Patent Application
20140216331
The present disclosure generally relates to a pellet producing apparatus. More particularly, it relates to an edible pellet producing apparatus, and a method for operating such an apparatus.
Bubble tea is also known as pearl milk tea, “boba” milk tea, “boba” tea, tapioca tea, pearl tea, milk tea, bubble drink, “zhen zhu nai cha”, or tapioca pearl drink, which is originated from Taiwan, the Formosa Island, and is a kind of authentic Taiwan-flavor food. The bubble tea is usually made of adding a mass of small chewy tapioca balls into the fresh cool tea, such as the black tea. The tapioca ball is also known as “boba” or “zhen zhu” directly based on its Chinese pronunciation.
Typically, tapioca balls are massively produced by a large-scaled instrument in food industrial ingredient factories. The finished tapioca balls are well packaged and sold to the ordinary consumers through the retail market. Therefore, subject to the requirement of the large-scaled instrument, it seems impossible for an ordinary end consumer to make the tapioca balls at home or at any place for convenience, not to mention having food safety and health control in production. In addition, the factory-produced tapioca balls are commonly in raw and required to be well cooked before being eaten.
There is a need to solve the above deficiencies/issues. For example, there might need a relatively light and small-scaled device capable of producing the tapioca balls and well cooking the finished tapioca balls at home or any place for convenience for an ordinary consumer.
In an edible pellet producing apparatus, the edible pellet producing apparatus includes a solidifying device and a processing chamber. The solidifying device is configured to process a plurality of edible ingredients into a moistened solid core. The processing chamber has a slide chute, which is configured to receive the moistened solid core, and provide an environment with a plurality of pulverized edible ingredients therein, and cause the moistened solid core to pass through the environment via the slide chute.
In an edible pellet producing apparatus, the edible pellet producing apparatus includes a filling device and a processing chamber. The filling device provides a granule. The processing chamber is configured to process the granule into an edible pellet.
a is a schematic diagram illustrating a filling device in accordance with the present disclosure.
b is a cross-sectional view of a cap in
a is a schematic diagram illustrating a processing device in accordance with the present disclosure.
b is a schematic diagram illustrating a tubular barrel in accordance with the present disclosure.
a-4d are schematic diagrams illustrating operations of a funnel-shaped channel in accordance with the present disclosure.
a-5e are schematic diagrams illustrating operations of a funnel-shaped channel in accordance with the present disclosure.
The disclosure will now be described by a detailed description of several embodiments. Referring now to
a is a schematic diagram illustrating a filling device in accordance with the present disclosure. In
In certain embodiments of the invention, the filling device 100 includes two or more filling module 120 and the filling module 120 includes two, three, or more ingredient injector 130
As shown in
In certain embodiments of the invention, there are a plurality of air hoses 120b configured perform a connection between the air pump 123 and one of the ingredient injector 130 and the air injector 135 and the like.
According to certain embodiments of the invention, the ingredient injector 130 includes a cylinder 130a having a first opening 130b and a second opening 130c, and a cap 131 having a first opening 131a and a second opening 131b. The first opening 130b is connected to the one of the plurality of air hoses 120b, as described therein. The first opening 131a can be screwed onto the second opening 130c.
b is a cross-sectional view of a cap in
According to certain embodiments of the invention, the air injector 135 is configured to provide a compressed air. The air injector 135 includes a cylinder 135a having a first opening 135b and a second opening 135c. The cylinder 135a includes a plunger 135d and a coil spring 135e. The first opening 135b is connected to the one of the plurality of air hoses 120b, as described therein. In some embodiments, the cylinder 135a is filled by an air supplied from the air pump 123, the coil spring 135e is compressed and the plunger 135d is subsequently pushed out via the second opening 135c, and the coil spring 135e pull the plunger 135d back when being released.
