JP6315176B2 - Silver bean removal device for coffee beans - Google Patents

Description

  The present invention relates to a coffee bean silver skin removing apparatus for removing silver skin mixed in ground coffee beans.

Since the astringent skin of coffee beans, so-called silver skin, causes the taste and taste of brewed coffee, an apparatus for removing silver skin from ground beans has been proposed.
For example, the silver skin removing device shown in Patent Document 1 forms a swirling air flow in a cylindrical container, and separates the silver skin from the coffee beans using the difference in specific gravity between the ground coffee beans and the silver skin. To do.
In such an apparatus, since the ground coffee beans are swirled by an air flow, the surface of the coffee beans is likely to be oxidized, and on the contrary, the flavor may be lowered.

On the other hand, as a device capable of removing the silver skin without using an air flow, a foreign matter removing device using static electricity shown in Patent Document 2 has also been known.
This device is a device for charging foreign matter such as hair mixed in the object to be processed 2 conveyed by the belt conveyor 1 shown in FIG. 5, and sucking and removing the charged foreign matter by Coulomb force. The foreign matter removing device disposed above the belt conveyor 1 includes a charged electrode plate 3 for attracting foreign matter with Coulomb force. The charging electrode plate 3 is a rectangular metal plate that is long in the width direction of the belt conveyor 1 and has a predetermined length in the length direction of the belt conveyor 1, and is disposed to face the surface of the belt conveyor 1 in parallel.

Further, in order to capture the sucked foreign substances by the charging electrode plate 3, and a take-come-up reel 6 for taking up the supply reel 5 and the adhesive tape 4 which foreign matter has adhered to support the roll 4a of disposable adhesive tape 4 It is attached to a frame (not shown).
Furthermore, a charger 9 is provided on the upstream side of the charging electrode plate 3 in the transport direction of the object to be processed 2 to charge the object to be processed 2 including foreign matter. The charger 9 generates ions having a polarity opposite to that of the charging electrode plate 3.

In the foreign matter removing apparatus configured as described above, when the object to be processed 2 is conveyed by the belt conveyor 1, the charging electrode plate 3 is set to a high DC potential, and the adhesive tape 4 is taken up by the take-up reel 6. The foreign matter such as hair that can be sucked by the Coulomb force mixed in the object to be treated 2 on the surface 1 is attracted to the charging electrode plate 3 and floats and adheres to the adhesive tape 4. The adhesive tape 4 is taken up by the take-up reel 6, and the foreign matter adhering to the adhesive surface of the adhesive tape 4 is discarded together with the adhesive tape 4. The silver skin can be removed from the coffee beans by such a foreign matter processing apparatus.

In such a conventional foreign matter removing apparatus, as described above, the plate-like charged electrode plate 3 is adhered to the adhesive tape 4 by electrically attracting and lifting the foreign matter.
Specifically, first, the workpiece 2 on the belt conveyor 1 is irradiated with ions by the charger 9, and the surface is charged. The charged polarity is opposite to that of the charging electrode plate 3.

When the object to be processed 2 containing foreign matter such as hair whose surface is charged by the charger 9 is carried on the belt conveyor 1 and under the charging electrode plate 3, the charged portion on the surface and the charged portion are charged. Coulomb force acts between the electrode plate 3 and the electrode plate 3.
When this Coulomb force is stronger than gravity, that is, foreign matter such as hair having a small mass rises toward the charging electrode plate 3 and adheres to the adhesive tape 4 between them and is collected. On the contrary, when gravity is stronger than the Coulomb force, that is, an object with a large mass flows on the belt conveyor 1 as it is.
And if the to-be-processed object 2 passes the charging electrode plate 3, the surface of the belt conveyor 1 will be static-eliminated by the static elimination device 10. FIG. This is to prevent the endless belt conveyor 1 from being charged and accumulated by the charger 9 and being unable to adjust the Coulomb force.

JP 2013-066667 A Japanese Patent Laid-Open No. 11-070345

  In the foreign matter removing apparatus of Patent Document 2, ozone is also generated around the charger 9 for charging the object to be processed 2 by discharge. Since ozone has a strong oxidizing action, this ozone oxidizes the object 2 to be treated. For this reason, this foreign matter removing apparatus is also not suitable for processing coffee beans that do not like oxidation.

  The objective of this invention is providing the silver skin removal apparatus of the coffee bean which can remove a silver skin reliably by Coulomb force, without oxidizing a coffee bean.

