JP4129146B2 - Seasoning device and product production system provided with the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention belongs to the technical field of food production, such as seasoning and transporting articles such as snacks.
[0002]
[Prior art]
For example, in a production line for snacks such as potato chips, a seasoning process using a tubular tumbler having both ends opened is performed as disclosed in Japanese Patent Publication No. 4-35132. That is, the tumbler is not horizontal and the shaft center is inclined at a predetermined angle, the tumbler is rotated around the axis, and the article is supplied into the tumbler from the upper opening. The article is moved downward by the inclination of the tumbler while jumping and dancing by the rotation of the tumbler, and goes out from the lower opening of the tumbler. At that time, along with the supply of the article, the amount of seasoning corresponding to the supply amount of the article is also supplied into the tumbler from the upper opening. The article is agitated and seasoned while jumping and dancing from entering the tumbler to leaving. In addition, since the supply ratio of the article and the seasoning, that is, the blending ratio is adjusted to the optimum value, seasoning is made with just the right amount.
[0003]
[Problems to be solved by the invention]
In this prior art, the tumbler is placed upstream of the metering device, so that the goods seasoned with the tumbler are fed to the metering device. In that case, the tumbler continuously feeds the seasoned group of articles to the weighing device so that the weighing device does not run out of articles. In accordance with the processing results of the weighing device or the processing results of the packaging device arranged further downstream of the weighing device, a group of seasoned items always comes out from the lower opening of the tumbler, and before the seasoning, the upper opening of the tumbler The group of goods and seasonings always enter. That is, the article group is continuously flowing from the upstream to the downstream in the tumbler. The supply amount of the seasoning is increased when the supply amount of the article is large and decreased when the supply amount is small, so that the predetermined optimum blending ratio is always maintained. Yes.
[0004]
However, since the articles are always in and out of the tumbler to be seasoned as described above, the amount of articles existing in the tumbler, the staying time of each article in the tumbler, and the like are not constant. In some cases, the amount of articles in the tumbler is reduced, or the residence time of the articles is increased, resulting in a deeply seasoned product. In some cases, the amount of articles in the tumbler is increased, or the residence time of the articles is shortened, resulting in a lightly seasoned product. The publication mentions that the seasoning time is adjusted by adjusting the tilt angle of the tumbler. However, it is from an overall and average point of view of a group of articles, and adjusting the seasoning processing time for each individual article in the group as long as the tumbler having the above structure is used. Almost impossible. This is because the tumbler has a structure that allows articles to freely come out from the lower opening at any time, and therefore, articles that come out earlier than others or articles that come out later than others are always generated. It is. As a result, for example, an article that has come out of the tumbler early has a short staying time in the tumbler, that is, a seasoning time (contact time with the seasoning), so that the seasoning becomes lighter, while the article remaining in the tumbler Since the amount of articles that have come out so early, the remaining amount in the tumbler decreases (the ratio of seasonings increases) and the seasoning becomes deeper.
[0005]
That is, in the conventional technique using a cylindrical tumbler having both ends opened as described above, when an average of the flow amount (conveyed amount) of a certain group of articles is averaged, the article and seasoning Is maintained at a predetermined optimum ratio, but it is fundamentally unavoidable that the one group of articles is dispersed with a slightly seasoned product and a thin product, and therefore cannot be basically avoided. It is difficult to season all individual articles one by one with a predetermined optimum ratio.
[0006]
Therefore, the present invention has a main problem that when seasoning while transporting articles, all the individual articles are seasoned with a predetermined optimum blending ratio without having a thick and thin seasoning. To do. Hereinafter, the present invention will be described in detail including other problems.
[0007]
[Means for Solving the Problems]
In order to solve the above-described problem, the invention according to claim 1 is a seasoning device that transports the article supplied from the supply unit to the discharge unit while seasoning the article, and the article group supplied from the supply unit is the article. A transport unit that separates the groups and transports them to the discharge unit; and a seasoning supply unit that supplies seasonings for each group of articles, and the transport unit is arranged between the supply unit and the discharge unit. A partition provided, the article group is accommodated in a partition partitioned by the partition, and the partition is moved from the supply unit side to the discharge unit side in that state. It is characterized by that.
[0008]
According to the present invention, the article group supplied by the supply unit and the seasoning supplied by the seasoning supply means are constrained as one unit, separated from the other, separated from the other, up to the discharge unit Transport. That is, a group of articles and seasonings are prohibited from entering and exiting after being supplied to the seasoning device and discharged. A group of articles and seasonings once supplied to the seasoning device (the order of supply does not matter) may be partially removed from the seasoning device or newly added during the transportation. There is nothing to do. The article group and the seasoning initially supplied to the seasoning device as one unit are conveyed toward the discharge unit while maintaining the current state. Therefore, the residence time in the seasoning device, that is, the seasoning time (contact time with the seasoning) is the same in all the individual articles in the group of articles, and the seasoning in that case The supply ratio and the mixing ratio are kept the same. Therefore, in each individual article, it is possible to perform a seasoning that is not seasoned and thin, and if a group of articles and a seasoning are first supplied at a predetermined optimum ratio, All the articles can be seasoned to the optimum ratio.
[0009]
In addition, since the conveying means that separates and conveys the article group for each article group is configured only by the movement of the partition, the configuration of the seasoning device is simplified. That is, the article group is separated and accommodated in the partition partitioned by the partition, and the partition is moved by moving the partition, and thereby the article group is conveyed to the discharge unit while being separated. I am doing so. Thus, the partition functions as two functions of separation and conveyance.
[0010]
Next, the invention according to claim 2 is provided with detection means for detecting the amount of the article group in the invention according to claim 1, wherein the seasoning supply means is an amount corresponding to the quantity of the article group. It is characterized by supplying a seasoning.
[0011]
According to this invention, the supply amount of the seasoning is increased when the supply amount of the article is large, and is decreased when the supply amount is small according to the supply amount of the article group to the seasoning device, and always maintains a predetermined optimum ratio. In any group of articles and in any section, all the individual articles are properly adjusted.
[0012]
Next, the invention described in claim 3 is the invention described in claim 1 or 2, wherein the conveying means includes a screw member extending substantially horizontally between the supply unit and the discharge unit, and the screw. A cylindrical member that houses the member; and a screw rotating unit that rotates the screw member about an axis. The article group is accommodated in a section partitioned by a spiral blade of the screw member inside the cylindrical member. The partition is configured to move from the supply unit side to the discharge unit side by rotation of the screw member.
[0013]
According to this invention, the structure of the said conveyance means is actualized more and the movement of the said partition is achieved by rotation of a screw member. That is, the spiral blade of the screw member serves as a partition, and a plurality of compartments (numbers depending on the number of turns of the spiral blade) partitioned by the spiral blade are formed in the cylindrical member side by side. When a group of articles and seasonings are supplied into this compartment, they are separated from each other, isolated, and constrained as one unit that is prohibited from entering and exiting during transportation. Then, when the screw member is rotated around the axis in the cylindrical member, the partition and the section are simultaneously moved in the axial direction by the rotation of the spiral blade. In that case, by selecting the rotation direction, the moving direction can be changed from the supply unit side to the discharge unit side, whereby the articles can be conveyed from the supply unit to the discharge unit while being separated. It becomes possible.
