TWI572248B - Fishing light control system - Google Patents

Description

Fish light control system Invention area

The present invention relates to a fishing light control system for efficiently inducing a catch by controlling a fish caught on a plurality of rods mounted on a fishing boat to induce fish such as saury or squid.

Background of the invention

Patent Document 1 discloses a fishlight control method in which a fish-carrying lamp using a metal halide lamp is turned on together, and then turned off in order, and then repeatedly turned on, and then sequentially turned off, thereby capturing Saury.

Prior technical literature Patent literature

[Patent Document 1] Japanese Patent Notice Gazette Special Fair 03-40920

Summary of invention

It is described in the control method of Patent Document 1, which is a manual operation Several relays are used to control the lighting of the fish light and the light-off control. However, when the number of lamps to be controlled is increased, it is difficult to manually control the fishlights manually. In particular, in Patent Document 1, in order to solve the problem of delay time of re-lighting of a metal halide lamp, the lamps of the lamps are divided into two groups, and after turning off one group of lamps and then turning off the lights, another group of lamps is turned on. Such complex controls may make it more difficult to control properly.

Further, since the control method of Patent Document 1 performs the time-point operation manually, it is difficult to make the light-off interval or the lighting interval constant, and the order of lighting or light-off control is controlled from which lamp, which lamp is finished, and the like. The operation is also not easy, and if the number of lights is greatly increased, the operations become very complicated and it is almost impossible to operate.

Accordingly, it is an object of the present invention to provide a fish light control system that can easily perform correct sequential lighting or light-off control when the number of lamps is greatly increased.

Another object of the present invention is to provide a fishing light control system which can also accurately control the lighting interval or the light-off interval when the number of lamps is greatly increased.

According to the present invention, there is provided a fish light control system comprising a fish light control system having a computer control unit, wherein the computer control unit controls a plurality of fish light lamps respectively mounted on a plurality of rod members protruding from the side of the ship and arranged around the ship. Light up and turn off the lights. The computer control unit includes an input unit that inputs an indicator of a fishing rod that should start a lighting operation or a light-off operation by using a lever number set in advance corresponding to a plurality of lever members. The member is input as follows: a rod member of the fish collecting lamp that uses the lever number to end the lighting operation or the light-off operation; and a lighting or light-off indicating mechanism, and when there is an operation start instruction, the following instructions are given: The fish-collecting lamp of the input starting point number is automatically turned to the ordering light of the input end number, or sequentially turned off.

Set the pole number for the lever member in advance. The input is as follows: the input of the rod member of the fishing light lamp that should start the lighting operation or the light-off operation is designated by the lever number, and further, the following input is made: by the lever number, the lighting operation or the end of the lighting operation is specified The input of the rod member of the fish light that is turned off. If there is an action start instruction, the following operation is instructed: the fish light of the input start number is automatically turned to the set fish number of the input end number, and the lights are automatically turned off sequentially or sequentially. In this way, since the automatic opening or sequentially turning off the light is performed according to the input starting point number and the ending lever number, the correct order can be easily performed when the number of lights of the fishing light is greatly increased. Turn on or off control.

The computer control unit should further include: a starting stick memory mechanism, and when the following input is made, the starting point number is memorized, and the input is to use a lever number that is set in advance corresponding to a plurality of lever members, and should start. Specifying the input of the rod member of the fishing light lamp for the lighting operation or the light-off operation; and the end of the lever number memory mechanism, the input of the rod member of the fishing light that is to be used to end the lighting operation or the light-off operation using the lever number When the end number is memorized, and the lighting or turning-off indicating mechanism is configured to: when there is an operation start instruction, the following instruction is made: the fish collecting lamp of the stored starting point number is set to the fish collecting lamp of the remembered ending number , automatically turn on the lights in sequence or turn off the lights in sequence.

According to the present invention, there is further provided a fish light control system including a computer control unit that controls a plurality of fishing lights that are respectively mounted on a plurality of rod members that protrude from the side of the ship and are disposed around the ship, and Turn off the light. The computer control unit includes a start lever number memory mechanism that memorizes a start lever number when the following input is made, and the input is a start point to which a lever number set in advance corresponding to a plurality of lever members is used. When a lamp input or a light-off operation is performed, a specified input is made to the rod member of the fish-collecting lamp; and when the lever member of the fish-carrying lamp member that uses the lever number to end the lighting operation or the light-off operation is designated, the input is performed. The memory end lever number; and the lighting or light-off indicating mechanism, when there is an action start instruction, the following instruction is made: the fish-collecting lamp of the memory of the starting pole number is automatically changed to the fish-collecting lamp of the memory ending number Light up or turn off the lights in sequence.

Set the pole number for the lever member in advance. When the input is made as follows: the input of the rod member of the fishing light that should start the lighting operation or the light-off operation is designated by the lever number, and the starting lever number is memorized. Further, when the input is made by specifying the input of the rod member of the fishing light lamp that should end the lighting operation or the light-off operation by the lever number, the end lever number is memorized. When there is an action start instruction, an instruction is made to automatically turn the fish light of the stored start number to the fish collection lamp of the stored end number, or sequentially turn off the lights sequentially. In this way, since the automatic starting or sequentially turning off the light is performed based on the stored starting point number and the ending lever number, the correct order can be easily performed when the number of lights of the fishing light is greatly increased. Turn on or off control.

The computer control department should have a time interval memory mechanism. The interval memory mechanism stores the lighting time interval or the light-off time interval when the lighting time interval or the light-off time interval of the fish light is specified, and the lighting or light-off indicating mechanism is configured to: when there is an action start instruction, The following instructions are given: the fish light of the memory of the starting point of the memory is automatically turned on or sequentially turned off according to the stored time interval of the lighting or the time interval of the light-off. In this way, since the lighting time interval or the light-off time interval is automatically read, the lights are sequentially turned on or sequentially, so that the number of lights of the fishing light can be accurately controlled and easily controlled. Lighting interval or blackout interval.