The invention includes a transport path of the coffee beans and silver skin was ground containing Mutotomoni, one electrode plate connected to a DC high voltage power source while positioned upward with respect to the transport path, the transport below the said conveying path A pair of electrode plates that are in contact with the path and move in a direction that intersects the direction in which the coffee beans are transported between the ground electrode plate that faces the one electrode plate and the one electrode plate and the transport path. An endless insulating band to which a silver skin that moves toward the one electrode plate is attached by a Coulomb force generated by an electric field formed therebetween, and by its own weight from the insulating band at a position away from the one electrode plate The silver skin container for containing the fallen silver skin, and the insulating band from a position where the moving insulating band is separated from the one electrode plate. A static eliminator that neutralizes the insulating band and the silver skin at a position corresponding to the downstream side in the moving direction, and a silver skin attached to the insulating band at a position corresponding to the downstream side in the moving direction of the insulating band further than the static eliminator. Removing means for removing the silver skin from the insulation band by applying a physical force to the surface, and the conveying path is a slope that descends from upstream to downstream in the conveying direction , and the conveying path is subjected to vibration that vibrates it. And an apparatus .

According to the present invention, the silver skin having a small mass is placed on the upper electrode by the Coulomb force generated by the electric field formed between the pair of one electrode plate and the ground electrode plate across the transport path of the coffee beans. It can be separated from the coffee beans by attracting to the plate and adhering to the moving insulation strip.
In addition, since the pair of electrode plates are provided across the transport path, the formed electric field can be controlled to a required strength, and reliable separation by Coulomb force is possible. In particular, since the ground electrode plate located below is in contact with the transport path, the charges below the polarized silver skin can be released, and even if charging is not performed to oxidize coffee beans, a high potential can be obtained. Coulomb force can be applied in the direction of the electrode plate.
And since the said conveyance path | route is inclined and the conveyance path | route is vibrated with the vibration apparatus, a bean etc. can be bounced up and the downward movement can be made smooth. Also, the silver skin under the coffee beans can be lifted.

In addition, since an insulating band for attaching the silver skin is provided so as to intersect the conveyance path, the silver skin that falls off the ground electrode plate and naturally falls due to weak Coulomb force is accommodated in an accommodation container outside the conveyance path. be able to. Therefore, the silver skin which falls naturally does not mix again in the coffee beans of the conveyance path.
Furthermore, the silver skin is only attached to the insulating band by the Coulomb force, and is housed separately from the insulating band, so there is no need to discard the insulating band. In addition, it can be used repeatedly with an endless insulating band, which is economical.

FIG. 1 is a perspective view showing a main part of an embodiment of the present invention. 2 is a cross-sectional view taken along the line II-II in FIG. 3 is a cross-sectional view taken along line III-III in FIG. FIG. 4 is an explanatory diagram for explaining the operation of the embodiment. FIG. 5 is a schematic diagram of a conventional foreign matter removing apparatus.

With reference to Figures 1-4, embodiments will be described Silva over skins removing device for removing silver skin mixed in ground coffee beans in the present invention.
In this apparatus, a conductive transport plate 11 for transporting coffee beans is provided at an angle θ with respect to a horizontal plane L (see FIG. 2), and the transport plate 11 is grounded. A pair of partition members 12 and 13 are installed on both sides of the transport plate 11 at positions spaced a predetermined distance from the end in the width direction to prevent the coffee beans from falling. And at the time of a process, coffee beans are supplied from the upper end of the said conveyance board 11 between these pair of partition members 12 and 13, and it is made to move toward the downward direction of a slope. Specifically, coarsely ground coffee beans containing a silver skin are dropped onto a transport plate 11 from a hopper (not shown). That is, the upper surface of the transport plate 11 and the space between the partition members 12 and 13 serve as a coffee bean transport path, and the transport plate 11 also serves as a ground electrode plate installed below the transport path. .

In addition, above the transport plate 11, a pair of first roller 15 and second roller 16 arranged in parallel with a wider interval than the width of the transport plate 11, and these first roller 15 and second roller 16. An endless insulating film 14 is provided between the two. This insulating film 14 corresponds to the insulating band of the present invention, and is a resin film. The first roller 15 and the second roller 16 are supported by a frame (not shown) together with the transport plate 11 and are grounded. However, a rotation drive mechanism (not shown) is connected to the first roller 15, and the second roller 16 is also rotatably supported.
And the said insulating film 14 moves to the arrow (beta) direction orthogonal to the conveyance direction of the coffee bean shown by the said arrow (alpha) in the side facing the said conveyance board 11 by rotating the said 1st roller 15 in the arrow direction. I am doing so.

