CN106704905A - Underwater optical fiber fish gathering lamp - Google Patents

Abstract

The invention relates to an underwater optical fiber fish gathering lamp. The underwater optical fiber fish gathering lamp is characterized in that a water light source is connected with the light inlet end of a conduction optical fiber, the light outlet end of the conduction optical fiber is connected with a light conduction body, and the conduction optical fiber is fixed to an underwater support which can be in a ring shape, a column shape, a ball shape or a fish bait shape. Underwater optical fiber fish gathering lamps in various shapes and of various structures are then combined with different fish catching devices. According to the underwater optical fiber fish gathering lamp, the light conduction property, the flexibility, the low temperature resistance and the easy fixity of an optical fiber material are sufficiently played, on one hand, the light of the water light source is transmitted to deepwater, and therefore the problems of deep sea pressure, low temperature, abrasion and the like of a power source and the lamp can be avoided; and on the other hand, the luminance and the spectra of a luminescent source on the sea face can be conveniently and rapidly adjusted to improve the light fishing effect on different fish schools. The underwater optical fiber fish gathering lamp is easy to manufacture, low in using cost, free of maintenance, capable of effectively using various green energy sources such as solar energy, wind energy, tidal energy and the like.

Description

Underwater optical fibre fishing lamp

Technical field

The present invention relates to light fish trap fishing gear, in particular a kind of underwater optical fibre fish gathering light fixture using optical fiber as light transmission medium, and the underwater optical fibre fishing lamp that different shape is constructed is combined with all kinds of fishing gears, especially combined with deep-sea fishing cylinder mould.

Background technology

Artificial light source fishing lamp must be used in photo-induction fishing operation, fishing lamp is divided into waterborne and under water, and the effect that fishing lamp is used under water is better than waterborne.Using the fishing lamp of artificial light source, very long evolution is experienced, by vapour lamp（Mantle lantern）To incandescent lamp, and to Halogen lamp LED, such as low pressure mercury lamp, thallium lamp, thallium indium lamp, then to the recent LED for occurring.

The effect of fishing lamp is exactly the phototaxis using some fish, is fished for trapping to be thrown the net compared with shallow water area the shoal of fish, or is fished, or the deepwater field shoal of fish is lured into catching cage.The luminous efficiency of fishing lamp, Costco Wholesale, brightness regulation, spectrum regulation turn into the leading indicator for weighing its performance; and the ingenious perfect adaptation of fishing lamp and all kinds of fishers; effective fishery instrument will be provided for the trapping operation of the light of the deep-sea shoal of fish, and traditional fishing lamp then needs the anti-high pressure and Low Temperature Problems of light fixture and power supply under solution abyssal environment；

The big red sweet fish of China's deep sea fishery aboundresources, such as scale of construction, comb fish, deep-sea eel, the red shrimp in deep-sea, due to a lack of practical Fishing technology, and are not developed by people always." deep-sea cage is caught " technology is recent development deep sea fishing technology out.To attract more fishes to come to look for food, catching rate is improved, deep-sea cylinder mould lures device harmony light fish-baiting instrument except in addition to respective design is made in terms of mechanical structure, generally also setting up raw meat.In benthos, on the one hand the fishing lamp for attracting will can resist abyssalpelagic high pressure and low temperature environment, on the other hand also to solve the problems, such as the continued power of fishing lamp.A kind of ready-made new type light sources high, low in energy consumption for luminous efficiency of LED.LED fishing lamps also have an example for fishing gear under water, but the power supply supply of LED fishing lamps under water nevertheless suffers from the underwater power device limitation of itself, and one is power supply itself environmental suitability and reliability, and another is the continuation that power supply is used.

The content of the invention

It is an object of the invention to design optical fiber fishing lamp, give full play to the guiding property of optical fiber, light emitting source waterborne is set to pass through fiber optic conduction, brightness and the adjustable light of spectrum are transferred under water, so as to form structure and different optical fiber fishing lamp, and optical fiber fishing lamp is combined with various fishing gears, to realize the purpose of photo-induction fish gathering seizure.

For achieving the above object, the technical scheme is that, this underwater optical fibre fishing lamp constitute include, illuminating source, conduction fibre bundle, light conductor, it is characterised in that：It also includes support under water in constituting, conduction fibre bundle is fixed on the support under water, and light conductor is connected to the light extraction end of conduction fibre bundle.