The end stick memory mechanism should have a right-end end lever number memory mechanism, and when there is a designated input for the rod member of the fish-collecting lamp that will end the right-circle lighting operation or the light-off operation using the lever number, the memory is right. When the end of the rod number; and the left-end end rod number memory mechanism, when there is a designated input of the rod member of the fish-collecting lamp that will end the left-hand lighting operation or the light-off operation using the lever number, the left-circle ending lever is memorized. No., and the lighting or turning-off indicating mechanism is provided with: a right-circle light-off or a light-off indicating mechanism, and when there is an action start instruction, the following instruction is made: the fish-carrying lamp of the memory starting number is finished to the right end of the memory The fishing light of the pole number is turned to the right and automatically lights up sequentially or sequentially; and the left or left lighting indicator mechanism, when there is an action start indication, the following indication is made: the starting point of the memory is made The fishlights are collected from the fishlights of the left-handed end of the memory, and are turned to the left to automatically turn on the lights sequentially or sequentially. In this way, since the right winding end number and the left winding end number can be individually set, the fishing light from the starting rod number to the right winding end is automatically turned to the right in the rightward winding. Sequential lighting or sequencing The lamp, while winding around to the left, similarly, the fish light from the start of the fishing rod to the left end of the fishing rod, turn left and automatically turn off the lights sequentially or sequentially, so they can be respectively wrapped around the right And the left winding controls the lighting in sequence or in sequence.

In this case, it is preferable that the computer control unit has a right-wound time interval memory mechanism, and when there is an input for specifying the lighting time interval or the light-off time interval of the fishing light in the right-circle lighting operation or the light-off operation, the memory is memorized. The right-circle lighting time interval or the light-off time interval; and the left-circle time interval memory mechanism, when there is an input for specifying the lighting time interval or the light-off time interval of the fishing light in the left-circle lighting operation or the light-off operation, The left-circle lighting time interval or the light-off time interval is stored, and the right-circle lighting or light-off indicating mechanism is configured to: when there is an action start instruction, perform the following instruction: to make the memory of the starting stick number of the memory to be memorized The fish-collecting light of the right-hand end of the rod is rotated to the right according to the right-circle interval or the time-out interval of the memory, and is automatically turned on or off in sequence, and the left-circle or light-off indicating mechanism is The instruction is as follows: when there is an operation start instruction, the following instruction is made: the fish collection lamp of the stored starting point number is turned to the left fishing point of the stored left-circle ending bar number, according to the left-handed point of the memory Lights time interval or a time interval around the left or automatically sequentially lights the lighting sequence. The lighting interval or the blackout interval can also be controlled in more detail by right and left windings, respectively.

In addition, in the present specification, the meaning of the right winding means: from the port side through the 艏 (the bow) and in the direction of the starboard side (or from the starboard side through the 艉 (stern) and toward the port side), and the meaning of the left winding It means: from the port side through the stern and in the direction of the starboard side (or from the starboard side through the stern and toward the port side).

The computer control unit should also have a side roller area (SR area) lighting direction or a light-off direction memory mechanism, and the SR area lighting direction or the light-off direction memory mechanism is a lighting operation of the fishing light in the designated SR area. Or when the direction of the light-off operation is input, the direction of the SR area lighting operation or the light-off operation is memorized, and the lighting or light-off indicating mechanism is configured to: for the fishing light in the SR area, perform the following instruction: according to the memory In the direction of the LED area lighting action or the light-off action, the lights are automatically turned on in order or sequentially. Thereby, the lighting operation direction or the light-off operation direction in the SR region where the sprinkling is performed can be controlled in more detail and most appropriately.

The computer control unit should also have an SR area time interval memory mechanism, and the SR area time interval memory mechanism memorizes the SR area point when inputting the lighting time interval or the light-off time interval of the fishing light in the designated SR area. The lamp time interval or the light-off time interval, and the lighting or light-off indicating mechanism is configured to: for the fish-collecting lamp in the SR region, perform the following instructions: automatically according to the stored SR region lamp time interval or the light-off time interval Order lights or turn off the lights in sequence. Thereby, the lighting time interval or the light-off time interval in the SR area in which the sprinkling is performed can be optimally controlled separately from the other parts.

According to the present invention, since the automatic opening or sequentially turning off the light is performed based on the stored starting point number and the ending lever number, the number of lights of the fishing light can be easily increased even when the number of lights of the fishing light is greatly increased. Correct lighting or light-off control in sequence.

Also, because it is based on the memory time interval or light-off time At intervals, the lights are automatically turned on in order or sequentially, so that even when the number of lights of the fishing light is greatly increased, the lighting interval or the light-off interval can be easily controlled with ease.

10‧‧‧ Fishing boats

11‧‧‧ rod members

11a‧‧‧Female member

12‧‧‧ Fishlights (fishing lights)

13‧‧‧ Side roller area (SR area)

14‧‧‧fishing light control device

15‧‧‧fish light control box

16‧‧‧ Point light switch

17‧‧‧Load change meter relay

18‧‧‧fish relays

19‧‧‧ centralized control panel

30‧‧‧Computer Control Department

30a‧‧ ‧ busbar

30b‧‧‧Central Control Unit (CPU)

30c‧‧‧ Random Access Memory (RAM)

30d‧‧‧flash memory

30e‧‧‧ memory card driver group

30f‧‧‧Import interface

S1~S3, S10~S29, S30~S46‧‧‧ steps

Fig. 1 is a plan view schematically showing an arrangement of a plurality of rod members and a plurality of fishing lights on a ship according to an embodiment of the fishlight control system of the present invention.

Fig. 2 is a block diagram showing an electrical configuration of a fishing light control device in the fishing light control system of the embodiment of Fig. 1.

Fig. 3 is a block diagram schematically showing an electrical configuration of a computer control unit in the fishing light control device shown in Fig. 2 .

FIG. 4 is a flow chart schematically showing an initial setting processing flow of the computer control unit shown in FIG. 3.

FIG. 5 is a view showing a screen that is initially displayed at the time of initial setting processing.

Fig. 6 is a view showing a screen displayed at the initial setting processing of the pole number.

Fig. 7 is a view showing a screen displayed at the time of initial setting processing of the target lever.

Fig. 8a is a flow chart schematically showing the flow of the automatic lighting mode processing of the computer control unit shown in Fig. 3.

