, is located at the bottom of the carboy (42.3) and has an external thread (grooved by vertical grooves for air intake (FIGURE 28.) and 2 (two) rings parallel to the around the bottom of the carboy to screw in and seal there the sealed Bottom Bottom Sigh (FIGS. 27-34) that seals the water outlet when closed and sealed, and / or being opened by breaking its seal (FIGURES 33. and 34.), allows the air to enter as a continuous gasp at the bottom of the carboy (already set upside down in the Base Bracket - FIGURE 42.), thereby releasing water from the Lid. - Faucet (42.5.), All unprecedented.The Bottom Bottleneck (FIGURE 10.) will also contain a recess near its mouth (10.2.) To fit the Bottom Bottom Bracket (FIGURE 11). .) where, optionally, screw the sealed Bottom Bottom Cap (Sigh) (FIGURE 12.).

DESCRIPTION OF MATERIALS USED AND PARTS. MATERIALS: It is used in the manufacture of devices and parts parts of the inventive set, polymers and their blends, fit for human food and / or table drinking or mineral water; a metal tube around 12cm long x 2cm in diameter; 2 magnets matching the tube; a natural fiber cord such as cotton or a polymer cord as nylon for the strap; two latex or silicone sealing rings, four screws and one spring, all stainless steel, for the Faucet Cap. INVENTIONS OF THE ASSEMBLY AND ITS PARTS AND PARTS. INVENTION: BOTTLE. FIGURE 1. No Scaling. Unpublished 20L plastic carboy (FIGURE 1.) reminiscent of a pear or apple bitten in the middle around it, being oval in a vertical direction and with a tapered and concave waist (1.1) in the central and horizontal strips of your body wherein this shape can be replaced by the known common carboy shapes (FIGURE 2) modified however by the carboy characterizing innovations of the present invention. It can be produced with capacity from 5 liters with proportional dimensions. Its shape (FIGURE 1.) In addition to providing a more pleasing appearance to the consumer of table water or drinking water, it also enables an ergonomic medium that reduces physical effort and strength less a person's spine (same objective: PHOTO 9.) when it is lifting it full of water and holding it with both hands, one on each side at its waist below the lower convex part, to be placed on the Base Support (FIGURES 40. and 41. ) upside down (FIGURE 42.) and thus can serve the water. Note that the carboy can be filled with water and can be lifted upside down when the Sigh Cap (FIGURE 31.) is closed and the Faucet Cap (FIGURE 15.) will not allow it to be flushed. water out of the carboy, perfectly sealed by said caps. The upper neck of the carboy has an oval-shaped blade (1.5) (top view: FIGURE 3.) arranged around it horizontally and which surrounds it near the body of the carboy and which is traversed by two holes (1.5.), Oval (top view: FIGURE 3.) juxtaposed on each side of the neck and close to it, to allow the Handle Strap lanyard (FIGURE 35.). pass them around the neck of the carboy, to be suspended by the "Handle" through which enters the drawstring of the Transport Handle (FIGURE 39.), is removable; Through these holes you will be able to thread a thin thread of the Screw Cap Transport. Near the mouth of the upper neck there is an outer recess around it (1.2.) Which is to allow the pressure-carrying cover (FIGURES 4 to 6) to be fitted therein for use in the transport of the carboy. full; or further to allow in said recess the fitting of the Upper Bottom Neck Bracket (FIGURES 7, 8 and 9), which has an external thread to be screwed into it, the Thread Transport Cap (FIGURES 13. and 14 .), for optional use, as well as, to be screwed into the same Bracket, the Faucet Cover (FIGURES 15 and 16.), having both internal screw caps. In the center of the outer concave space of the spherical bottom of the carboy (1.4.), There is an unprecedented Bottom Gargalo Bottom (1.3.), With an external thread cut by vertical striations, with two small rings around it and near the bottom of the carboy (FIGURES). 27 and 28.) of protrusion short enough to overlap the Lid-Sigh seal (FIGURES 29 through 34) which will be secured between the rings of this neck. Also contained are the carboy of this invention (FIGURE 1), two outer protective bands in the spherical horizontal environment of its most protruding parts (1.6 and 1.8) at the bottom as well as at the top, these stripes being rough, dotted, rough. , opaque, protruding and thicker than the smooth body of the carboy for its protection, and furthermore, to allow the carboy (42.4) to securely fit into its holder (40.1.), containing the narrowest upper band (1.6.) a small magnet for optional attachment of the Handle Handle (1.7). In the concave waist of the carboy (1.1.) Is located a tile-like formation (which may vary in type and shape), being made in relief and standing out from each other, forming a wide horizontal central strip (1.1), with two more prominent, rough, dotted and opaque bands above and below (1.6 and 1.8); and the remainder of the outer body of the carboy is smooth and transparent to the bottom around the lower neck, this space (1.4), intended for factory recordings. Optionally, Bottom Bottleneck can be produced threaded or unthreaded, but containing a recess near its nozzle (10.2.), to fit the Bottom Bottom Bracket (FIGURE 11.) where it will screw into it, another Bottom Bottom (Sigh) (FIG. 12). ) with a seal, which is identical in shape to that of FIGURES 29 A 34, which will be secured between the two blades which parallel surround the Bottom Bottom near its base.

 INVENTIONS AND PARTS OF THE ASSEMBLY. INVENTION: PRESSURE TRANSPORT COVER. FIGURE 4. No scale.

 Cylindrical, threadless, pressure-carrying cap (FIGURES 4. and 5.) made of soft plastic; It has an inner protrusion (4.1.) located around its wall, inside it near the bottom, to snap into the recess of the Upper Bottom Bottleneck around and near its mouth (FIGURE 6.). well fixed, sealed with perfect sealing, and to remove it has a tear-marked strip in the plastic that starts in the middle of its top (FIGURE 5.) and extends down the side of the lid beyond it (4.2 .), which pulls up will destroy the lid and is easily opened; It is therefore disposable and optional for the sealed Thread Carrying Cap (FIGURE 14.).

