Postmix – Wikipedia. Prague - Postmix Coca Cola. Najděte okamžitě kvalitní výsledky! Finden Sie Top-Angebote für Coca Cola - Postmix - Sirup - Bag in Box - 10l BiB - inkl. 4 Fl. GRATIS-Sirup bei eBay. Kostenlose Lieferung für viele Artikel!
Coca Cola Bag-In-Box PostmixFinden Sie Top-Angebote für Coca Cola - Postmix - Sirup - Bag in Box - 10l BiB - inkl. 4 Fl. GRATIS-Sirup bei eBay. Kostenlose Lieferung für viele Artikel! Über 80% neue Produkte zum Festpreis. Das ist das neue eBay. Finde jetzt Postmix. Získejte Postmix Coca Cola. ZapMeta nabízí celkový přehled z 6 vyhledávačů.
Postmix Coca Cola Tools & Resources VideoHome Soda Fountain
Deine Erfahrung mit dem Postmix Coca Cola zu verbessern. - NavigationsmenüDer Betrag kann sich bis zum Zahlungstermin ändern.
A postmix dispenser is a more sophisticated device than a premix dispenser. The postmix system is suitable for outlets that serve large amounts of soft drinks quickly, such as a sports stadium or a busy fast-food restaurant.
From Wikipedia, the free encyclopedia. This article does not cite any sources. In addition, before the final product is dispensed, it is further mixed by static mixer Referring to FIGS.
In operation, product is fed into the pump via feed tube where it is pumped to mixing chamber through the progressive cavities formed as rotor rotates within stator Rotor is further provided with vanes see FIG.
The purpose of vanes is to break up the pumped product into several segments which reduces the back pressure on the stator and in the mixing chamber so that it will readily mix with the water.
The water to be mixed with the product is delivered to water block via water conduit where it enters into passageway Passageway extends completely through rotor and opens into mixing chamber via opening As the water enters mixing chamber through opening , it is deflected rearwardly into mixing chamber where it dislodges product from vanes and mixes with that product as it is forced from pump The water and product then passes through static mixer for a final mix on its way to a cup.
In this embodiment, the pump housing is integral with the container making it a single unit. It is intended that the entire unit package plus mixing nozzle be disposable.
Of course, the container may be of any desired type known in the art and which is suitable for use with the progressive cavity pump; however, the embodiment disclosed herein is a piston type container.
In addition, the water is injected directly into mixing chamber via inlet to produce the final mixed product. In operation, the container and pump package is placed into the compartment such that the pump is rotatably connected to the motor via rotor shaft connector or bendix drive The pump and dispensing unit of this embodiment operate in a similar manner as previously described with reference to FIG.
The movement of the pump when turned on, including the movement of the stator, assists in heating the concentrate and making the concentrate more pliable since it is in contact with concentrate at the area where the concentrate feeds into the pumps inlet.
As known in progressive cavity pumps, one of the two elements of the rotor and stator is a single lead screw and the other is a double lead screw, and the rotor drive shaft is off center.
In the preferred embodiment, the rotor is made of high density polyethylene and the stator of rubberized polyolefin. The container has a cylindrical side wall , a top wall , a bottom wall , a concentrate chamber , and a concentrate outlet opening The container preferably has a hole in the top wall thereof covered by a label which is pierced by the punch or air tube The container also has a piston which is forced down by the air pressure and pushes the concentrate into the pump The hole is not essential because the air tube could alternatively pierce the top wall.
The pump includes a housing having an intermediate wall to define the stator chamber The stator ' abuts the wall The wall has an opening which is a bearing for the ring of the rotor '.
The ring has openings or serrations in its periphery which are the concentrate inlet openings to the pump. The rotor shaft includes a labyrinth seal where it rotatably extends through the housing The container is preferably injection molded of polyethylene with a wall thickness of about 0.
The container is preferably hot plate welded to the pump , which is also injection molded of polyethylene.
While other types of pumps could be used in this package, the pump is preferably a positive displacement pump and preferably a rotary positive displacement pump in contrast to a reciprocating pump and most preferably a progressive cavity pump.