Fig. 8b is a flow chart schematically showing the flow of the automatic lighting mode processing of the computer control unit shown in Fig. 3.

Fig. 9 is a view showing a screen displayed when the automatic lighting mode is processed.

10(A) and (B) are diagrams for explaining the lighting operation in the automatic lighting mode processing.

Fig. 11a is a flow chart schematically showing the flow of the automatic light-off mode processing of the computer control unit shown in Fig. 3.

Fig. 11b is a flow chart schematically showing the flow of the automatic light-off mode processing of the computer control unit shown in Fig. 3.

Fig. 12 is a view showing a screen displayed when the automatic light-off mode is processed.

13(A) and (B) are diagrams for explaining the light-off operation in the automatic light-off mode processing.

Form for implementing the invention

Fig. 1 schematically shows an arrangement of a plurality of rod members and a plurality of fishing lights on a ship as an embodiment of the fishlight control system of the present invention.

As shown in the figure, for example, a fishing boat 10 for catching saury, catching squid or catching saury and catching squid, protrudes from the side of the ship and is disposed around the ship with a plurality of rod members 11 including the female member 11a, in these plural One or more of the fishing lights (fishing lights) 12 are attached to each of the rod members 11. Further, the female member 11a is located at the center of the side roller region (SR region) 13 which is a region indicating the side roller for closing the net. However, in the present embodiment, the SR region 13 is disposed on the starboard side (Taiwan system), and the SR region 13 may be disposed on the port side (Japanese mode).

Each set of fish lights 12 should be an LED (light emitting diode) fish light, but also Some or all of them may be incandescent lamp fishing lights or metal halogen fishing lights. The fish-carrying lamp control device 14 provided with a computer control unit for controlling the lighting and turning off of the lights, and provided in the center portion of the fishing boat such as the steering room is electrically connected to the plurality of fishing lamps 12 . In addition, in FIG. 1, the illustration of the connection line is abbreviate|omitted.

Fig. 2 shows an electrical configuration of the fishing light control device 14 of the fishing light control system of the embodiment, and Fig. 3 schematically shows an electrical configuration of the computer control unit of the fishing light control device 14.

As shown in FIG. 2, the fishlight control device 14 is provided with a fishlight control box 15 including a computer control unit therein, and is provided for each of the fishlights, and is configured to manually turn on and off the respective fishlights. The light-off switch 16 and the load fluctuation meter relay 17 for monitoring the voltage fluctuation of the power source of the fishing boat 10, that is, the power supply generator, and the fishing light lamp relay 18 provided for each of the fishing lights. The fishlight control device 14 is electrically connected to a centralized control panel 19 such as a squid fishing machine provided in the steering room, and is configured to control the squid fishing machine and the fishing light by the centralized control panel 19. The control of the two parties. In the present embodiment, the control panel 19 is collectively provided with an integrated touch panel type liquid crystal display, and as described later, it is configured to display various buttons, graphics, graphics, and characters, and the operator needs to touch. Here, to enter.

In the fishlight control box 15 of the fishlight control device 14, a computer control unit 30 as shown in Fig. 3 is provided. As shown in the figure, the computer control unit 30 is provided with at least a central control unit (CPU) 30b, a random access memory (RAM) 30c, a flash memory 30d, and a memory card drive group that are connected to each other via the bus bar 30a. 30e, a computer that inputs and outputs the interface 30f, and makes the action The program is composed of.

The CPU 30b is configured to execute the processing of the present embodiment in accordance with a program stored in the flash memory 30d in accordance with a basic program such as a work system (OS) or a boot program stored in the flash memory 30d. Further, the CPU 30b is configured to control the RAM 30c, read and write the memory card drive group 30e into which the inserted memory card, and the operation of the input/output interface 30f.

The RAM 30c is used as the main memory of the computer control unit 30, and is configured to store programs or materials transferred by the flash memory 30d or the memory card drive group 30e. Further, this RAM 30c also uses a work area for temporarily storing various materials at the time of execution of the program.

The input/output interface 30f is configured to output display data from the CPU 30b or the RAM 30c to the touch panel display of the centralized control panel 19, and transfer the input data to the CPU 30b or the RAM 30c, and receive the settings from the respective fishlights. The manual control signal of the light-off switch 16 and the load change attention signal and/or the warning signal from the load change meter relay 17 are transferred to the CPU 30b or the RAM 30c, and the CPU 30b or the RAM 30c is connected to each of the fish lights. The set fishlight relay output data of the relay 18 is transmitted as a signal.

In the computer of this configuration, when the program is started, the CPU 30b first ensures the program memory area, the data memory area and the work area in the RAM 30c, and imports the program and data from the flash memory 30d, and stores it in the program memory area and the data memory. region. Then, according to the program stored in the program memory area, the processing flow of each fishing machine is executed. In addition, the CPU 30b can also directly import programs and data from the flash memory 30d, and execute the fish light according to the program. The process of control.

Fig. 4 schematically shows the initial setting processing flow of the computer control unit 30, and Fig. 5 is a screen which is initially displayed on the display of the centralized control panel 19.

When the operator touches the "rod number setting button" shown in FIG. 5 on the display, the initial setting of the lever number is performed (step S1). According to the initial setting of the lever number, the lever number can be given to the plurality of lever members 11 provided around the fishing boat 10. Fig. 6 is a screen of the display displayed on the centralized control panel 19 at that time. In the present embodiment, the bar number on the most side of the port side is set to "1", and the bar number on the far side of the starboard side is also set to "1". The operator inputs a pop-up screen for a numerical value (not shown) of the display of the centralized control panel 19, and inputs the final pole number on the side of the port side and the final pole number on the side of the starboard side, thereby setting all the port sides by the serial number. The lever number of the lever member 11 is further set to the number of all the lever members 11 on the starboard side in a continuous number, and is stored in the flash memory 30d. Next, the operator inputs the pole number on the most side of the SR region 13 and the pole number on the most side in the SR region 13, whereby the lever member 11 of the SR region 13 is set and memorized in the flash memory. Body 30d.