[0014]
Moreover, a plurality of compartments can be provided at a time by using only one set of screw member and cylindrical member, and a plurality of groups of articles separately accommodated in each compartment can be simultaneously and sequentially provided. It can be conveyed to the discharge unit.
[0015]
In addition, since the screw member and the cylindrical member, which are relatively long objects, extend in the substantially horizontal direction instead of the vertical direction, the height of the seasoning device can be kept low. In addition, the group of articles supplied to the seasoning device spreads thinly in the horizontal direction instead of a thick lump, and the seasoning is in good contact with the articles that were present in the lump of the group of articles. A good seasoning is achieved. On the other hand, the tumbler used in the prior art transports articles by free-falling and free-sliding under its own weight, so if it is placed horizontally, it does not perform its transport function, and it must be placed somewhat standingly. . As a result, the height in the vertical direction tends to increase, and the article in the group of articles tends not to be exposed to the outside (surface side) and difficult to be seasoned.
[0016]
Next, according to a fourth aspect of the present invention, in the third aspect of the present invention, a discharge opening provided on a peripheral surface of the cylindrical member in the discharge portion, and a cylinder that rotates the cylindrical member around an axis. Rotation means, and the cylinder rotation means controls the discharge of the article group by selectively arranging the opening at a lower article drop discharge position and other positions by rotation of the cylinder member. Features.
[0017]
According to this invention, the discharge port is formed in the cylindrical member that houses the screw member, and by rotating the cylindrical member, the position of the discharge port is changed to control the discharge of the seasoned articles group. Drop and discharge of the article group (the screw member and the cylindrical member extend in a substantially horizontal direction, so that the article group is dropped and discharged from the seasoning device when the discharge port is positioned below) and non-discharge (other than the lower part) Position) can be arbitrarily switched, and for example, the same function as a timing hopper is performed. And since it is integrated with the seasoning apparatus, it is excellent in compactness compared with the case where a normal timing hopper is separately provided.
[0018]
Here, when conveying the group of articles by rotating the screw member, if the discharge port is always positioned downward, the group of articles in the adjacent compartments that reach the discharge section one after another are continuously discharged without any breaks. Will be. On the other hand, as in the present invention, by switching the discharge port to a position (non-discharge position) other than the discharge position (lower position) (for example, the discharge port is not turned on when the next section reaches the discharge portion) Switching to the discharge position), it is possible to cut out the group of articles in the adjacent compartments one by one and separate them in terms of time and discharge them from the seasoning device. Therefore, for example, it is possible to hold the amount of the article group supplied by the supply unit as it is and discharge it from the discharge unit.
[0019]
Next, the invention according to claim 5 is the invention according to claim 3, similarly, the supply opening provided in the peripheral surface of the cylindrical member in the supply portion, and the cylindrical member is rotated about the axis. Cylinder rotation means, and the cylinder rotation means controls the supply of the article group by selectively arranging the opening at the upper article drop supply position and other positions by the rotation of the cylinder member. It is characterized by.
[0020]
While the invention according to claim 4 is directed to the discharge port, the present invention is directed to the supply port. That is, when conveying the article group by rotating the screw member, if the supply port is always positioned upward, the article group may be supplied across the spiral blades that pass through the supply port one after another ( (Since the screw member and the cylindrical member extend substantially in the horizontal direction, if the supply port is always located above, the group of articles can be dropped and supplied to the seasoning device at any time via the supply port.) . If it becomes like this, the 1 unit article group which was going to be accommodated in one division will be divided and accommodated in two adjacent divisions, and management of the quantity of the article group for every division will be confused. On the other hand, as in the present invention, the supply port is switched to a position other than the supply position (upper position) (non-supply position) (for example, at the timing when the spiral blade of the next section crosses the supply port) It is avoided that one unit group of articles is erroneously supplied across a plurality of adjacent sections.
[0021]
Next, the invention according to claim 6 is the invention according to claim 3, similarly, the discharge opening provided on the peripheral surface of the cylindrical member in the discharge portion, and the periphery of the cylindrical member in the supply portion. A supply opening provided on the surface, and a cylinder rotating means for rotating the cylinder member about an axis, the cylinder rotating means configured to turn the discharge opening to a lower article drop discharge position by the rotation of the cylinder member. And selectively controlling the discharge and supply of the group of articles at the same time by selectively disposing them at other positions and by selectively disposing the supply openings at the upper article drop supply position and other positions. Features.
[0022]
According to the present invention, the discharge control of the article group according to claim 4 and the supply control of the article group according to claim 5 are both achieved, and the position change of the discharge port in that case Since the position change of the supply port is performed simultaneously (also serving as two), it is possible to prevent the rotation control of the cylindrical member from becoming complicated.
[0023]
Next, an invention according to a seventh aspect is the invention according to any one of the first to sixth aspects, wherein the article group and the seasoning are on the way the article group supplied with the seasoning is conveyed to a discharge section. And a stirring means for stirring the above.
[0024]
According to the present invention, the group of articles supplied to the seasoning device is agitated with the seasoning in the course of the conveyance, and is reliably seasoned. In that case, since the article group and the seasoning are stirred in a state of being constrained as one unit in each section, there is no new article group or seasoning, and in each individual article. The taste is surely aligned.
[0025]
Next, an invention according to an eighth aspect is the invention according to any one of the third to sixth aspects, wherein the article group and the seasoning are on the way the article group supplied with the seasoning is conveyed to a discharge section. The stirring means includes a scraping member provided between the spiral blades, and the screw member collects articles and condiments collected in the lower part of the cylindrical member by the scraping member. The stirring is performed by scraping upward with the rotation of the screw, and the screw rotating means reduces the rotational speed of the screw member when the scraping member performs the scraping.
[0026]
According to this invention, when the conveying means includes a screw member, the configuration of the agitating means is realized, and the scraping member provided between the spiral blades of the screw member accumulates in the lower part in the compartment. Agitation is carried out by stirring up the group of goods and seasonings. As a result, the articles roll, and a uniform seasoning with no unevenness is achieved both in the comparison between individual articles and in the comparison between different parts in one article. In addition, since the group of ingredients and the seasoning are slowly stirred (stirred) over time, a uniform seasoning without unevenness can be achieved. In addition, troubles such as the scraping member jumping off the article at high speed and moving the article to an adjacent section can be prevented.
[0027]
Next, an invention according to a ninth aspect is the invention according to any one of the fourth to sixth aspects, wherein the article group and the seasoning are supplied while the article group supplied with the seasoning is conveyed to a discharge unit. The stirring means includes a scraping member provided between the spiral blades, and the screw member collects articles and condiments collected in the lower part of the cylindrical member by the scraping member. The stirring is performed by scraping upward with the rotation of the screw, and the screw rotating means reduces the rotational speed of the screw member when the scraping member performs the scraping, and the cylinder rotating means is synchronized with it. Then, the position of the opening is changed.
[0028]
According to the present invention, when the position of the discharge opening or the supply opening is changed by the rotation of the cylinder member, the operation of the cylinder rotation means is further embodied, and the screw member for the stirring is The position of the opening is changed in synchronization with the reduction of the rotation speed. As a result, the position changing speed of the opening (rotational speed of the cylindrical member) can be small, for example, the rotational direction of the cylindrical member can be reversed with a small load, or the stopped cylindrical member can be rotated with a small load. You can start making them.
