JP2018068274A - Box-type vessel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a box-type vessel capable of maintaining an acid treatment liquid to a prescribed pH value.SOLUTION: Provided is a box-type vessel which includes an acid treatment tank for storing an acid treatment liquid; and a pair of takeup rolls provided inside the acid treatment tank for taking up a laver net with attached laver. The box-type vessel includes: a pH sensor which is provided in the acid treatment tank for detecting pH of the acid treatment liquid; an undiluted liquid discharge part for discharging an undiluted acid liquid, which is provided at a position not interfering with the laver net taken up by the takeup rolls; and an undiluted liquid feeder which automatically adjusts a feeding amount of the undiluted acid liquid fed to the undiluted liquid discharge part based on the detection value of the pH sensor. The undiluted liquid discharge part is provided between the pair of takeup rolls.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a box-type ship.

  It is known that diatoms growing in seawater, red rot fungi, and the like adhere to the nori during cultivation, and the quality of the nori deteriorates. Moreover, as a countermeasure against the quality deterioration of the seaweed, it is known to remove diatoms and fungi adhering to the seaweed with an acid treatment agent. In the following Patent Document 1, a ship called moguri ship is used to immerse the ship under a laver net, spray an acid treatment solution from the underside of the laver net, and remove diatoms adhering to the laver. A continuous processing method is disclosed. Further, in this mogul ship, the pH value of the acid treatment liquid is kept constant by automatically controlling the amount of acid added based on the pH measurement value of the acid treatment liquid measured by a pH meter.

JP 2003-38051 A

  By the way, although the acid treatment using the mogul ship of patent document 1 can be adopted in a relatively wide sea where the mogul ship can be run, it should be adopted in the cultivation of laver in areas where the mogul ship cannot be maneuvered. I can't. In a situation where such a mogul ship cannot be used, acid treatment using a relatively small box-type ship is performed. This box-type ship includes a roller that winds up a laver net and a treatment tank that immerses the laver net wound around the roller in an acid treatment solution.

  In such acid treatment using a box-type ship, the pH of the acid treatment liquid is not automatically adjusted due to the fact that the box-type ship is relatively small. Has been done. Therefore, it is difficult to maintain and manage the acid treatment liquid at a desired pH value in the acid treatment using a box ship.

  This invention is made | formed in view of the situation mentioned above, and it aims at providing the box-type ship which can maintain an acid treatment liquid at a desired pH value.

  In order to achieve the above object, in the present invention, as a first solution, a pair of an acid treatment tank for storing an acid treatment liquid and a nori net that is provided in the acid treatment tank and on which laver adheres are wound. A box-type ship provided with a winding roll, provided in the acid treatment tank, in a position that does not interfere with the pH sensor for detecting the pH of the acid treatment liquid and the laver net wound on the winding roll. A stock solution discharge unit that discharges the acid stock solution, and a stock solution supply device that automatically adjusts a supply amount of the acid stock solution supplied to the stock solution discharge unit based on a detection value of the pH sensor, and the stock solution discharge unit Employs a means that is provided between the pair of winding rolls.

  In the present invention, as a second solving means, a box type provided with an acid treatment tank for storing an acid treatment liquid and a pair of winding rolls provided in the acid treatment tank and winding a laver net with laver attached thereto. It is a ship, provided in the acid treatment tank, provided at a position where it does not interfere with the pH sensor for detecting the pH of the acid treatment solution and the laver net wound on the take-up roll, and discharges the acid stock solution. A stock solution discharge unit, and a stock solution supply device that automatically adjusts the supply amount of the acid stock solution supplied to the stock solution discharge unit based on a detection value of the pH sensor, the stock solution discharge unit in the acid treatment tank Use the means that it is provided on the entry side of the laver net.

  In the present invention, as a third solution means, in the first or second solution means, the stock solution discharge portion is provided along the pair of winding rolls, and a plurality of discharge holes are formed at predetermined intervals. The tubular member is provided, and the acid stock solution is discharged from the tubular member.

  In the present invention, as a fourth solution, in any one of the first to third solutions, the pH sensor is provided in the vicinity of the stock solution discharge unit in the acid treatment tank. Is adopted.