  As shown in FIGS. 1 and 2, one electrode plate of the present invention is formed on the insulating film 14 on the side facing the transport plate 11 along the coffee bean transport direction indicated by an arrow α. A first electrode plate 17 and a second electrode plate 18 are provided. The pair of the first electrode plate 17 and the second electrode plate 18 are metal plate members, and are disposed to face the transport plate 11 in parallel with the insulating film 14 therebetween, and have the same width as the transport plate 11. Has a rectangle with. The first electrode plate 17 and the second electrode plate 18 are in a reverse potential relationship. Here, the first electrode plate 17 is a negative electrode plate, the second electrode plate 18 is a positive electrode plate, and both are DC high voltage. Connected to power. An electric field is formed between the first electrode plate 17 and the second electrode plate 18 and the transport plate 11 serving as a ground electrode plate.

  Further, as shown in FIGS. 1 and 2, a bean container 19 for collecting coffee beans is provided on the lower end side of the inclined conveying plate 11, and a vibration device 21 is provided on the lower surface of the conveying plate 11. Provided (see FIG. 2). When the conveying plate 11 is vibrated up and down by the vibration device 21, the coffee beans and silver skin supplied on the conveying plate 11 are conveyed downward along the slope of the conveying plate 11 while jumping up due to the vibration.

As shown in FIG. 3, a silver skin container 20 is provided below the insulating film 14 on the second roller 16 side.
A static eliminator 22 for neutralizing the silver skin adhering to the insulating film 14 is provided together with the insulating film 14 at a position facing the silver skin container 20 and sandwiching the insulating film 14. The static eliminator 22 has a length equal to or longer than the entire width of the insulating film 14 and faces the back surface of the surface of the insulating film 14 to which the silver skin is attached.
Further, a suction nozzle 23 corresponding to a length equal to or more than the entire width of the insulating film 14 is provided downstream of the static eliminator 22 in the moving direction of the insulating film 14, and this is connected to a suction device 25 by a suction hose 24. Yes.

The operation of this embodiment will be described below.
In the state where the first electrode plate 17 and the second electrode plate 18 are each set to a high direct current potential, coarsely ground coffee beans mixed with silver skin are supplied onto the transport plate 11.
At this time, the conveying plate 11 is vibrated by the vibration device 21, and the coffee beans and the silver skin move downward on the slope while jumping on the conveying plate 11.
In the following, a mixture of coffee beans and silver skin is referred to as “beans” and is distinguished from coffee beans.

As shown in FIG. 4, when the beans enter the electric field E ₁ [V / m] formed by the first electrode plate 17 and the transport plate 11 which is a ground electrode plate, the electric field E ₁ [V / m], the upper surface is positively polarized and the lower surface is negatively polarized. In the case of polarized beans or the like, the negative charge at the lower surface on the side in contact with the conveying plate 11 escapes to the ground, and these coffee beans and silver skin are apparently biased to positive charges, and the Coulomb force F in the direction of the first electrode plate 17 is observed. [N] acts.
When the Coulomb force F [N] acts stronger than the gravity m · g [N], the beans move toward the first electric plate 17. The silver skin having a small mass is attracted by the first electrode plate 17 and adheres to the insulating film 14, but the coffee bean having a large mass has a gravity m · g [N] that acts more strongly than the Coulomb force F [N], so that it floats up. And does not adhere to the insulating film 14.
In FIG. 4, the insulating film 14 interposed between the first electrode plate 17, the second electrode plate 18 and the transport plate 11 is omitted. Also, m is mass and g is gravitational acceleration.

Further, when the beans or the like move below the slope of the transport plate 11 and enter the electric field E ₂ [V / m] formed between the second electrode plate 18 and the transport plate 11, the electric field E ₂ [ V / m], the coffee beans and the silver skin are apparently biased to negative charges, and the Coulomb force F [N] acts in the direction of the second electrode plate 18. Then, the silver skin with negative charges biased on the upper surface is attracted to the positive electrode plate of the second electrode plate 18 and adheres to the insulating film 14.
Thus, only the silver skin with a small mass adheres to the insulating film 14, and the coffee beans left on the transport plate 11 move along the transport plate 11 and fall into the bean container 19 from the lower end thereof. (See FIG. 2).

In FIGS. 2 and 3, the silver skin is schematically shown by a small circle, and the coffee beans are schematically shown by a large circle.
When beans passing under the first electrode plate 17 and the second electrode plate 18 are polarized, the silver skin having a small mass rises and adheres to the insulating film 14, but the coffee beans having a large mass float. The intensity of the Coulomb force can be adjusted by adjusting the potentials of the first electrode plate 17 and the second electrode plate 18 so as not to occur.