In above-mentioned underwater optical fibre fishing lamp technical scheme, the support under water is annular support, the annular support can be hollow out support, it can also be the support with hole, conduction fibre bundle is divided into some groups, and every group of equalizing fiber ground is fixed on annular support, and the light extraction end of conduction optical fiber passes from annular support hole, conduction optical fiber light extraction is connected with crystal or high molecule plastic light conductor at end, constitutes ring-type underwater optical fibre fishing lamp.

In above-mentioned ring-type underwater optical fibre fishing lamp technical scheme, the annular support center also sets up one group of conduction optical fiber, and the light extraction end of group conduction optical fiber is connected with crystal or high molecule plastic light conductor, and light conductor is located at the geometry circle centre position of annular support.

In above-mentioned ring-type underwater optical fibre fishing lamp technical scheme, ring-type underwater optical fibre fishing lamp is arranged on the center of horizontal type net cage for fishing.The net cage for fishing is made up of support, dictyosome and hawser, support is made up of some annular supports and horizontal brace rod again, annular support constitutes an integral support by horizontal brace rod knot, dictyosome covers on integral support periphery and forms cylinder mould, the shoal of fish enters cage entrance in horizontal direction, hawser is connected to the annular support at integral support two ends, and the annular support in integral support centre position becomes the annular support of underwater optical fibre fishing lamp.This ring-type underwater optical fibre fishing lamp is combined with horizontal type deep-sea fishing cylinder mould, deep-sea fish group energy is subject to the photo-induction of fishing lamp, captured after entering into from horizontal direction in cylinder mould, improves the fishing result that tradition food lures deep-sea fishing cylinder mould.

In above-mentioned underwater optical fibre fishing lamp technical scheme, the support under water is empty support in column, conduction fibre bundle is placed in the inner space of empty support in column, conduction fibre bundle is divided into some groups, every group of equalizing fiber ground is fixed in column empty support, the light extraction end for conducting optical fiber passes the lateral surface of empty support in column, and conduction optical fiber light extraction is connected with crystal or high molecule plastic light conductor, constitutes column underwater optical fibre fishing lamp at end.

In above-mentioned column underwater optical fibre fishing lamp technical scheme, one group of conduction optical fiber is also set up in empty support in the column, crystal or high molecule plastic light conductor are connected with the light extraction end of group conduction optical fiber, and stretch out the bottom surface of empty support in column.

In above-mentioned column underwater optical fibre fishing lamp technical scheme, the column underwater optical fibre fishing lamp is arranged on vertical-type net cage for fishing center, the net cage for fishing is made up of support, dictyosome and hawser, support is made up of circular support and vertical connecting again, circular support constitutes an integral support by vertical connecting knot, dictyosome covers on integral support periphery and forms cylinder mould, and the shoal of fish enters cage entrance in horizontal direction, and hawser is connected to the circular support on integral support top.This column underwater optical fibre fishing lamp is combined with vertical-type deep-sea fishing cylinder mould, the deep-sea shoal of fish is subject to the photo-induction of fishing lamp, captured after entering into from horizontal direction in cylinder mould, improves the fishing result that tradition food lures deep-sea fishing cylinder mould.

In above-mentioned underwater optical fibre fishing lamp technical scheme, also include spherical support in composition, conduction fibre bundle is placed in the inner space of spherical support, conduction fibre bundle is divided into some groups, every group of equalizing fiber ground is fixed on spherical support, the light extraction end of conduction optical fiber to pass and be connected with crystal or high molecule plastic light conductor at spherical rack outer surface, and conduction optical fiber light extraction end, constitutes spherical underwater fishing lamp.The light fixture scale of construction of this spherical underwater optical fibre fishing lamp is big, and brightness is high, can be used as the artificial light source needed for deep water culture.

In above-mentioned underwater optical fibre fishing lamp technical scheme, the conduction fibre bundle is made into bait shape near the lacing of light extraction end, or the light conductor that is connected with conduction fibre bundle light extraction end is shaped as bait shape, constitutes fish bait shape underwater optical fibre fishing lamp.Such as small cuttlefish shape or other small shape fishes and shrimps, shapes of insects.This kind of fish bait shape underwater optical fibre fishing lamp can then be combined with various fishing tackle, improve the effect that fishing tackle is fished under the conditions of night or insufficient light.

Above-mentioned various structures easily can be combined with the underwater optical fibre fishing lamp of shape with various large-scale fishers and compact fishing tackle.Such as above-mentioned ring-type, column, spherical underwater optical fibre fishing lamp are combined with deep-sea fishing cylinder mould, the photo-induction fishing result of deep-sea fishing cylinder mould can be increased.Additionally, above-mentioned variously-shaped underwater optical fibre fishing lamp be also used as deep water culture required for artificial light source under water, to improve the yield and quality of deep water culture.