  According to the present invention, since the pH of the acid treatment liquid is automatically adjusted, it is possible to provide a box ship that can maintain the acid treatment liquid at a desired pH value.

It is a functional block diagram in the top view of the acid treatment apparatus which concerns on 1st Embodiment of this invention. It is (a) XX sectional drawing of FIG. 1, and (b) YY sectional drawing in the side view of the acid treatment apparatus which concerns on 1st Embodiment of this invention. It is a functional block diagram in the top view of the acid treatment apparatus which concerns on 2nd Embodiment of this invention.

Embodiments of the present invention will be described below with reference to the drawings.
[First Embodiment]
The box-type ship A according to the present embodiment is an acid treatment device that performs acid treatment on laver on the laver net being cultivated. The box-type ship A includes a ship body 1, an acid treatment tank 3 in which an acid treatment liquid 2 is stored, a pair of winding rolls 5a and 5b for winding a laver net 4, a suspension rod 6 (bar-shaped member), a resin sheet 7 (sheet) Member), tubes 8A and 8B (tubular members), pH sensor 9, pH controller 10, acid stock solution pump 11, acid stock solution tank 13 for storing acid stock solution 12, and unwinding rolls 14a and 14b. The pH controller 10, the acid stock solution pump 11, and the acid stock solution tank 13 constitute a stock solution supply device in the present invention.

  The ship body 1 is a resin floating body formed in a box shape. The ship body 1 has a rectangular planar shape whose dimension in the front-rear direction is slightly shorter than the dimension in the width direction. For example, the dimension in the front-rear direction is about 1.5 m and the dimension in the width direction is about 2 m. Moreover, this ship main body 1 is provided with the engine which is not shown in figure, and becomes a driving force which rotates a winding and unwinding roll. Such a ship main body 1 is provided with an acid treatment tank 3, a suspension rod 6, a pH controller 10, an acid stock solution pump 11, an acid stock solution tank 13, a battery (not shown), and the like.

  The acid treatment liquid 2 is an acid dilution liquid having a desired pH value suitable for acid treatment of the laver on the laver net 4, for example, pH = 0.4 to 2.6. That is, the acid treatment liquid 2 is a liquid obtained by diluting an acid stock solution 12 such as a predetermined organic acid or hydrochloric acid with seawater. A certain amount of the acid treatment liquid 2 is stored in the acid treatment tank 3, and acid-treats the laver adhering to the laver net 4 by contacting with the laver net 4.

The acid treatment tank 3 is a substantially rectangular recess formed in the upper center of the ship body 1 and stores a predetermined amount of the acid treatment liquid 2. The capacity of the acid treatment tank 3 is, for example, 400 to 800 liters.
The laver net 4 is a long net with laver attached. The laver net 4 has a plurality of strips arranged in a laver farm. That is, in laver culture, a plurality of strips of laver nets 4 are arranged in the sea area that serves as a farm, and the laver is cultivated in a state of being attached to the laver nets 4. The ship body 1 is formed with a pair of depressions in a state where the acid treatment tank 3 is sandwiched in the width direction. The pair of recesses is a space for arranging several devices and a space for an operator to board.

  The pair of winding rolls 5 a and 5 b are rotating shafts arranged in parallel and horizontally at a predetermined distance in the acid treatment tank 3. That is, the winding rolls 5a and 5b are rotatably attached to the ship main body 1 in a posture orthogonal to the front-rear direction of the ship main body 1. Of the pair of winding rolls 5a and 5b, The winding roll 5a is for winding up the laver net 4 entering from the front when the ship body 1 moves forward, and the other winding roll 5b is from the rear when the ship body 1 moves backward. It is for winding up the invading laver net 4 sequentially.

  The suspension bar 6 is a bar-like member provided above the acid treatment tank 3 so as to face the liquid surface of the acid treatment liquid 2. That is, both ends of the suspension bar 6 are fixed to the upper portion of the ship body 1 so as to be in the middle between the pair of winding rolls 5a and 5b and in parallel with the winding rolls 5a and 5b. Such a hanging rod 6 is located at a position where it does not interfere with the laver net 4 wound around the pair of take-up rolls 5a and 5b, that is, behind the respective take-up rolls 5a and 5b with respect to the intrusion direction of the laver net 4. Is provided.