[0029]
Next, an invention described in claim 10 is the invention described in any one of claims 3 to 9, wherein the cylindrical member is transparent.
[0030]
According to the present invention, the inside of the cylindrical member or the seasoning device can be well observed. As a result, the progress of the work can be confirmed, and the quality of the work can be determined. Further, for example, when manually supplying an article group or seasoning, the supply timing can be satisfactorily related to the spiral blade of the screw member.
[0031]
Next, an invention according to an eleventh aspect is the invention according to any one of the first to tenth aspects, further comprising charging means for charging at least one of the article group or the seasoning, and the article by electrostatic action thereof. It is characterized in that the seasoning is attached to the group.
[0032]
According to this invention, the seasoning process is completed in a short time because the seasoning is attached to the group of articles using the electrostatic action. In addition, uniform seasoning with no unevenness is realized, and the yield of seasoning is increased.
[0033]
Next, an invention according to a twelfth aspect is characterized in that, in the invention according to the eleventh aspect, the cylindrical member is an electrical insulator.
[0034]
According to this invention, since the cylindrical member is electrically insulating, that is, a dielectric, the cylindrical member does not conduct electricity. As a result, the charged article group or seasoning is prevented from adhering to the cylindrical member, and the article group and the seasoning are well scattered and contacted and stirred well. In addition, for example, the seasoning does not accumulate and accumulate on the inner surface of the cylindrical member, and the trouble that the dama adheres locally to the article is suppressed.
[0035]
Next, the invention described in claim 13 is a product production system including a seasoning device, and supplies a weighed article to the seasoning device upstream of the seasoning device according to any one of claims 1 to 12. The weighing device is provided with a packaging device for packaging the article discharged from the seasoning device downstream.
[0036]
According to the invention, the seasoning device is arranged downstream of the weighing device, so that the articles seasoned with the seasoning device are supplied to the packaging device rather than the weighing device. Therefore, seasoning does not adhere to the weighing device, and the cleaning work is reduced. Further, when changing the product or changing the taste, the weighing device can omit the work of removing the seasoning adhering in the previous production of the product. In particular, when the weighing device is a large combination weighing device or the like having a large number of hoppers and chutes, the effect of reducing or omitting the cleaning work is very large.
[0037]
Next, an invention according to claim 14 is the invention according to claim 13, wherein the weighing device measures one packaging unit quantity of the packaging device, and the articles of the one packaging unit quantity are grouped into a plurality of article groups. And is supplied to the seasoning device.
[0038]
According to the present invention, since the articles are divided into small lots, further good stirring and good seasoning can be achieved. For example, when producing a product of 100 grams (one packaging unit amount), the weighing device weighs 100 grams of goods and supplies them to the seasoning device divided into two groups of 50 grams, or 25 grams. The product is divided into four product groups and supplied. Because the amount of one article group separated and transported by the seasoning device can be reduced to a small amount without being limited by the single packaging unit amount of the packaging device, even if the single packaging unit amount of the packaging device is large, depending on the small lot Good agitation and good seasoning are achieved. For example, when the seasoned product is discharged from the seasoning device to the packaging device, for example, when the product is divided into two product groups, the two divided product groups are continuously discharged, and then the next one packaging unit amount. A time interval is separated from the first section of the. Thereby, one packaging unit amount measured by the weighing device is held and discharged to the packaging device. Further, by separating the adjacent one packaging unit amount in time, the article is prevented from biting into the horizontal seal in the packaging device. Hereinafter, the present invention will be described in more detail through embodiments.
[0039]
DETAILED DESCRIPTION OF THE INVENTION
[First Embodiment]
FIG. 1 is a configuration diagram of a product production system 1 including a seasoning device 20 according to the present embodiment. An arrow (black) indicates the flow direction of the article, and an arrow (white) indicates the flow direction of the compressed air and the seasoning. The system 1 measures, seasons, and packages snacks such as potato chips, and includes a weighing device 10, a seasoning device 20, and a packaging device 30 in order from the upstream side in the flow direction of the articles.
[0040]
The weighing device 10 is a well-known combination weighing device. That is, a large amount of articles supplied on the distribution table 11 by a supply device such as a belt conveyor or a bucket conveyor (not shown) are distributed and supplied to the pool hoppers 13... 13 by a plurality of feeders 12. Measure each weight with. Then, the weighing values are combined and calculated, the articles are discharged from the weighing hoppers 14... 14 corresponding to the optimum combination, and are collected in the timing hopper 16 by the collecting chute 15. The timing hopper 16 is opened at an appropriate time (for example, aiming at the timing when only the first section # 1 of the seasoning device 20 communicates with the supply port A located at the upper drop supply position as described later), and the intake chute 17 is opened. Then, the article group is supplied to the seasoning device 20. The weighing device 10 weighs one packaging unit amount (for example, a net weight of 100 grams) of the packaging device 30 and supplies the one packaging unit amount of articles to the seasoning apparatus 20 as one article group.
[0041]
The seasoning device 20 includes a screw member 23 having a spiral blade 21 and a shaft 22, and a cylindrical member 24 that houses the screw member 23. The screw member 23 and the cylindrical member 24 extend horizontally. The upstream end of the cylindrical member 24 is located directly below the take-in chute 17 and belongs to the article supply unit. The downstream end of the cylindrical member 24 is located immediately above the packaging device 30 and belongs to the article discharge unit.
[0042]
The seasoning device 20 further includes a seasoning supply device 40. The apparatus 40 includes spray guns 41 and 42 disposed in the middle portion in the longitudinal direction of the cylindrical member 24. The injection guns 41 and 42 are connected to an air compressor 44 through a pipe 43. The powder seasoning stored in the charge tank 45 is measured by the screw feeder 46 and introduced into the pipe 43. The introduced powder seasoning rides on the compressed air and is injected into the cylindrical member 24 from the nozzles of the guns 41 and 42.
[0043]
The packaging machine 30 is a known vertical pillow type packaging machine. That is, a belt-like packaging material (not shown) is bent downward by the pull-down belts 34 and 34 while being bent into a cylindrical shape around the tube 33 extending vertically by the former 32, and at the same time, the vertical sealing device 35 performs vertical sealing. Then, the lateral seal device 36 performs lateral seal to make a bag. Then, a seasoned article group dropped and discharged from the seasoning device 20 is taken in between the horizontal seal and the horizontal seal via the chute 31 and the tube 33, that is, filled into a bag (in this example, in a bag). Complete a snack).
[0044]
As shown in an enlarged view in FIG. 2, the seasoning device 20 is installed, for example, on a gantry 20 a. The cylindrical member 24 is supported by a pair of support units 25 and 25 so as to be rotatable around an axis. As shown in FIG. 3, the support unit 25 is configured to receive and support the cylindrical member 24 using rollers 25a. The cylindrical member 24 has a circular cross section both of the inner peripheral surface with which the spiral blade 21 is in sliding contact and the outer peripheral surface with which the roller 25a is in rolling contact. The cylindrical member 24 is made of a highly transparent resin (for example, acrylic resin).
