CN205227040U - Optic fibre fishing lamp under water - Google Patents

Abstract

The utility model relates to an optic fibre fishing lamp under water, characteristics are that light source on water is connected with the light end that advances that conducts optic fibre, and conduction optic fibre light -emitting end is connected with the light conductor, conducts optic fibre and is fixed in support under water, and the support has ring -type, column, globular, fish bait form under water. The optic fibre fishing lamp under water of various shape structures is harmonious with different fishing devices utensil again. The utility model discloses the leaded light nature of full play optic fibre material, compliance, lower temperature resistance, easy fixity can be conducted the light of surface of water light source under the deep water on the one hand to avoid the pressure of resistant deep sea the, low temperature, the corruption scheduling problem of power and lamps and lanterns, on the other hand can be conveniently through illuminance and the spectrum of adjusting illuminating source on the sea, improve the photo -induction fishing effect to the different shoals of fish. The utility model discloses the manufacturing is simple, use cost is low, non -maintaining to can effectively utilize various green energy, like solar energy, wind energy, tidal energy etc.

Description

Underwater optical fibre fishing lamp

Technical field

The utility model relates to photo-induction fishing fishing gear, is especially a kind of underwater optical fibre fish gathering light fixture using optical fiber as light transmission medium, and is combined with all kinds of fishing gear by the underwater optical fibre fishing lamp that difformity constructs, be especially combined with deep-sea fishing cylinder mould.

Background technology

Must adopt artificial light source fishing lamp in photo-induction fishing operation, fishing lamp is divided into waterborne and under water, and the effect that fishing lamp uses under water is better than waterborne.Adopt the fishing lamp of artificial light source, experienced by very long evolution, by vapour lamp (mantle lantern) to incandescent lamp, arrive Halogen lamp LED again, as low pressure mercury lamp, thallium lamp, thallium indium lamp, then to the LED occurred in the recent period.

The effect of fishing lamp is exactly the phototaxis utilizing some fish, to throw the net and fishes for, or fish, or lure the deepwater field shoal of fish into catching cage the shoal of fish being lured collection to comparatively shallow water area.The luminous efficiency of fishing lamp, Costco Wholesale, brightness regulation, spectrum regulate the leading indicator becoming and weigh its serviceability, and the ingenious perfect adaptation of fishing lamp and all kinds of fisher, photo-induction for the deep-sea shoal of fish is caught operation and provide effective fishery instrument, traditional fishing lamp then needs the anti-high pressure and the Low Temperature Problems that solve light fixture and power supply under abyssal environment; China's deep sea fishery aboundresources, red sweet fish, comb fish, deep-sea eel, the red shrimp in deep-sea etc. as large in the scale of construction, all for want of practical Fishing technology, and do not developed by people always." deep-sea cage is caught " technology is recent development deep sea fishing technology out.For attracting more fishes to come to look for food, improve catching rate, deep-sea cylinder mould, except making except respective design in frame for movement, usually also arranges raw meat and lures device harmony light fish-baiting instrument.At benthos, being used for the fishing lamp of attracting wants on the one hand can resist abyssalpelagic high pressure and low temperature environment, and another aspect also will solve the problem of the continued power of fishing lamp.LED ready-made in order to a kind of luminous efficiency high, new type light source low in energy consumption.LED fishing lamp also has the example for fishing gear under water, but the power supply supply of LED fishing lamp is still subject to the restriction of underwater power device self under water, and one is power supply self environmental suitability and reliability, and another is the continuation that power supply uses.

Summary of the invention

An object of the present utility model designs optical fiber fishing lamp, give full play to the guiding property of optical fiber, light emitting source waterborne is made to pass through fiber optic conduction, brightness and the adjustable light of spectrum are transferred under water, thus form structure and different optical fiber fishing lamp, and optical fiber fishing lamp is combined with various fishing gear, to realize the object of photo-induction fish gathering seizure.