  The resin sheet 7 is a substantially rectangular and flexible sheet member, for example, a white sheet made of vinyl chloride. One long side (upper end) of the resin sheet 7 is fixed to the suspension rod 6 and hangs down from the suspension rod 6 toward the surface of the acid treatment liquid 2. Further, as shown in the figure, the resin sheet 7 is located above the liquid surface of the acid treatment liquid 2 so that the other long side (lower end) is positioned at a distance D from the liquid surface of the acid treatment liquid 2. It is provided to be located.

  The tubes 8 </ b> A and 8 </ b> B are tubular members provided along the hanging rod 6 on both sides of the resin sheet 7. In the tubes 8A and 8B, a plurality of discharge holes 8a and 8b are formed at predetermined intervals in the length direction, and are made of, for example, vinyl chloride. Each of the discharge holes 8 a and 8 b is formed at an angle inclined toward the resin sheet 7 with respect to the lower side so as to discharge the acid stock solution 12 toward the resin sheet 7.

  Here, the suspension rod 6, the resin sheet 7, and the tubes 8A and 8B constitute a stock solution discharge section in the present invention. That is, the suspension bar 6, the resin sheet 7, and the tubes 8A and 8B discharge the acid stock solution 12 between the pair of winding rolls 5a and 5b.

  The pH sensor 9 is a sensor that detects the pH value of the acid treatment liquid 2. As shown in FIG. 2B, the pH sensor 9 is provided in the acid treatment tank 3 in the vicinity of the stock solution discharge section. That is, the pH sensor 9 is provided in the acid treatment tank 3 at a slight distance from the bottom surface so as not to contact the bottom surface of the acid treatment tank 3 at either one end of the suspension rod 6. . The pH sensor 9 is connected to the pH controller 10 and outputs a detected value to the pH controller 10.

  The pH controller 10 is a control device that feedback-controls the acid stock solution pump 11 based on a detection value input from the pH sensor 9 and a control threshold value stored in advance. That is, the pH controller 10 controls the acid stock solution pump 11 so that the pH value of the acid treatment liquid 2 maintains the control threshold value.

  The acid stock solution pump 11 is a capacity pump that operates based on an operation signal input from the pH controller 10. That is, the acid stock solution pump 11 is connected to the acid stock solution tank 13 and the pair of tubes 8A and 8B by a predetermined pipe. The acid stock solution 12 having a flow rate corresponding to the operation signal is pumped out from the acid stock solution tank 13 and a pair of Supply to tubes 8A and 8B. The discharge rate of the acid stock solution pump 11 is, for example, 400 to 22000 ml / min.

  The acid stock solution 12 is an acid aqueous solution having a predetermined pH value. The acid stock solution 12 is an acid having a pH value lower than the pH value of the acid treatment solution 2, that is, an acid having a higher acidity than the acid treatment solution 2. For example, an organic acid such as malic acid, lactic acid, citric acid, or pH adjustment It is hydrochloric acid of food additive as an agent. The acid stock solution 12 is colored in a predetermined color other than white so that it can be visually recognized when flowing down the surface of the white resin sheet 7. The acid stock solution 12 is colored brown by caramel, for example.

  The acid stock solution tank 13 is a container having a predetermined capacity for storing the acid stock solution 12. The acid stock solution tank 13 is connected to the acid stock solution pump 11 by a predetermined pipe, and supplies the acid stock solution 12 to the acid stock solution pump 11.

  Here, the pH controller 10, the acid stock solution pump 11, and the acid stock solution tank 13 constitute a stock solution supply device in the present invention. That is, the pH controller 10, the acid stock solution pump 11, and the acid stock solution tank 13 automatically adjust the supply amount of the acid stock solution 12 supplied to the stock solution discharge unit based on the detection value of the pH sensor 9.

  The pair of unwinding rolls 14a and 14b are rotating shafts around which a laver net with no laver attached is wound at the start of work. The unwinding rolls 14a and 14b are provided in the acid treatment tank 3 in parallel with the winding rolls 5a and 5b.

  Next, the operation of the box-type ship A configured as described above will be described in detail with reference to FIGS. 1 and 2. Further, since the same operation is performed when the ship body 1 moves forward and when the ship body 1 moves backward, in the present embodiment, only the case where the ship body 1 moves forward will be described.