[0045]
As shown in FIG. 2, in the present embodiment, the spiral blade 21 is spirally wound a plurality of times (eight times in the example) at the same pitch. As a result, the spiral blade 21 provides a plurality of partitions arranged horizontally in the cylindrical member 24 and a plurality of horizontally arranged partitions partitioned by the adjacent partitions. However, the spiral blade 21 only partitions the internal space of the cylindrical member 24 in a spiral shape. The individual spaces partitioned by the spiral blades 21 are not closed, but are connected to each other in a spiral shape. However, since the article group and the seasoning accumulate in the lower part inside the cylindrical member 24, the article group and the seasoning cannot be moved to and from the next by being blocked by the spiral blades 21 at least in a portion below the screw shaft 22. . Therefore, the part below the screw shaft 22 in the spiral space can be used as a compartment for storing the article group and the seasoning separately from others. In that sense, it is better to avoid storing a group of articles exceeding the screw shaft 22 in the compartment. This is because an article that exceeds the screw shaft 22 moves through the spiral space to the next section (regardless of the upstream side or the downstream side).
[0046]
A section appears or disappears at both ends of the spiral blade 21. For example, in the state of FIG. 2, the upstream end portion of the spiral blade 21 is located below the screw shaft 22, so that a partition is generated at the upstream end portion of the spiral blade 21. However, since the downstream end of the spiral blade 21 is located above the screw shaft 22, no section is generated at the downstream end of the spiral blade 21. The situation is reversed when the screw member 23 rotates 180 °. In the present embodiment, the sections that are always in an appearance state are called the first section (# 1), the second section (# 2),... The sixth section (# 6) from the upstream side (see FIG. 8).
[0047]
The first section is a section in which an article group is first supplied from the weighing device 10 to the seasoning device 20 via the take-in chute 17. On the peripheral surface of the cylindrical member 24, a supply opening A is formed in a part facing the take-in chute 17, that is, the article supply unit. As shown in FIG. 4, the supply port A is not positioned directly above the screw shaft 22 but is biased toward the first section when the article is supplied. Further, the lower end portion of the take-in chute 17 is not positioned directly above the screw shaft 22 but is biased toward the first section side. Further, the intake chute 17 itself is inclined toward the first section. Thus, the article group X supplied from the weighing device 10 via the take-in chute 17 is always accommodated in the first section and does not enter the spiral space on the upstream side as indicated by the arrow d. The take-in chute 17 is fixed to the gantry 20a by a fastener or the like (not shown).
[0048]
The third section and the fifth section are sections to which the powder seasoning is supplied by the spray guns 41 and 42. As shown in FIG. 5, the spray guns 41, 42 are fixed to the cylindrical member 24 by press-fitting tip portions into seal members 24 a, 24 a erected on the peripheral surface of the cylindrical member 24. The spray guns 41 and 42 are further supported by a bracket (not shown) to enhance the support strength. In the present embodiment, the spray guns 41 and 42 spray the powder seasoning aiming at a region closer to the inner peripheral surface of the cylindrical member 24 than the screw shaft 22 as indicated by an arrow e. The spray guns 41 and 42 spray a powder seasoning in an amount corresponding to the amount of the group of articles separately accommodated in each section (in this example, one packaging unit amount of the packaging device 30). Thereby, in each division, the supply ratio and the mixing ratio of the article group and the seasoning are always maintained at a predetermined optimum ratio.
[0049]
The sixth section is a section in which the seasoned article group is discharged from the seasoning device 20 to the packaging device 30. On the peripheral surface of the cylindrical member 24, a discharge opening B is formed in a portion facing the take-in chute 31 of the packaging device 30, that is, an article discharge portion. As shown in FIG. 6, the discharge port B is located directly below the screw shaft 22 when the article is discharged. Further, the upper end portion of the take-in chute 31 is also located directly below the screw shaft 22. Thereby, the article group X accumulated in the lower part inside the cylindrical member 24 becomes one lump and is discharged from the seasoning device 20 to the packaging device 30 in a short time.
[0050]
As shown in FIG. 2, two motors 26 and 27 are provided on one end side (upstream side in the illustrated example) of the cylindrical member 24. The first motor 26 is a motor that rotates the screw member 23 around its axis. The screw shaft 22 is directly connected to the output shaft of the motor 26. When the first motor 26 and the screw member 22 rotate clockwise as viewed from the downstream side (direction a in FIGS. 3 to 6), the spiral blade 21 rotates in the direction a, and all sections (# 1 to ##). 6) moves from the upstream side to the downstream side all at once, and the article group and the seasoning contained in the compartment are conveyed from the supply unit (supply port A) side to the discharge unit (discharge port B) side.
[0051]
The second motor 27 is a motor that rotates the cylindrical member 24 around the axis. A pinion 27a assembled to the output shaft of the motor 27 and a large-diameter gear 27b assembled to the outer peripheral surface of the cylindrical member 24 are engaged with each other. When the second motor 27 rotates forward and backward, the cylindrical member 24 and the supply port A and the discharge port B are viewed clockwise (b direction in FIGS. 3 to 6) or counterclockwise (similarly c direction). ).
[0052]
As shown in FIG. 2, a bar member 28 is installed on the spiral blade 21 over the third section to the fifth section. The bar member 28 moves integrally with the spiral blade 21, and moves circularly around the screw shaft 22 as the screw member 23 rotates. As a result, when the bar member 28 passes under the screw shaft 22, the bar member 28 has a group of articles and seasonings accumulated in the lower part of the third section (# 3) to the fifth section (# 5) inside the cylindrical member 24. Contact. Then, as shown by a chain line in FIG. 5, the article group X and the seasoning are scraped upward along the inner peripheral surface of the cylindrical member 24, and these are stirred. The article group X spreads thinly along the inner peripheral surface, and each individual article constituting the group X is exposed to the outside and mixes well with the seasoning. As a result, each article is seasoned evenly without unevenness.
[0053]
Next, the operation of the seasoning device 20 will be described with reference to FIGS. In FIG. 7, the horizontal axis represents not the time but the rotation angle of the screw member 23. Here, for the sake of convenience, when the scraping member 28 is positioned directly below the screw shaft 22 (position indicated by a solid line in FIG. 5), the rotation angle θ in the direction a is set on the horizontal axis. As is apparent, the screw member 23 makes one rotation between 0 ° and 360 °, and each section (# 1 to # 6) advances by one pitch. The length of the horizontal axis and the screw rotation angle θ are not proportional, but the length of the horizontal axis and time are proportional.
[0054]
First, the screw member 23 is continuously rotated in the direction a. However, there are periods when the rotation speed (conveyance speed) is fast and slow during one rotation. That is, the rotational speed of the screw member 23 is decreased in accordance with the timing when the scraping member 28 scrapes the article group. Accordingly, the scraping operation is performed slowly over time, and the article group X is evenly seasoned without unevenness. In addition, the article can be prevented from being pinched, cracked or chipped by the scraping member 28. In the present embodiment, as an example, the rotational speed of the screw member 23 is reduced in the range of the screw rotation angle from 0 ° to 120 °. The reason why the rotational speed is slowed down until the scraping member 28 rises to a position higher than the screw shaft 22 (up to 120 °) is that the scraping member 28 jumps up the article and travels through the spiral space to the adjacent section ( This is in particular to prevent movement to the upstream section. However, the timing for slowing the rotational speed of the screw member 23 can be appropriately increased or decreased according to the amount of the article group X or the like. For example, the rotational speed may be decreased from about −60 ° (300 °) of the screw rotation angle so as to reduce the impact when the scraping member 28 and the article group X first contact each other.
