CN105101522A - Fishing light control system - Google Patents

Abstract

The invention provides a fishing light control system which can easily and correctly perform successive control of lighting up and putting out in case the number of lights is substantially increased, and can precisely and easily control light up intervals or put out intervals. The fishing light control system is provided with a computer control part which is used for controlling the light ups and put outs of a plurality of fishing lights. The plurality of fishing lights are separately installed at a plurality of fishing rod members which protrude from a ship's rail and are arranged surrounding the ship. The computer control part includes an input unit and a light up or put out indicating unit. The input unit is used for inputting fishing rod serial numbers which are preset according to the plurality of fishing rod members and assigning the fishing rod members of the fishing lights which should start the light ups and put outs. The light up or put out indicating unit, when an operation start is indicated, from the fishing light which is input with a starting fishing rod serial number to the fishing light which is put with a finishing fishing rod serial number, automatically implements successive lights ups or successive put outs.

Description

Fishing lamp control system

Technical field

The present invention relates to a kind of for effectively carrying out the fishing lamp control system fished, it, by controlling the fishing lamp being arranged on the multiple poles being arranged at fishing boat, lures the fish such as saury or squid.

Background technology

Patent Document 1 discloses the fishing lamp control method of catching saury by repeating following operation: after lighting the fishing lamp that have employed metal halide lamp, extinguish successively simultaneously, after then lighting again, extinguish successively simultaneously.

Prior art document:

Patent documentation

Patent documentation 1: Japan JP 03-40920 publication

Summary of the invention

The problem that invention will solve

In control method described in patent documentation 1, the multiple relay of manual operation and carry out lighting and extinguishing control of fishing lamp, but the increasing number of the lamp if desired controlled, be then difficult to control these fishing lamps exactly by manual mode.Particularly in patent documentation 1, in order to eliminate the problem of time of delay when again lighting metal halide lamp, carry out the control of complexity as described below: the lamp (lamp) of each light fixture is divided into two groups, and after lighting and extinguish the lamp of a group, light the lamp of another group, the tendency being therefore difficult to control exactly by manual mode these fishing lamps is very large.

Further, control method described in patent documentation 1 carries out timing (timing) operation in a manual manner, therefore be difficult to make extinguishing interval or light alternate constant, in addition, from which light fixture is initial and which light fixture to terminate the operation such as the control successively of lighting or extinguishing at be also very difficult, if the quantity of lamp increases significantly, these operations will become very complicated, and be almost can not be operable.

Therefore, the object of the present invention is to provide one, even if when the quantity of lamp increases significantly, also easily and exactly can carry out the fishing lamp control system lighting or extinguish control successively.

Another object of the present invention is to provide a kind of, even if when the quantity of lamp increases significantly, also precisely and easily can control the fishing lamp control system lighted interval or extinguish interval.

Solve the unit of problem

The invention provides a kind of fishing lamp control system possessing computer control portion, wherein, described computer control portion is for controlling lighting and extinguishing of multiple fishing lamp, and described multiple fishing lamp is arranged on respectively to be given prominence to from ship side and to be configured at the multiple pole components around ship.This computer control portion possesses: input unit, it have input the pole sequence number presetting, be used to specify the pole component of the fishing lamp that should start lighting operation or extinguish operation corresponding to multiple pole component, and have input the described pole sequence number of the pole component being used to specify the fishing lamp that should terminate lighting operation or extinguish operation; And light or extinguish indicating member, it is when the initial instruction of existence operation, from the fishing lamp of the initial pole sequence number of input to the fishing lamp of end pole sequence number of input, and the instruction that enforcement is automatically lighted successively or extinguished successively.

Pole sequence number is preset with at pole component.Input is used to specify this pole sequence number of the pole component of the fishing lamp that should start lighting operation or extinguish operation, and further, input is used to specify this pole sequence number of the pole component of the fishing lamp that should terminate lighting operation or extinguish operation.If there is the initial instruction of operation, then from the fishing lamp of the initial pole sequence number of input to the fishing lamp of end pole sequence number of input, implement the instruction of automatically lighting successively or extinguishing successively.So, the operation of automatically lighting successively or extinguishing successively is implemented based on the initial pole sequence number inputted and end pole sequence number, therefore, even if when the quantity of lamp increases significantly, also can easily and light successively exactly or extinguish control successively.

Preferably, computer control portion possesses further: initial pole sequence number memory cell, it, when have input the pole sequence number presetting, be used to specify the pole component that should start the fishing lamp carrying out lighting operation or extinguish operation corresponding to multiple pole component, stores this initial pole sequence number; And terminate pole sequence number memory cell, when it have input the described pole sequence number of the pole component being used to specify the fishing lamp that should terminate lighting operation or extinguish operation, store this and terminate pole sequence number, wherein, light or extinguish indicating member and preferably form as follows: when the initial instruction of existence operation, from storing the fishing lamp of initial pole sequence number to storing the fishing lamp terminating pole sequence number, implement the instruction of automatically lighting successively or extinguishing successively.

According to the present invention, a kind of fishing lamp control system possessing computer control portion is provided further, wherein, described computer control portion is for controlling lighting and extinguishing of multiple fishing lamp, described multiple fishing lamp is arranged on respectively to be given prominence to from ship side and to be configured at the multiple pole components around ship, this computer control portion possesses: initial pole sequence number memory cell, it, when have input the pole sequence number of pole component that preset corresponding to multiple pole component, that be used to specify the fishing lamp that should start lighting operation or extinguish operation, stores this initial pole sequence number; Terminate pole sequence number memory cell, it, when have input the described pole sequence number of the pole component being used to specify the fishing lamp that should terminate lighting operation or extinguish operation, stores this and terminates pole sequence number; Light or extinguish indicating member, it from storing the fishing lamp of initial pole sequence number to storing the fishing lamp terminating pole sequence number, implements the instruction of automatically lighting successively or extinguishing successively when the initial instruction of existence operation.

Pole sequence number is preset with at pole component.If input is used to specify this pole sequence number of the pole component of the fishing lamp that should start lighting operation or extinguish operation, then initial pole sequence number is stored.Further, if input is used to specify this pole sequence number of the pole component of the fishing lamp that should terminate lighting operation or extinguish operation, then terminates pole sequence number and be stored.If there is the initial instruction of operation, then from storing the fishing lamp of initial pole sequence number to storing the fishing lamp terminating pole sequence number, implement the instruction of automatically lighting successively or extinguishing successively.So, the operation of automatically lighting successively or extinguishing successively is implemented based on stored initial pole sequence number and end pole sequence number, therefore, even if when the quantity of lamp increases significantly, also can easily and light successively exactly or extinguish control successively.