  First, the operator moves the ship body 1 to the sea where the seaweed net 4 to be acid-treated is installed. For example, as shown by the arrow in FIG. 1, when the ship body 1 moves forward, the laver net 4 enters the acid treatment tank 3 from the front as the ship body 1 moves forward. The laver net 4 that has entered the acid treatment tank 3 is sequentially wound around the winding roll 5a as the winding roll 5a rotates.

  The wound laver net 4 is immersed in the acid treatment liquid 2 stored in the acid treatment tank 3. Therefore, when the laver on the laver net 4 comes into contact with the acid treatment liquid 2, the laver is acid-treated.

  A pH sensor 9 is provided in the acid treatment tank 3, and the pH sensor 9 detects the pH value of the acid treatment liquid 2 stored in the acid treatment tank 3. The detection value detected by the pH sensor 9 is output to the pH controller 10. The pH controller 10 feedback-controls the acid stock solution pump 11 based on the detected value input from the pH sensor and the control threshold value stored in advance. Based on the operation signal input from the pH controller 10, the acid stock solution pump 11 pumps the acid stock solution 12 at a flow rate corresponding to the operation signal from the acid stock solution tank 13 and supplies the acid stock solution 12 to the pair of tubes 8 </ b> A and 8 </ b> B.

Specifically, for example, when the control threshold value stored in advance by the pH controller 10 and the detected value of the pH sensor 9 are the same, the pH value of the acid treatment liquid 2 is maintained at the control threshold value. The amount of the acid stock solution 12 supplied to the acid treatment solution 2 may be small. Therefore, the pH controller 10 controls the operation of the acid stock solution pump 11 so as to supply the acid treatment solution 2 with an amount of the acid stock solution 12 necessary for maintaining the pH value of the acid treatment solution 2.
On the other hand, when there is a discrepancy between the control threshold value of the pH controller 10 and the detected value of the pH sensor 9, the pH value of the acid treatment liquid 2 needs to be lowered to the same value as the control threshold value. Therefore, the pH controller 10 controls the operation of the acid stock solution pump 11 so as to supply the acid treatment solution 2 with an amount of the acid stock solution 12 necessary for lowering the pH value of the acid treatment solution 2.
Therefore, according to the bookcase A, the supply amount of the acid stock solution 12 supplied to the acid treatment liquid 2 can be automatically adjusted based on the detection value of the pH sensor 9.

  The acid stock solution 12 pumped from the acid stock solution tank 13 by the acid stock solution pump 11 that has received the operation signal from the pH controller 10 is supplied to the pair of tubes 8A and 8B. The acid stock solution 12 is discharged toward the resin sheet 7 from the plurality of discharge holes 8a and 8b provided in the pair of tubes 8A and 8B, and flows down along the surface of the resin sheet 7. The acid stock solution 12 that has flowed down through the surface of the resin sheet 7 is dropped onto the acid treatment liquid 2 because the lower end of the resin sheet 7 is provided at a distance D from the surface of the acid treatment liquid 2. The The acid stock solution 12 having a higher specific gravity than the acid treatment liquid 2 is easily dissolved in the acid treatment liquid 2 by being dropped onto the acid treatment liquid 2. Furthermore, the acid stock solution 12 dropped on the acid treatment liquid 2 is contained in the acid treatment liquid 2 when the take-up roll 5a or the take-up roll 5b rotates when the ship body 1 is swung and the laver net 4 is taken up. When the acid treatment liquid 2 is agitated by the water flow generated in the step, it is diffused into the acid treatment liquid 2. Therefore, according to the bookcase A, the pH value in the acid treatment liquid 2 can be made uniform.

  Since the acid stock solution 12 is colored brown, the acid stock solution 12 is discharged from the discharge holes 8a and 8b of the tubes 8A and 8B and flows down through the surface of the white resin sheet 7, so that the acid stock solution 12 is discharged. Is visible to the acid treatment liquid 2 by the operator. Therefore, according to the bookcase A, the operator can visually determine whether the acid stock solution 12 is normally supplied to the acid treatment solution 2.