When the operator touches the "target lever setting button" as shown in FIG. 5 on the display, the initial setting of the control target lever is performed (step S2). According to the initial setting of the target lever, the lever member 11 to be turned on/off is controlled from the lever number. Fig. 7 is a screen of the display displayed on the centralized control panel 19 at that time. On this screen, if the operator touches the number on the display ported to the port or starboard side, the display color of the lever member 11 changes (for example, it changes from the gray state shown in Fig. 7 to blue (starboard) or red. (port side)), and become a control pair Like the pole, and remember the result in the flash memory 30d. In addition, the lever number in the gray state corresponds to the lever of the non-control object.

When the operator touches the "other setting button" as shown in FIG. 5 on the display, other initial settings are made (step S3). Other initial settings, for example, setting of the timer extension time for the lighting interval when the power source (generator) is in an overload state due to lighting, setting of the rewinding interval of the rewinding in the automatic lighting mode, and the automatic light-off mode The setting of the interval of the rewinding of the lighting, the setting of the interval of the lever counting operation of the non-control target, and the like are performed by the operator, and the input result is memorized in the flash memory 30d.

After the initial setting is completed, the automatic lighting mode processing is performed automatically or automatically by the operator. 8a and 8b schematically show the flow of the automatic lighting mode processing, and Fig. 9 shows the screen displayed on the display of the centralized control panel 19 at that time.

In this automatic lighting mode processing, the operator switches the normal lighting mode ON/OFF every time the operator normally touches the "normal lighting button" on the display. It is assumed that the operator turns "normal lighting button" ON, and inputs the value of the right-circle lighting interval and the left-circle lighting interval. At this time, the computer control unit 30 determines whether or not it is the normal lighting mode (step S10 of FIG. 8a), and when it is determined that it is the normal lighting mode (in the case of "YES"), the input right is wound. The lighting interval and the left-circle lighting interval are stored in the data memory area of the RAM 30c or the flash memory 30d (step S11 of Fig. 8a). However, when it is determined that the normal lighting mode is not normal (in the case of NO), the processing of step S11 is not performed, and the processing proceeds to step S12 of Fig. 8a.

Every time the operator touches the "SR light-off button" on the display, it will cut Change the ON/OFF of the SR area off mode. It is assumed that the operator turns "SR OFF" to ON, selects the direction in which the SR area is turned off, and enters the value of the blackout interval. In the present embodiment, the selection of the direction of the light-off operation is performed by the "light-off operation direction button" indicated by the arrow every time, and the direction of the light-off operation of the SR region changes as follows: (A) Turn off the lights from the 艏 and 艉 at the same time toward the center, and (B) turn off the lights from the center of the 艉 to the center, and then turn off the lights from the center of the 艉 to the center. The central part of the Sui Dynasty is turned off in order, (D) the lights are turned off from the central part at the same time, and (E) after the lights are turned off from the central part, the lights are turned off from the central part, (F) After the lights are turned off from the center, the lights are turned off from the center, and (G) is turned off from the 艏 艉, (H), the lights are turned off from the 艉 艏, and then the first (A) From the 艏 and 艉 at the same time to the central part of the direction of the lights. At this time, the computer control unit 30 determines whether or not the SR area is turned off (step S12 in FIG. 8a), and when it is determined that the SR area is off ("YES"), the input SR area is turned off. The operation direction and the blackout interval are stored in the data memory area of the RAM 30c or the flash memory 30d (step S13 of Fig. 8a). However, when it is determined that the non-SR area is turned off (NO), the process of step S13 is not performed, and the process proceeds to step S14 of FIG. 8a.

The operator switches the ON/OFF of the SR area lighting mode every time the operator touches the "SR lighting button" on the display. However, both the "SR light-off button" and the "SR light button" will not be ON at the same time. It is assumed that the operator turns "SR lighting button" ON, selects the lighting direction of the SR area, and inputs the value of the lighting interval. The selection of the direction of the lighting operation is in the present embodiment It is carried out as follows: Each touch of the "lighting action direction button" indicated by the arrow causes the direction of the lighting of the SR area to change as follows: (a) lighting from the 艏 and 艉 simultaneously toward the center (b) After lighting from the central part of the Sui Dynasty, the lights are sequentially turned from the central part of the Sui Dynasty, and (c) after the lights are sequentially turned from the central part of the Sui Dynasty, the lights are sequentially illuminated from the central part of the Sui Dynasty. (d) Lighting the lights from the central part at the same time, and (e) lighting the lights from the central part of the dynasty, and then lighting the lights from the central part, (f) from the central part After the lights are turned on, the lights are turned from the central part to the cymbals, (g) the lights are turned on from the 艏 艉, (h) the lights are turned from the 艉 艏, and then the original (a) From the 艏 and 艉 at the same time to the central part of the direction of lighting. At this time, the computer control unit 30 determines whether or not it is the SR area lighting mode (step S14 in Fig. 8a), and when it is determined that it is the SR area lighting mode (in the case of "YES"), the input SR area is set. The lighting direction and the lighting interval are stored in the data memory area of the RAM 30c or the flash memory 30d (step S15 of Fig. 8a). However, when it is determined as the non-SR area lighting mode (in the case of NO), the processing of step S15 is not performed, and the processing proceeds to step S16 of Fig. 8a.

Next, assume that the operator inputs the lighting start lever number, the right winding end lever number, and the left winding end lever number in the automatic lighting mode. At this time, the computer control unit 30 stores the input lighting start lever number, right winding, and left winding end lever number in the data storage area of the RAM 30c or the flash memory 30d (step S16 of FIG. 8a).

Then, assume that the operator turns "Run Button", "Stop Button" or "Reverse Run Button" ON. At this time, the computer control unit 30 first determines whether or not the "operation button" is ON (step S17 of FIG. 8a), and determines that the "operation button" is When ON (in the case of "Yes"), it is determined whether or not the "stop button" is ON (step S18 of Fig. 8a). When it is determined that the "stop button" is OFF (in the case of "NO"), it is determined whether or not the "reverse operation button" is ON (step S19 in Fig. 8a), and when it is determined that the "reverse operation button" is ON ("Yes" In the case of the reverse operation (step S20 of Fig. 8a). The reverse operation of this step S20 will be described later. In addition, when it is determined that the "operation button" is OFF (in the case of "NO") and the "stop button" is determined to be ON (in the case of "YES"), as will be described later, step S24 of FIG. 8b is performed. deal with.