Preferably, computer control portion possesses time interval memory cell further, described time interval memory cell, have input be used to specify fishing lamp lighting time interval or fall time interval time, store this interval or fall time interval lighting time, light or extinguish indicating member and preferably form as follows: when the initial instruction of existence operation, from storing the fishing lamp of initial pole sequence number to storing the fishing lamp terminating pole sequence number, with stored lighting time interval or fall time interval and implement the instruction of automatically lighting successively or extinguishing successively.Thus, with stored lighting time interval or fall time interval, automatically light successively or extinguish successively, therefore, it is possible to precisely and easily control light interval or extinguish interval.

Preferably, terminate pole sequence number memory cell and possess: terminate pole sequence number memory cell clockwise, when have input the pole sequence number of the pole component being used to specify the fishing lamp that should terminate lighting operation or extinguish operation, storing this and terminating pole sequence number clockwise; And terminate pole sequence number memory cell counterclockwise, when have input the sequence number of pole of the pole component being used to specify the fishing lamp that should terminate lighting operation or extinguish operation, store this and terminate pole sequence number counterclockwise, light or extinguish indicating member and possess: light clockwise or extinguish indicating member, it is when the initial instruction of existence operation, from storing the fishing lamp of initial pole sequence number to storing the fishing lamp terminating pole sequence number clockwise, implement with the instruction of automatically lighting successively or extinguishing successively clockwise; And light counterclockwise or extinguish indicating member, it, when the initial instruction of existence operation, from storing the fishing lamp of initial pole sequence number to storing the fishing lamp terminating pole sequence number counterclockwise, is implemented with the instruction of automatically lighting successively or extinguishing successively counterclockwise.Thus, can set independently and terminate pole sequence number clockwise and terminate pole sequence number counterclockwise, from the fishing lamp of clockwise initial pole sequence number to the fishing lamp terminating pole sequence number clockwise, automatically to light successively or to extinguish successively clockwise, similarly from the fishing lamp of counterclockwise initial pole sequence number to the fishing lamp terminating pole sequence number counterclockwise, automatically to light successively or to extinguish successively counterclockwise, therefore, make to light successively or extinguish successively with clockwise and independent counterclockwise respectively, thus can more specifically control.

Preferably, now, computer control portion possesses further: time interval memory cell clockwise, its have input be used to specify clockwise lighting operation or extinguish fishing lamp in operation lighting time interval or fall time interval time, store this interval or fall time interval clockwise lighting time, and counterclockwise time interval memory cell, its have input be used to specify counterclockwise lighting operation or extinguish operation in fishing lamp lighting time interval or fall time interval time, store this interval or fall time interval counterclockwise lighting time, light clockwise or extinguish indicating member and form as follows: when the initial instruction of existence operation, from storing the fishing lamp of initial pole sequence number to storing the fishing lamp terminating pole sequence number clockwise, implement with stored clockwise lighting time interval or fall time interval deasil and the instruction of automatically lighting successively or extinguishing successively, light counterclockwise or extinguish indicating member and form as follows: when the initial instruction of existence operation, from the fishing lamp of stored initial pole sequence number to the stored fishing lamp terminating pole sequence number counterclockwise, implement with stored counterclockwise lighting time interval or fall time interval widdershins and the instruction of automatically lighting successively or extinguishing successively.Make to light interval respectively or extinguish interval with clockwise and independent counterclockwise, thus can control particularly.

In addition, in this specification, refer to clockwise from larboard and rotate (or rotating via stern (ship end) direction aport from starboard) via the direction of fore (bow) astarboard, refer to counterclockwise from larboard and rotate (or rotating via fore direction aport from starboard) via the direction of stern-on starboard.

Preferably, computer control portion possesses SR region further and lights direction or extinguish direction memory cell, it is when have input the lighting operation of the fishing lamp be used to specify in side roller region (SR region) or extinguishing the direction operated, store SR region lighting operation or extinguish the direction operated, light or extinguish indicating member and form as follows: based on stored SR region lighting operation or the direction of extinguishing operation, the fishing lamp in this SR region is implemented to the instruction of automatically lighting successively or extinguishing successively.Thereby, it is possible to more specifically and most suitably control the lighting operation direction of carrying out in the SR region of casting net or extinguish direction of operating.

Preferably, computer control portion possesses SR interval zone time memory cell further, have input the fishing lamp being used to specify SR region lighting time interval or fall time interval time, store this SR region and light the time interval or fall time interval, light or extinguish indicating member and form as follows: to the fishing lamp in this SR region, light the time interval or fall time interval with stored SR region and implement the instruction of automatically lighting successively or extinguishing successively.Thereby, it is possible to and other parts most suitably control the lighting time interval or fall time interval in the SR region of carrying out casting net independently.

The effect of invention

According to the present invention, the operation of automatically lighting successively or extinguishing successively is implemented based on stored initial pole sequence number and end pole sequence number, therefore, even if when the quantity of lamp increases significantly, also can easily and light successively exactly or extinguish control successively.

In addition, with stored lighting time interval or fall time interval, automatically light successively or extinguish successively, therefore, even if when the quantity of the lamp of fishing lamp increases significantly, also can precisely and easily control light interval or extinguish interval.

Accompanying drawing explanation

Fig. 1 be schematically show as fishing lamp control system of the present invention an embodiment, the vertical view of the configuration of multiple pole component on ship and multiple fishing lamp.

Fig. 2 be the fishing lamp control system of the embodiment that Fig. 1 is shown, the block diagram of the electrical structure of fishing lamp control device.

Fig. 3 is the block diagram of the electrical structure in the computer control portion schematically showing the fishing lamp control device shown in Fig. 2.

Fig. 4 is the flow chart of the flow process of the initial setting process schematically showing the computer control portion shown in Fig. 3.

Fig. 5 is the figure that the initial shown picture when initial setting process is shown.

Fig. 6 is the figure that the picture shown when the initial setting process of pole sequence number is shown.

Fig. 7 is the figure that the picture shown when the initial setting process of object pole is shown.