  After all the laver net 4 to which the laver is attached is wound up and the laver on the laver net 4 is acid-treated, the laver net that is wound around the unwinding roll 14a and is not attached to the laver is the main body of the ship. As 1 moves forward, it is unwound out of the ship body 1 and installed at the place where the laver net 4 with laver attached is installed.

[Second Embodiment]
Next, the box boat B according to the second embodiment will be described. As shown in FIG. 3, this box-type ship B has the same overall configuration as the box-type ship A according to the first embodiment, but shown in FIG. 3 instead of the tubes 8A and 8B of the first embodiment. The pipes 8C and 8D are further provided with an acid stock solution pump 11A and valves 15c and 15d. Moreover, in 2nd Embodiment, the concentrate discharge part in this invention is comprised by the pipes 8C and 8D, and the unwinding rolls 14a and 14b are adjoining in the acid treatment tank 3 in parallel with the winding rolls 5a and 5b. Is provided.
Note that in the second embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different points will be described.

  The pipes 8 </ b> C and 8 </ b> D are provided along the width direction on the entry side of the laver net 4 in the acid treatment tank 3. That is, one pipe 8C is provided in the acid treatment tank 3 along the forward direction side and the width direction of the box ship B, and the other pipe 8D is disposed in the reverse direction side of the box ship B in the acid treatment tank 3. It is provided along the width direction. In such pipes 8C and 8D, a plurality of discharge holes 8c and 8d are formed at predetermined intervals in the length direction, and are made of, for example, vinyl chloride. Each discharge hole 8c, 8d is formed at an angle inclined toward the wall surface side of the acid treatment tank 3 with respect to the lower or lower side so that the acid stock solution 12 is discharged toward the wall surface of the acid treatment tank 3.

  As shown in FIG. 3, the pH sensor 9 is provided at any one of the four corners in the acid treatment tank 3 in the vicinity of the pipes 8 </ b> C and 8 </ b> D in the acid treatment tank 3. The pH sensor 9 is provided at a slight distance from the bottom surface so as not to contact the bottom surface of the acid treatment tank 3.

  The acid stock solution pump 11 </ b> A is a capacity pump that operates based on an operation signal input from the pH controller 10. That is, the acid stock solution pump 11A is connected to the acid stock solution tank 13 by a predetermined pipe, and is connected to a pair of tubes 8C and 8D via valves 15c and 15d described later, and has a flow rate corresponding to the operation signal. The acid stock solution 12 is pumped from the acid stock solution tank 13 and supplied to the pair of tubes 8C and 8D.

  As shown in FIG. 3, the valves 15 c and 15 d are provided between the acid stock solution pump 11 </ b> A and the pipes 8 </ b> C and 8 </ b> D, and are flow rate adjustment valves that adjust the flow rate of the acid stock solution 12 by manual operation. The valves 15c and 15d are manually operated so that the same amount of the acid stock solution 12 is supplied to the pair of pipes 8C and 8D.

  The pH sensor 9 detects the pH value of the acid treatment liquid 2 stored in the acid treatment tank 3, that is, the pH value in the acid treatment tank 3. The detection value detected by the pH sensor 9 is output to the pH controller 10. The pH controller 10 feedback-controls the acid stock solution pump 11 </ b> A based on the detection value input from the pH sensor 9 and the control threshold value stored in advance. That is, the pH controller 10 automatically controls the supply amount of the acid stock solution 12 to be supplied to the pipes 8C and 8D based on the pH value input from the pH sensor 9.

  In such a box-type ship B, the flow rate ratio of the acid stock solution 12 supplied to the pipes 8C and 8D is adjusted to 1: 1 by the valves 15c and 15d, and is supplied to the pipes 8C and 8D by the pH controller 10. The total flow rate of the acid stock solution 12 is adjusted so that the pH value of the acid treatment solution 2 maintains a desired value. The acid stock solution 12 is discharged toward the wall surface of the acid treatment tank 3 from the plurality of discharge holes 8c and 8d provided in the pipes 8C and 8D, flows down along the wall surface, and flows into the acid treatment solution 2. .