When the computer control unit 30 determines in step S19 that the "reverse operation button" is OFF (in the case of NO), it is determined whether or not the current operation mode is the normal lighting mode (step S21 of FIG. 8b).

When it is determined that it is the normal lighting mode (in the case of YES), starting from the data memory area of the RAM 30c or the starting lever number of the flash memory 30d, the right and leftward windings are performed for each of the lever members 11 The fish lamp 12 is subjected to a process of sequentially lighting (step S22 of Fig. 8b). At this time, the right-circle and left-circle lighting intervals are the right-circle lighting interval and the left-circle lighting interval stored in the data memory area of the RAM 30c or the flash memory 30d.

Next, the computer control unit 30 determines whether or not the lever number that is currently performing the lighting process is the lever number in the SR area 13 (step S23 in Fig. 8b). This determination is made using the lever number which is the rod number which is stored on the most side of the SR region 13 of the flash memory 30d and which is stored on the most squat side. When it is determined that the number is not in the SR area 13 (in the case of NO), the processing of step S22 is repeated to continue the lighting in sequence.

When the computer control unit 30 determines that it is the lever number of the SR area 13 in the step S23 (in the case of YES) and the non-normal lighting mode in the step S21 (NO) It is determined whether or not it is the SR area lighting mode (step S24 of Fig. 8b).

When the computer control unit 30 determines that it is the SR area lighting mode in this step S24 (in the case of YES), the fish collecting lamp 12 of each of the lever members 11 in the SR area 13 is wound rightward. And the processing of sequentially lighting to the left (step S25 of Fig. 8b). The lighting operation direction at this time is selected to be stored in the data memory area of the RAM 30c or the lighting operation direction of the flash memory 30d, and the lighting interval is the data memory area or the flash memory stored in the RAM 30c. 30d right-circle SR area lighting interval and left-around SR area lighting interval.

When the computer control unit 30 determines that the non-SR area lighting mode is determined in step S24 (NO), it is determined whether or not the SR area is turned off (step S26 of FIG. 8b).

When the computer control unit 30 determines in the step S26 that the SR area is turned off (in the case of YES), the fish collecting lamp 12 of each of the lever members 11 in the SR area 13 is wound rightward. The process of turning off the lights in order to the left is sequentially performed (step S27 of Fig. 8b). The direction of the light-off operation at this time is selected to be stored in the data memory area of the RAM 30c or the light-off operation direction of the flash memory 30d, and the light-off interval is stored in the data memory area of the RAM 30c or the right of the flash memory 30d. The arcing interval of the SR area around and the arcing interval of the SR area of the left winding.

By the computer control unit 30, when it is determined to be non-SR in step S26 In the case of the area light-off mode (in the case of NO), when the processing of steps S25 and S27 has ended, and further, when the reverse operation processing of step S20 of FIG. 8a has ended, the lever number currently being processed is The right and left windings are respectively displayed on the display (step S28 of Fig. 8b).

Then, the computer control unit 30 determines whether the lever number currently being processed is a stick number stored in the data memory area of the RAM 30c or the flash memory 30d to end the right and left turn lights (Fig. 8b). Step S29). When it is determined that the lever number is not the end (in the case of NO), the processing from step S17 of Fig. 8a is repeatedly executed. In step S29, when both the right winding and the left winding are determined to be the ending lever number (in the case of YES), the automatic lighting mode processing is ended.

Further, in the reverse operation processing of step S20 of FIG. 8a, in the normal lighting mode and the SR area lighting mode, when there is a reverse operation instruction, the lights are sequentially turned off in the reverse direction, and in the SR area light-off mode. When there is an indication of reverse operation, the lighting is performed in reverse.

Fig. 10 illustrates the lighting operation in the automatic lighting mode processing described above. As shown in Fig. 10(A), according to the automatic lighting mode processing, the lighting can be automatically performed in order from the rod member which is not limited to the center of the ship and can be set at an arbitrary position. At this time, since the lighting is not performed at the same time, but the lighting is sequentially performed, the burden on the generator can be reduced, and stalling can be prevented. When the generator has a margin, the lighting interval can be made shorter, and when there is no margin, the lighting interval can be set longer.

Further, when the computer control unit 30 receives the load change notice signal from the load change meter relay 17, an alarm can be issued to thereby Manual or automatic to make the sequential lighting interval longer, and thus to reduce the overload of the generator. Further, when the computer control unit 30 receives the load change warning signal from the load change meter relay 17, it is also possible to issue an alarm, thereby manually or automatically stopping the sequential lighting operation, thereby further reducing the generator. Overload. After the lighting operation is stopped, it is confirmed that the burden is reduced and the sequential lighting operation is resumed. That is, when the generator has a load and the voltage and frequency characteristics are out of the steady state, a part of the interrupts are sequentially activated. However, the fish light that has been turned on is not turned off. When the voltage ‧ frequency characteristic returns to the steady state, the restart button (not shown) is actuated to restart the sequential lighting operation. Further, the threshold value generated by the load change attention signal and the load change warning signal of the load change meter relay 17 can be set in advance.

In the automatic lighting mode processing, the right and left winding lighting processing end lever numbers can be set arbitrarily and individually, and the intervals of the right and left windings can be arbitrarily set individually. Further, in the initial setting, the rod member 11 that is not lit can be set, and the fishing light that is not lit can be skipped and sequentially turned on.

As shown in Fig. 10(A), after all the fishing lights are turned on except for the rod member which is not lit, as shown in Fig. 10(B), the rod member 11 of the side roller (SR area 13) is collected. The lamp 12 will turn off the lights in sequence and cast a net in this part. After the net is sprinkled, the fishlights 12 of the lever member 11 in the SR region 13 are sequentially lit again. In the SR region 13, the lighting operation direction and the right-circle (around the bow) and the left-wrap (around the stern) lighting interval can be controlled in detail, and the lighting control different from the fishing light at the other position can be performed.

After the end of the automatic lighting mode processing, the operator or the operator manually selects, thereby performing the automatic light-off mode processing. 11a and 11b schematically show the flow of the automatic light-off mode processing, and Fig. 12 shows the screen of the display which is displayed on the centralized control panel 19 at that time.