Fig. 8 a is the flow chart of the flow process of the automatic ignition mode process schematically showing the computer control portion shown in Fig. 3.

Fig. 8 b is the flow chart of the flow process of the automatic ignition mode process schematically showing the computer control portion shown in Fig. 3.

Fig. 9 is the figure that the picture shown when automatic ignition mode process is shown.

Figure 10 is the figure of lighting operation when automatic ignition mode process is described.

Figure 11 a is the flow chart of the flow process of the automatic distinguishing mode treatment schematically showing the computer control portion shown in Fig. 3.

Figure 11 b is the flow chart of the flow process of the automatic distinguishing mode treatment schematically showing the computer control portion shown in Fig. 3.

Figure 12 is the figure that the picture shown when automatic distinguishing mode treatment is shown.

Figure 13 is the figure of extinguishing operation when automatic distinguishing mode treatment is described.

Embodiment

Fig. 1 schematically show as fishing lamp control system of the present invention an embodiment, the configuration of multiple pole component on ship and multiple fishing lamp.

As shown in Figure 1, such as catching saury or catching squid or dual-purpose is caught saury and caught in the fishing boat 10 of squid, the multiple pole components 11 comprising main pole component 11a are given prominence to from this ship side and are arranged on around ship, in each pole of these multiple pole components 11, be provided with one or more fishing lamp (fishing lamp) 12.In addition, main pole component 11a is positioned at: the central authorities representing the side roller region (SR region) 13 in the region of the side roller (sideroller) be provided with for receiving net.Although in the present embodiment, SR region 13 is configured in starboard (Taiwan mode), and SR region 13 also can be configured in larboard (day the manner).

Each fishing lamp 12 is preferably LED (light-emitting diode) fishing lamp, but its part or all also can be fishing incandescent lamp or fishing metal halide lamp.Possess the computer control portion lighting and extinguish for controlling fishing lamp at these multiple fishing lamps 12, the fishing lamp control device 14 being arranged on the fishing boat central portion of whellhouse etc. is electrically connected with multiple fishing lamp 12.In addition, in FIG, the diagram of connecting line is eliminated.

Fig. 2 illustrate the fishing lamp control system of the present embodiment, the electrical structure of fishing lamp control device 14.Fig. 3 schematically shows the electrical structure in the computer control portion of fishing lamp control device 14.

As shown in Figure 2, fishing lamp control device 14 possesses: fishing lamp control cabinet 15, comprises computer control portion therein; Light action switch 16, it is arranged on each fishing lamp, and can be formed by the mode that manual mode carries out lighting and extinguishing each fishing lamp; Load change meter relay (meterrelay) 17, it is for monitoring the variation in voltage of power supply, the i.e. traction generator of fishing boat 10; Fishing lamp relay 18, it is arranged on each fishing lamp.With regard to this fishing lamp control device 14, it is electrically connected with the centralized control panel 19 of the such as jigging machine being arranged on whellhouse etc., and carries out the control of jigging machine and control these two kinds controls of fishing lamp by this centralized control panel 19.In the present embodiment, in this centralized control panel 19, be provided with one-piece type touch-screen type liquid crystal display, display various buttons, figure, chart and word etc. as hereinafter described, touch required part by operator and input.

In the fishing lamp control cabinet 15 of fishing lamp control device 14, be provided with computer control portion 30 as shown in Figure 3.Computer control portion 30 is by computer and the program of computer run is formed, wherein, as shown in Figure 3, computer at least possess be connected to each other via bus 30a central control unit (CPU) 30b, random access memory (RAM) 30c, flash memories (flashmemory) 30d, Storage Card Drivers device 30e and input/output interface 30f.

CPU30b is formed as follows: according to being stored in the base programs such as the operating system (OS) of flash memories 30d or boot, carrying out the program being stored in this flash memories 30d, thus carrying out the process of the present embodiment.In addition, CPU30b is with control RAM30c, formed for the mode of the action of the Storage Card Drivers device 30e and input/output interface 30f that read inserted storage card.

RAM30c is used as the main storage (mainmemory) in this computer control portion 30, and is formed in the mode of preserving program or the data transmitted from flash memories 30d or Storage Card Drivers device 30e.In addition, this RAM30c is also used as the working region of various data when temporary transient save routine is carried out.

Input/output interface 30f is formed as follows: the touch-screen display to centralized control panel 19 exports the display data from CPU30b or RAM30c, and these input data are transmitted to CPU30b or RAM30c, receive from the manual control signal lighting action switch 16 being arranged on each fishing lamp, with from the load change attention of load change meter relay 17 and/or warning signal, and transmit to CPU30b or RAM30c, and the output data from CPU30b or RAM30c are sent as signal to the fishing lamp relay 18 being arranged on each fishing lamp.

In the computer with this structure, with regard to CPU30b, when program starts, first, in RAM30c, guarantee program storage area, data storage areas and working region, obtain program and data from flash memories 30d, and be stored in program storage area and data storage areas.Then, the handling process of each fishing tackle is carried out based on the program being stored in this program storage area.In addition, CPU30b also directly can obtain program and data from flash memories 30d, and carries out the handling process of each fishing tackle based on this program.

Fig. 4 schematically shows the flow process of the initial setting process in computer control portion 30.Fig. 5 is initial picture shown by the display of centralized control panel 19 in this situation.

If " the pole sequence number setting button " of the Fig. 5 on operator's touch display, then carry out the initial setting (step S1) of pole sequence number.According to the initial setting of this pole sequence number, pole sequence number is imparted to the multiple whole pole components 11 around the ship being arranged on fishing boat 10.Fig. 6 is the picture in this situation shown by the display of centralized control panel 19.In the present embodiment, the pole sequence number near bow-side of larboard is set as " 1 ", the pole sequence number near bow-side of starboard is also set as " 1 ".The not shown ejection picture for numerical value input of operator in the display of centralized control panel 19, the input last pole sequence number of stern-side of larboard and the last pole sequence number of the stern-side of starboard, thus the pole sequence number of whole pole components 11 of larboard is set to continuous sequence number, further, the pole sequence number of whole pole components 11 of starboard is set to continuous sequence number, and is stored in flash memories 30d.Then, input the pole sequence number near bow-side in SR region 13 and the pole sequence number near stern-side in SR region 13 by operator, the pole component 11 in SR region 13 is set, and is stored in flash memories 30d.