 INVENTIONS AND PARTS OF THE ASSEMBLY. INVENTION:

TOP AND LOWER BOTTLE HOLDER OF BOTTLE. FIGURES 7., 8., and 9. No scaling.

Upper and Lower Bottom Neck Support for screw caps (FIGURES 7., 8., and 9. without scale), characterized by their tubular, plastic shape. From its annular end, narrow strip-like walls with an external thread over them and an inner protrusion at their ends, come out towards the mouth of the carboy. These strip-like walls are interspersed with empty spaces (FIGS. 7 and 8), which will allow, with the dimensions appropriate to the intended neck (Upper or Lower) fit them into the outer recess around the neck and near its edge (1.2 or 10.2.). The Thread Carrying Cap (FIGURE 14.), or the Faucet Cap (FIGURES 15. and 16.), or the Sigh Cap (FIGURES 29. and 30.), have internal thread and dimensions compatible with the Bracket. to which they correspond may be screwed in unheardly overlapping said neck bottleneck holder itself.

 INVENTIONS AND PARTS OF THE ASSEMBLY. INVENTION: THREAD TRANSPORT COVER. FIGURE 13. No scaling.

 Cylindrical malleable plastic screw cap (FIGURE 13.) has an internal thread and sealing on its inner bottom made of a suitable polymer (13.1.) To be screwed into the screw top cap holder (FIGURES 7. , 8 .. and 9.). Its purpose is to cover the carboy during the storage and transport of water, being returnable, reusable, and still unheard of, because when screwed in, it presses its bottom (of the lid) against the extreme mouth part of the neck that contains polymeric sealing material ( (silicone type) thus closing (FIGURE 14) with complete sealing; This lid also has a small eave - shaped spherical blade at the outer lateral end of its nozzle, containing a circular hole in it, which will allow it to be through this hole and also through the hole of the Upper Bottleneck of the carboy (1.5. ) entwined Seal (14.1.) in cord form, sealed with identification tag.

 INVENTIONS AND PARTS OF THE ASSEMBLY. INVENTION: COVER. FIGURES 15 and 16. AND THEIR PARTS: FIGURES 17. to 26. No scaling.

Unpublished, plastic-made carboy Faucet Cap (FIGURES 15. and 16.) are intended to seal or seal the carboy water outlet (15.1.) When the Faucet (15.8) is closed and also to allow by process conversely, the water outlet (16.1. to 16.2.) when opening the Faucet (16.3.). To close it, just turn the cylindrical end piece, said Tap (15.8.), Clockwise, or to open it, the same part is turned counterclockwise (16.3.). It consists of coupled parts that allow their operation. The first of these, Faucet Cover Base (FIGURE 17), is similar in shape to two larger and smaller diameter tubes joined together; the larger diameter tubular part has an internal thread to be able to screw (15.2.) into said Upper Bottleneck Holder of the carboy for threaded parts (15.3.); the other part of smaller diameter exits from the bottom of the larger tubular part, advancing outward like a small neck, initially containing two small inner recesses (19.1) to house the Minor Sealing Ring (FIGURE 19.); At the bottom of the larger cylinder, space extending from its side to the beginning of the smaller tubular cylinder, there is a circular recess to fit (18.1.) the Larger Sealing Ring (FIGURE 18.). It still has externally at the lateral ends of the smaller cylinder, two opposite points laterally, with indentation (17.1) suitable to fit there two pins, each coming from the opposite side (15.5.) That will hold the walls of the Tap-Cap Base. Tap part (24.1.), which being coupled, the pins will act as guides for opening and closing said Tap (FIGURES 24., 25. and 26.). The Faucet Cover Base (FIGURE 17.) is added from a second internal part Internal tapered, external tubular-shaped Faucet Cover Water Outlet Controller (FIGURES 22. and 23.), which fits inside from the Tap-Cap Base outwardly through the smaller diameter neck, being fastened by screws at its end (15.7) to the so-called Tap part, having a circular outer flange that seals the water outlet (15.1) when closed by turning clockwise said Faucet (15.8.) by the pressure it exerts on the Larger Sealing Ring (18.1.) which is at the bottom of the Faucet Cover Base (FIGURE 17.); or conversely, when said Faucet is opened by turning it counterclockwise, the movement moves the same tab away from the Sealing Ring. Larger, to allow water (16.1) from the carboy to enter through the windows below the same Water Exit Controller tab (FIGURE 22), it follows the funnel inside it to the outside (16.1. To 16.2.) Serving the outer container (42.6.). The Smaller Seal Ring (FIGURE 19.) housed in the smaller tubular outlet recess of the Faucet Cover Base (19.2) will press the circular extension of the outer wall of the part, Exit Controller (FIGURE 22.), which seal the water outlet between these two parts when the Faucet (16.3.) is opened. The last piece, proper Tap (FIGURES 24, 25. and 26.), has continuous tubular shape open at the ends, being crossed through the middle, internally and transversely, by a thick blade, hollowed in the center in smaller circle, to allow the Pass and fit into this void from the end portion of the Exit Controller (FIGURE 22) which is seated from the inside out into the bottom void of the Faucet Cover Base (15.1. and 16.1.). This thick blade internally passing through the Faucet will be traversed by two larger screws (25.1.) To secure it to the end of the thick side wall of the Output Controller funnel (15.7.). As already stated, it is explained that two juxtaposed smaller pins will traverse the end of the sidewall of the Faucet part (15.5) and be housed in two appropriate, opposite and opposite recesses at the end of the smaller diameter tubular wall of the Base of the Faucet. Faucet Cap (17.1.) To guide the opening and closing of said Faucet (15.8. And 16.3.). In the space between the end of the smaller tubular sidewalls of the Faucet Cover Base and the central blade cutting the Faucet in half, a circular ring-shaped stainless steel spring (15.6) will be fitted therein (FIGURES 20. and 21.) that will force the Faucet to remain closed when not engaged.