  The acid stock solution 12 that has flowed into the acid treatment solution 2 from the pair of pipes 8C and 8D is caused by the rotation of the winding roll 5a or the winding roll 5b when the ship body 1 is swung and the laver net 4 is wound. The acid treatment liquid 2 is agitated by the water flow generated in the treatment liquid 2 and diffused into the acid treatment liquid 2.

  Moreover, in such a box-type ship B, since the acid stock solution 12 is colored brown, on the other hand, the wall surface of the acid treatment tank 3 is, for example, pale light blue, so that the acid stock solution 12 is fed from the pair of pipes 8C and 8D. 2 (acid treatment tank 3) can be easily visually recognized by the operator. Therefore, according to the bookcase ship B, the operator can easily determine whether or not the acid stock solution 12 is normally supplied to the acid treatment solution 2 (acid treatment tank 3).

  According to such box-type ships A and B according to the first and second embodiments, the pH of the acid treatment liquid is automatically adjusted when performing the acid treatment of the laver on the laver net 4, so that the acid treatment liquid 2 Can be maintained at the desired pH value.

  Furthermore, according to such box-type ships A and B, members using electricity such as the pH controller 10, the acid concentrate pumps 11 and 11A, and a battery (not shown), and the acid concentrate in which the acid concentrate 12 is stored. The tank 13 is installed in the ship main body 1 with the acid treatment tank 3 interposed therebetween. Therefore, it becomes possible to prevent the member using electricity from coming out of contact with the acid stock solution 12.

In addition, this invention is not limited to the said embodiment, For example, the following modifications can be considered.
(1) In the first embodiment, the pair of tubes 8A and 8B are provided below the suspension rod 6, but the present invention is not limited to this. The acid stock solution 12 may be supplied from the suspension rod 6 to the acid treatment solution 2 without providing the pair of tubes 8A and 8B. That is, a plurality of a pair of discharge holes 8a and 8b may be formed in the lower part of the suspension bar 6 in a line-symmetric manner on both sides of the winding roll 5a side and the winding roll 5b side at predetermined intervals in the length direction. Also in the said structure, each discharge hole 8a, 8b is formed in the angle inclined toward the resin sheet 7 side with respect to the downward direction so that the acid treatment liquid 2 may be discharged toward the resin sheet 7. FIG. By adopting the above configuration, the pair of tubes 8A and 8B becomes unnecessary, and the number of parts can be reduced. In addition, when employ | adopting the said structure, it is desirable to employ | adopt the material resistant to an acid as a material of the hanging rod 6. FIG.

(2) Although the suspension rod 6 is provided in the first embodiment, the suspension rod 6 is positioned between the pair of winding rolls 5a and 5b and parallel to the winding rolls 5a and 5b. However, the present invention is not limited to this. The suspension bar 6 does not necessarily have to be provided between the pair of winding rolls 5a and 5b, and may be displaced toward one of the winding rolls 5a or the winding roll 5b. Further, the suspension rod 6 may not be provided in parallel with the take-up rolls 5a and 5b, and may be provided to be inclined with respect to the take-up rolls 5a and 5b.

(3) In the first embodiment, the resin sheet 7 is provided so that the lower end of the resin sheet 7 is located above the liquid surface of the acid treatment liquid 2, but the present invention is not limited to this. The lower end of the resin sheet 7 may be in contact with the liquid surface of the acid treatment liquid 2. Even in the case of the above configuration, the acid stock solution 12 that flows down the surface of the resin sheet 7 and is supplied into the acid treatment liquid 2 is obtained when the ship body 1 swings and the winding roll 5a or the winding roll 5b is laver. The acid treatment liquid 2 is agitated by the water flow generated in the acid treatment liquid 2 by rotating when the net 4 is wound, and is diffused into the acid treatment liquid 2.

(4) In the first embodiment, one pH sensor 9 is provided on one side of the hanging rod 6, but the present invention is not limited to this. The pH sensors 9 may be provided on both the left and right sides of the hanging rod 6. By having the said structure, it becomes possible to detect the pH value of the acid treatment liquid 2 more correctly.

(5) In the said 1st Embodiment, although the white sheet | seat was employ | adopted as the resin sheet 7, this invention is not limited to this. You may employ | adopt the sheet | seat of a different color from the above. As the color of the resin sheet 7 is changed, the color of the colorant of the acid stock solution 12 is changed to a color other than the color of the resin sheet 7 so that the acid stock solution 12 flowing down the surface of the resin sheet 7 is visible. May need to be changed.