[0055]
FIG. 8 shows an overview of the operation during one rotation of the screw member 23, that is, while each section (# 1 to # 6) advances by one pitch. In the same figure, (a), (b), (c), and (d) show the screw rotation angles of 0 °, about 45 °, about 120 °, and about 360 °, respectively. In FIG. 8A, the supply port A is directed upward (at this time, the supply port A is at the article drop supply position shown in FIG. 4). Further, the discharge port B is directed downward (at this time, the discharge port B is at the article drop discharge position shown in FIG. 6). However, in FIG. 8A, the supply of the article group (X1) to the first section (# 1) through the supply port A has already been completed, and the sixth section (through the discharge port B) ( The discharge of the seasoned goods group from # 6) has been completed.
[0056]
At this time, the supply port A is located between the upper portions of the spiral blades 21 that divide the first section (# 1) in the front-rear direction (on the upstream side and the downstream side), and upstream beyond the upper portion of the spiral blades 21. It does not protrude from the side or the downstream side. That is, it can be said that the supply port A communicates only with the first section. Accordingly, the group of articles X from the take-in chute 17 of the weighing device 10 is not supplied divided into a plurality of sections across the spiral blade 21. Similarly, the discharge port B is located between the lower portions of the spiral blade 21 that divides the sixth section (# 6) in the front-rear direction and beyond the lower portion of the spiral blade 21, both upstream and downstream. It does not protrude. In particular, it does not protrude at least upstream. That is, it can be said that the discharge port B communicates with the sixth section but does not communicate with the fifth section. Therefore, only the article group X6 in the sixth section is discharged to the take-in chute 31 of the packaging device 30, and the article group X5 in the fifth section is not mixed and discharged.
[0057]
From the state of FIG. 8A, the first section (# 1) to the fifth section (# 5) respectively convey the article groups X1 to X5 to the downstream side while being separated from the other article groups. However, the sixth section is further emptied further from the article discharge section while remaining empty. Further, when the screw rotation angle is 0 °, the supply of the powder seasoning from the spray guns 41 and 42 is started. As shown in FIG. 7, this seasoning supply continues until the screw rotation angle is approximately 60 °.
[0058]
Furthermore, when the screw rotation angle in the state of FIG. 8A is 0 °, the cylindrical member 24 starts to rotate in the b direction. As shown in FIG. 7, this rotation continues until the screw rotation angle is approximately 120 °. Further, the rotational speed of the cylindrical member 24 at this time is the same as the rotational speed (slow rotational speed) of the screw member 23. That is, the screw member 23 and the cylindrical member 24 rotate at the same speed in the same directions a and b at the same timing (synchronized within the range of the screw rotation angle of 0 ° to 120 °). As a result, as shown in FIGS. 8B and 8C, the supply port A, the discharge port B, and the spray guns 41 and 42 provided integrally with the cylindrical member 24 also move slowly in the b direction. At this time, the scraping member 28 integrated with the screw member 23 also moves slowly in the a direction. In FIGS. 8B and 8C, the supply port A and the spray guns 41 and 42 are moved beyond the cylindrical member 24 so that they cannot be seen. For reference, FIG. 4 shows the position of the supply port A when the screw rotation angle is about 45 ° by hatching, and FIG. 6 shows the position of the discharge port B when the screw rotation angle is about 120 °. Shown with diagonal lines. Further, the position of the scraping member 28 shown by the chain line in FIG. 5 is the position when the screw rotation angle is about 90 °, and the arrow e ′ indicates the injection guns 41 and 42 when the screw rotation angle is about 30 °. The injection direction of a powder seasoning is shown.
[0059]
As is clear from FIGS. 8 and 2, the edge on the upstream side (fifth section side) of the discharge port B runs obliquely along the spiral shape of the spiral blade 21. This is because the discharge section B causes the sixth section to bottom out over the entire area, and the entire product group X6 in the sixth section is reliably discharged. In this sense, the downstream edge of the discharge port B may protrude from the spiral blade 21. Further, as a result of the discharge port B moving at the same speed in the same direction as the spiral blade 21, the positional relationship between the discharge port B and the spiral blade 21 is also shown in FIGS. 8B and 8C. The state of FIG. 8A is maintained. That is, even when the screw rotation angle is moving in the direction b within the range of 0 ° to 120 °, the discharge port B does not exceed the spiral blade 21 upstream and does not communicate with the fifth section. Therefore, as shown in FIGS. 8B and 8C, even if the fifth section (# 5) reaches the article discharge portion (on the take-in chute 31 of the packaging device 30), the inside of the fifth section The article group X5 (shown by the symbol f) is not discharged at this time.
[0060]
Next, when the screw rotation angle is in the range of 120 ° to 360 °, as shown in FIG. 7, the rotation speed of the screw member 23 returns to the original normal conveyance speed (fast speed). On the other hand, the cylindrical member 24 starts to reversely rotate in the c direction at a high speed when the screw rotation angle exceeds 120 °, and returns to the state of FIG. 8A when the screw rotation angle is approximately 220 to 230 °. . That is, the moving distance in the b direction of the cylindrical member 24 is equal to the moving distance in the c direction. As a result, the supply port A returns to the upper article drop supply position, and the discharge port B is the lower article drop discharge position. The spray guns 41 and 42 return to the upright posture. The cylindrical member 24 then stops until the screw rotation angle reaches 360 ° (that is, until the start of the next cycle) (the position shown in FIG. 8 (a) during this stop (in addition to FIG. 8 (d), FIG. 2, the position shown in FIGS. 4 to 6 is referred to as the operating position of the cylindrical member).
[0061]
When the cylindrical member 24 returns to the operating position, the screw member 23 has not yet made one rotation. Therefore, in the article supply unit, the upstream portion (upstream partition of the first section) of the spiral blade 21 is passing through the supply port A, and in the article discharge portion, the downstream portion (the fifth portion of the spiral blade 21). The partition between the compartment and the sixth compartment) is passing through the discharge port B. Therefore, regarding the supply of the article group X, if the article group X is dropped from the weighing device 10 side to the seasoning device 20 side at this time, the article group X does not enter the first section of the next cycle, A part is mixed into the first section of the previous cycle (second section of the next cycle). Therefore, when the cylindrical member 24 returns to the operating position, the supply of the article group X from the weighing device 10 is on standby, and as shown in FIG. The timing hopper 16 of the weighing device 10 is opened at the timing when the first section (# 1) of the cycle is completed (see FIG. 7). In the state shown in FIG. 8D, as in FIG. 8A, the supply port A located at the upper drop supply position is located between the front and rear partitions of the first section (# 1). It communicates with only one section # 1.
[0062]
On the other hand, regarding the discharge of the seasoned article group X, since the next discharge target (f) has already reached the article discharge section, the discharge starts when the cylindrical member 24 returns to the operating position (see FIG. 7). ). The discharge of the seasoned article group f continues until the sixth section (# 6) is completed (until the screw rotation angle reaches 360 °). However, during that time, the rotational speed of the screw member 23 returns to the normal high conveyance speed, the conveyance speed of the article group X is increased, and the discharge port B located at the lower drop discharge position is the sixth. Since the article group f is wide and widely opened over the entire area of the compartment, the entire amount of the article group f becomes one lump without delay and is dropped onto the packaging device 30 in a relatively short time.
