JP2017192352A - Laver raw alga supply system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance the product value of the dried laver manufactured by making the laver raw alga supplied by a laver raw alga supply system into a rectangular sheet with a laver manufacturing device and drying the same.SOLUTION: In a laver raw alga supply system (1) that shreds laver raw alga stored in a storing device (3) with a mincing device (6) and supplies the same to a laver manufacturing device (2), a fresh water supply device (8) for supplying fresh water and a saline water supply device (high salt content sea water supply device (12)) for supplying saline water are connected to the mincing device (6). The saline water supply device (high salt content sea water supply device (12)) supplies high salt content sea water having higher salt content concentration than that of sea water.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a nori seaweed algae supply system that shreds nori seaweed stored in a storage device with a minced device and supplies it to a nori production device.

  Dried seaweed is produced by storing seaweed raw algae cultured in the sea in seawater inside the storage device, supplying it from the storage device to the seaweed production device, making paper with the seaweed production device, and drying it. Yes.

  A nori seaweed algae supply system is used to supply nori seaweed algae to the laver production apparatus. This nori seaweed supply system supplies the nori seaweed algae stored in the storage device to the nori production device after being shredded by a mincing device. Seaweed raw algae are stored in seawater in the storage device, transported to the minced device together with seawater, separated from the seawater separator immediately upstream of the minced device, shredded by the minced device and mixed with fresh water Then, it is supplied to a laver production apparatus together with fresh water (see, for example, Patent Document 1).

JP 2003-325142 A

  However, in the conventional nori seaweed supply system, fresh water is mixed with the nori seaweed shredded by the minced device and supplied to the nori production device. There was a possibility that the umami components contained in the original algae could be eluted in fresh water.

  If the umami component contained in the seaweed raw algae is eluted in the seawater, there is a problem that the taste of the dried seaweed produced by the seaweed production apparatus is lowered and the commercial value of the dried seaweed is reduced.

  Therefore, in the present invention according to claim 1, in the nori seaweed algae supply system that shreds the laver original algae stored in the storage device with the minced device and supplies it to the nori production device, for supplying fresh water to the minced device. It was decided to connect a fresh water supply device and a salt water supply device for supplying salt water.

  Moreover, in this invention which concerns on Claim 2, in the said invention which concerns on the said Claim 1, the said salt water supply apparatus decided to supply the high salinity seawater which made salt concentration higher than seawater.

  And in this invention, there exists an effect described below.

  That is, in the present invention, a nori seaweed algae supply system that shreds the nori seaweed stored in the storage device with a minced device and supplies it to the nori production device, a fresh water supply device for supplying fresh water to the minced device, Since it is decided to connect a salt water supply device for supplying salt water, the salinity concentration of water transported with the seaweed raw algae from the minced device to the seaweed production device may be made higher than conventional fresh water It is possible to suppress elution of umami components and the like from seaweed raw algae. Thereby, the commercial value of the dried seaweed manufactured with the seaweed manufacturing apparatus can be improved.

  In particular, when high-salt seawater having a higher salinity than seawater is supplied by the saltwater supply device, elution of umami components and the like from the seaweed raw algae can be further suppressed.

Explanatory drawing which shows the seaweed original algae supply system which concerns on this invention. Explanatory drawing which shows a high salinity seawater supply apparatus.

  Below, the specific structure of the nori seaweed algae supply system which concerns on this invention is demonstrated, referring drawings.

  As shown in FIG. 1, the nori seaweed supply system 1 is a system that supplies the nori seaweed algae to the nori production apparatus 2. The nori seaweed is made into a rectangular sheet by the nori production device 2 and then dried to be dried to the market.