It is an advantage of the invention that：

1st, using the performance of Optical Fiber Transmission light, on the one hand can make that distance very long can be separated between illuminating source and fishing lamp, illuminating source can be placed on sea, so as to reduce requirement of the deep-sea fishing lamp to the anti-deep sea pressure, low-temperature resistance and anti-seawater corrosion of power supply；On the other hand can easily by adjusting the illumination and spectrum of illuminating source on sea, the brightness and luminescent spectrum for making the fishing lamp at deep-sea change, to meet the photo-induction demand to the different shoals of fish.

2nd, illuminating source is on the water surface, and the spectrum for fiber optic conduction light is easy to adjust, can in real time carry out the regulation of luminescent spectrum according to the different shoals of fish to the phototactic characteristics of different spectrum；

3rd, manufacture, use cost are low, non-maintaining, can effectively utilize various green regenerative energy sources, such as solar energy, wind energy, tide energy.Traditional fishing lamp or by electric wire by electrical energy transportation to underwater fishing lamp, or for LED fishing lamps under water provide independent battery, although LED is low in energy consumption, but still face the restricted problem of usage cycles.

4th, tensility, flexibility, stitchability, knotting property specific to plastic conductive optical fiber itself have been given full play to.On the one hand using the above-mentioned characteristic of plastic conductive optical fiber, directly used as fishline, while light is transmitted into the fishhook fish gathering of photo-induction nearby through fishline；On the other hand using the above-mentioned characteristic of plastic conductive optical fiber, may be such that can realize soft connection between optical fiber fishing lamp and fixed support, such as knot and fix；Conduction optical fiber and cylinder mould material mixed weaving can also be conducted optical fiber place of arrival, light conductor in connection, you can luminous cylinder mould is formed, to deep-sea breeding by another further aspect using the above-mentioned characteristic of plastic conductive optical fiber.

Brief description of the drawings

Fig. 1 is the structural representation of ring-type underwater optical fibre fishing lamp of the present invention.

Fig. 2 is the structural representation of column underwater optical fibre fishing lamp of the present invention.

Fig. 3 is the structural representation of spherical underwater optical fibre fishing lamp of the invention.

Fig. 4 is the structural representation that bait shape underwater optical fibre fishing lamp of the present invention is used in combination with fishing tackle.

Fig. 5 is the structural representation that ring-type underwater optical fibre fishing lamp of the present invention is combined with horizontal type deep-sea fishing cylinder mould.

Fig. 6 is the structural representation that column underwater optical fibre fishing lamp vertical-type deep-sea fishing cylinder mould of the present invention is combined.

Fig. 7 is the structural representation of ring-type underwater optical fibre fishing lamp in horizontal type deep-sea fishing cylinder mould of the present invention.

Fig. 8 is the structural representation of column underwater optical fibre fishing lamp in horizontal type deep-sea fishing cylinder mould of the present invention.

Fig. 9 is the schematic diagram that the present invention is transmitted, lighted using LED as the light of light source.

Figure 10 is present invention conduction optical fiber and support or the schematic diagram of nettle knotting fixed form.

In the figures above,11 is conduction fibre bundle,12 is ring-type support arm,13 is ring-type inner support,14 is conduction fibre bundle,15 is center illuminator,16 is crystal or high molecule plastic light conductor,21 is conduction fibre bundle,22 is empty support in column,23 is crystal or high molecule plastic light conductor,24 is the conduction fibre bundle of bottom light body,25 is column bottom light body,31 is conduction fibre bundle,32 is spherical shell body,33 is crystal or high molecule plastic light conductor,34 is orbicule interior shelf,41 is light emitting diode,42 is fishing rod,43 is conduction fibre bundle,44 is cursory,45 is bait shape light body,46 is fish hook,51 is hawser,52 is conduction fibre bundle,53 is cage net,54 is light conductor,55 is annular support,56 is center light conductor,57 is the horizontal brace rod of cylinder mould,58 is cylinder mould small circle ring,59 is cylinder mould large circle,61 is conduction fibre bundle,62 is hawser,63 is upper annulus framework,64 is light conductor,65 is columnar bracket,66 is cylinder mould horizontal brace rod,67 is cylinder mould fish inlet,68 is bottom light conductor,69 is cage net,70 is lower annulus framework,71 is conduction fibre bundle,72 is annular support shell body,73 is annular support,74 is center light conductor,75 is light conductor,81 is conduction fibre bundle,82 is columnar bracket,83 is light conductor,84 is bottom light conductor,91 is light emitting diode（LED）, 92 is conduction fibre bundle overcoat, and 93 is conduction optical fiber, and 94 is light conductor, and 101 is illuminator, and 102 is plastic conductive optical fiber, and 103 is cradling piece.