If " the object pole setting button " of the Fig. 5 on operator's touch display, then carry out the initial setting (step S2) of control object pole.According to the initial setting of this object pole, set from pole sequence number as the pole component 11 lighting/extinguish control object.Fig. 7 is picture shown in the display of centralized control panel 19 in this situation.On this screen, if operator is according to the sequence number on larboard or starboard classification touch display, then the Show Color of this pole component 11 changes (such as, blueness (starboard) or red (larboard) is become) from the gray states shown in Fig. 7, and being formed as the object pole of control, its result is stored in flash memories 30d.In addition, the pole sequence number of gray states corresponds to the non-object pole controlled.

If " other set button " of the Fig. 5 on operator's touch display, then carry out other initial setting (step S3).As other initial settings, such as operator sets as follows: when making power supply (generator) be in overload state because lighting, for lighting the setting of the time expand of the timer at interval; The setting at reverse extinguishing interval during automatic ignition mode; The setting of oppositely lighting interval during automatic distinguishing pattern; Setting etc. when whether counting (count) to the operating interval of the non-object pole controlled, its input results is stored in flash memories 30d.

After end initial setting, carry out automatic ignition mode process by manual selection that is automatic or operator.Fig. 8 a and Fig. 8 b schematically shows the flow process of this automatic ignition mode process, and Fig. 9 illustrates the picture in this situation shown by the display of centralized control panel 19.

In this automatic ignition mode process, along with " generally lighting button " on each touch display of operator, the On/Off (ON/OFF) of general ignition mode will be switched.Suppose, operator makes " generally lighting button " for opening, and have input and clockwisely light interval and the counterclockwise numerical value lighting interval.In this case, general ignition mode (the step S10 of Fig. 8 a) is determined whether by computer control portion 30, judging in the situation (situation of "Yes") being general ignition mode, what input clockwisely lights interval and counterclockwise lights data storage areas or the flash memories 30d (the step S11 of Fig. 8 a) that interval is stored in RAM30c.In addition, judge be not general ignition mode situation (situation of "No") under, process will be transitioned into the step S12 of Fig. 8 a, and does not carry out the process of step S11.

Along with " SR extinguishes button " on each touch display of operator, the On/Off that pattern is extinguished in SR region will be switched.Suppose, operator makes " SR extinguishes button " for opening, and have selected the extinguishing direction of operating in SR region and have input the numerical value extinguishing interval.In the present embodiment, the selection of extinguishing direction of operating is carried out as follows: touch " extinguishing direction of operating button " of representing with arrow along with each, the extinguishing direction of operating (A) in SR region extinguishes towards central portion from fore and stern simultaneously successively, (B) after extinguishing successively from fore towards central portion, extinguish successively from stern towards central portion, (C) after extinguishing successively from stern towards central portion, extinguish successively from fore towards central portion, (D) extinguish successively towards fore and stern from central portion simultaneously, (E) after extinguishing successively from central portion towards fore, extinguish successively from central portion towards stern, (F) after extinguishing successively from central portion towards stern, extinguish successively from central portion towards fore, (G) extinguish successively from fore towards stern, (H) extinguish successively from stern towards fore, then, change towards the direction that central portion extinguishes successively to initial (A) from fore and stern simultaneously.In this case, determine whether that pattern (the step S12 of Fig. 8 a) is extinguished in SR region by computer control portion 30, and judging it is under the situation (situation of "Yes") of pattern is extinguished in SR region, the extinguishing direction of operating in the SR region inputted and extinguishing interval are stored in data storage areas or the flash memories 30d (the step S13 of Fig. 8 a) of RAM30c.In addition, judging it is not that under the situation (situation of "No") of pattern is extinguished in SR region, process will be transitioned into the step S14 of Fig. 8 a, and does not carry out the process of step S13.

Along with " SR lights button " on each touch display of operator, the On/Off of SR region ignition mode will be switched.But, there are not " SR extinguishes button " and " SR lights button " both situations simultaneously for opening.Suppose, operator makes " SR lights button " for opening, and have selected the lighting operation direction in SR region and have input the numerical value lighting interval.In the present embodiment, the selection in lighting operation direction is carried out as follows: along with touching " the lighting operation direction key " that represent with arrow at every turn, lighting operation direction (a) in SR region is lighted towards central portion from fore and stern simultaneously successively, b () lights from fore successively towards central portion after, light successively from stern towards central portion, c () lights from stern successively towards central portion after, light successively from fore towards central portion, d () lights towards fore and stern from central portion simultaneously successively, e () lights from central portion successively towards fore after, light successively from central portion towards stern, f () lights from central portion successively towards stern after, light successively from central portion towards fore, g () lights from fore successively towards stern, h () lights from stern successively towards fore, then, change towards the direction that central portion is lighted successively to initial (a) from fore and stern simultaneously.In this case, SR region ignition mode (the step S14 of Fig. 8 a) is determined whether by computer control portion 30, and judging in the situation (situation of "Yes") being SR region ignition mode, the lighting operation direction in the SR region inputted and light data storage areas or the flash memories 30d (the step S15 of Fig. 8 a) that interval is stored in RAM30c.In addition, judging in the situation (situation of "No") not being SR region ignition mode, process will be transitioned into the step S16 of Fig. 8 a, and does not carry out the process of step S15.

Then, suppose, operator have input lighting initial pole sequence number, terminating pole sequence number and terminate pole sequence number counterclockwise clockwise of automatic ignition mode.In this case, by computer control portion 30, what input lights initial pole sequence number and terminates data storage areas or the flash memories 30d (the step S16 of Fig. 8 a) that pole sequence number is stored in RAM30c clockwise and counterclockwise.

Then, operator makes " operation button ", " stopping key " or " inverted running button " for opening.In this case, by computer control portion 30, first judge whether " operation button " is open (the step S17 of Fig. 8 a), and judging in " operation button " situation (situation of "Yes") for unlatching, judging whether " stopping key " is open (the step S18 of Fig. 8 a).Judging in " stopping key " situation (situation of "No") for closedown, judge whether " inverted running button " is open (the step S19 of Fig. 8 a), judging, in " inverted running button " situation (situation of "Yes") for unlatching, to carry out inverted running process (the step S20 of Fig. 8 a).To be described below the inverted running process of this step S20.In addition, judge " operation button " for close situation (situation of "No") and " stopping key " be unlatching situation (situation of "Yes") under, as mentioned below, carry out the process of the step S24 of Fig. 8 b.