[0063]
Therefore, during the period when the cylindrical member 24 is stopped at the operating position (screw rotation angle is between approximately 220-230 ° and 360 °), the supply port A is at the article drop supply position and the discharge port B is at the article drop. In the discharge position. On the other hand, the supply port A is in the non-supply position and the discharge port B is in the non-discharge position while the cylindrical member 24 is moving in the b direction or the c direction. In this way, the upstream supply port A and the downstream discharge port B move simultaneously, whereby the supply (acceptance) of the article group X before seasoning and the discharge of the seasoned article group X are controlled simultaneously. .
[0064]
From the viewpoint of reducing the load on the second motor 27 or the control of the second motor 27, when returning the cylinder member 24 to the operating position, it is not reversely rotated in the c direction but returned in the b direction. There is an idea that it is preferable to increase the speed while returning to the rotation. That is, the cylindrical member 24 is also rotated once in the constant direction b, like the screw member 23. However, in the present embodiment, since the elongated spray guns 41 and 42 are erected on the peripheral surface of the cylindrical member 24 and extend in the radial direction, it is this seasoning device that the cylindrical member 24 is continuously rotated in the same direction. This is practically difficult because a large occupied space around 20 is required and the piping 43 between the injection guns 41 and 42 and the air compressor 44 may be swung to cause a large distortion. However, for example, if the seasoning injection port is charged in the peripheral surface of the screw shaft 22 belonging to the third section and the fifth section, the elongated injection guns 41 and 42 are erected on the peripheral surface of the cylindrical member 24. This eliminates the need for the above-described restrictions on the occupied space and the piping 43, and the cylinder member 24 can be continuously rotated in the direction b.
[0065]
Next, features of the present embodiment will be described. First, the seasoning apparatus 20 according to the present embodiment transports the article supplied from the weighing device 10 in the article supply unit to the article discharge unit while seasoning. That is, since the article group X weighed by the weighing device 10 is seasoned by the seasoning device 20 before being delivered to the packaging device 30, it is reasonable and rational.
[0066]
Also, the article group X supplied by the supply unit and the seasoning supplied by the seasoning supply device 40 are constrained as one unit, separated from the other, separated from the other, and conveyed to the discharge unit. Therefore, in the course of the conveyance, the article group X and the seasoning are not partially left from the seasoning device 20 or newly added. Accordingly, the stay time in the seasoning device 20, that is, the seasoning time (contact time with the seasoning) is the same for all the individual articles in the group of articles, and the article group X and the seasoning are used. The supply ratio and the mixing ratio are kept the same. Therefore, all the individual articles can be seasoned with a thick and thin seasoning. For example, if an article group and seasonings are first supplied at a predetermined optimum ratio, All of the articles can be seasoned to the optimum ratio. The order of supply of the article group and the seasoning does not matter.
[0067]
And since the movement of a partition was employ | adopted as a means which isolate | separates and conveys an article group for every such article group, the structure of the seasoning apparatus 20 becomes simple. That is, the article group X is separated and accommodated in the compartment partitioned by the partition, and the compartment is moved by moving the partition, and thus the article group X is separated and left to the discharge unit. It was made to convey. In other words, the partition functions simultaneously as two different functions of separation and conveyance.
[0068]
Next, according to the supply amount of the article group X by the weighing device 10, the supply amount of the seasoning by the seasoning supply means 40 is large when the article supply amount is large, for example. The optimal ratio is maintained, and just the right amount is added to all the individual articles in any group of articles and sections.
[0069]
Next, since the movement of the partition is achieved by the rotation of the screw member 23, the plurality of partitions and the plurality of compartments can be simultaneously rotated by simply rotating the screw member 23 around the axis in the cylindrical member 24. Move in the direction. Moreover, a plurality of compartments can be provided at a time by using only one set of screw member 23 and cylindrical member 24, and a plurality of article groups X1 to X6 separately accommodated in each compartment can be simultaneously provided. It becomes possible to convey to the discharge unit one after another in parallel. In the present embodiment, by using a screw-type conveying device, a plurality of sections partitioned by the spiral blades 21 are successively moved from the article supply section to the article discharge section. There is no moving means for each section, and only a single screw member 23 needs to be rotated, thus simplifying the configuration.
[0070]
In addition, since the screw member 23 and the cylindrical member 24, which are relatively long objects, are extended not in the vertical direction but in the horizontal direction, the height of the seasoning device 20 can be kept low. In addition, the article group X supplied to the seasoning device 20 does not become a thick lump but spreads thinly in the horizontal direction, and the seasoning is good even to the articles that existed in the lump of the article group X The seasoning is good and good seasoning is achieved.
[0071]
Next, since the discharge port B is formed in the cylindrical member 24 and the cylindrical member 24 is rotated, the position of the discharge port B is changed to control the discharge of the seasoned articles. A similar function is performed. And since it is a timing hopper integrated with the seasoning apparatus 20, it is excellent in compactness compared with the case where a normal timing hopper (for example, timing hopper 16 of the weighing | measuring apparatus 10) is provided separately.
[0072]
Similarly, since the supply port A is formed in the cylindrical member 24 and the cylindrical member 24 is rotated, the position of the supply port A is changed to control the supply of the article group before seasoning. When the partition (spiral blade 21) is still passing through the mouth A, an article group is supplied from the weighing device 10 side, and the article group is accidentally straddled across the spiral blade 21 and supplied into the seasoning device 20. Such troubles are prevented. That is, as indicated by the oblique lines in FIG. 4, when the supply port A is in the non-supply position, the upper portion of the cylindrical member 24 is blocked, and even if the article falls from the chute 17 at this time, the article Is prevented from being unexpectedly supplied into the seasoning device 20.
[0073]
Since such discharge control and supply control of the article group are simultaneously performed by the rotation of the cylindrical member 24, it is possible to prevent the control of the rotation of the cylindrical member 24 from becoming complicated.
[0074]
Further, the article group X supplied to the seasoning device 20 is agitated with the seasoning in the course of its conveyance, and is reliably seasoned. In that case, since the article group X and the seasoning are agitated in a state of being constrained as one unit in each section, there is no entry or exit of a new article group or seasoning, and each individual article. Everything is sure to taste.
[0075]
In that case, since the agitation is performed by scraping the article group and the seasoning accumulated in the lower part in the section by the scraping member 28, the article rolls, and the individual articles are separated from each other. Even in comparison and in comparison between different parts in one article, uniform seasoning without unevenness is achieved.
[0076]
In this case, the positions of the openings A and B are changed in synchronization with the reduction in the rotational speed of the screw member 23 for stirring. The rotational speed in the b direction) is also small, and the stopped cylinder member 24 can be started to rotate in the b direction with a small load.
[0077]
Since the cylindrical member 24 is made transparent (for example, made of acrylic resin), the inside of the cylindrical member 24 or the seasoning device 20 can be observed well from the outside. As a result, the progress of the work can be confirmed, and the quality of the work can be determined. Then, when manually supplying an article group or seasoning, the positional relationship of the spiral blades 21 of the screw member 23, the positional relations of the sections # 1 to # 6, and the like are visually observed, and the article The timing of supply of the group and seasoning can be performed well.