In this automatic light-off mode processing, the operator switches the normal light-off mode ON/OFF every time the operator normally touches the "normal light-off button" on the display. It is assumed that the operator turns "normally light-off button" ON, and inputs the value of the right-turning light-off interval and the left-turning light-off interval. At this time, the computer control unit 30 determines whether or not the normal light-off mode is present (step S30 in FIG. 11a), and when it is determined that the light-off mode is normal (in the case of "YES"), the input right turn-off interval and The left turn-off interval is stored in the data memory area of the RAM 30c or the flash memory 30d (step S31 of Fig. 11a). However, when it is determined that the abnormal lighting mode is not normal (in the case of NO), the processing of step S31 is not performed, and the processing proceeds to step S32 of Fig. 11a.

The operator switches the ON/OFF of the SR area off mode every time the operator touches the "SR light-off button" on the display. It is assumed that the operator turns "SR area light-off button" ON, selects the direction in which the SR area is turned off, and inputs the value of the light-off interval between the side and the side. In the present embodiment, the selection of the direction in which the light-off operation is performed is as follows: the "light-off operation direction button" indicated by the arrow is touched every time, and the light-off operation direction of the SR region is in the present embodiment. The changes are as follows: (A) from the 艏 and 艉 at the same time to the central part, the lights are turned off in order, (B) after the lights are turned off in the center from the 艏 to the center, the lights are turned off in the center from the 艉 to the center, (C) in the central part from the 艉After the lights are turned off in order, the lights are turned off in order from the center of the 艏, (D) the lights are turned off from the center at the same time, and (E) is in the center. After the lights are turned off in order, the lights are turned off in order from the center, and (F) after the lights are turned off from the center, the lights are turned off from the center, and (G) is turned off from the 艏(H) The lights are turned off in order from the 艉 艏 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , At this time, the computer control unit 30 determines whether or not the SR area is turned off (step S32 in Fig. 11a), and when it is determined that the SR area is off ("YES"), the input SR area is turned off. The direction of motion is stored in the data memory area of the RAM 30c or the flash memory 30d (step S33 of Fig. 11a). Further, the light-off interval on the side of the input SR region and the light-off interval on the side of the SR are stored in the data memory area of the RAM 30c or the flash memory 30d (step S34 in Fig. 11a). However, when it is determined that the non-SR area is turned off (NO), the processes of steps S33 and S34 are not performed, and the process proceeds to step S35 of FIG. 11a.

Next, assume that the operator inputs the light-off start lever number, the right-winding end lever number, and the left-winding end lever number in the automatic light-off mode. At this time, the computer control unit 30 stores the input light-off start lever number, right-hand winding and left-winding end lever number in the data storage area of the RAM 30c or the flash memory 30d (step S35 of Fig. 11a).

Then, assume that the operator turns "Run Button", "Stop Button" or "Reverse Run Button" ON. At this time, the computer control unit 30 first determines whether or not the "operation button" is ON (step S36 in Fig. 11a), and when it is determined that the "operation button" is ON (in the case of "YES"), the "stop button" is determined. Is it ON (step S37 of Fig. 11a). When it is determined that the "stop button" is OFF (in the case of "NO"), it is determined whether or not the "reverse operation button" is ON (step S38 in Fig. 11a), and it is determined as When the "reverse operation button" is ON (in the case of "YES"), the reverse operation processing is performed (step S39 in Fig. 11a). The reverse operation of this step S39 will be described later. In addition, when it is determined that the "operation button" is OFF (in the case of "NO") and the "stop button" is determined to be ON (in the case of "YES"), as will be described later, step S43 of FIG. 11b is performed. deal with.

When the computer control unit 30 determines that the "reverse operation button" is OFF (in the case of NO), it is determined whether or not the current operation mode is the normal light-off mode (step S40 of FIG. 11b).

When it is judged that it is the normal light-off mode (in the case of YES), it starts from the data memory area of the RAM 30c or the start lever number of the flash memory 30d, and wraps rightward and leftward for each of the lever members 11 The fish-carrying lamp 12 performs a process of sequentially turning off the lights (step S41 of Fig. 11b). At this time, the right-circle and left-turned light-off intervals are respectively the data-storing area of the RAM 30c or the right-circle-off interval of the flash memory 30d and the left-turned light-off interval.

Next, the computer control unit 30 determines whether or not the lever number that is currently being turned off is the lever number in the SR area 13 (step S42 in Fig. 11b). This determination is made by using the lever number which is the rod number which is stored on the most side of the SR region 13 of the flash memory 30d and which is stored on the most squat side. When it is determined that the number is not in the SR area 13 (in the case of NO), the processing of step S41 is repeated to continue the lighting in sequence.

When the computer control unit 30 determines that it is the lever number of the SR area 13 in the step S42 (in the case of YES) and the non-normal lighting mode in the step S21 (NO) ), determine whether it is an SR area The light-off mode (step S43 of Fig. 11b).

When the computer control unit 30 determines that the SR area is turned off in the step S43 (YES), the fish collecting lamp 12 of each of the lever members 11 in the SR area 13 is wound rightward. The process of turning off the lights in order to the left is sequentially rotated (step S44 of Fig. 11b). The direction of the light-off operation at this time is selected to be stored in the data memory area of the RAM 30c or the light-off operation direction of the flash memory 30d, and the light-off interval of the side of the flash and the light-off interval of the side of the flash are respectively stored in the RAM 30c. The SR area of the data memory area or the flash side of the flash memory 30d is turned off and the left side of the SR area is turned off.

When the computer control unit 30 determines that the non-SR area is turned off in step S43 (NO), the processing in step S44 is completed, and further, the reverse operation in step S39 of Fig. 11a is performed. When the processing has ended, the lever numbers currently being processed are displayed on the display according to the right and left windings (step S45 of Fig. 11b).

Then, the computer control unit 30 determines whether the lever number currently being processed is a lever number stored in the data memory area of the RAM 30c or the flash memory 30d to end the right and left winding lights (Fig. 11b). Step S46). When it is determined that it is a non-end lever number (in the case of NO), the processing from step S36 of Fig. 11a is repeatedly executed. In step S46, when both the right winding and the left winding are determined to be the ending lever number (in the case of YES), the automatic light-off mode processing is ended.