 INVENTIONS AND PARTS OF THE ASSEMBLY. INVENTION:

SINK COVER. FIGURES 29. and 30. Nonstop. Bottom Bottom Bottom Bottom Bottom Sigh (FIGURES 29. and 30.) Plastic, disposable, sealed, internal thread (FIGURE 30.), with transverse rib-cut outer thread (FIGURE 28.), to be screwed directly onto a small neck at the bottom of the carboy (FIGURE 27.) and thus close and seal it (FIGURE 31.), sealing the water outlet from the carboy; It also has the purpose of allowing air to enter as a gasp at the bottom of the carboy when it is opened by breaking its seal (FIGURES 33 and 34), which will remain attached to it; The air that will enter the lower neck as a continuous gasp will provide at the other end of the carboy the water outlet through said open Faucet (42.5.), with the carboy already in the upside down position (FIGURE 42.). The Tampa-Suspiro also has fundamental and unprecedented function in the production process of the carboy: it has two parallel walls, one carrying the outer seal, which has internal thread to screw into the bottom neck of the carboy, and another inner wall, one long. slightly larger, which will be inside the walls of the neck after screwing. This second interior wall is unheard of and has been designed to together with the outer wall protect the lower neck tubular wall from heat during the heating of the new preform in the production phase of the carboy in the heating, stretching and blowing process, with fulcrum in principle of the present invention, which relies on (TG) Transition Glass of the materials to be used. This same Tampa-Sigh (FIGURES 29. and 30.) retaining its own characteristics and proportional dimensions, can also be screwed over (FIGURE 12.) with sealing material (12.2.), Directly into the Bottom Bottom Bottom Bracket. (FIGS. 7, 8, and 9.) suitable for receiving it, which in turn is affixed to the recess (10.2.) Of another optional Bottom Bottleneck (FIG. 11.) of this invention, said seal being sealed. Sigh Cap (12.1.) On said Bottleneck (FIGURE 12.). because of the ring (10.1.) in this existing one. INVENTIONS AND PARTS OF THE ASSEMBLY. INVENTION: REMOVABLE TRANSPORT HANDLE. FIGURE 36. No scaling.

 Carrying Handle (FIGURE 35.) consists of a cord (FIGURE 36.) of natural fiber or of suitable polymeric material having a diameter of about 1 cm. and appropriate length; The cord is preferably fabricated already knotted, and tucked folded into the Carrying Handle (FIG. 37) which is made of a metal tube about 12cm. in length by 2cm. in diameter; the folded cord will be threaded from top to bottom (1.5) through the oval hole (FIGURE 3.) of the ring surrounding the Upper Bottom Bottleneck, and after being pulled down, will be lifted open in two, over the neck. , a cord on each side, and descending on the other side will be pulled to lock on the opposite side between the base of the neck and the existing ring, repeating the procedure on the other side, with the other part of the cord, thus leaving the loop -Transport (FIGURE 39.). able to safely suspend and transport the carboy. Before the carboy is inverted and placed on the Carboy Base Bracket (42.4.) To pour water into the outer container, the metal Carrying Handle (FIGURE 39.) must be attached to the magnet placed in the narrow, protruding band of the Carrier. carboy near the Upper Bottleneck (42.8). Optionally, after placing the Carboy on said Base Bracket, said Metal Carrying Handle, if not, will be affixed to the magnet inside the Carrier Base Bracket side wall (42.2) so that it can be water is poured into the outer container (42.6) by said Faucet (42.5.)

 INVENTIONS AND PARTS OF THE ASSEMBLY. INVENTION: BOTTLE SUPPORT. FIGURES 40. and 41. Nonstop.

Flask Base Holder (FIGURES 40. and 41.) Unpublished, designed to support the inverted flask, which fits into it (40.1), so that water can be served by the Flask Faucet (42.5.). It is made of reinforced plastic of cylindrical closed at its bottom base; It has an opening in the side wall (40.2.) far enough on all sides to permit the handling of the Faucet (42.5.) there (42.7.) and / or the placement and removal of containers (42.6.). It is opened at the top with at its end a balcony around it which extends outward beyond the side wall (42.4), having a diameter slightly larger than the broad outer upper band of the carboy (1.8.) To allow it is placed there inverted and perfectly fitted and supported (40.1. and 42.4.). Inside, up to 2/3 of its height, eight vertical blades protrude from the sidewalls towards the center, joining the upper inner part to a smaller diameter tubular wall, centered at the same height where the neck with inverted position will be inverted. the Faucet Cap fixed to serve water (FIGURE 42.). It is thus designed to support the carboy and allow the user to place or remove container from the base and pour water (42.6.) Or open and close the Faucet (42.5.). They contain at the height of their Tap (42..5.) On the inner side wall a magnet to attract the Carry Handle (42.2.) Securing it so as not to disrupt the flow of water from the Tap (42.5.) directed to the outer receptacle (42.6).