In step S19, judged by computer control portion 30, in " inverted running button " situation (situation of "No") for closedown, to judge whether operational mode is now general ignition mode (the step S21 of Fig. 8 b).

Judging in the situation (situation of "Yes") being general ignition mode, from the initial pole sequence number of the data storage areas or flash memories 30d that are stored in RAM30c, to the fishing lamp 12 of each pole component 11 with clockwise and implement the process (the step S22 of Fig. 8 b) of lighting successively counterclockwise.Clockwise and counterclockwise interval of lighting in this situation is respectively, and is stored in the data storage areas of RAM30c or the clockwise of flash memories 30d and lights interval and counterclockwise light interval.

Then, by computer control portion 30, judge that whether the current pole sequence number carrying out lighting process is the pole sequence number (the step S23 of Fig. 8 b) in SR region 13.This judgement is, use initial setting and be stored in flash memories 30d, the pole sequence number near bow-side in SR region 13 and the pole sequence number near stern-side carry out.Judging in the situation (situation of "No") not being the pole sequence number in SR region 13, repeating the process of step S22 and proceeding to light successively.

By computer control portion 30, judge in step S23 the pole sequence number being SR region 13 situation (situation of "Yes") and judge in the step s 21 be not general ignition mode situation (situation of "No") under, determine whether SR region ignition mode (the step S24 of Fig. 8 b).

By computer control portion 30, judge in this step S24 be SR region ignition mode situation (situation of "Yes") under, to the fishing lamp 12 of each pole component 11 in SR region 13 with clockwise and implement the process (the step S25 of Fig. 8 b) of lighting successively counterclockwise.Lighting operation direction in this situation is formed as, and is selected and is stored in the data storage areas of RAM30c or the lighting operation direction of flash memories 30d; Lighting gap-forming is, interval is lighted in the clockwise SR region of the data storage areas or flash memories 30d that are stored in RAM30c and interval is lighted in counterclockwise SR region.

By computer control portion 30, judge in step s 24 which be not SR region ignition mode situation (situation of "No") under, determine whether SR region extinguish pattern (the step S26 of Fig. 8 b).

By computer control portion 30, in this step S26, judge it is under the situation (situation of "Yes") of pattern is extinguished in SR region, to the fishing lamp 12 of each pole component 11 in SR region 13 with clockwise and implement the process (the step S27 of Fig. 8 b) of extinguishing successively counterclockwise.Extinguishing direction of operating in this situation is formed as, and is selected and is stored in the data storage areas of RAM30c or the extinguishing direction of operating of flash memories 30d; Extinguishing gap-forming is be stored in the data storage areas of RAM30c or the extinguishing interval, clockwise SR region of flash memories 30d and counterclockwise extinguishing interval, SR region.

By computer control portion 30, in step S26, judge it is not under the situation (situation of "No") of pattern is extinguished in SR region, when the process of end step S25 and step S27, further, when the inverted running process of step S20 terminating Fig. 8 a, current pole sequence number of carrying out processing with clockwise and counterclockwise classification display over the display (the step S28 of Fig. 8 b).

After this, by computer control portion 30, judge current pole sequence number of carrying out processing be whether be stored in the data storage areas of RAM30c or flash memories 30d, make the clockwise and counterclockwise pole sequence number (the step S29 of Fig. 8 b) lighting end.Judging, in the situation (situation of "No") not being end pole sequence number, repeat the process from the step S17 of Fig. 8 a and carry out.In step S29, under judging that clockwise and counterclockwise pole sequence number is all the situation (situation of "Yes") terminating pole sequence number, terminate this automatic ignition mode process.

In addition, in the inverted running process of the step S20 of Fig. 8 a, extinguish successively to be reversed when indicating inverted running in general ignition mode and SR region ignition mode, light successively to be reversed when indicating inverted running in SR region extinguishing pattern.

Figure 10 illustrates lighting operation during ignition mode process automatically as above.As shown in Figure 10 (A), according to this automatic ignition mode process, automatically light successively from the pole component of the initial pole sequence number that can be set in the optional position being not limited to midship.Now, owing to not being light simultaneously, but light successively, therefore alleviate the burden of generator, thus the generation of stopping working can be prevented.Can be set to when generator has abundant and short light interval, what can set growth when abundant lights interval.

In addition, when computer control portion 30 receives load change attention from load change meter relay 17, give the alarm, thus manually or automated manner to make to light successively interval elongated, thus the excess load of generator can be alleviated.Further, when computer control portion 30 receives load change warning signal from load change meter relay 17, give the alarm, thus manually or automated manner stop lighting operation successively, thus the excess load of generator can be alleviated further.After stopping lighting operation, confirm that the degree reduced the heavy burdens also starts to carry out this lighting operation successively again.That is, to generator apply load, voltage, frequency characteristic from the state that stable state departs from, first brief interruption lighting operation successively.But, do not extinguish the fishing lamp lighted.When voltage, frequency characteristic turn back to stable state, operate not shown again start button etc. and make this successively lighting operation again start.In addition, can preset based on load change meter relay 17 load change attention and produce the threshold value of load change warning signal.

In this automatic ignition mode process, clockwise and counterclockwise process of lighting can be set arbitrarily independently and terminate pole sequence number, further, also can set arbitrarily independently and clockwise and counterclockwise light interval successively.In addition, during initial setting, the pole component 11 without the need to lighting can be set, thus skip and light successively without the need to the fishing lamp lighted.

As shown in Figure 10 (A), after lighting the whole fishing lamps except the pole component without the need to lighting, as shown in Figure 10 (B), on side roller, the fishing lamp 12 of the pole component 11 in (SR region 13) is extinguished successively, and can cast net in the part in this SR region 13.Cast net if terminate, the fishing lamp 12 of the pole component 11 in SR region 13 is lighted successively again.In this SR region 13, can control particularly to light direction of operating and clockwise (around fore) and counterclockwise (around stern) light interval, and can realize different from the fishing lamp of position in addition lighting control.

After the automatic ignition mode process of end, by automatically or manually selected to carry out automatic distinguishing mode treatment by operator.Figure 11 a and Figure 11 b schematically shows the flow process of this automatic distinguishing mode treatment, and Figure 12 illustrates the picture in this situation shown by the display of centralized control panel 19.