Further, in the reverse operation processing of step S39 of Fig. 11a, when there is a reverse operation instruction in the normal light-off mode and the SR-area light-off mode, the lighting is sequentially performed in a reverse manner.

Fig. 13 illustrates the light-off action in the automatic light-off mode processing described above. As shown in Fig. 13(A), according to the automatic light-off mode processing, it is possible to start to the right (around the bow) and to the left from the rod member which is not limited to the center of the ship and can be set at an arbitrary position. The lights are turned off automatically in sequence around the stern. At this time, instead of turning off the lights at the same time, the lights are turned off in sequence, and the fish on the port side are swung from the shackles and the shackles to the starboard side. At this time, since the interval of turning off the lights in order is too short or too fast, the fish will not keep up, so be careful to set them beforehand. In an emergency, the light-off switch 16 can be manually operated to stop the sequential light-off operation and the timing is slow, thereby performing the light-off adjustment in accordance with the movement of the fish. Further, since the position of the light-off start lever member is arbitrary, the light can be turned off from the position where the fish is moved.

If the light-off interval is significantly shorter, the load of the generator is drastically reduced. Therefore, it is preferable to perform the sequential light-off operation without adjusting the time (interval) at a sudden change in load.

Further, when the computer control unit 30 receives the load change notice signal from the load change meter relay 17, it is also possible to issue an alarm, thereby manually or automatically causing the sequence of the light-off interval to be long, thereby reducing the generator. burden. Further, when the computer control unit 30 receives the load change warning signal from the load change meter relay 17, it is also possible to issue an alarm, thereby manually or automatically stopping the sequentially extinguishing operation, thereby further reducing the generator. burden. After the light-off operation is stopped, it is confirmed that the load is reduced and the sequential light-off operation is resumed. That is, when the generator has a load and the voltage and frequency characteristics are out of the steady state, a part of the interruption is sequentially turned off. However, the fish light that has been turned off is not lit again. When voltage ‧ frequency characteristics When returning to the steady state, the restart button (not shown) is actuated to restart the sequential light-off operation. Further, the threshold value generated by the load change attention signal and the load change warning signal of the load change meter relay 17 can be set in advance.

In the automatic light-off mode processing, the right-winding and left-turning light-off processing end lever numbers can be set arbitrarily and individually, and the interval between the right-winding and the left-winding light-off lighting can be set arbitrarily and individually. Further, in the initial setting, the lever member 11 that does not turn off the light can be set, and the fishing light that does not turn off the light is skipped and the lights are sequentially turned off.

As shown in Fig. 13(A), in addition to the lever member that is not turned off, the lamp is sequentially turned off, and after the position of the side roller is turned off, as shown in Fig. 13(B), the lever on the side roller (SR region 13) The fish-carrying lamp 12 of the member 11 is sequentially turned off by manual or automatic, and the fish is induced to the direction of the female member 11a. After the position of the two rod members 11 on both sides of the mother bar member 11a is turned off, the net members 11a and the two bar members 11 on both sides are turned on, and the net is pulled up. In this manner, in the SR region 13, the light-off operation direction and the right-around (around the bow) and the left-wound (around the stern) light-off interval can be controlled in detail, and the light-off control different from the fish-carrying lamp at the other position can be performed.

As described in detail above, according to the present embodiment, the lever member 11 disposed around the ship is set with the lever number in advance, and the following input is made: the fishing light 12 that should start the lighting operation or the light-off operation is designated by the lever number. When the input of the lever member 11 is started, the lever number memory will be started, and when the following input is made: the lever member 11 of the fishing rod lamp 12 that should end the right or left winding operation or the light-off action is designated by the lever number. Input, then the right and left winding ends The bar number memory, when there is an action start instruction, the fish light 12 of the memory of the starting point is collected to the fish head lamp 12 of the stored end bar number, and the right and left turns are automatically turned on sequentially or The action of turning off the lights in sequence. In this way, since the automatic starting or sequentially turning off the light is performed based on the stored starting lever number and the right and left winding end lever numbers, even when the number of lights of the fishing light 12 is greatly increased, The correct sequential or light-off control can be easily performed. Moreover, since the lighting is sequentially or sequentially turned off according to the stored lighting time interval or the blackout time interval, even when the number of lamps of the fishing light 12 is greatly increased, the accuracy and the accuracy can be easily and easily Control the lighting interval or the blackout interval.

Further, according to the present embodiment, the lighting operation direction and the light-off operation direction of the fish-carrying lamp 12 in the SR region 13 to be sprinkled can be controlled in detail according to various types. Further, the lighting time interval and the light-off time interval between the bow and the stern of the fishing light 12 in the SR region 13 can be optimally controlled differently from the other portions.

Further, in the present embodiment, since the screen of the centralized control panel 19 such as the squid fishing machine installed in the steering room can be viewed, the setting and control of the automatic lighting and the automatic light-off of the fishing light can be performed. easily. Moreover, since the centralized control panel 19 such as a squid fishing machine can be shared, it is helpful for saving space.

Further, in the present embodiment, the sequential lighting interval and the sequence are adjusted in response to the load fluctuation notice signal and/or the load change warning signal from the load fluctuation meter relay 17 that monitors the fluctuation of the generator voltage. Turn off the light interval, or stop the lights in sequence and stop the lights in sequence. Stop, so there will be no overload of the generator.

Moreover, since the light-return switch 16 can be used, the manual operation of the lighting and the light-off of each of the fishing lights or the specific fishing light, and the automatic/manual switching operation can be performed, so that the same can be performed as in the conventional fishing light control. control.

Further, when the LED fish collecting lamp is used, the dimming of each of the fishing lights can be controlled from the centralized control panel 19 provided in the steering room.

The present invention has been described by way of example only, and the present invention is not limited thereto, and the invention may be embodied in various other modifications and aspects. Therefore, the scope of the invention is intended to be limited only by the scope of the claims and their equivalents.