The package is preferably oriented upside-down during shipping. The container is filled through a fill opening adjacent the pump. A fill opening cap seals the opening after filling.
The stator ' can move or flex sideways during pumping by virtue of the flexible seal ; this avoids the need for an expensive constant velocity joint to the pump.
The mixing nozzle is attached to the pump either before or after inserting the package into the dispenser After insertion and attachment of the mixing nozzle, the water line is connected to the mixing nozzle.
An important feature of this invention is that the package and air drive stuff the pump. That is, the concentrate is in flow communication with the pump inlet and is under pressure.
This cannot be done with some pumps, such as flexible vane pumps, because the concentrate would be forced right through the pump.
One embodiment of this invention allows dispensing of a concentrate at or near freezer temperatures with no or minimal conditioning warming.
This invention allows dispensing at or above the ice point and in some cases below the ice point and provides a product with an ice point at or close to freezer temperatures.
The ice point is the temperature at which crystals of ice begin to form. The ice point differs for different products. This invention includes providing a product which has an ice point at or near freezer temperatures.
The concentrate should be high enough in ratio e. The prior art dispensers require the viscosity of the concentrate to be below about centipoise.
This embodiment of the present invention works even though the viscosity is much higher, such as , centipoise and often up to 13,, centipoise.
While the preferred embodiment of this invention has been described above in detail, it is to be understood that variations and modifications can be made therein without departing from the spirit and scope of the present invention.
For example, the dispenser 10 can be designed for any number of packages such as 2, 4, 6, etc. All rights reserved. Login Sign up.
Search Expert Search Quick Search. Postmix juice dispenser. The syrup in this pack is ready for use as indicated.
Any change or alteration thereof, except for use in dispensing the beverage 'Diet Coke' as indicated constitutes as unauthorised usage.
Push in A, pull back B. Tear off A. Pull out nozzle and locate in hole left by A. Push in B to lock. Remove dust cap. For use in authorised postmix dispensers only.
The syrup in this pack is ready for use as indicated. Any change or alteration thereof, except for use in dispensing the beverage 'Coca-Cola' as indicated constitutes unauthorised usage.
Referring mainly to FIG. The inlet end of the coil 50 is connected through a coupling to the local water supply by line The water circuit 16 includes a cooled water line 52 extending from a coupling on the outlet of the coil 50 to a manifold Three separate lines 56, corresponding to the three concentrate package stations 58 in the compartment 18, extend from the manifold.
The coil 50 can be pulled up out of the tank 13 by disconnecting couplings and and without the need for any disconnecting from the evaporator coil.
A removable nozzle 64 see also FIGS. The nozzle splits the water stream into a plurality of separate streams that angle inwardly toward the center concentrate stream.
The nozzle 64 includes a passage 66 and a plurality of circumferentially equally spaced-apart ports The nozzle has a central opening 70 and an access slot 72 for the tube 74 of the concentrate package The nozzle 64 has a pair of flexible arms 76, each with a locking shoulder on the outer surface thereof, that are bent inwardly during insertion and that snap out when released to lock the nozzle in place.
The nozzle 64 includes a cover 77 bonded in place. Referring mainly to FIGS. It is cooled by the cooling system The packages 20 are slid into place and the dispensing tube is threaded through the pumping unit 22 as described below.
A ratio card 78 is inserted into a slot 79 in the rear of the door 30 to tell the control system 24 what the ratio of water to concentrate is to be for product in the package.
As can be seen in FIG. The concentrate packages 20 are preferably disposable bag-in-box packages comprising a flexible, collapsible plastic bag inside of a corrugated box.
The bag has a fitting to which is attached a flexible, closed end, dispensing tube After the tube 74 is threaded through the pumping unit and the shut-off 80, the closed end is cut off so concentrate can be dispensed upon demand.
With reference mainly to FIG. Above the pumping unit is a known tube guide 88 see FIGS. Below the pumping unit 22 is a known pinch solenoid operated tube shut-off 80 with a front door 92 having a turnable locking latch With best reference to FIG.