 BOTTLE AND BOTTLE PRODUCTION PROCESS AND

FORM OF THE PRESENT ART STATUS. PHOTOS 1. to 4. The current state of the art in the process of manufacturing plastic carboys or gallons for storing, transporting and serving table water or mineral water follows a standard procedure, which necessarily departs from prior production by the process. injection molding of a preform into the idealized shape of the plastic carboy, always with a "one" neck (PHOTOS 10., 11. and 12.), then with the preform ready and placed on the line. production of the carboy, stuck by the neck, if the sequence of procedures (PHOTO 14) begins with the preform's external body heating by side heaters focused on it, the preform rotating around each other in the middle of the heaters and hanging between them in the production line, until the temperature of the Tg - Transition Glass of the polymer used in its manufacture is reached, being PET - Polyethylene Teraphitalate, PP - Polypropylene, and PC - Polycarbonate, the most commonly used for making flagon for mineral or table drinking water. Once the Tg - Transition Glass is reached (Transition Glass or rubbery state) of the preform polymer material, it is introduced into the carboy mold and closed and the preform is attached to the outside of the mold by the blade around its shape. single neck that will be outside the mold, and then inserted into the vertical center of the preform by its neck a pin which will stretch it by pushing the bottom of the preform into the bottom of the mold, At the same time, the blow is initiated by the pin, which will now cause the preform to extend axially and abut against the metallic cold internal walls of the mold (cold due to the cooling process in the mold). , causing the preform plastic to cool down, which then vitrifies itself, thus opening the mold immediately and ejecting the finished carboy. In summary, the process of producing the bottles of common shapes according to their mold (PHOTO 13.) is designed today, according to the state-of-the-art technology using various polymers. It should be noted that current technology and machinery on the market have hardly advanced in the principles of the manufacturing process described above for a long time, and thus inventions that sought to "pour water out of the bottle itself" were only skating in the process. existing design, being able, as a maximum innovation, to create the internal tubes in the carboy that come out of the neck cap and go to the bottom of it to allow air to enter there as a gasp and thus to let water through the nozzle of the single neck, or to the same end yet a siphon was invented in the carboy nozzle to introduce air into it, generating enough pressure for the water to flow out of the tap located in the carboy nozzle or even bottleneck gallons, but with huge jar-like mouths that serve tap water on its side wall near the bottom (PICTURES 1 to 9), as appropriate, did not bring any thorough, hygienic, effective technical even in the design of the carboy, but on the contrary, in all cases - with the placement of interior tubes in the carboy and large nozzles in the neck - more complexity and more work was done for hygiene and more grotesque shapes were created to the carboy's look making the desired ideal worse. So that a layman can understand the reason for the lack of inventive solutions, making a crude analogy, imagine a bladder blow into the mold of a carboy until all of it was stretched and blown against the walls of the mold to take it. (assuming, absurdly, that the bladder rubber would then solidify as in the production of the carboy). Now, if at any point in this bladder there was a hole or a vent, the blow to make it fill and expand would be useless and impossible !!! Likewise, in the state of the art of the carboy manufacturing process, it is a consummate fact that it is impossible to use a preform that has another outlet and / or air inlet at its bottom than that of the normal bottleneck, as it is not possible to expand the walls of the preform inside the mold by blowing air into it, as the air would exit through this other outlet and / or inlet at the bottom of the preform. The inventions of the present inventive set, therefore, supply the latent needs and desires of the consumer market, to be able to use a more attractive looking Bottle, which arouses the desire to use it, to be able to carry it, to handle it more. practical, efficient and ergonomic, and to be able to serve water through the bottle itself with more practicality and hygiene. INVENTIONS: PROCESSES FOR PRE-FORM PRODUCTION OF BOTTLE AND BOTTLE. FIGURES 43 TO 54. No scaling.