Specific embodiment

Embodiment one：

The present embodiment is a kind of ring-type underwater optical fibre fishing lamp, and its structure is as shown in Figure 1.

The upper end light inlet for conducting fibre bundle 11 is connected with the LED light source on the water surface, conduction fibre bundle 11 is divided into some groups of conduction optical fiber, it is fixed on ring-type support arm 12, every group of optical fiber or the every connection of light extraction termination crystal or the high molecule plastic light conductor 16 of optical fiber every group of optical fiber or every equalizing fiber.In addition, also having one group of conduction optical fiber 14 to hold up downwards in conduction fibre bundle 11, the light extraction end connection crystal or high molecule plastic light conductor of group conduction optical fiber 14 form center light body 15, and ring-type inner support 13 is integral with ring-type support arm structure.Because conduction optical fiber is to be transferred under water light source on the water surface by inside of optical fibre light transmission medium, conduct the high pressure resistant of optical fiber, it is corrosion-resistant, it is low temperature resistant, it is hardly damaged, monomer is damaged does not influence other characteristics to be able to fully represent, while, brightness and glow color that can be in the water surface by adjusting the illuminance and spectrum of LED light source to change underwater optical fibre fishing lamp, with meet fishing lamp it is different fishing occasions to spectrum the need for.

Embodiment two：

The present embodiment is a kind of column underwater optical fibre fishing lamp, and its structure is as shown in Figure 2.

Conduction fibre bundle 21 is stretched in column in empty support 22, and it is divided into some groups or root wherein, every group or every is fixed in column empty support 22 with conducting equalizing fiber, the light extraction termination of every group or every optical fiber passes columnar bracket, light extraction termination connects crystal or high molecule plastic light conductor 23, there is one group of conduction optical fiber 24 straight down in conduction fibre bundle, be fixed on the bottom of empty support in column, the group conduction optical fiber light extraction termination connection crystal or high molecule plastic light conductor 25.The present embodiment vertical height can arbitrarily extend, so, one optical fiber collection electric light of the present embodiment can be reaching the photo-induction effect of multiple fishing lamps in the past, and cost can be relatively much lower, equally, by adjusting the illuminance and spectrum of water surface LED light source, brightness and the glow color of the present embodiment fishing lamp can be conveniently adjusted, to lure different types of shoal of fish, realize that lamp lures operation.

Embodiment three：

The present embodiment is a kind of spherical underwater optical fibre fishing lamp, and its structure is as shown in Figure 3.

In the present embodiment, conduction fibre bundle 31 is placed in the inner space of spherical support, conduction fibre bundle is divided into some groups, every group of equalizing fiber ground is fixed on spherical rack shell body 32, the light extraction end for conducting optical fiber passes spherical rack outer surface, and crystal or high molecule plastic light conductor 33 are connected with conduction optical fiber light extraction end, orbicule interior shelf 34 plays a part of supporting sephere shape rack shell.The present embodiment sphere shape underwater fishing lamp is also used as the artificial light source of deep water culture in addition to as the artificial light source of deep water light fish trap.The yield and quality of marine organisms product are improved by setting this kind of artificial light source in deep water.

Example IV：

The present embodiment is that the bright body of bait shape is combined with traditional fishing rod, is fished with the photo-induction in the case of realizing night or insufficient light, and its structure is as shown in Figure 4.

The end of fishing rod 42 is provided with light emitting diode 41, conduction fibre bundle 43 selects that the fiber optic materials of fishline intensity can be met, and conducting the light extraction end of fibre bundle 43 can connect the light conductor 45 of bait shape,（Such as small fish, shrimp, small worm）To lure fish to assemble food bite.Cursory 44 can select fluorescence, it is also possible to will conduct optical fiber light extraction end with the guide structure that can be floated into Luminous float.

Embodiment five：

The present embodiment is the example that ring-type underwater optical fibre fishing lamp is combined with horizontal type deep-sea photo-induction net cage for fishing, and its structure is as shown in Figure 5.