  The seaweed original algae supply system 1 stores the seaweed original algae together with seawater in a storage tank of the storage device 3. Thereafter, the seaweed raw algae are transported to the mixing device 4 together with the seawater, and the mixing device 4 is stirred and mixed. Thereafter, the seaweed original algae are transported to the foreign matter removing device 5 together with the seawater, and the foreign matter removing device 5 removes the foreign matter. Thereafter, the seaweed algae are transported toward the minced device 6 together with the seawater. The mince device 6 is provided with a seawater separation device 7 at a portion immediately upstream (a carry-in portion of the mince device 6) and a fresh water supply device 8 is connected. Then, the seawater transported together with the seaweed algae is separated by the seawater separator 7, and only the seaweed algae is transported to the minced device 6. It is transported to the preparation device 9 together with the preparation water supplied from the fresh water supply device 8. Thereafter, the ratio of the seaweed algae and the preparation water is adjusted (prepared) by the preparation device 9 and supplied to the nori production device 2.

  Thereby, in the laver raw algae supply system 1, the transport path 10 for transporting the laver original algae together with the seawater from the storage device 3 to the minced device 6 via the mixing device 4 and the foreign matter removing device 4, and the minced device 6 to the blending device. A transport path 11 for transporting the seaweed raw algae together with the prepared water to the seaweed manufacturing apparatus 2 through 9 is formed.

  The seaweed original algae supply system 1 is provided with a high salinity seawater supply device 12 for generating and supplying high salinity seawater having a higher salinity concentration than seawater by dissolving salt in the seawater.

  The high salinity seawater supply device 12 is connected to the mixing device 4 provided in the middle of the conveyance path 10 via the supply flow path 13, and supplies the high salinity seawater to the mixing device 4 from the high salinity seawater supply device 12. It is like that.

  The high salinity seawater supply device 12 is connected to a seawater separation device 7 provided on the upstream side of the mince device 6 via a recovery channel 14 and supplies the seawater separated by the seawater separation device 7 to a high salinity seawater supply. It collects in the device 12. As a result, the high salinity seawater is supplied from the high salinity seawater supply device 12 to the mixing device 4 and then recovered from the seawater separation device 7, and is circulated and used.

  Further, the high salinity seawater supply device 12 is connected via a supply flow channel 16 in the middle of a water supply flow channel 15 for supplying fresh water from the fresh water supply device 8 to the mince device 6. The minced device 6 can be supplied with fresh water or only high salinity seawater. Thereby, the high salinity seawater supply device 12 functions as a salt water supply device that supplies salt water to the mince device 6.

  As shown in FIG. 2, the high salinity seawater supply device 12 supplies a seawater supply source 19 for supplying seawater and saltwater having a higher salinity concentration than seawater to a tank 18 provided with a stirring and mixing mechanism 17. Are connected to the salt water supply source 20 via pumps 21 and 22, respectively. The salt water supply source 20 supplies salt water having a higher salt concentration than sea water by adding salt to the sea water.

  Further, the high salinity seawater supply device 12 is provided with a sensor 23 for detecting the salinity concentration inside the tank 18. The sensor 23 is connected to a control device 24 that controls the whole nori seaweed supply system 1. The control device 24 is also connected with a sensor 25 for detecting the salinity of the prepared water provided in the mince device 6.

  Further, the high salinity seawater supply device 12 connects the supply flow paths 13 and 16 to the tank 18 via the pumps 26 and 27, and connects the recovery flow path 14 to the tank 18 via the pump 28.

  Then, the high salinity seawater supply device 12 tanks the high salinity seawater having a predetermined concentration set in advance by driving and controlling the pumps 21, 22, and 28 according to the salinity concentrations detected by the sensors 23 and 25. The high salinity seawater is supplied to the mixing device 4 and the mincing device 6 by storing in 18 and controlling the driving of the pumps 26 and 27. The control device 24 controls the pumps 21 and 22 according to the salinity concentration detected by the sensor 23 so that the salinity concentration of the high salinity seawater stored in the tank 18 becomes a predetermined concentration. The pump 28 is driven and controlled in accordance with the detected salinity concentration, so that the salinity concentration of the prepared water supplied to the mince device 6 becomes a set value.