For achieving the above object, the technical solution of the utility model is, this underwater optical fibre fishing lamp formation comprises, illuminating source, conduction fibre bundle, light conductor, it is characterized in that: it also includes support under water in forming, conduction fibre bundle is fixed on this support under water, and light conductor is connected to the bright dipping end of conduction fibre bundle.

In above-mentioned underwater optical fibre fishing lamp technical scheme, described support is under water annular support, this annular support is the pertusate support of band, conduction fibre bundle is divided into some groups, often organize fibre bundle to be balancedly fixed on annular support, the bright dipping end of conduction fibre bundle passes from annular support hole, and conduction fibre bundle bright dipping end place is connected with crystal or high molecule plastic light conductor, forms ring-type underwater optical fibre fishing lamp.

In above-mentioned ring-type underwater optical fibre fishing lamp technical scheme, the annular support center of described ring-type underwater optical fibre fishing lamp also arranges one group of conduction fibre bundle, the bright dipping end of this group conduction fibre bundle is connected with crystal or high molecule plastic light conductor, and light conductor is positioned at the geometry circle centre position of annular support.

In above-mentioned ring-type underwater optical fibre fishing lamp technical scheme, its formation also includes horizontal type net cage for fishing, and described ring-type underwater optical fibre fishing lamp is arranged on the center of horizontal type net cage for fishing.This 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 is by horizontal brace rod knot formation integral support, dictyosome covers on this 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 namely 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, makes deep-sea fish group energy be subject to the photo-induction of fishing lamp, enters into after in cylinder mould captured from horizontal direction, improves the fishing result that tradition food lures deep-sea fishing cylinder mould.

In above-mentioned underwater optical fibre fishing lamp technical scheme, described support is under water 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, often organize fibre bundle and be balancedly fixed on empty support in column, the bright dipping end of conduction fibre bundle passes the lateral surface of empty support in column, and conduction fibre bundle bright dipping end place is connected with crystal or high molecule plastic light conductor, forms column underwater optical fibre fishing lamp.

In above-mentioned column underwater optical fibre fishing lamp technical scheme, one group of conduction fibre bundle is also set in empty support in the column of described column underwater optical fibre fishing lamp, the bright dipping end place of this group conduction fibre bundle is connected with crystal or high molecule plastic light conductor, and stretches out the bottom surface of empty support in column.

In above-mentioned column underwater optical fibre fishing lamp technical scheme, its formation also includes vertical-type net cage for fishing, described column underwater optical fibre fishing lamp is arranged on vertical-type net cage for fishing center, this 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 is by vertical connecting knot formation integral support, dictyosome covers on this 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.This column underwater optical fibre fishing lamp is combined with vertical-type deep-sea fishing cylinder mould, makes the deep-sea shoal of fish be subject to the photo-induction of fishing lamp, enters into after in cylinder mould captured from horizontal direction, improves the fishing result that tradition food lures deep-sea fishing cylinder mould.

In above-mentioned underwater optical fibre fishing lamp technical scheme, described support is under water spherical support, conduction fibre bundle is placed in the inner space of spherical support, conduction fibre bundle is divided into some groups, often organize fibre bundle and be balancedly fixed on spherical support, the bright dipping end of conduction fibre bundle passes spherical rack outer surface, and conduction fibre bundle bright dipping end place is connected with crystal or high molecule plastic light conductor, forms spherical underwater fishing lamp.The light fixture scale of construction of this spherical underwater optical fibre fishing lamp is large, 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, described conduction fibre bundle is woven into bait shape near bright dipping end portion, or the light conductor shape that is connected with conduction fibre bundle bright dipping end is bait shape, forms fish bait shape underwater optical fibre fishing lamp.As the shape of little cuttlefish shape or other little shape fishes and shrimps, insects.This kind of fish bait shape underwater optical fibre fishing lamp then can combine with various fishing tackle, improves the effect that fishing tackle is fished under night or insufficient light condition.