Large circle 59, small circle ring 58 and horizontal brace rod 57 form the framework of cylinder mould, permeable cage net 53 covers the framework, the large circle 59 at the connection netpen framework of hawser 51 two ends, large circle 59 constitutes two tapering trumpet-like passages of level with small circle ring 58 and cage net, the annular support 55 of ring-type underwater optical fibre fishing lamp is hollow structure, annular support inner side is fixed on from the plastic conductive equalizing fiber of the beam splitting of plastic conductive fibre bundle 52, the light extraction end of the plastic conductive optical fiber being fixed on annular support passes from the hole of annular support, and connect crystal or high molecule plastic light conductor 54, as optical fiber luminescent monomer, numerous such optical fiber luminescent monomers rely on annular support to form a Luminous Ring.The center of annular support 55, is additionally provided with a larger plastic optical fiber electroluminescent lamp of the scale of construction.Accompanying drawing 7 gives the section of structure of the ring-type underwater optical fibre fishing lamp, plastic conductive fibre bundle 71 is beamed into the different plastic conductive optical fiber of length, plastic conductive optical fiber is annularly fixed on annular support 73, the connection of light extraction end crystal or the high molecule plastic light conductor 75 of each plastic conductive optical fiber, a branch of plastic conductive fiber perpendicular that plastic conductive fibre bundle 71 is separated is downwards to annular support center, the beam plastic conductive optical fiber light extraction end is connected with crystal or high molecule plastic light conductor, forms a larger plastic optical fiber electroluminescent lamp of the scale of construction for being located at cylinder mould center.

Operation fishing boat reaches operation marine site, cylinder mould is put into deep-sea with boom hoisting, depending on the depth that cylinder mould is placed can be with shoal of fish distribution situation, after LED light source on operation fishing boat is opened, light is transferred to plastic conductive fibre bundle the annular fiber illuminator of cylinder mould, and the shoal of fish with phototaxis can be attracted near cylinder mould, after the shoal of fish enters cylinder mould from the horn mouth of cylinder mould, rethink out cylinder mould just very difficult, so, be achieved that deep-sea photo-induction fishing operation.

It is known that the phototactic characteristics of the different shoals of fish are also different, the different luminescent spectrum of underwater fishing lamp can attract the different shoals of fish.So, according to shoal of fish species, it is also an important technology requirement to the present embodiment underwater optical fibre fishing lamp to select most suitable luminous intensity and luminescent spectrum.

Accompanying drawing 9 gives the schematic diagram of LED light source that the present embodiment used through plastic conductive Optical Fiber Transmission light.48V DC voltages are applied to concatenation light emitting diode 91 two ends, the light that light emitting diode sends is transferred to the crystal or high molecule plastic light conductor 94 of optical fiber connector through plastic conductive optical fiber 93, light conductor 94 is lighted.In the outside of plastic conductive fibre bundle, overcoat 92 is enclosed with.Light emitting diode（LED）It is that current power consumption is small, luminous efficiency is high, environmental suitability is stronger, and the new type light source of multispectral light can be sent, thus is more satisfactory illuminating source.Optical Fiber Transmission light is conducted just because of employing, enable that illuminating source is separated from far away with underwater light-emitting body, so, the luminous illumination and luminescent spectrum of LED light source can be conveniently and efficiently adjusted on operation fishing boat, and then brightness and the color of change underwater optical fibre fishing lamp, improve the actual effect of light fish trap.

The present embodiment using plastic optical fiber as conduction optical fiber, plastic optical fiber have it is soft, the characteristics of easily knot, can easily mend and be fixed on cylinder mould support or wire side.Accompanying drawing 10 gives plastic optical fiber knotting fixed several ways.Plastic optical fiber 102 is knotted and is fixed on cradling piece 103 or nettle, light conductor 101 can under water light and be rocked with stream, lure the shoal of fish.

In order to improve the efficiency of cylinder mould deep-sea fishing, raw meat can also be increased in the cylinder mould and lures device, operation fishing boat to provide instruction in good time, make raw meat lure device to open, the attracting material inside device spreads apart and, lure more shoals of fish to be close to, entered cage and be caught.

Embodiment six：

The present embodiment is combined for column underwater optical fibre fishing lamp with vertical-type deep-sea photo-induction net cage for fishing, and its structure is as shown in Figure 6.