  The nori seaweed algae supply system 1 is configured as described above, and the high salinity seawater supplied from the high salinity seawater supply device 12 is mixed with the nori seaweed algae and seawater (transferred from the storage device 3). Mixed with seawater). Thereby, the seaweed raw algae supply system 1 is transported between the mixing device 4 and the seawater separation device 7 in the transport path 10 together with the high salinity seawater (in a state of being soaked in the high salinity seawater). become. And, when the seaweed algae are transported with high salinity seawater having a higher salinity than seawater, compared with the case where the seaweed algae are transported with seawater, cell degradation of the seaweed algae in the transport route 10 and the like. It is suppressed, and the amount of umami components and the like eluted from the seaweed algae and from the seaweed algae is suppressed. In particular, when the high salinity seawater supply device 12 is connected to the upstream side of the foreign matter removing device 5, the expansion due to cell decomposition or the like of the seaweed raw algae conveyed to the foreign matter removing device 5 can be suppressed. It is possible to prevent the nori seaweed algae from being accidentally removed as foreign matter by the foreign matter removing device 5, and to increase the supply amount of the nori raw algae to the nori production device 2. The high salinity seawater in the drying path 10 is generated by mixing the seawater transported from the storage device 3 together with the seaweed original algae and the high salinity seawater supplied from the high salinity seawater supply device 12 by the mixing device 4. The salinity is higher than seawater.

  Moreover, the nori seaweed algae supply system 1 mixes the high salinity seawater supplied from the high salinity seawater supply device 12 with the nori seaweed algae shredded by the mincing device 6. As a result, the seaweed raw algae supply system 1 is transported along the transport path 11 together with the prepared water containing the high salinity seawater (in a state immersed in the prepared water containing the high salinity seawater). Then, the seaweed algae are transported together with the preparation water (salt water containing salt) having a higher salinity concentration than fresh water, so that the seaweed algae are transported along the transport path 11 as compared with the case where the seaweed algae are transported together with fresh water. The cell decomposition of algae is suppressed, and the amount of umami components and the like eluted from the seaweed algae is suppressed. In the transfer path 11, when only fresh water is supplied from the fresh water supply device 8 to the minced device 6, fresh water is used as preparation water, and only the high salinity seawater supply device 12 is supplied to the minced device 6. In this case, high salinity seawater is used as preparation water, and when fresh water from the fresh water supply device 8 and high salinity seawater from the high salinity seawater supply device 12 are supplied to the minced device 6 at the same time, mixing of fresh water and high salinity seawater is performed. Water is used as the preparation water and conveyed to the preparation device 9 together with the seaweed raw algae shredded by the minced device 6. The salinity of the preparation water is determined by the mixing ratio of fresh water and high salinity seawater, and ranges from pure water only to high salinity seawater, which may be lower than seawater. Higher salinity. In the seaweed original algae supply system 1, when the seaweed original algae is being transported from the minced device 6 to the preparation device 9, the high salinity seawater supply device 12 supplies the high salinity seawater to provide the preparation water having a higher salinity than fresh water. Used when the seaweed algae is not being transported (before or after transporting the seaweed algae), fresh water is supplied only from the fresh water supply device 8, and the minced device 6, the blending device 9 and the laver production device 2 are used with fresh water. It can also be washed.

  As described above, the seaweed algae supply system 1 is configured to cut the seaweed algae stored in the storage device 3 with the minced device 6 and supply the seaweed algae to the seaweed production device 2, and store the seaweed algae. A high salinity seawater supply device 12 for supplying high salinity seawater having a higher salinity concentration than seawater is connected to a transport path 10 that transports the device 3 to the mince device 6.