[0078]
On the other hand, as a feature of the entire product production system, since the weighing device 10 is provided upstream of the seasoning device 20 and the packaging device 30 is provided downstream, the seasoning does not adhere to the weighing device 10 and the cleaning work is reduced. To do. Even when the product is changed or when the taste is changed, the weighing device 10 can omit the work of removing the seasoning adhering in the previous production of the product. In particular, since the weighing device 10 is a large combination weighing device having a large number of hoppers 13, 14, 16 and chutes 15, 16, the effect of reducing or omitting the cleaning work is very great.
[0079]
[Second Embodiment]
In the first embodiment, all processing is performed by using one package unit quantity of articles weighed by the weighing device 10 as one unit. That is, the entire amount of the article group X weighed by the weighing device 10 is supplied to one section of the seasoning device 20 (for each packaging unit amount), conveyed, seasoned, and delivered to the packaging device 30. On the other hand, in the second embodiment, an article group of one packaging unit amount measured by the weighing device 10 is intentionally divided into a plurality of parts, and each of the divided article groups is set as a unit, and each seasoning device 20 Supplied to the compartment, transported, seasoned, and delivered to the packaging device 30. However, as will be described later, at the time of delivery to the packaging device 30, since it must be assembled again into one (in one packaging unit amount), the rotation of the cylindrical member 24 (the supply / discharge separation control of the article group) Is not performed every time one section passes, but is performed every time a plurality of sections supplied in division are all passed.
[0080]
FIG. 9 shows an example of a weighing device 10 that can be employed in the second embodiment. It is characteristic that the collective chute has inner and outer double structures 15a and 15b (twin chute structure). In the first embodiment, since the entire amount of one packaging unit amount is accommodated in one section, it is necessary to measure the discharge timing every time one section reaches the discharge section. On the other hand, in the second embodiment, since one packaging unit amount of goods is divided and supplied to a plurality of compartments, for example, when dividedly supplied to two compartments, the two compartments pass. Each time, the timing of the separation of emissions will be measured. In addition, when one section constitutes one packaging unit amount, the amount of the article group in the section can be recognized as, for example, the net weight of the product to be produced (that is, a detection means for detecting the amount of the article group) Provided). However, when it is divided and supplied to a plurality of sections, the amount of articles supplied to each section must be known by some other method. In the second embodiment, therefore, a twin chute measuring device as shown in FIG. 9 is employed.
[0081]
Timing hoppers 16 a and 16 b are provided in the chutes 15 a and 15 b, respectively, and both hoppers 16 a and 16 b drop articles on a common take-up chute 17. The weighing hopper 14 has two gates 14a and 14b, and when discharging the article, one of the gates 14a and 14b is selected and opened. For example, when the inner gate 14a is opened, articles can be collected in one timing hopper 16a using the inner collecting chute 15a. Conversely, when the outer gate 14b is opened, articles can be collected in the other timing hopper 16b using the outer collecting chute 15b.
[0082]
The weighing device 10 selects a combination of one packaging unit amount (for example, 100 grams), and selects two combinations of 50 grams each. Then, the weighing hopper 14 corresponding to one 50-gram combination causes the collecting chutes 15a or 15b to discharge either the inside or the outside, and the other 50-gram combination hopper 14 corresponding to the other 50-gram combination is discharged to the other collecting chutes. The article is discharged to 15b or 15a. And the articles | goods group combined in 50 grams is supplied to two continuous divisions of the seasoning apparatus 20, respectively. The seasoning supply apparatus 40 supplies the seasoning of the quantity corresponded to the goods group of 50 grams instead of 100 grams with respect to each division. As described above, in the second embodiment, detection means for detecting the amount of the article group is provided.
[0083]
By so doing, the product group X is subdivided into small lots, so that further good agitation and good seasoning of the seasoning and the product group X can be achieved. Moreover, since the quantity of one article group which the seasoning apparatus 20 isolate | separates and conveys can be suppressed to a small quantity without being restricted to 1 packaging unit quantity of the packaging apparatus 10, even if 1 packaging unit quantity of the packaging apparatus 10 is large. However, good agitation and good seasoning with small lots can be achieved.
[0084]
In this commodity production system, since packaging is performed immediately after seasoning, discharge of articles from the seasoning device 20 must be performed by discharging a group of articles of one unit of measurement as one lump. In addition, there must be a clear interval (separation / separation) between the chunks. Otherwise, the bite of the article occurs in the lateral seal in the packaging device 30. Therefore, when discharging the seasoned articles from the seasoning device 20 to the packaging device 30, for example, when dividing into two article groups as described above, the two divided article groups are continuously discharged, A time interval is divided from the first section of the next one packaging unit amount. Thereby, one packaging unit quantity measured by the weighing device 10 is held and discharged to the packaging device 30. Further, by separating the adjacent one packaging unit amount in time, the packaging device 30 can prevent the article from biting into the lateral seal.
[0085]
[Third Embodiment]
At least one of the article group X and the seasoning may be charged, and the seasoning may adhere to the article group X by utilizing the electrostatic action. The seasoning process is completed in a short time, and a uniform seasoning with even more uniformity is realized. In addition, the seasoning adheres and the remaining amount decreases (the seasoning adheres with a good yield). However, when both the article group X and the seasoning are charged, they should be charged with different polarities.
[0086]
FIG. 10 shows an example of a charging device 50 that can be employed in the third embodiment. The charging device 50 is disposed between the timing hopper 16 and the take-in chute 17 of the weighing device 10 and has a pair of electrodes 51 and 52 that face each other across the dropping path of the weighed article group X. One electrode 51 is connected to a high-voltage power supply 53 and the other electrode 52 is grounded to form an electric field space between these electrodes 51 and 52. The article group X discharged from the timing hopper 16 passes through this electric field space during dropping, and as a result, is charged to a predetermined polarity. The charging of the seasoning is achieved, for example, by providing a similar charging device in the seasoning supply path (the piping 43 or the like) in the seasoning supply device 40.
[0087]
As described above, when at least one of the article group X and the seasoning is charged, the cylindrical member 24 is preferably a dielectric, that is, an electrical insulator. As a result, since the charged article group X or seasoning is suppressed from adhering to the cylindrical member 24, the article group X and the seasoning are well dispersed, and contact and agitation are favorably performed. In addition, the seasoning does not accumulate and accumulates on the inner peripheral surface of the cylindrical member 24, and troubles such as the adhesion of the dama locally to the article can be prevented.
[0088]
In that case, as shown in FIG. 10, a grounded metal plate (steel plate or the like) 61 may be attached close to the lower portion of the outer peripheral surface of the cylindrical member 24. The aim is to attract the charged seasoning to the metal plate 61 and concentrate the seasoning on the lower part of the cylindrical member 24. Then, the seasoning adheres well to the article group X that tends to accumulate in the lower part of the cylindrical member 24 by its own weight, and the seasoning is used without waste.