Above-mentioned various structure can combine with various large-scale fisher and small and exquisite fishing tackle easily with the underwater optical fibre fishing lamp of shape.As above-mentioned ring-type, column, spherical underwater optical fibre fishing lamp being combined with deep-sea fishing cylinder mould, the photo-induction fishing result of deep-sea fishing cylinder mould can be increased.In addition, the underwater optical fibre fishing lamp of above-mentioned various shape can also as the artificial light source under water required for deep water culture, to improve the seed output and quality of deep water culture.

The utility model has the advantages that:

1, the performance of Optical Fiber Transmission light is utilized, can make can separate very long distance between illuminating source and fishing lamp on the one hand, illuminating source can be placed on sea, thus reduces deep-sea fishing lamp to the requirement of the anti-deep sea pressure of power supply, anti-low temperature and anti-seawater corrosion; Can, easily by regulating illumination and the spectrum of illuminating source on sea, the brightness of the fishing lamp at deep-sea place and luminescent spectrum be changed, to meet the photo-induction demand to the different shoal of fish on the other hand.

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

3, manufacture, use cost is low, non-maintaining, various green regenerative energy sources can be effectively utilized, as solar energy, wind energy, tide energy etc.Tradition fishing lamp or electric energy is flowed to underwater fishing lamp by electric wire, or provide independent battery for LED fishing lamp under water, although LED is low in energy consumption, but still face the restricted problem of life cycle.

4, tensility, flexibility, stitchability, knotting property specific to plastic conductive optical fiber self has been given full play to.Utilize the above-mentioned characteristic of plastic conductive optical fiber on the one hand, directly it can be used as fishline to use, light is transmitted to photo-induction fish gathering near fishhook through fishline simultaneously; Utilize the above-mentioned characteristic of plastic conductive optical fiber on the other hand, optical fiber fishing lamp can be made can to realize soft connection with between fixed support, as fixing in tied a knot; Utilize the above-mentioned characteristic of plastic conductive optical fiber more on the one hand, can also by conduction optical fiber and cylinder mould material mixed weaving, conduction optical fiber place of arrival, light conductor in connection, can form luminous cylinder mould, in order to deep-sea breeding.

Accompanying drawing explanation

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

Fig. 2 is the structural representation of the utility model column underwater optical fibre fishing lamp.

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

Fig. 4 is the structural representation that the utility model bait shape underwater optical fibre fishing lamp is combined with fishing tackle.

Fig. 5 is the structural representation that the utility model ring-type underwater optical fibre fishing lamp combines with horizontal type deep-sea fishing cylinder mould.

Fig. 6 is the structural representation that the utility model column underwater optical fibre fishing lamp vertical-type deep-sea fishing cylinder mould combines.

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

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

Fig. 9 is that the utility model adopts LED as the light transmission of light source, luminous schematic diagram.

Figure 10 is that the utility model conduction optical fiber and support or nettle are tied a knot the schematic diagram of fixed form.

In above accompanying drawing, 11 is conduction fibre bundles, 12 is ring-type support arms, 13 is ring-type inner supports, 14 is conduction fibre bundles, 15 is center illuminators, 16 is crystal or high molecule plastic light conductor, 21 is conduction fibre bundles, 22 is empty supports in column, 23 is crystal or high molecule plastic light conductor, 24 be bottom bright body conduction fibre bundle, 25 is bright bodies bottom column, 31 is conduction fibre bundles, 32 is spherical shell bodies, 33 is crystal or high molecule plastic light conductor, 34 is orbicule interior shelf, 41 is light emitting diodes, 42 is fishing rods, 43 is conduction fibre bundles, 44 is cursory, 45 is bait shape light bodies, 46 is fish hooks, 51 is hawsers, 52 is conduction fibre bundles, 53 is cage nets, 54 is light conductors, 55 is annular supports, 56 is central guiding body of light, 57 is horizontal brace rods of cylinder mould, 58 is cylinder mould small circle rings, 59 is cylinder mould large circles, 61 is conduction fibre bundles, 62 is hawsers, 63 is upper annulus frameworks, 64 is light conductors, 65 is columnar brackets, 66 is cylinder mould horizontal brace rods, 67 is cylinder mould fish inlets, 68 is bottom light conductors, 69 is cage nets, 70 is lower annulus frameworks, 71 is conduction fibre bundles, 72 is annular support shell bodies, 73 is annular supports, 74 is central guiding body of light, 75 is light conductors, 81 is conduction fibre bundles, 82 is columnar brackets, 83 is light conductors, 84 is bottom light conductors, 91 is light emitting diode (LED), 92 is conduction fibre bundle overcoats, 93 is conduction optical fiber, 94 is light conductors, 101 is illuminators, 102 is plastic conductive optical fiber, 103 is cradling pieces.