The framework of the present embodiment cylinder mould is by upper annulus 63, lower annulus 70 and the grade of horizontal brace rod 66 are constituted, the wire side of cage net 69 surrounds whole framework, the upper annulus 63 of the connection of hawser 62, the columnar bracket 65 that conduction fibre bundle 61 enters in cylinder mould from top, plastic conductive optical fiber after beam splitting is balancedly fixed on columnar bracket 65 respectively, the end of plastic conductive optical fiber connects light conductor 64 respectively, in the bottom of columnar bracket 65, also draw one group or one conduction optical fiber, the light extraction end connection light conductor 68 of the group or root conduction optical fiber, what the fish inlet 67 of the vertical cylinder mould was still horizontally oriented.

In addition to being had any different in net cage for fishing configuration aspects and embodiment five, the structure of column underwater optical fibre fishing lamp is also different, and the fish gathering modulated structure is as shown in Figure 8 for the present embodiment.

The present embodiment photo-induction fishing method, process and and the aspect such as light fish trap Function and action effect, herein not repeated description essentially identical with embodiment five.

Claims (9)

1. underwater optical fibre fishing lamp, its composition includes, illuminating source, conduction fibre bundle, light conductor, it is characterised in that：It also includes support under water in constituting, conduction fibre bundle is fixed on the support under water, and light conductor is connected to the light extraction end of conduction fibre bundle.

2. underwater optical fibre fishing lamp according to claim 1, it is characterised in that：The support under water is annular support, the annular support can be hollow out support, it can also be the support with hole, conduction fibre bundle is divided into some groups, it is fixed on annular support every group of equalizing fiber, the light extraction end for conducting optical fiber passes from annular support hole, and conduction optical fiber light extraction is connected with crystal or high molecule plastic light conductor at end, constitutes ring-type underwater optical fibre fishing lamp.

3. underwater optical fibre fishing lamp according to claim 2, it is characterised in that：The annular support center also sets up one group of conduction optical fiber, and the light extraction end of group conduction optical fiber is connected with crystal or high molecule plastic light conductor, and light conductor is located at the geometry circle centre position of annular support.

4. the underwater optical fibre fishing lamp according to Claims 2 or 3, it is characterised in that：The ring-type underwater optical fibre fishing lamp is arranged on the center of horizontal type net cage for fishing, the net cage for fishing is made up of support, dictyosome and hawser, support is made up of some annular supports and horizontal brace rod again, annular support constitutes an integral support by horizontal brace rod knot, dictyosome covers on integral support periphery and forms cylinder mould, the shoal of fish enters cage entrance in horizontal direction, hawser is connected to the annular support at integral support two ends, and the annular support in integral support centre position becomes the annular support of underwater optical fibre fishing lamp.

5. underwater optical fibre fishing lamp according to claim 1, it is characterised in that：The support under water is empty support in column, conduction fibre bundle is placed in the inner space of empty support in column, conduction fibre bundle is divided into some groups, every group of equalizing fiber ground is fixed in column empty support, the light extraction end for conducting optical fiber passes the lateral surface of empty support in column, conduction optical fiber light extraction is connected with crystal or high molecule plastic light conductor at end, constitutes column underwater optical fibre fishing lamp.

6. underwater optical fibre fishing lamp according to claim 5, it is characterised in that：One group of conduction optical fiber is also set up in empty support in the column, crystal or high molecule plastic light conductor is connected with the light extraction end of group conduction optical fiber, and stretch out the bottom surface of empty support in column.

7. the underwater optical fibre fishing lamp according to claim 5 or 6, it is characterised in that：The column underwater optical fibre fishing lamp is arranged on vertical-type net cage for fishing center, the net cage for fishing is made up of support, dictyosome and hawser, support is made up of circular support and vertical connecting again, circular support constitutes an integral support by vertical connecting knot, dictyosome covers on integral support periphery and forms cylinder mould, the shoal of fish enters cage entrance in horizontal direction, and hawser is connected to the circular support on integral support top.

8. underwater optical fibre fishing lamp according to claim 1, it is characterised in that：Also include spherical support in composition, conduction fibre bundle is placed in the inner space of spherical support, conduction fibre bundle is divided into some groups, every group of equalizing fiber ground is fixed on spherical support, the light extraction end for conducting optical fiber passes spherical rack outer surface, and crystal or high molecule plastic light conductor are connected with conduction optical fiber light extraction end, constitute spherical underwater fishing lamp.

9. underwater optical fibre fishing lamp according to claim 1, it is characterised in that：The conduction fibre bundle is made into bait shape near the lacing of light extraction end, or light conductor is bait shape.