According to certain embodiments of the invention, one of the ingredient injector 130 and the air injector 135 can disassemble from the filling module 120 for filling ingredients and cleaning.
a is a schematic diagram illustrating a processing device in accordance with the present disclosure. In
In certain embodiments of the invention, the plurality of pulverized edible ingredients is selected, for example, from a group consisting of a tapioca starch, a sweet potato flour, a custard powder, a sweet rice flour, a potato starch, a corn flour, a milk powder, a powdered cheese, a plain flour, a tea powder and the like.
b is a schematic diagram illustrating a tubular barrel in accordance with the present disclosure. In
According to certain embodiments of the invention, in order to produce an edible pellet, the filling module 120 is initially filled with ingredients. For example, an first ingredient injector filled with a first ingredient, a second ingredient injector filled with a second ingredient and a third ingredient injector filled with a third ingredient. Secondly, the filling module 120 fills the ingredients into the receiving module 215 with a filling process, for example, the first ingredient injector fills the first ingredient into the first tubular barrel, in subsequent, the motion gear moves the filling device to a predetermined position, in particular, causing the first ingredient injector to situate on top of the second tubular barrel and the second ingredient injector to situate on top of the first tubular barrel, and then the second tubular barrel is filled with the first ingredient and the first tubular barrel is filled with the second ingredient. Following the filling process, when the air injector situates on top of the first tubular barrel, the first tubular barrel is mixed with the first, second and third ingredients, and then the air injector pushes a mixed core 235 through the free passage, as shown in
According to certain embodiments of the invention, subsequent to the filling process, the mixed core 235 drops on the extension track 230, rolling in the entry of the of the slide chute 225, sliding along the slide chute 225, rolling out of the exit of the of the slide chute 225 and dropping in one of the first opening 210a and the second opening 210b. In some embodiments, since the mixed core 235 passes through the environment for attaching the plurality of pulverized edible ingredients, the mixed core 23 grows into the edible pellet 240 as shown in
In certain embodiments of the invention, the guiding pipe 320 is fully immersed in the hot water except the rear end 345 having a bottom part slightly immersed in the hot water.
In certain embodiments of the invention, the optical sensor 335 detects a presence of the edible pellet 240 at the rear end 345 and subsequently triggers the flipper 325 to flip the edible pellet 240 into a gathering channel (not shown).
As shown in
In certain embodiments of the invention, a first pot 370 is configured to connect to the outflow opening 355 with a valve for providing a hot tea, a coffee or a tea-mate and a second pot 440 is configured to connect to the outflow opening 435 with a valve for providing a cold tea or a tea-mate and an opening 445 connected to the external tea-mate supplier (not shown).
In certain embodiments of the invention, a coating injector 380 having an air-pumped plunger (not shown) is configured to apply a coating ingredient onto the edible pellet 240 by one of a spreading method and a dripping method. In some embodiments, the coating ingredient is a flavored syrup such as a honey syrup, a brown sugar syrup, a caramel syrup, a hazelnut syrup, a vanilla syrup, a strawberry syrup, a mocha syrup or the like. In some embodiments, the coating ingredient is an additive or the like.
a-4d are schematic diagrams illustrating operations of a funnel-shaped channel in accordance with the present disclosure. In
a-5e are schematic diagrams illustrating operations of a funnel-shaped channel in accordance with the present disclosure. In
In certain embodiments of the invention, an edible pellet producing apparatus (not shown) includes the filling device 100, the processing device 200, the boiling tank 300, the cooling tank 400, the funnel-shaped channel 500, the funnel-shaped channel 600, and an electronic controller (not shown). The funnel-shaped channel 500 is disposed between the processing device 200 and the boiling tank 300. The combination of the funnel-shaped channel 500 and the funnel-shaped channel 600 is disposed between the boiling tank 300 and the cooling tank 400. Since the edible pellet producing apparatus is controlled by the electronic controller, operations of the edible pellet producing apparatus are automatic.
There are further embodiments provided as follows.
In an edible pellet producing apparatus, the edible pellet producing apparatus includes a solidifying device and a processing chamber. The solidifying device is configured to process a plurality of edible ingredients into a moistened solid core. The processing chamber has a slide chute and is configured to receive the moistened solid core, provide an environment with a plurality of pulverized edible ingredients therein, and cause the moistened solid core to pass through the environment via the slide chute.
In the apparatus according to the above-mentioned embodiment, apparatus further includes a coating injector, a first pot, a second pot, a plurality of valves, a boiling tank, a cooling tank, a first dispensing channel, a gathering channel, and a second dispensing channel. The boiling tank is connected to the processing chamber by the first dispensing channel. The cooling tank is connected to the boiling tank by the gathering channel and the second dispensing channel
In the apparatus according to the above-mentioned embodiment 1 or 2, the solidifying device further includes an air pump, an air hose, a gear box with a plurality of latches, a plurality of injectors, a linear motion gear. The air hose has a first end connected to the air pump and a second end. The plurality of injectors are affixed to the gear box by the plurality of latches respectively and configured to deliver the plurality of edible ingredients. The linear motion gear is programmed to systematically move the plurality of injectors
In the apparatus according to any one of the above-mentioned embodiments 1-3, each of the plurality of injectors further includes an upper opening connected to the second end of the air hose
In the apparatus according to any one of the above-mentioned embodiments 1-4, at least one of the plurality of injectors further includes a lower opening with a drilled cap screwed thereon. The drilled cap includes a plurality of slots disposed around the bottom thereof.