Detailed description of the invention

Embodiment one:

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

The upper end light inlet of conduction 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, be fixed on ring-type support arm 12 with often organizing optical fiber or every root equalizing fiber, the bright dipping termination often organizing optical fiber or every root optical fiber connects crystal or high molecule plastic light conductor 16.In addition, also have one group of conduction optical fiber 14 to hold up downwards in conduction fibre bundle 11, the bright dipping end of this group conduction optical fiber 14 connects crystal or high molecule plastic light conductor forms center light body 15, and ring-type inner support 13 is integral with ring-type support arm structure.Because light source on the water surface is transferred under water by inside of optical fibre light transmission medium by conduction optical fiber, conduct the high pressure resistant of optical fiber, corrosion-resistant, low temperature resistant, not fragile, the characteristic that monomer damages does not affect other is fully represented, simultaneously, brightness and the glow color of underwater optical fibre fishing lamp can be changed by the illuminance and spectrum regulating LED light source, to meet fishing lamp in difference fishing occasion to the needs of spectrum at the water surface.

Embodiment two:

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

Conduction fibre bundle 21 to stretch in column in empty support 22, and be divided into some groups or root wherein, often group or every root conduction optical fiber are balancedly fixed on empty support 22 in column, often the bright dipping termination of group or every root optical fiber passes columnar bracket, bright dipping termination connects crystal or high molecule plastic light conductor 23, conduction optical fiber is intrafascicular has one group to conduct optical fiber 24 straight down, is fixed on the bottom of empty support in column, and this group conduction optical fiber bright dipping termination connects crystal or high molecule plastic light conductor 25.The present embodiment vertical height can extend arbitrarily, like this, the optical fiber current collection lamp an of the present embodiment just can reach the photo-induction effect of multiple fishing lamp in the past, and cost can be relatively much lower, equally, by regulating illuminance and the spectrum of water surface LED light source, brightness and the glow color of the present embodiment fishing lamp can be regulated easily, to lure different types of shoal of fish, realize lamp and lure operation.

Embodiment three:

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

In the present embodiment, conduction fibre bundle 31 is placed in the inner space of sphere-shape support, conduction fibre bundle is divided into some groups, often organize equalizing fiber ground and be fixed on sphere-shape rack shell body 32, the bright dipping end of conduction optical fiber passes sphere-shape rack outer surface, and conduction optical fiber bright dipping end place is connected with crystal or high molecule plastic light conductor 33, orbicule interior shelf 34 plays the effect of supporting sephere shape rack shell.The present embodiment sphere underwater fishing lamp, can also as the artificial light source of deep water culture except the artificial light source fished as deep water photo-induction.By arranging the seed output and quality that this kind of artificial light source improves marine organisms product at deep water.

Embodiment four:

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

Fishing rod 42 end is provided with light emitting diode 41, conduction fibre bundle 43 selects the fiber optic materials that can meet fishline intensity, the bright dipping end of conduction fibre bundle 43 can connect the light conductor 45 of bait shape, and (as small fish, shrimp, small worm etc.) assemble food bite to lure fish.Cursory 44 can to select fluorescence, also can become Luminous float by the conduction optical fiber bright dipping end guide structure floating with energy.