In this automatic distinguishing mode treatment, along with " usually extinguishing button " on each touch display of operator, the On/Off of general extinguishing pattern will be switched.Suppose, operator makes " usually extinguishing button " for opening, and have input the numerical value at clockwise extinguishing interval and counterclockwise extinguishing interval.In this case, determine whether generally to extinguish pattern (the step S30 of Figure 11 a) by computer control portion 30, judge be generally extinguish pattern situation (situation of "Yes") under, the clockwise extinguishing interval inputted and counterclockwise extinguishing interval are stored in data storage areas or the flash memories 30d (the step S31 of Figure 11 a) of RAM30c.In addition, judge it is not under generally extinguishing mode situation (situation of "No"), process will be transitioned into the step S32 of Figure 11 a, and does not carry out the process of step S31.

Along with " SR extinguishes button " on each touch display of operator, the On/Off that pattern is extinguished in SR region will be switched.Suppose, operator makes " SR region extinguish button " for opening, and have selected the extinguishing direction of operating in SR region and have input the numerical value at the extinguishing interval of bow-side and stern-side.In the present embodiment, the selection of extinguishing direction of operating is carried out as follows: time " extinguishing direction of operating button " of representing with arrow along with each touch, the extinguishing direction of operating (A) in SR region extinguishes towards central portion from fore and stern simultaneously successively, (B) after extinguishing successively from fore towards central portion, extinguish successively from stern towards central portion, (C) after extinguishing successively from stern towards central portion, extinguish successively from fore towards central portion, (D) extinguish successively towards fore and stern from central portion simultaneously, (E) after extinguishing successively from central portion towards fore, extinguish successively from central portion towards stern, (F) after extinguishing successively from central portion towards stern, extinguish successively from central portion towards carrying out fore, (G) extinguish successively from fore towards stern, (H) extinguish successively from stern towards fore, then, change towards the direction that central portion extinguishes successively to initial (A) from fore and stern simultaneously.In this case, the extinguishing pattern (the step S32 of Figure 11 a) in SR region is determined whether by computer control portion 30, and judging it is that under the situation (situation of "Yes") of pattern is extinguished in SR region, the extinguishing direction of operating in the SR region inputted is stored in data storage areas or the flash memories 30d (the step S33 of Figure 11 a) of RAM30c.Further, the extinguishing interval of the bow-side in the SR region inputted and the extinguishing interval of stern-side are stored in data storage areas or the flash memories 30d (the step S34 of Figure 11 a) of RAM30c.In addition, judging it is not that under the situation (situation of "No") of pattern is extinguished in SR region, process will be transitioned into the step S35 of Figure 11 a, and does not carry out the process of step S33 and S34.

Then, suppose, operator have input automatic distinguishing pattern the initial pole sequence number of extinguishing, terminate pole sequence number and terminate pole sequence number counterclockwise clockwise.In this case, by computer control portion 30, the initial pole sequence number of the extinguishing inputted and the pole sequence number that terminates clockwise and are counterclockwise stored in data storage areas or the flash memories 30d (the step S35 of Figure 11 a) of RAM30c.

Then, operator makes " operation button ", " stopping key " or " inverted running button " for opening.In this situation, by computer control portion 30, first judge whether " operation button " is open (the step S36 of Figure 11 a), and judging in " operation button " situation (situation of "Yes") for unlatching, judging whether " stopping key " is open (the step S37 of Figure 11 a).Judging in " stopping key " situation (situation of "No") for closedown, judge whether " inverted running button " is open (the step S38 of Figure 11 a), judging, in " inverted running button " situation (situation of "Yes") for unlatching, to carry out inverted running process (the step S39 of Figure 11 a).The inverted running process of this step S39 is described below.In addition, judge " operation button " for close situation (situation of "No") and " stopping key " be unlatching situation (situation of "Yes") under, as mentioned below, carry out the process of the step S43 of Figure 11 b.

In step S38, under judging " inverted running button " situation (situation of "No") for closedown by computer control portion 30, judge whether operational mode is now generally extinguish pattern (the step S40 of Figure 11 b).

Judge be generally extinguish pattern situation (situation of "Yes") under, from the initial pole sequence number of the data storage areas or flash memories 30d that are stored in RAM30c, to the fishing lamp 12 of each pole component 11 with clockwise and implement the process (the step S41 of Figure 11 b) of extinguishing successively counterclockwise.Clockwise and counterclockwise extinguishing interval is in this case respectively, and is stored in the data storage areas of RAM30c or the clockwise extinguishing interval of flash memories 30d and counterclockwise extinguishing interval.

Then, by computer control portion 30, judge that whether the current pole sequence number carrying out extinguishing process is the pole sequence number (the step S42 of Figure 11 b) in SR region 13.This judgement is, use initial setting and be stored in flash memories 30d, the pole sequence number near bow-side in SR region 13 and the pole sequence number near stern-side carry out.Judging in the situation (situation of "No") not being the pole sequence number in SR region 13, repeating the process of step S41 and proceeding to extinguish successively.

By computer control portion 30, judge in step S42 the pole sequence number being SR region 13 situation (situation of "Yes") and judge in the step s 21 be not general ignition mode situation (situation of "No") under, determine whether SR region extinguish pattern (the step S43 of Figure 11 b).

By computer control portion 30, in this step S43, judge it is under the situation (situation of "Yes") of pattern is extinguished in SR region, to the fishing lamp 12 of each pole component 11 in SR region 13 with clockwise and implement the process (the step S44 of Figure 11 b) of extinguishing successively counterclockwise.Extinguishing direction of operating is in this case formed as, and is selected and is stored in the data storage areas of RAM30c or the extinguishing direction of operating of flash memories 30d; The extinguishing interval of bow-side and the extinguishing interval of stern-side are formed as respectively, are stored in the extinguishing interval, SR region of the data storage areas of RAM30c or the bow-side of flash memories 30d and the extinguishing interval, SR region of stern-side.

By computer control portion 30, in step S43, judge it is not under the situation (situation of "No") of pattern is extinguished in SR region, when the process of end step S44, further, when the inverted running process of step S39 terminating Figure 11 a, on the display that current pole sequence number of carrying out processing shows with clockwise and counterclockwise classification (the step S45 of Figure 11 b).