Thus, the present invention, by providing a novel solution for pouring water from the carboy itself by means of a Faucet Cap (42.5.) Directly into an external container such as a glass (42.6.), Was obliged to innovate not only in architecture. of the carboy, but was still necessarily required to create an unprecedented shape of the carboy preform and its molds. For this reason it has also become necessary to reinvent part of the production process of the carboy, its preform and the molds, including the creation of an unprecedented procedural principle in this process. Consider that state-of-the-art preforms (PHOTOS 10., 11. and 12.) are made of appropriate plastics and selected to produce carboys with a desired design mold (PHOTO 13). shapes slightly smaller in height than the own carboys to which they will give rise (PHOTO 11. and 12.). They are usually manufactured within a process that is technically known as the "First Step of the Bottle Production Process" (out of a total of two). Consider that state-of-the-art preforms are closed at the lower end and open at the other end of the single neck, the predefined dimensions and shapes of which will remain unchanged until the final production process of the carboy known as Stage Two. . Already the preform design object of the present invention, not only brings the current "only bottleneck" known, but innovates by bringing "two bottlenecks", designed located at each end of the preform, unpublished bottlenecks that, after the production of the preform and by the end of the carboy production process will no longer change, maintaining identical dimensions in the original preform formats. Thus, the "First Step of the Flask Production Process" of the present invention begins with preforming the preform mold as its original design was pre-designed with the upper neck of the carboy containing an oval blade situated horizontally around the neck near the body of the carboy, which is unheard of (FIGURE 3. Top View) as it is traversed by two also oval holes juxtaposed on either side of the carboy. neck (1.5.) for entry of the Handlebar Handle (FIGURE 39.), said upper neck near and around its mouth having a recess around 2mm deep by 5mm wide surrounding it (1.2.) to secure the Pressure Carrying Cap (FIGURE 6.) or the Upper Bottom Neck Bracket (FIGURES 7., 8. and 9.), and in the center of the concave space of the outer bottom of the In the preform of the carboy, there is a small unpublished Bottleneck with tubular shape with external thread and grooves that cross the thread lines (FIGURES 27 and 28.), externally containing this lower Bottom, two rings of parallel small blades. thickness and height, surrounding it near the bottom of the carboy, after the thread is finished, with sufficient measures to overlap the seal of the Bottom Bottleneck Bottom-Sigh (Figures 29 and 30), which is thus closed with threaded and sealed. Likewise, optionally, this same Sigh-Cap (FIGURES 29. and 30.), retaining their compatible characteristics and dimensions, can also be screwed in a new way directly to said Bottom Bottom Bottom Holder for screw caps, characterized by: Its tubular shape, plastic, with an end that will be close to the base of the neck from where they exit towards the mouth of the carboy, small narrow strip-like walls of the same material, interspersed by empty spaces with external thread and internal protrusion at its ends that allow, in compatible dimensions, to fit into another unpublished and optional Bottom Bottom Bottom (FIGURES 10 and 1) of this invention into the outer recess around and near the edge of this other Bottom Bottom (10.2. ), which may said Bottom Bottom Sigh Cap should be screwed directly into the Bottom Bottom Bracket (FIGURE 12.) and sealed (12.1.) securing to the Bottom Bottom Bottleneck due to the ring (10.1.) therein. Note that all these preform bottlenecks, characterized, will not change during the production of the carboy, remaining in the same shape and size. Thus, in this "First Step of the Bottle Production Process", to make this preform, the mold is filled with the use of injection molding machine (FIGURES 43. and 44.) with one or more injection nozzles in the most suitable point or points of filling of the mold, until the filling is completed and is removed from the mold (FIG. 45) ready (FIG. 46). The production process is said to be done in two (2) steps, because in this First Stage, at this point, the preform can be saved, to later follow up the Second Stage of the Bottle Production Process. In the process of this invention, when the cold preform is removed from the mold, it cannot be blown with the lower neck open, which would be impossible to fill, as the air would be lost and no expansion of the preform by the force of the blow. Therefore, at this stop, the smaller threaded neck (1.3.) At the bottom of the preform will be closed and sealed with the Bottom Bottom Bottom Sigh Cap (FIGS. 29 and 30.) which will be screwed into it (FIGURES 31 and 32.), or, can be screwed into the Bottom Bottom Bracket (FIGURE 12.) already attached (FIGURE 11.) to the optional proprietary Bottleneck (FIGURE 10) and this procedure can be done outside or on the line itself. production of the flagon by existing machinery on the market. After this procedure, the preform is put back (or will continue) on the production line, starting the Second Carboy Production Step (FIGURES 47. to 54.). For this purpose, there was already the previous production of the carboy mold, obviously with the specifications of the carboy shape (FIGURE 1.) of the invention (or optional) being relevant. It should be noted that at the bottom and center of the mold there is a small cylindrical cavity (sensitive to mold cooling devices), slightly larger than the diameter and height of the Sigh Cap placed in the Bottleneck, so that they are precisely housed therein (FIGURE 50) upon drawing and blowing the preform into the mold. The next step on the production line will be heating the preform with the heaters directed at its body (FIGURE 48) without much focusing on the bottom neck until the Transition Glass (Tg) point is reached. Vitreous or rubbery transition - of the polymer from which the preform was made, the heating process being done as it turns on itself as it walks the production line, starting with the lower neck closed and sealed (FIGURE 47 .) by Tampa- Suspiro, which requires us to characterize, that the polymers used in the preform fabrication and in the making of Tampa-Suspiro cannot be of the same species and technical characteristics, as they would have the same Transition Glass (Tg). and could not be stretched and blown into the mold without the deformation of the neck and the sealing cap which would occur at the same time in the heating process. Thus, the selection of the polymers that will be used in the preform fabrication and in the Tampa-Suspiro fabrication will meet the unprecedented principle of this production process, characterized by the Transition Glass (Tg) of the polymer used in the preform fabrication. (FIG. 47.), well below the Transition Glass (Tg) of the other polymer that will be used in the making of the Lid-Sigh (FIG. 30.). In accordance with this principle, for the production of the preform of the carboy of this invention PET - Polyethylene Theraphythalate may be used, which has the Transition Glass (Tg) = approximately 70 ° C; and to make the lid-sigh can be used PC - POLYCARBONATE, which has the Transition Glass (Tg) = 150 ° C approximately, but with caveat, which can integrate the production processes of the Flask and Lid-Sigh of this invention these same polymeric and / or other materials, in conjunction with others of other species and polymer blends, which may optionally be used, provided that the principle characterizing the process of The production of the carboy of this invention, that is, the Transition Glass (Tg) temperature of the polymer used to make the carboy preform, should be much lower than the Transition Glass (Tg) temperature of the polymer selected for the carving. Lid-sigh. It is also integrated to this production process, as characterizing the same principle, that can also be produced by the known process of co-injection the same bottlenecks of the carboy and the concave surroundings and near them at the bottom of the carboy, with the use in this larger Transition Glass - (Tg) selected polymer site than the other polymer used in the preform body, as long as they do not reject co-injection (melting) with each other, which, again, applies to any polymers and blends that respect this same relation to the principle that differentiates by Transition Glass - (Tg) the materials that will be used for said purposes. It should be noted that any of the previously unpublished bottlenecks optionally produced will be especially protected from heat - during the warming process on the carboy production line - by the outer plastic layer of the Bottom Bottom Sigh Cap, as well as the another its inner wall parallel to the outer one, but of greater length, forming an almost heat-protective sandwich to the neck wall. During heating upon reaching the Transition Glass (Tg) point of the polymer used in the preform fabrication (FIGURES 48. and 49.), the production line draw and blow pin will be introduced into the preform. form by stretching it with the pin, which will push the bottom of the preform with the Sigh Cap closed and sealed without deforming it, until it fits precisely into the small cylindrical cavity in the center and bottom of the carboy mold (FIGURE 50), which have a height and diameter larger than the Sigh-Cap, thus stretching vertically and perpendicularly from the pre When the blow-out procedure is initiated at this time by the same pin, stretching begins in the axial direction of the preform (FIG. 51), and the plastic is pushed into the walls of the metal mold (FIG. 52.) which are cold due to the cooling devices inside the mold, and thus the walls of the carboy harden and the process can be removed from the finished mold. Since the Transition Glass (Tg) of the preform (around 70 ° C) is much lower than the Cover-Sigh Tg (around 150 ° C), it protects the neck walls in the heating process by not allowing deformation. This is due to the fact that the temperature inside the mold during the whole process is much lower than the external heating temperature. In addition, when stretched, the lid sighs in the cooled cavity in the mold. interior and bottom of the carboy mold until the end of the blowing process, when the carboy is promptly removed from the mold (FIGURES 53 and 54). It is noteworthy and characterized that all the drawings of FIGS. 43 through 54, the molds, the preform, and the carboy are stylized, and apply to the carboy of FIG. 1 and optionally to the standard Carboy. FIGURE 2. It is further characterized that said carboys can be produced with Upper and Lower Bottlenecks aligned vertically and decentralized to any point of the bottom of the idealized carboy, and can be positioned above and below even at points close to their sidewall.