S21~S29‧‧‧Steps

Claims (8)

A fish light control system is a fish light control system having a computer control unit, and the computer control unit can control a plurality of fishing lights and light-off lights respectively installed on a plurality of rod members protruding from the side of the ship and arranged around the ship. In the above-described fishlight control system, the computer control unit is provided with an input means for inputting a predetermined number of levers corresponding to the plurality of lever members to specify whether to start lighting or to turn off the lights. In the action of the rod member of the fishlight, the following input is made: the rod member of the fish-collecting lamp that uses the above-mentioned rod number to end the lighting operation or the light-off operation; and the lighting or turning-out indicating mechanism, and the operation start instruction At the same time, an instruction is made to automatically turn the light collecting lamp of the input starting point number to the fish collecting lamp of the input end number, and sequentially turn off the lights sequentially or sequentially. The fishlight control system of claim 1, wherein the computer control unit further includes: a start number memory mechanism that memorizes the start lever number when the input is as follows, and the input is to use the plurality of lever members Correspondingly, the rod number of the fishlight lamp that starts the lighting operation or the light-off operation of the lever number that is set in advance is designated input; and the end lever number memory mechanism is used to end the lighting operation when the lever number is used Or the light-off action of the fish light rod member to specify When inputting, the end lever number is memorized, and the lighting or turning-off indicating mechanism is configured to: when there is an operation start instruction, perform an instruction to cause the collected fishing rod of the start lever number to end the aforementioned memory The fish light of the pole number is automatically turned on or off in sequence. A fish light control system is a fish light control system having a computer control unit, and the computer control unit can control a plurality of fishing lights and light-off lights respectively installed on a plurality of rod members protruding from the side of the ship and arranged around the ship. The fish light control system according to the present invention is characterized in that the computer control unit is provided with a start lever number memory mechanism that stores the start lever number when the following input is made, and the input is to use the plurality of lever members And the rod member of the fishlight lamp that should start the lighting operation or the light-off operation in advance is designated input, and the lever number memory mechanism ends, and the lighting operation or the light-off operation should be ended when the lever number is to be used. When the fishlight lever member performs the designated input, the end bar number is memorized; and the lighting or light-off indicating mechanism, when there is an operation start instruction, performs the following instruction: the fish light of the start number of the memory is read to The fish collection lamp of the above-mentioned memorized end number is automatically turned on or off in sequence. The fishlight control system of claim 2 or 3, wherein the computer control unit further comprises a time interval memory mechanism, wherein the time interval memory mechanism has a light interval or a light-off time interval for specifying the fish light. When the time is entered, the lighting time interval or the light-off time interval is memorized, and the lighting or light-off indicating mechanism is configured to: when there is an operation start instruction, perform an instruction to: make the aforementioned fishing rod of the starting point number to The fish collection lamp of the above-mentioned remembered end number is automatically turned on or off in sequence according to the above-mentioned stored lighting time interval or the light-off time interval. The fishlight control system according to claim 2 or 3, wherein the ending lever number memory mechanism is provided with a right-circle ending lever number memory mechanism, and the right-circle lighting operation or the light-off operation is ended when the lever number is to be used. When the fishlight lever member performs the specified input, the right winding end number is memorized; and the left winding end number memory mechanism is used to end the left winding operation or the light-off operation when the lever number is to be used. When the fishlight lever member performs a designated input, the left winding end lever number is memorized, and the lighting or light-off indicating mechanism includes a right-circle lighting or a light-off indicating mechanism, and when there is an operation start instruction, the following instruction is performed. : the fishing light of the start number of the memory of the above-mentioned memory is turned to the right, and the fishing light of the right-handed end number is automatically turned to turn on the light sequentially or sequentially; and the left-circle or light-off indicating mechanism When there is an instruction to start the action, the following instructions are given: the fish light of the start number of the memory of the above-mentioned memory is swept to the left, and the fishing light of the left-handed end number is automatically turned to the left or automatically. Lights out. The fish lamp control system of claim 5, wherein the computer control unit is further The right-wound time interval memory mechanism is provided to store the right-circle lighting time when the input of the lighting time interval or the light-off time interval of the fishing light in the right-hand lighting operation or the light-off operation is specified. The interval of the interval or the light-off interval; and the left-wrap time interval memory mechanism, when the input of the lighting time interval or the light-off time interval of the fishing light in the left-hand lighting operation or the light-off operation is specified, the left memory is memorized. The light-receiving time interval or the light-off time interval is configured, and the right-circle lighting or light-off indicating mechanism is configured to: when there is an operation start instruction, perform an instruction to: make the collected fishing rod of the starting point number to the foregoing The fish-collecting light of the right-hand end of the memory is rotated to the right according to the right-circle lighting interval or the light-off time interval as described above, and is automatically turned on or off in sequence, and the left-around light is turned off or turned off. The pointing mechanism is configured to: when there is an operation start instruction, perform an instruction to: cause the collected fishing rod of the start number to the left end of the memory The fish lamp, lights around the lighting time interval or time intervals in accordance with the memorized Zhizuo, left around automatically sequentially lights the lighting or sequentially. The fishlight control system of claim 2 or 3, wherein the computer control unit further comprises a side roller area lighting direction or a light-off direction memory mechanism, and the side roller area lighting direction or the light-off direction memory mechanism is on a designated side. When the direction of the lighting operation or the light-off operation of the above-mentioned fishing light in the roller region is input, the direction of the lighting operation or the light-off operation of the side roller region is memorized. And the lighting or light-off indicating mechanism is configured to: instruct the fishing light in the side roller region to automatically follow the direction of the lighting operation or the light-off action of the side roller region in the memory Light up or turn off the lights in sequence. The fishlight control system of claim 2 or 3, wherein the computer control unit further comprises a side roller area time interval memory mechanism, wherein the side roller area time interval memory mechanism is the aforementioned fish light in the designated side roller area. When the lighting time interval or the light-off time interval is input, the side roller area lighting time interval or the light-off time interval is memorized, and the foregoing lighting or light-off indicating mechanism is configured to: for the aforementioned fishing light in the side roller area, Perform the following instructions: automatically turn on or turn off the lights sequentially according to the above-mentioned side roller area lighting time interval or light-off time interval.