  Therefore, in the laver proto-algae supply system 1 having the above-described configuration, the salinity of seawater conveyed along with the laver proto-algae from the storage device 3 to the minced device 6 can be increased, and expansion due to cell decomposition of the laver proto-algae, etc. Elution of umami components and the like can be suppressed. Thereby, the commercial value of the dried seaweed manufactured with the seaweed manufacturing apparatus 2 can be improved.

  Further, the seaweed original algae supply system 1 has a configuration in which the high salinity seawater supply device 12 is connected to the upstream side of the foreign matter removing device 5 provided in the transport path 10.

  Therefore, in the laver original algae supply system 1 having the above-described configuration, it is possible to prevent the expanded nori alga from being mistakenly removed as foreign matter by the foreign matter removing device 5 by suppressing expansion due to cell decomposition of the nori source alga. It is possible to increase the supply amount of the seaweed original algae to the seaweed production apparatus 2.

  In addition, the seaweed raw algae supply system 1 is provided with a seawater separation device 7 downstream of the high salinity seawater supply device 12 and upstream of the mince device 6 in the transport path 10, and the seawater separation device 7 is provided with high salinity. The seawater that is connected to the seawater supply device 12 and separated by the seawater separation device 7 is collected in the high-salt seawater supply device 12.

  Therefore, in the laver raw algae supply system 1 having the above-described configuration, not only can seawater be used effectively, but also the umami components of the laver original algae eluted in the seawater can be recovered and used effectively.

  In addition, the seaweed original algae supply system 1 is configured by connecting a fresh water supply device 8 for supplying fresh water and a salt water supply device (high salinity seawater supply device 12) for supplying salt water to the mince device 6. It has become.

  Therefore, in the seaweed original algae supply system 1 having the above-described configuration, the salinity concentration of moisture (prepared water) conveyed together with the seaweed original algae from the minced device 6 toward the seaweed supply device 2 can be made higher than that of conventional fresh water. , Elution of umami components and the like from seaweed raw algae can be suppressed. Thereby, the commercial value of the dried seaweed manufactured with the seaweed manufacturing apparatus 2 can be improved.

  Furthermore, the seaweed original algae supply system 1 is configured to supply high salinity seawater having a salt concentration higher than seawater by a salt water supply apparatus (high salinity seawater supply apparatus 12).

  Therefore, in the laver original algae supply system 1 having the above-described configuration, elution of umami components and the like from the laver original algae can be further suppressed.

DESCRIPTION OF SYMBOLS 1 Seaweed original algae supply system 2 Seaweed production apparatus 3 Storage apparatus 4 Mixing apparatus 5 Foreign material removal apparatus 6 Mince apparatus 7 Seawater separation apparatus 8 Fresh water supply apparatus 9 Preparation apparatus 10,11 Conveyance route
12 High salinity seawater supply equipment 13 Supply flow path
14 Recovery channel 15 Water supply channel
16 Supply channel 17 Stirring and mixing mechanism
18 Tank 19 Seawater supply source
20 Saline source 21,22 Pump
23 sensor 24 control unit
25 Sensor 26,27,28 Pump

Therefore, in the present invention according to claim 1, in the nori seaweed algae supply system that shreds the laver original algae stored in the storage device with the minced device and supplies it to the nori production device, for supplying fresh water to the minced device. A fresh water supply device and a salt water supply device for supplying salt water are connected, and the salt water supply device adds salt to sea water supply source and sea water for supplying sea water to a tank provided with a stirring and mixing mechanism. We decided to connect a salt water supply source for supplying salt water having a higher salinity than sea water .

Claims (2)

In the nori seaweed algae supply system that shreds the nori seaweed stored in the storage device with a minced device and supplies it to the nori production device,
A nori seaweed algae supply system, wherein a fresh water supply device for supplying fresh water and a salt water supply device for supplying salt water are connected to the minced device.   The seaweed raw algae supply system according to claim 1, wherein the salt water supply device supplies high salinity seawater having a higher salinity concentration than seawater.

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