Claims

CLAIMS.  1. Set of Inventions (FIGURE 42.) of the plastic packaging sector, characterized by Storing, Transporting and Serving Water, and incorporating in the same concept several inventions which include production processes, some of which may operate independently of each other or of the set.  Invention set according to claim 1, characterized in that it is composed of a plastic Flask (FIGURE 1.), designed to store, transport and serve water, with a capacity of 20 liters, and can be produced with capacity from 5 Liters, and optionally in common format (FIGURE 2.). Invention set according to claims 1 and 2, characterized in that the plastic carboy (FIGURE 1) has an unprecedented shape resembling a pear or an apple bitten around it and is oval in a vertical direction. , and with a tapered and concave waist (1.1.) in the central and horizontal strips of his body; It is further characterized by having two outer protective bands in the convex horizontal environment (1.6 and 1.8.) at the bottom and also at the top, which are dotted, rough, opaque, protruding and thicker than the smooth body of the carboy for its protection and to enable the carboy (42.4) to be securely fitted to its holder (40.1); It is further characterized by having in the upper narrow band (1.6) a small magnet for optional attachment of the Handle Handle (1.7); It is still characterized by having the concave waist wall of the carboy (1.1.) in relief, tile type, (which may vary in type and shape), being made detached from each other, forming a broad central horizontal strip in its middle (1.1 .), having two parallel narrow bands above and equal also below (1.6. and 1.8.), most prominent, rough, dotted and opaque, the rest of the outer body smooth and transparent all the way around the lower neck (1.4). .), intended for factory recordings. A set of Inventions according to claims 1 to 3, characterized in that the plastic carboy (FIGURE 1) has not one but necessarily two Bottlenecks, one Upper and one Bottom, each centered at its ends. and each designed with its own shape and purposes, and can also be built (the bottlenecks) decentralized at the ends of the carboy. Invention set according to one of Claims 1 to 4, characterized in that the Plastic Bottle (FIG. 1.) has an oval-shaped blade (1.5.) Arranged horizontally around it and at its upper neck. which surrounds it near the body of the carboy, and which is traversed by two oval holes (1.5) (top view: FIGURE 3.) juxtaposed on each side of and close to the neck of the neck to allow the Carry Handle (FIGURE 35.) pass through them; In addition, both the Upper and Lower Bottlenecks (this in this format option) are characterized by having close to the mouth an external recess around them (1.2. and 10.2.) which allows the Upper Bottleneck to fit there. Pressure Carrying Cap (FIGURE 6.), for use in transporting the full carboy, or to allow both the Bottom and Bottom Bottles to support the Top and Bottom Carboy Bottom Bracket (FIGURES 7., 8. and 9.) with dimensions proportional to each neck, fit into the recess itself; the Bottleneck further characterized by having a thin blade (10.1) around and near its base to be overlapped by the lateral end of the Sigh-Cap (FIGURES 30 and 31.) containing the seal, and which by The overlap will secure the seal after said Blade to the neck around its base. A set of Inventions according to claims 1 to 5, further characterized in that the Plastic Bottle (FIGURE 1) can optionally be produced with another unpublished Bottleneck (FIGURES 27 and 28) which will also be located in the center of the outer concave space of the spherical bottom of the carboy (1.3), characterized by having an outer thread and two parallel outer rings of small thickness around it near the bottom of the carboy (FIGURES 27 and 28), of sufficiently short protrusion , for overlapping the Cap-Sigh seal (FIGURES 30 and 31.) which will snap between the rings of this neck.  Invention set according to one of Claims 1 to 6, characterized in that the upper and lower necks are provided with the same Upper and Lower Bottom Bottom of the Plastic Bottle (FIGURES 7, 8 and 9). Designed with proportional dimensions that maintain its characteristics to fit the intended neck, this holder is characterized by having a tubular shape, which at its end has an annular band that will fit close to the base of the neck, from which they come out. towards the mouth of the neck small narrow strip-like walls with an external thread continuing from one strip to another, skipping existing gaps; each strip, in continuation from one another, an inner protrusion around and near its end to accommodate the recess in the neck suitable for engaging them (1.2 or 10.2.), which thus characterized, can receive (already fitted on the neck) screw caps. The Upper Bottom Bracket, already placed in this neck, receives the Screw-Carrying Cap (FIGURES 13. and 14.), or the Screw-Cap (FIGURES 15 and 16.); whereby the Bottom Bottom Bracket, fitted into the Bottom Bottom recess (10.2.) itself (FIGURE 10) can accommodate the sealed Lid-Cap (FIGS 29 and 30), which is screwed thereon (FIG 12). ) and sealed (12.1.) in said Bottom Bottleneck with the aid of the ring (10.1. and 12.1.) surrounding it near its base, existing for this purpose. Invention set according to claims 1 to 7, characterized in that the Upper Bottle Neck Directly Pressure Carrying Cap (FIGURES 4. and 5.), which is characterized by being cylindrical, unthreaded, made of malleable polymer to fit directly into the Pressure Bottom Bottleneck (FIGURE 6.), being locked and sealed by the inner protrusion (4.1) located inside it around its deepest wall, which engages in the recess (1.2.) of the Upper Bottleneck and around its nozzle, which allows perfect security and sealing; The so-called Pressure Transport Cap is characterized by having a strip-shaped break crease on its outer surface, which begins at the middle of its circular top (FIGURE 5.) and extends down its side continuing beyond the end of it. by about 2cm (4.2), so that it can be held in this extension and pulled this strip up towards its creased extension, to open by tearing said lid, thus further characterized by being disposable. The invention according to any one of claims 1 to 8, characterized in that the plastic reel (FIG. 1) has a returnable, reusable, plastic screw-carrying cap (FIG. 13). to screw into the Threaded Cap Bottom Bracket (FIGURE 14.) and is already affixed to the ^U Bottom Bottleneck to receive it, which thus screwed, presses its bottom (13.1.) which contains polymeric sealing material against the upper end of the neck thus