Embodiment five:

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

Large circle 59, small circle ring 58 and horizontal brace rod 57 form the framework of cylinder mould, this framework covers by permeable cage net 53, hawser 51 connects the large circle 59 at netpen framework two ends, large circle 59 forms the tapering trumpet-like passage of two levels with small circle ring 58 and cage net, the annular support 55 of ring-type underwater optical fibre fishing lamp is hollow structure, be fixed on inside annular support from the plastic conductive equalizing fiber of plastic conductive fibre bundle 52 beam splitting, the bright dipping end being fixed on the plastic conductive optical fiber on annular support passes from the hole of annular support, and connect crystal or high molecule plastic light conductor 54, become optical fiber luminescent monomer, numerous such optical fiber luminescent monomer relies on annular support to define a Luminous Ring.The center of annular support 55, is also provided with the plastic optical fiber electroluminescent lamp that a scale of construction is larger.Accompanying drawing 7 gives the section of structure of this 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 fixed on annular support 73 in the form of a ring, the bright dipping end of each plastic conductive optical fiber connects crystal or high molecule plastic light conductor 75, a branch of plastic conductive fiber perpendicular that plastic conductive fibre bundle 71 separates is down to annular support center, this bundle plastic conductive optical fiber bright dipping end is connected with crystal or high molecule plastic light conductor, defines the plastic optical fiber electroluminescent lamp that the scale of construction being positioned at cylinder mould center is larger.

Operation fishing boat arrives operation marine site, with boom hoisting, cylinder mould is put in deep-sea, the degree of depth that cylinder mould is placed can be determined with shoal of fish distribution situation, after LED light source on operation fishing boat is opened, light transmission to the annular fiber illuminator of cylinder mould, is had the phototactic shoal of fish and can attracted near cylinder mould by plastic conductive fibre bundle, after the shoal of fish enters cylinder mould from the horn mouth of cylinder mould, rethink out cylinder mould just very difficult, like this, just achieve deep-sea photo-induction fishing operation.

We know, the phototactic characteristics of the different shoal of fish is also different, and the different luminescent spectrum of underwater fishing lamp can attract the different shoals of fish.So, according to shoal of fish kind, select most suitable luminous intensity and luminescent spectrum to be also an important technology requirement to the present embodiment underwater optical fibre fishing lamp.

Figure 9 shows LED light source that the present embodiment the adopts schematic diagram through plastic conductive Optical Fiber Transmission light.48V DC voltage is applied to serial connection light emitting diode 91 two ends, the light that light emitting diode sends is transferred to crystal or the high molecule plastic light conductor 94 of optical fiber connector through plastic conductive optical fiber 93, makes light conductor 94 luminous.In the outside of plastic conductive fibre bundle, be enclosed with overcoat 92.Light emitting diode (LED) is that current power consumption is little, luminous efficiency is high, environmental suitability is comparatively strong, and can send the new type light source of multispectral light, because of but more satisfactory illuminating source.Just because of have employed conduction optical fiber transmission ray, illuminating source can be separated from far away with underwater light-emitting body, so, luminous illumination and the luminescent spectrum of LED light source can be regulated quickly and easily on operation fishing boat, and then change brightness and the color of underwater optical fibre fishing lamp, improve the actual effect of photo-induction fishing.

The present embodiment adopts plastic optical fiber as conduction optical fiber, and plastic optical fiber has the feature of softness, easily knotting, can mend easily and be fixed on cylinder mould support or wire side.Accompanying drawing 10 gives plastic optical fiber knotting fixing several mode.Be fixed on cradling piece 103 or nettle by plastic optical fiber 102 knotting, light conductor 101 can be luminous under water and rock with stream, lures the shoal of fish.