(6) Although the pH sensor 9 is provided at any one of the four corners of the acid treatment tank 3 in the second embodiment, the present invention is not limited to this. The pH sensors are arranged at all four corners of the acid treatment tank 3, and the average value of the pH detection values of the four pH sensors is set as the pH value of the acid treatment liquid 2, and the pH value of the acid treatment liquid 2 and the pH controller 10 are previously set. The acid stock solution pump 11A may be feedback controlled based on the stored control threshold value.

(7) In the first and second embodiments, the acid stock solution 12 is colored brown using caramel, but the present invention is not limited to this. Any colorant that is complementary to the color of the resin sheet 7 and does not affect the environment may be used.

(8) Although the resin sheet 7 is employed in the first and second embodiments, the present invention is not limited to this. A white partition plate may be employed instead of the resin sheet 7.

(9) In the first and second embodiments, one acid stock solution tank 13 is provided, but the present invention is not limited to this. A plurality of acid stock solution tanks 13 may be provided, connected to the acid stock solution pump 11 via a manual switching valve, and the acid stock solution tank 13 for supplying the acid stock solution 12 may be manually switched.

  Further, the acid stock solution 12 stored for each acid stock solution tank 13 may be colored with a different color. By having the said structure, an operator can visually recognize which acid stock solution 12 of the acid stock solution tank 13 is supplied to the acid treatment liquid 2. FIG. Therefore, the operator can grasp the remaining amount of the acid stock solution tank 13 installed in the ship body 1.

(10) In addition to the first and second embodiments, when the laver net 4 is wound, the seawater adhering to the laver net 4 is mixed with the acid treatment tank 3 to increase the acid treatment liquid 2. You may provide the discharge pump for discharging a part out of the ship main body 1. FIG.

A, B Box-type ship 1 Ship body 2 Acid treatment liquid 3 Acid treatment tank 4 Laver net 5a, 5b Winding roll 6 Hanging rod (bar-shaped member)
7 Resin sheet (sheet member)
8A, 8B Tube (tubular member)
8C, 8D pipe 8a, 8b, 8c, 8d Discharge hole 9 pH sensor 10 pH controller (stock solution supply device)
11, 11A Acid stock solution pump (stock solution supply device)
12 Acid stock solution 13 Acid stock solution tank (stock solution feeder)
14a, 14b Unwinding roll 15c, 15d Valve

Claims (4)

An acid treatment tank for storing an acid treatment liquid, and a box-shaped ship provided in the acid treatment tank, and a pair of winding rolls for winding a laver net to which nori is attached,
A pH sensor provided in the acid treatment tank for detecting the pH of the acid treatment solution;
A stock solution discharge unit that is provided at a position that does not interfere with the laver net wound on the take-up roll, and discharges the acid stock solution;
A stock solution supply device that automatically adjusts the supply amount of the acid stock solution to be supplied to the stock solution discharge unit based on the detection value of the pH sensor,
The box-type ship, wherein the stock solution discharge part is provided between the pair of winding rolls. An acid treatment tank for storing an acid treatment liquid, and a box-shaped ship provided in the acid treatment tank, and a pair of winding rolls for winding a laver net to which nori is attached,
A pH sensor provided in the acid treatment tank for detecting the pH of the acid treatment solution;
A stock solution discharge unit that is provided at a position that does not interfere with the laver net wound on the take-up roll, and discharges the acid stock solution;
A stock solution supply device that automatically adjusts the supply amount of the acid stock solution to be supplied to the stock solution discharge unit based on the detection value of the pH sensor,
The box stock ship, wherein the stock solution discharge part is provided on the entry side of the laver net in the acid treatment tank.   The said stock solution discharge part is provided along the said pair of winding roll, and is provided with the tubular member in which the several discharge hole was formed in the predetermined space | interval, The acid stock solution is discharged from the said tubular member, It is characterized by the above-mentioned. The box-type ship according to 1 or 2. The box-shaped ship according to any one of claims 1 to 3, wherein the pH sensor is provided in the vicinity of the stock solution discharge section in the acid treatment tank.

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