On the other hand, the insulating film 14 moves in accordance with the rotation of the first roller 15 and moves the silver skin adhered to the surface in the direction of arrow β.
As shown in FIG. 3, when the insulating film 14 moves in the direction of arrow β and the attached silver skin deviates from the facing distance between the first electrode plate 17 and the second electrode plate 18 and the transport plate 11, the electric field described above is obtained. Since the action of the Coulomb force due to becomes weak, the silver skin naturally falls from the insulating film 14 and is accommodated in the silver skin accommodating container 20.
As described above, since the pair of partition members 12 and 13 are installed on both sides in the width direction of the transport plate 11, the Coulomb force is weakened and falls from the insulating film 14 to the transport plate 11. It is possible to prevent the silver skin from being mixed again in the conveyance path.

However, some silver skins are frictionally charged with the insulating film 14 and remain attached. Such silver skins are formed between the first electrode plate 17, the second electrode plate 18 and the transport plate 11. Even if it deviates from an opposing space | interval, it will not fall, but will move with attaching to the insulating film 14.
Such silver skin is neutralized by the static eliminator 22 together with the insulating film 14, so that the Coulomb force due to frictional charging is weakened and falls into the silver skin container 20.
In addition, since the insulating film 14 is thin, even if the static eliminator 22 is opposed to the back surface of the surface on which the silver skin is adhered, the static eliminating function also acts on the opposite surface, and the silver skin. Can be dropped.

However, the static eliminator 22 not only removes the silver skin, but also serves to stabilize the potential of the insulating film 14 by preventing charge accumulation due to frictional charging between the insulating film 14 and the first roller 15 and the second roller 16. Fulfill.
Further, since the centrifugal force acts on the silver skin at the portion where the direction of the insulating film 14 changes along the second roller 16, the silver skin easily falls off the insulating film 14 at this portion. In particular, the faster the rotational speed of the first roller 15 and the second roller 16, the stronger the centrifugal force, so the silver skin is more likely to fall off.

Further, on the downstream side of the moving direction of the insulating film 14, the suction nozzle 23 can suck and remove the silver skin remaining on the surface of the insulating film 14, and the silver skin can be completely removed from the insulating film 14. In this way, the insulating film 14 from which the silver skin has been removed is repeatedly used for newly attaching a silver skin so as to face the transport plate 11.
In this embodiment, the suction nozzle 23, the suction hose 24, and the suction device 25 constitute a removing means for applying the physical force of the present invention.
The removing means may be a brush that sweeps over the insulating film 14, a wiping pad, a scraper, or the like. However, in the means for bringing a member into contact with the moving insulating film 14, the tip of the brush becomes tangled in the roll, or the pad is broken by friction. And scrapers may be worn out, or some of them may be mixed into the conveyance path, so that it is possible to remove the silver skin without contact.

Through the above process, the silver skin mixed in the coarsely ground coffee beans can be removed. Moreover, in the apparatus of this embodiment, beans and the like are generated by the electric fields E ₁ [V / m] and E ₂ [V / m] formed between the first electrode plate 17 and the second electrode plate 18 and the transport plate 11. , And the charges on the lower surface of the polarized beans and the like can be released to the ground via the transport plate 11. As described above, the Coulomb force due to the charges on the upper surface can be applied to the beans and the like whose lower surface charges have escaped to the ground without using the conventional charger 9 that generates ozone.
Therefore, since the silver skin removing device of this embodiment does not spray air on the coffee beans or expose it to ozone, the coffee beans may be oxidized and impair the flavor in the silver skin removing process. Absent.

Moreover, in the said embodiment, although the 1st electrode plate 17 and the 2nd electrode plate 18 which reverse polarity were used as one electrode plate arrange | positioned above a conveyance path | route, in this way, a positive / negative electrode plate is connected continuously. Thus, the silver skin can be removed more reliably. For example, if the silver skin is positively or negatively charged when it is supplied onto the transport plate 11, it may not be attracted to the upper electrode plate by an electric field in one direction. Can be attracted to the upper electrode plate. The polarity of the first electrode plate 17 and the second electrode plate 18 may be either positive or negative.
However, one electrode plate of the present invention may be composed of only one electrode plate to which either positive or negative is applied.