In order to improve the efficiency of cylinder mould deep-sea fishing, can also increase raw meat in this cylinder mould and lure device, operation fishing boat provides instruction in good time, makes raw meat lure device to open, and the attracting material of device inside spreads apart, and lures the more shoal of fish close, enters cage and be caught.

Embodiment six:

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

The framework of the present embodiment cylinder mould is by upper annulus 63, the formations such as lower annulus 70 and horizontal brace rod 66, whole framework surrounds by the wire side of cage net 69, hawser 62 connects upper annulus 63, conduction fibre bundle 61 enters the columnar bracket 65 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 a conduction optical fiber, the bright dipping end of this group or this root conduction optical fiber connects light conductor 68, the fish inlet 67 of this vertical cylinder mould remains horizontal direction.

The present embodiment is except having any different in net cage for fishing configuration aspects and embodiment five, and the structure of column underwater optical fibre fishing lamp is also different, and this fishing lamp structure as shown in Figure 8.

The present embodiment photo-induction fishing method, process and and photo-induction fishing Function and action effect etc. in, substantially identical with embodiment five, at this not repeated description.

Claims (8)

1. underwater optical fibre fishing lamp, its formation comprises, illuminating source, conduction fibre bundle, light conductor, it is characterized in that: it also includes support under water in forming, conduction fibre bundle is fixed on this support under water, and light conductor is connected to the bright dipping end of conduction fibre bundle.

2. underwater optical fibre fishing lamp according to claim 1, it is characterized in that: described support is under water annular support, this annular support is the pertusate support of band, conduction fibre bundle is divided into some groups, often organize fibre bundle to be balancedly fixed on annular support, the bright dipping end of conduction fibre bundle passes from annular support hole, and conduction fibre bundle bright dipping end place is connected with crystal or high molecule plastic light conductor, forms ring-type underwater optical fibre fishing lamp.

3. underwater optical fibre fishing lamp according to claim 2, it is characterized in that: the annular support center of described ring-type underwater optical fibre fishing lamp also arranges one group of conduction fibre bundle, the bright dipping end of this group conduction fibre bundle is connected with crystal or high molecule plastic light conductor, and light conductor is positioned at the geometry circle centre position of annular support.

4. the underwater optical fibre fishing lamp according to Claims 2 or 3, it is characterized in that: its formation also comprises horizontal type net cage for fishing, described ring-type underwater optical fibre fishing lamp is arranged on the center of horizontal type net cage for fishing, this net cage for fishing is by support, dictyosome and hawser are formed, support is made up of some annular supports and horizontal brace rod again, annular support forms an integral support by horizontal brace rod, dictyosome covers on this 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, namely 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 characterized in that: described support is under water 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, often organize fibre bundle and be balancedly fixed on empty support in column, the bright dipping end of conduction fibre bundle passes the lateral surface of empty support in column, and conduction fibre bundle bright dipping end place is connected with crystal or high molecule plastic light conductor, forms column underwater optical fibre fishing lamp.

6. underwater optical fibre fishing lamp according to claim 5, it is characterized in that: one group of conduction fibre bundle is also set in empty support in the column of described column underwater optical fibre fishing lamp, the bright dipping end place of this group conduction fibre bundle is connected with crystal or high molecule plastic light conductor, and stretches out the bottom surface of empty support in column.

7. the underwater optical fibre fishing lamp according to claim 5 or 6, it is characterized in that: its formation also includes vertical-type net cage for fishing, described column underwater optical fibre fishing lamp is arranged on vertical-type net cage for fishing center, this 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 forms an integral support by vertical connecting, dictyosome covers on this 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 characterized in that: described support is under water spherical support, conduction fibre bundle is placed in the inner space of spherical support, conduction fibre bundle is divided into some groups, often organize fibre bundle and be balancedly fixed on spherical support, the bright dipping end of conduction fibre bundle passes spherical rack outer surface, and conduction fibre bundle bright dipping end place is connected with crystal or high molecule plastic light conductor, forms spherical underwater fishing lamp.