In the apparatus according to any one of the above-mentioned embodiments 1-5, one of the plurality of injectors further includes a plunger. The plunger is configured to provide an air pressure.
In the apparatus according to any one of the above-mentioned embodiments 1-6, the processing chamber further includes a side wall, a first opening, a second opening, a powder spreader, and a tubular barrel. The first opening is connected to the first dispensing channel. The second opening is connected to the air hose. The powder spreader is configured on the second opening to provide the environment. The tubular barrel has an openable stopper disposed at the bottom thereof and configured to receive the plurality of edible ingredients and deliver the moistened solid core
In the apparatus according to any one of the above-mentioned embodiments 1-7, the slide chute is spirally disposed along the side wall to receive the moistened solid core and cause the moistened solid core to pass through the environment for attaching the plurality of pulverized edible ingredients onto the moistened solid core to be grown into an edible pellet
In the apparatus according to any one of the above-mentioned embodiments 1-8, the tubular barrel is metal and further includes a belt heater and a reed valve. The reed valve configured to close the openable stopper and offer a free passage when the air pressure is applied to the tubular barrel.
In the apparatus according to any one of the above-mentioned embodiments 1-9, the slide chute further includes an extension track, a meshed housing, and a solid bottom. The extension track is configured to collect the moistened solid core dropped through the free passage. The solid bottom track coated with nano-particles.
In the apparatus according to any one of the above-mentioned embodiments 1-10, the boiling tank is configured to boil an edible pellet, further includes a top, a first edge, a second edge, a side wall, a heater, a guide pipe, a first opening, a second opening, an inflow opening, an outflow opening, an optical sensor, a switchable magnetic device, and a flipper. The guide pipe has a front end and a rear end. The first opening is disposed on the top near the first edge. The second opening is situated around the sidewall near the second edge opposite to the first edge. The inflow opening is configured to inject a hot water. The outflow opening is configured to drain the hot water. The flipper is activated by the optical sensor and the switchable magnetic device
In the apparatus according to any one of the above-mentioned embodiments 1-11, the front end of the boiling tank is connected to the first opening and the rear end is in proximity to the flipper
In the apparatus according to any one of the above-mentioned embodiments 1-12, the guide pipe includes a guiding part, a front part, a buoying part and a rear part
In the apparatus according to any one of the above-mentioned embodiments 1-13, each of the guiding part, the buoying part, the front part and the rear part has a bottom portion. The bottom portions of the guiding part and the bottom portion of the buoying part, and the bottom portion of the front part are fully immersed in the hot water. The bottom portion of the rear part is slightly immersed in the hot water
In the apparatus according to any one of the above-mentioned embodiments 1-14, the optical sensor detects a presence of the edible pellet at the rear end and triggers the flipper to flip the edible pellet into the gathering channel.
In the apparatus according to any one of the above-mentioned embodiments 1-15, the cooling tank is configured to cool down the edible pellet, further includes a water cooling system with a thermoelectric cooling chip, a first opening, a second opening, and a zig-zag ramp. The first opening is connected to the second dispensing channel. The zig-zag ramp allows the edible pellet to roll down and drop through the second opening
In the apparatus according to any one of the above-mentioned embodiments 1-16, one of the first dispensing channel, the second dispensing channel and the gathering channel is a funnel-shaped channel coated with nano-particles.
In the apparatus according to any one of the above-mentioned embodiments 1-17, the funnel-shaped channel further includes a vibrator, an opening on one end of the funnel-shaped channel, and a plurality of openings on another end of the funnel-shaped channel for performing one of a one-to-many distribution and a many-to-one collection.
In an edible pellet producing apparatus, the edible pellet producing apparatus includes a processing chamber. The processing chamber has a slide chute, receiving a moistened solid core and causing the moistened solid core to be coated by a plurality of pulverized edible ingredients therein.
In an edible pellet producing apparatus, the edible pellet producing apparatus includes a filling device and a processing chamber. The filling device provides a granule. The processing chamber is configured to process the granule into an edible pellet.