After this, by computer control portion 30, judge current pole sequence number of carrying out processing be whether be stored in the data storage areas of RAM30c or flash memories 30d, make the clockwise and counterclockwise pole sequence number (the step S46 of Figure 11 b) lighting end.Judging, in the situation (situation of "No") not being end pole sequence number, repeat the step S36 process from Figure 11 a and carry out.In step S46, judge that clockwise and counterclockwise pole sequence number is all in the situation (situation of "Yes") of end pole sequence number, terminate this automatic distinguishing mode treatment.

In addition, in the inverted running process of the step S39 of Figure 11 a, light successively to be reversed when indicating inverted running in general extinguishing pattern and SR region extinguishing pattern.

Figure 13 illustrates the extinguishing operation of automatic distinguishing mode treatment as above.As shown in Figure 13 (A), according to this automatic distinguishing mode treatment, automatically extinguish successively from the pole component of the initial pole sequence number that can be set in the optional position being not limited to midship with clockwise (around fore) and counterclockwise (around stern).Now, owing to not being extinguish simultaneously, but extinguish successively, therefore make the fish of larboard turn to starboard from both fore and stern.In this case, if the interval of extinguishing successively is too short, fish cannot be caught up with, and therefore cautiously sets in advance.In case of emergency, manually action switch 16 is lighted in operation, stops the operation of extinguishing successively thus and timing (timing) is postponed, thus can coordinate the trend of fish to carry out extinguishings adjustment.In addition, because the position of extinguishing initial pole component is arbitrary, therefore, it is possible to extinguish from the position of the trend coordinating fish.

If it is very short to extinguish interval, then sharply can alleviate the load of generator, therefore, in order to make load change occur sharp, preferably, adjusting timing (interval) and extinguishing operation successively.

In addition, when computer control portion 30 receives load change attention from load change meter relay 17, give the alarm, thus manually or automated manner to make to extinguish successively interval elongated, thus the burden of generator can be alleviated.Further, when computer control portion 30 receives load change warning signal from load change meter relay 17, give the alarm, thus manually or automated manner stop extinguishing operation successively, thus the burden of generator can be alleviated further.After operation is extinguished in stopping, also again start to carry out this extinguishes operation to the degree that confirmation has reduced the heavy burdens successively.That is, applying load to generator, voltage, frequency characteristic are from the state that stable state departs from, and first brief interruption extinguishes operation successively.But, do not light the fishing lamp extinguished.When voltage, frequency characteristic turn back to stable state, operate and not shown again start button etc. and make this extinguish operation successively again to start.In addition, can preset based on load change meter relay 17 load change attention and produce the threshold value of load change warning signal.

In this automatic distinguishing mode treatment, clockwise and counterclockwise extinguishing process can be set arbitrarily independently and terminate pole sequence number, further, also can set arbitrarily the clockwise and counterclockwise interval of extinguishing successively independently.In addition, during initial setting, the pole component 11 without the need to extinguishing can be set, thus skip without the need to the fishing lamp of extinguishing and extinguish successively.

As shown in Figure 13 (A), extinguish successively except the pole component without the need to extinguishing, in extinguishing to the position of side roller, as shown in Figure 13 (B), on side roller the fishing lamp 12 of the pole component 11 in (SR region 13) manually or automated manner extinguished successively, fish attracted to main pole component 11a direction thus.Until extinguish the front of the position of two pole components 11 to main pole component 11a both sides, under the state of two pole components 11 lighting these main pole component 11a and both sides, receive net.Thus in SR region 13, the extinguishing interval of extinguishing direction of operating and clockwise (around fore) and counterclockwise (around stern) can be controlled particularly, and can carry out controlling from the different extinguishing of the fishing lamp of position in addition.

As above-mentioned detailed description, according to the present embodiment, be preset with pole sequence number being configured at the pole component 11 around ship, if input is used to specify this pole sequence number of the pole component 11 that should start the fishing lamp 12 carrying out lighting operation or extinguish operation, then initial pole sequence number is stored; If input is used to specify the pole sequence number of the pole component 11 of the fishing lamp 12 that should terminate clockwise and counterclockwise lighting operation or extinguish operation, then terminate pole sequence number clockwise and to be counterclockwise stored, if there is the initial instruction of operation, then from storing the fishing lamp 12 of initial pole sequence number to storing the fishing lamp 12 terminating pole sequence number, implement with the operation of automatically lighting successively or extinguishing successively clockwise and counterclockwise.Thus, the operation of automatically lighting successively or extinguishing successively is implemented based on stored initial pole sequence number and clockwise and counterclockwise end pole sequence number, therefore, even if when the quantity of the lamp of fishing lamp 12 increases significantly, also can easily light successively accurately or extinguish control successively.In addition, with stored lighting time interval or fall time interval, automatically light successively or extinguish successively, therefore, even if when the quantity of the lamp of fishing lamp 12 increases significantly, also can precisely and easily control light interval or extinguish interval.

In addition, according to the present embodiment, carry out the lighting operation direction of the fishing lamp 12 in the SR region 13 of casting net and extinguish direction of operating, can in a variety of manners specifically and most suitably control.Further, can make the fishing lamp 12 in SR region 13 around fore and around stern lighting time interval and fall time interval and other parts carry out most suitable control independently.

Further, in the present embodiment, owing to can look at the picture of the centralized control panel 19 of the jigging machine that is arranged on whellhouse etc., while carry out automatically lighting and the setting of automatic distinguishing or control etc. of fishing lamp, therefore, operation is very easy to.And, the centralized control panel 19 of jigging machine etc. can be shared, therefore contribute to space saving to a great extent.

In addition, in the present embodiment, with the load change attention of the load change meter relay 17 from the variation in voltage for monitoring generator and/or load change warning signal accordingly, adjustment is lighted interval successively and extinguishes interval successively, or stop lighting successively and extinguishing operation successively, therefore can not there is the excess load of generator.

In addition, by lighting action switch 16, carrying out the manual operation of lighting and extinguishing of each fishing lamp or specific fishing lamp and the handover operation of automatic/hand, therefore can carry out controlling identical control with existing fishing lamp.

Further, when using LED fishing lamp, also can be formed in the mode being controlled the light modulation of each fishing lamp by the centralized control panel 19 being arranged on whellhouse.

Above-described embodiment illustrates the present invention all by way of example, not illustrates with limiting mode, and the present invention can implement with other various deformation programs and change scheme.Therefore scope of the present invention only limited by claims and equivalency range thereof.