closing (FIGURE 14) with complete sealing; It is further characterized by having at the outer lateral end of its mouthpiece a small spherical eave-shaped protrusion (14.1.), containing a circular central shape which will allow it to be through and through the throat of the Gargalo blade. Top of the carboy (1.5.) Below, entangled cord-shaped seal (14.1.), Which is sealed with a bottle identification label. A set of Inventions according to claims 1 to 9, characterized in that the Upper Bottle Neck (1.2) can Reception Faucet Cover (FIGURES 15. and 16.) Unpublished plastic, characterized by having internal thread to screw overlapping the Top Bottom Bracket for screw caps (FIGURE 9.) already affixed to receive it; It is further characterized by its own parts: Faucet Cover Base (FIGURE 17.), Faucet Cover Base Water Outlet Controller (FIGURES 22. and 23), and Faucet (FIGURES 24., 25. and 26.) themselves, which are coupled together and fixed with the aid of two screws made of stainless steel or polymer (15.7 and 25.1) allowing their operation, whose purpose is to seal the water out of the carboy by the Outlet Controller (FIGURE 15) what is done by turning the end piece said Faucet (15.8.), Whose rotary movement aided by two guide pins of stainless steel or polymer (15.5. And 24.1); and likewise, by reverse turning said Faucet (16.3.) water is allowed to flow out of the Outlet Controller (16.1. to 16.2.) to serve the water (42.5.) in an external container (42.6). .).  The invention according to any one of claims 1 to 10, characterized in that the Plastic Bottom Bottom Bottleneck (1.3.) Has a Plastic Bottom Bottom Bottom Sigh Cap (FIGS. 29 and 30) of plastic. with internal thread and sealed, being disposable, to be screwed directly into the Bottleneck Bottom of the carboy (FIGURE 27.) which has external thread cut by transverse ribs (FIGURE 28.) spaced apart, being able to close and seal said neck (FIGURE 31.), sealing the water out of the carboy or liquid in there. The invention according to any one of claims 1 to 11, characterized in that the Bottom Bottom Bottom Bottom Sigh Cap (FIGS. 29 and 30) is characterized by the fact that it can be screwed in directly to the Bottom Bottom Bracket. Carboy for screw caps (FIGURES 7., 8., and 9.), which is in turn already fitted into the new and optional Bottom Bottom Carboy (FIGURES 10 and 11.), fixed to the outer recess around and near its rim (10.2.), Which characterizes the latter, which can be said to have a Sigh Cap after being screwed directly into said Bottom Bottom Bracket (FIGURE 12.) and sealed (12.1.) in said Bottleneck (FIG. 10) by overlapping the ring (10.1. and 2.1) therein, securing the seal (FIG. 30) of said Lid-Sigh. A set of Inventions according to claims 1 to 12, wherein the Bottom Bottom Bottom Bottom Vent (FIGURES 29 and 30) is further characterized by having two parallel walls, one first outer wall, which It has a plastic sealing strap at its end and has an internal thread to screw directly into the Bottleneck with its own thread to receive it (or optionally to screw into the Bottom Bottom Bracket which will be attached to the neck to receive it). 1a), and a second inner wall, a little longer in length, which is parallel to each other and past the screwed-in neck wall, resulting in the two walls of the lid, with the neck in the middle forming them, being almost a sandwich, all being unprecedented; It is also characterized by its two walls have another fundamental and unprecedented function in the production process of the carboy, because the two walls were thus designed and arranged to protect from heat the lower neck wall of the unprecedented preform in the production phase of the respective. during the heating, stretching and blowing process, when the Sigh-Cap is placed in the preform during this process with the essential function of preventing the deformation of the lower neck that would occur by heating in this process, which it avoids furthermore, its polymeric material has (TG) Transition Glass higher than the material of the rest of the preform body, according to the inventive process principle of the production process. The invention according to any one of claims 1 to 13, wherein said Bottom Bottom Bottom Bottom Sigh Cap (FIGS. 29-34) is further characterized by sealing and functioning as a water or air outlet when closed and sealed; and by allowing air to enter the bottom of the carboy when it is opened (breaking its seal that will remain attached to it - FIGURES 33. and 34) and thus maintained when air enters the grooves of the striae that cut the external threads of the bottom neck, follow the bottom of the lid and descend between the inner wall of the lid and the bottom neck wall, entering the bottom of the carboy in a continuous sigh, which will allow the water to escape through the tap (42.5) when already set the carboy on the Base Bracket (42.4) upside down (FIGURE 42.) to serve water in a container (42.6).  A set of Inventions according to claims 1 to 14, composed of a plastic Flask (FIGURE 1.), whose Bottom Bottom Bracket is characterized by allowing through the empty spaces of its walls, following the interior of the Cap-Sigh and through the bottom neck, allow air to be vented as a continuous sigh to the bottom of the carboy when the Cap-Sigh is open (FIGURES 33 and 34.).  The invention according to any one of claims 1 to 15, characterized in that the plastic container (FIG. 1) has a carrying handle (FIG. 35), characterized in that it is composed of a metal tubular handle. where a double strand of natural fiber or polymer is passed through the oval holes (1.5) of the upper neck blade and entwined therein, which allows the carboy to be lifted and carried (FIG. 39) by said Handle, which is removable and optional for use, and the metal handle can be attached to the magnet on the outside of the Cylinder (1.7.) or attached to the inside wall of the Base-Holder Cylinder (41.3.) when pouring water (FIGURE 42.). Invention set according to one of Claims 1 to 16, characterized in that it has a Carboy Base Holder (FIGURES 40. and 41.), which in turn is characterized in that: a) it is made of a polymer that resists the weight of the water-filled carboy placed on it (FIG. 42.) thus designed to support the carboy; b) closing its lower spherical base for reinforcement of the structure and support of containers; c) having an opening in the side wall (40.2. and 42.7) sufficiently far and wide enough to allow the Carrying Handle to attach to the magnet on the inner sidewall of its bottom (42.2.); handling of the Faucet (42.5.), and also to permit the placement and / or removal of an empty or filled container (42.7.); d) be opened at the spherical top; e) contain at each end of the upper side wall a flap around it, which extends outwardly from said wall forming a small balcony around it with a diameter slightly larger than the diameter of the widest upper outer band of the carboy body. (1.6), and of the same height as the width of said strip, to allow said carboy there to be perfectly fitted and supported upside down (41.1 and 42.4.); f) contain, from the sidewalls and rising towards the center, eight vertical blades, which join a tubular inner wall centered in the median part of the support that will be next to the inverted neck, and slightly larger in diameter. said neck (FIGURES 40. and 41.) so that the Faucet Cap affixed to said neck is positioned loosely therein to serve water; The invention according to any one of claims 1 to 17, characterized in that the plastic bottle (FIG. 1), due to its ergonomic shape, enables the user to expend less physical effort and less force on his spine, for example. when he will lift it full of water, whether the carboy is standing or lying down, and holding it with both hands, one on each side, below the convex underside above its tapered concave waist (42.1.) , so as to lift it upside down even when placed in this position on its Base Bracket (42.4.) so as to serve the water content; The invention according to any one of claims 1 to 18, characterized in that the plastic canister (FIG. 1) can lie flat or be lifted upside down, full of water without leakage, provided that both the Bottom-Neck Sigh Cap (FIGURE 31.) and the Top-Neck Tap-Cap (FIGURE 15.) are closed;  The invention according to any one of claims 1 to 19, characterized in that it includes the Container Preform Production Process and the Container Production Process and molds (FIGURES 43. to 54.) as inventions. essentials.  A set of Inventions according to claims 1 to 20, which includes Bottle Preform Production and Bottle Production Processes and molds characterized by. a) designing the carboy preform molds (FIGURES 43. to 46.) with "two bottlenecks", a Superior Bottleneck of unprecedented shape and purpose and another unprecedented Bottleneck not existing in the state of the art; b) designing "two" Bottle Preform shapes for the Bottom Bottom Bottleneck, so that each can optionally be produced separately, being a mold characterized by the fact that in the Bottleneck there is a recess near and around the its nozzle (10.2.) to be able to receive the support (FIGURES 7., 8. and 9.) suitable for said properly sized neck, and also, because this Lower Bottom has a blade that surrounds it around its base (10.1. .), characteristic necessary to receive and sealing the LID-CAP (FIGURES 29. and 30.). A set of Inventions according to claims 1 to 21, which includes Processes of Bottle Preform Production and Bottle Production and molds, characterized by creating, for the Bottom Bottle Preform Bottleneck, heat shields emanating from the heating devices of the flask's own production process machinery, to prevent deformation during the heating, stretching and blowing step of the Bottle Preform, in the Bottle Production Process, protections in turn, characterized by the fact that: I) necessarily apply the principle of this invention which stipulates that the temperature of the Transition Glass (Tg) of the polymer selected to make the carboy preform should be much smaller than the Transition Glass - (Tg) temperature of the polymer selected to make the Lid-Sigh; II) using the Suspender Cap (FIGS. 29 and 30) of this invention fitted to either of the two optional Bottom Bottom Neck (FIGS. 10 and 27) to protect from heat and prevent deformation of said necks; throughout the Bottle Preform heating, stretching and blowing process in the Bottle Production Process (FIGURES 47. to 54.). A set of Inventions according to the claims. to 22, which includes Bottle Preform Production and Bottle Preform Production Processes and molds, characterized by the fact that, for the preparation of the carboy preform, the mold is filled with the use of a machine (FIGURES 43. and 44.) using nozzle (s) at the most suitable point (s) of the mold, and at this time a co-injection process may be used to make any two Lower Bottlenecks (FIGURES 10 and 27.) said co-injection may be extended to the region near and around its base, using polymeric material which will obey the principle of this invention that Transition Glass (Tg) of the polymer selected for making the carboy preform body should be much lower than the temperature of the Transition Glass - (Tg) of the polymer selected for making the Bottleneck and surroundings. , which will be protected by you pr heat, preventing its deformation, regardless of the cover-sigh protection, in the heating, stretching and blowing Flagon in the Flask Production Process (FIGURES 47. to 54.). A set of Inventions according to claims 1 to 23, which includes Processes of Production of the Bottle Preform and Bottle Production and molds, characterized in that the polymeric materials used in the preparation of said Preform -Shape, and the CAP-SUSPIRO (and possibly the Bottleneck by co-injection) are respectively PET - POLYETHYLENE TERAPHITALATE and PC - POLYCARBONATE, provided that by their blends do not reject the co-injection with each other, and in the same way, Any other suitable polymeric materials which comply with the said principle of this invention involving the temperatures of each material which must be differentiated by their Transition Glass (Tg) should be used. The Invention Set according to any one of claims 1 to 24, which includes the Production Process of the Carboy Mold and molds, characterized in that the carboy mold must contain a small cylindrical cavity at its bottom (FIG. 49). and 50.) with a cooling device in the mold, located in the right vertical direction where the Stretching Pin of the Preform will hit, having sufficient size for the Sigh Cap (FIGURES 50. and 51.) to be placed in the neck is received therein during the process of stretching and blowing the carboy preform into this mold (FIGS. 49-52).  A set of Inventions according to claims 1 to 25, which includes Carboy Preform and Carboy Production Processes and molds, characterized in that these processes are stylized. to 54, which resemble the common carboy of FIGURE 2, although they apply to the carboy of FIGURE 1 which is inverted in the assembly of FIGURE 42, while this set of inventions also allows it to optionally be produced. o Flagon in common shape (FIGURE 2.) applied to it the possible characteristics of the inventions.