[0089]
[Others]
As shown in an enlarged view in FIG. 11, the powder seasoning S stored in the charge tank 45 may become hard due to pressure, humidity, or the like. Then, the seasoning causes a bridge in the tank 45 and a supply failure occurs. Therefore, in order to prevent aggregation, solidification, and bridging of the powder seasoning, it is conceivable to constantly vibrate the charge tank 45 using a vibration device or the like. However, it does not lead to a complete problem solution, but if the vibration is increased, a problem of noise will occur.
[0090]
Therefore, as shown in FIG. 11, the bottom surface of the tank 45 is formed of a mesh 45 a, and the mesh 45 a, the tank body 45, or both 45, 45 a is reciprocated or circularly moved as indicated by an arrow Y. By doing so, the seasoning in the state of powder in the charge tank 45 passes through the mesh 45a by its own weight. The contact portion Z between the tank 45 and the mesh 45a functions like a mortar, and the seasoning solidified in the charge tank 45 is ground and ground. In either case, the occurrence of bridging is prevented, and a predetermined amount of seasoning S is satisfactorily extracted by driving the screw feeder 46 by the motor 46a. In addition, since a certain degree of effect can be obtained without reciprocating or circularly moving the mesh 45a and the tank main body 45 so much, noise problems do not occur.
[0091]
【The invention's effect】
As described above, according to the present invention, the group of articles to be seasoned is separated and conveyed for each group of articles, so that all the individual articles in the group of articles are highly seasoned. It can be seasoned to a predetermined optimum blending ratio without being thin. In addition, since the means for separating and transporting the group of articles for each group of articles is configured only by the movement of the partition, that is, the partition has both functions of separation and conveyance. The configuration of the seasoning device is simple.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a product production system according to a first embodiment of the present invention.
FIG. 2 is a longitudinal sectional view of a seasoning device provided in the system as viewed from the side.
FIG. 3 is a longitudinal sectional view of the seasoning device as seen from the downstream side, which is based on the arrow view of FIG.
4 is the same as in FIG.
FIG. 5 is based on the arrow c in FIG.
6 is based on the arrow view of FIG.
FIG. 7 is a time chart of the operation of each part of the seasoning device.
FIG. 8 is a schematic diagram showing the operation of each part of the seasoning device.
FIG. 9 is a block diagram of a twin chute measuring device that can be employed in the second embodiment of the present invention.
FIG. 10 is a configuration diagram of a main part of a product production system including a charging device that can be employed in a third embodiment of the present invention.
FIG. 11 is an enlarged view of a main part of a seasoning supply device in which a bottom surface of a charge seasoning powder tank is made of a mesh and the mesh is swung.
[Explanation of symbols]
1 Product production system
10 Weighing device (detection means)
17 Weighing device take-up chute
20 Seasoning equipment
21 Spiral feather (partition)
22 Screw shaft
23 Screw member (conveying means)
24 Tube member (conveying means)
26 Screw member rotation drive motor (screw rotation means)
27 Cylinder member rotation drive motor (cylinder rotation means)
28 Scraping member (stirring means)
30 Packaging equipment
31 Packaging machine take-up chute
40 Seasoning supply device (seasoning supply means)
41, 42 spray gun
50 Charging device (charging means)
A Opening for goods supply
B Opening for discharging goods
X Group of goods
# 1 to # 6 sections

Claims (14)

A seasoning device that transports the articles supplied by the supply unit to the discharge unit while seasoning the articles, and transports the article group supplied by the supply unit to the discharge unit by separating the group of articles. A seasoning supply means for supplying seasonings for each group of articles, wherein the transport means has a partition arranged in parallel between the supply section and the discharge section, and the compartment is partitioned by the partition. The seasoning apparatus is configured to accommodate the group of articles and move the partition from the supply unit side to the discharge unit side in that state. The seasoning apparatus according to claim 1, further comprising a detecting unit that detects an amount of the article group, wherein the seasoning supply unit supplies an amount of seasoning corresponding to the amount of the article group. The conveying means includes a screw member that extends substantially horizontally between the supply unit and the discharge unit, a cylindrical member that houses the screw member, and a screw rotation unit that rotates the screw member about an axis. The article group is accommodated in a section partitioned by the spiral blades of the screw member inside the cylindrical member, and the section is moved from the supply section side to the discharge section side by the rotation of the screw member. It is comprised, The seasoning apparatus of Claim 1 or 2 characterized by the above-mentioned. A discharge opening provided on a peripheral surface of the cylinder member in the discharge portion; and a cylinder rotation means for rotating the cylinder member around an axis. The cylinder rotation means opens the opening by rotation of the cylinder member. 4. The seasoning device according to claim 3, wherein the discharge of the group of articles is controlled by being selectively disposed at a lower article drop discharge position and other positions. A supply opening provided on a peripheral surface of the cylindrical member in the supply section; and a cylinder rotating means for rotating the cylindrical member around an axis. The cylinder rotating means opens the opening by rotation of the cylindrical member. 4. The seasoning device according to claim 3, wherein the supply of the article group is controlled by being selectively arranged at an upper article drop supply position and other positions. A discharge opening provided on the peripheral surface of the cylindrical member in the discharge portion, a supply opening provided on the peripheral surface of the cylindrical member in the supply portion, and a cylinder rotating means for rotating the cylindrical member around an axis The cylinder rotating means selectively arranges the discharge opening at a lower article fall discharge position and other positions by rotation of the cylinder member, and supplies the supply opening to the upper article fall supply. 4. The seasoning device according to claim 3, wherein discharge and supply of the group of articles are controlled at the same time by selectively arranging at positions and other positions. The seasoning device according to any one of claims 1 to 6, further comprising a stirring unit that stirs the article group and the seasoning while the article group supplied with the seasoning is conveyed to a discharge unit. . The article group supplied with the seasoning is provided with a stirring means for stirring the article group and the seasoning in the course of being conveyed to the discharge unit, and the stirring means includes a scraping member provided between the spiral blades. And the stirring is performed by scraping upward the article group and the seasoning accumulated in the lower portion of the cylindrical member with the rotation of the screw member by the scraping member. 7. The seasoning device according to claim 3, wherein a rotation speed of the screw member is reduced when the scraping is performed. The article group supplied with the seasoning is provided with a stirring means for stirring the article group and the seasoning in the course of being conveyed to the discharge unit, and the stirring means includes a scraping member provided between the spiral blades. And the stirring is performed by scraping upward the article group and the seasoning accumulated in the lower portion of the cylindrical member with the rotation of the screw member by the scraping member. The seasoning according to any one of claims 4 to 6, wherein when the scraping is performed, the rotational speed of the screw member is reduced, and the cylinder rotating means changes the position of the opening in synchronization therewith. apparatus. The seasoning device according to claim 3, wherein the cylindrical member is transparent. The charging device for charging at least one of the article group and the seasoning is provided, and the seasoning is attached to the article group by an electrostatic action thereof. Seasoning equipment. The seasoning device according to claim 11, wherein the cylindrical member is an electrical insulator. A measuring device for supplying a weighed article to the seasoning device upstream of the seasoning device according to any one of claims 1 to 12, and a packaging device for packaging the article discharged from the seasoning device downstream. Characteristic product production system. 14. The weighing device according to claim 13, wherein the weighing device weighs one packaging unit amount of the packaging device, divides the articles of the one packaging unit amount into a plurality of article groups, and supplies them to the seasoning device. Product production system.

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