Claims (8)

1. a fishing lamp control system, it possesses computer control portion, wherein,

Described computer control portion is for controlling lighting and extinguishing of multiple fishing lamp, and described multiple fishing lamp is arranged on respectively to be given prominence to from ship side and to be configured at the multiple pole components around ship, it is characterized in that,

Described computer control portion possesses:

Input unit, its input corresponds to the pole sequence number that described multiple pole component presets, is used to specify the pole component that should start the fishing lamp carrying out lighting operation or extinguish operation, and input is used to specify the described pole sequence number of the pole component of the fishing lamp that should terminate lighting operation or extinguish operation; And

Light or extinguish indicating member, it is when the initial instruction of existence operation, from the fishing lamp of the initial pole sequence number of described input to the fishing lamp of the end pole sequence number of described input, and the instruction that enforcement is automatically lighted successively or extinguished successively.

2. fishing lamp control system according to claim 1, is characterized in that,

Described computer control portion possesses further:

Initial pole sequence number memory cell, it, when have input the pole sequence number presetting, be used to specify the pole component that should start the fishing lamp carrying out lighting operation or extinguish operation corresponding to described multiple pole component, stores this initial pole sequence number; And

Terminate pole sequence number memory cell, it, when have input the described pole sequence number of the pole component being used to specify the fishing lamp that should terminate lighting operation or extinguish operation, stores this and terminates pole sequence number, wherein,

Described light or extinguish indicating member form as follows: existence operation initial instruction time, from storing the fishing lamp of described initial pole sequence number to the fishing lamp storing described end pole sequence number, implement the instruction of automatically lighting successively or extinguishing successively.

3. a fishing lamp control system, it possesses computer control portion, and described computer control portion is for controlling lighting and extinguishing of multiple fishing lamp, and described multiple fishing lamp is arranged on respectively to be given prominence to from ship side and to be configured at the multiple pole components around ship, it is characterized in that,

Described computer control portion possesses:

Initial pole sequence number memory cell, it, when have input the pole sequence number of pole component presetting, be used to specify the fishing lamp that should start lighting operation or extinguish operation corresponding to described multiple pole component, stores this initial pole sequence number;

Terminate pole sequence number memory cell, it, when have input the described pole sequence number of the pole component being used to specify the fishing lamp that should terminate lighting operation or extinguish operation, stores this and terminates pole sequence number; And

Light or extinguish indicating member, it, when the initial instruction of existence operation, from storing the fishing lamp of described initial pole sequence number to the fishing lamp storing described end pole sequence number, implements the instruction of automatically lighting successively or extinguishing successively.

4. the fishing lamp control system according to Claims 2 or 3, is characterized in that,

Described computer control portion possesses time interval memory cell further, described time interval memory cell, have input be used to specify described fishing lamp lighting time interval or fall time interval time, store this interval or fall time interval lighting time,

Described light or extinguish indicating member form as follows: existence operation initial instruction time, from storing the fishing lamp of described initial pole sequence number to the fishing lamp storing described end pole sequence number, with stored described lighting time interval or fall time interval and implement the instruction of automatically lighting successively or extinguishing successively.

5. the fishing lamp control system according to Claims 2 or 3, is characterized in that,

Described end pole sequence number memory cell possesses:

Terminate pole sequence number memory cell clockwise, it, when have input the described pole sequence number of the pole component being used to specify the fishing lamp that should terminate clockwise lighting operation or extinguish operation, stores this and terminates pole sequence number clockwise; And

Terminate pole sequence number memory cell counterclockwise, it, when have input the described pole sequence number of the pole component being used to specify the fishing lamp that should terminate counterclockwise lighting operation or extinguish operation, stores this and terminates pole sequence number counterclockwise,

Described light or extinguish indicating member possess:

Light clockwise or extinguish indicating member, when there is the initial instruction of operation in it, from storing the fishing lamp of described initial pole sequence number to storing the described fishing lamp terminating pole sequence number clockwise, implement with the instruction of automatically lighting successively or extinguishing successively clockwise; And

Light counterclockwise or extinguish indicating member, it is when the initial instruction of existence operation, from storing the fishing lamp of described initial pole sequence number to storing the described fishing lamp terminating pole sequence number counterclockwise, to implement the instruction of automatically lighting successively or extinguishing successively counterclockwise.

6. fishing lamp control system according to claim 5, is characterized in that,

Described computer control portion possesses further:

Clockwise time interval memory cell, its have input be used to specify clockwise lighting operation or extinguish described fishing lamp in operation described lighting time interval or fall time interval time, store interval or fall time interval of described clockwise lighting time; And

Counterclockwise time interval memory cell, its have input be used to specify counterclockwise lighting operation or extinguish described fishing lamp in operation described lighting time interval or fall time interval time, store this interval or fall time interval counterclockwise lighting time,

Described light clockwise or extinguish indicating member form as follows: existence operation initial instruction time, from storing the fishing lamp of described initial pole sequence number to storing the described fishing lamp terminating pole sequence number clockwise, implement with stored described clockwise lighting time interval or fall time interval deasil and the instruction of automatically lighting successively or extinguishing successively

Described light counterclockwise or extinguish indicating member form as follows: existence operation initial instruction time, from storing the fishing lamp of described initial pole sequence number to storing the described fishing lamp terminating pole sequence number counterclockwise, implement with stored described counterclockwise lighting time interval or fall time interval widdershins and the instruction of automatically lighting successively or extinguishing successively.

7. the fishing lamp control system according to Claims 2 or 3, is characterized in that,

Described computer control portion possesses side roller region further and lights direction or extinguish direction memory cell, it is when have input the lighting operation of the described fishing lamp be used to specify in side roller region or extinguishing the direction operated, store this side roller region lighting operation or extinguish the direction operated

Described light or extinguish indicating member form as follows: based on stored described side roller region lighting operation or extinguish operation direction, the described fishing lamp in this side roller region is implemented to the instruction of automatically lighting successively or extinguishing successively.

8. the fishing lamp control system according to Claims 2 or 3, is characterized in that,

Described computer control portion possesses side roller interval zone time memory cell further, its have input the described fishing lamp be used to specify in side roller region lighting time interval or fall time interval time, store this side roller region and light the time interval or fall time interval

Described light or extinguish indicating member form as follows: to the described fishing lamp in this side roller region, light the time interval or fall time interval with stored described side roller region and implement the instruction of automatically lighting successively or extinguishing successively.