In addition, an interval is provided between the first electrode plate 17 and the second electrode plate 18 so that they are not short-circuited. At such an interval, the direction of the electric field is in the direction along the conveyance path as indicated by the dashed arrow in FIG. 4, so the Coulomb force that lifts beans and the like is weakened. Therefore, the frictional force between the beans and the surface of the transport plate 11 acts strongly. Therefore, the moving speed of beans and the like moving downward along the slope becomes slow.
As described above, once the moving speed is reduced between the first electrode plate 17 and the second electrode plate 18, the passing time of beans or the like passing between the second electrode plate 18 and the transport plate 11 becomes longer, and silver Since the time required for the skin to be attracted to the insulating film 14 by the Coulomb force can be gained, the processing efficiency for removing the silver skin can be increased.

Further, since the conveying plate 11 is vibrated by the vibration device 21, the beans and the like along the slope of the conveying plate 11 can be bounced up and moved downward smoothly, for example, underlaying coffee beans. The silver skin that has become can be raised.
If the silver skin was under the coffee beans, no matter how small the mass of the silver skin, it cannot be lifted by Coulomb force.

For example, the conventional apparatus shown in FIG. 5 has a mechanism in which the workpiece 2 is precharged by a charger and the charged electrode plate 3 collects a small mass of the workpiece 2 with Coulomb force. However, in this apparatus, if a small mass is buried in a large mass, the buried small mass may not be recovered. Those of small mass, even Coulomb force larger upward is applied in comparison with the force of gravity, than the Coulomb force, in case more gravity in those large mass resting on is large, a small mass buried It is because the thing cannot be collected.
Therefore, when the vibration device 21 or the like is not used, it is necessary to thin the coffee bean layer by using a guide or the like so that the beans are not multi-layered and to reduce the supply amount to the transport plate 11. . However, if the conveying plate 11 is vibrated using the vibration device 21 as in this embodiment, the processing amount of beans and the like can be increased, and the processing efficiency for removing the silver skin can be increased.

In this embodiment, the transport plate 11 that also serves as the ground electrode plate is tilted to form the transport path. However, if a means for moving coffee beans or the like is provided separately, the transport plate 11 is not tilted. May be. As described above, if the conveying plate 11 is inclined, there is an advantage that the entire configuration can be simplified without requiring conveying means such as a belt conveyor.
When a belt conveyor is used, the belt and the ground electrode plate are brought into contact with each other so that electric charges on the belt can be released to the ground.
Furthermore, in the above embodiment, the first electrode plate 17 and the second electrode plate 18 made of a metal plate are used as one electrode plate, but the one electrode plate is a plate in which a through hole such as a mesh or a punching board is formed. A shaped member may be used. In that case, if the insulating band is made of a transparent film, the removal state of the silver skin can be observed from above the apparatus.
However, when an electrode plate having a through hole is used, the electric field may be disturbed around the through hole. Therefore, in order to make the electric field in a certain range uniform, it is necessary to use an electrode plate without a hole. preferable.
Moreover, in the said embodiment, although the coffee beans are coarsely ground, how to grind coffee is not restricted to coarse grinding. The finer the ground coffee beans, the smaller the difference in mass from the silver skin, which may reduce the efficiency of the removal process. Processing is possible.

  The silver skin removing apparatus of the present invention can be used not only for removing coffee beans but also for removing foreign substances that dislike oxidation.

11 Conveying plate 14 Insulating film 17 First electrode plate 18 Second electrode plate 20 Silver skin container 22 Static eliminator 23 Suction nozzle 24 Suction hose 25 Suction device

Claims (1)

And the transport path of the ground coffee beans containing Mutotomoni the silver skin,
One electrode plate located above the transport path and connected to a DC high voltage power source;
A ground electrode plate that is in contact with the transport path below the transport path and faces the one electrode plate;
The first electrode plate is moved by a coulomb force generated by an electric field formed between the pair of electrode plates while moving in a direction intersecting the transfer direction of the coffee beans between the one electrode plate and the transfer path. An endless insulation band to which the silver skin moving toward
A silver skin containing container for containing a silver skin that has fallen by its own weight from the insulating band at a position separated from the one electrode plate;
A static eliminator that neutralizes the insulating band and the silver skin at a position corresponding to a downstream side in the moving direction of the insulating band from a position where the moving insulating band is separated from the one electrode plate;
Removing means for removing the silver skin from the insulating band by applying a physical force to the silver skin attached to the insulating band at a position corresponding to the downstream side in the moving direction of the insulating band further than the static eliminator ;
The transport path is a slope that descends from upstream to downstream in the transport direction,
A coffee skin silver skin removing device provided with a vibration device for vibrating the conveying path .

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