CN110939926A - Broadband carrier eccentric double-lens tube penetrating device for lighting optical fiber filaments - Google Patents

Abstract

The invention discloses a tube-penetrating device of a broadband carrier eccentric double lens of an illumination optical fiber filament, which structurally comprises: the invention realizes the matching of the bottom electric plate groove barrel and the optical fiber tube-penetrating barrel groove by inserting the barrel groove body at the bottom of the bottom electric plate groove barrel, then a double-lens sliding frame is arranged in the inner part, and the double-lens clamping block forms a broadband carrier light path steady flow feedback effect to the optical fiber yarns, after the double-lens clamping block is ensured to move, the wrapping protection of the optical fiber wire connecting end is realized, the breakdown current is stabilized, the cross-sectional current conducting area is widened, the refractive index of the convex lens is improved, the brightening addition effect of illumination is formed, thereby the precision of stable current light guide transport, and form the suppression to the feedback current of lamp pearl groove seat one by one, avoid reverse breakdown too big burning black loss plate electrode, promoted the signal of telecommunication continuity of carrier wave in-process, let the wide band conduction flux promote, and the electric current protective properties strengthens.

Description

Broadband carrier eccentric double-lens tube penetrating device for lighting optical fiber filaments

Technical Field

The invention relates to a tube penetrating device of a broadband carrier eccentric double lens for illuminating an optical fiber filament, belonging to the field of optical fibers.

Background

The butt joint of lamp stand pin piece board one by one of lighting lamp pearl is the bottom pressure that forms a poling through the optical fiber silk and pastes the effect, lets the short bridging effect that forms the electric current and switch on of silk thread, gives the cable formation of concentrating and divides the synchronous power supply effect of seat butt joint, and the public shortcoming of treating the optimization of guarantee optical fiber in the work has at present:

short and the light guide nature of filament butt joint of ripples frequency of illumination optical fiber silk is narrow, can cause the poling grafting in-process, it is too big to advance to send out breakdown current density to lamp pearl pin and electrode slice, thereby loss electrode slice and pin end let it blacken, the electric plate conductivity that crosses of lamp pearl when leading to the illumination descends, and the circulation of disturbing counterpoint electrode is influenced, cause the wave band after the poling unstable, thereby intermittent type formula light guide stops suddenly, the luminance that makes the illumination is neglected, make the break-make effect when optical fiber silk butt joint cable not good, let whole electric current butt joint cause the phenomenon that short frequently and breakdown current protective force are not enough, it is serious to lead to whole optical fiber loss.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a broadband carrier eccentric double-lens tube penetrating device for an illuminating optical fiber wire, and aims to solve the problems that the wavelength of the illuminating optical fiber wire is short, the optical conductivity of the butt joint of the thin wire is narrow, the density of breakdown current which is sent to a lamp bead pin and an electrode plate is too high in the tube penetrating and inserting process, the electrode plate and the pin end are blackened due to loss, the conductivity of an over-current board of the lamp bead is reduced in the illuminating process, the circulation of an alignment electrode is interfered, the wave band after tube penetrating is unstable, intermittent optical conduction is suddenly stopped, the illumination brightness is suddenly changed, the on-off effect of the optical fiber wire in the cable butt joint is poor, the phenomenon that the whole current butt joint causes short-frequency and insufficient protection force of the breakdown current, and the loss of the whole optical fiber is serious.

In order to achieve the purpose, the invention is realized by the following technical scheme: a broadband carrier eccentric double-lens tube penetrating device for illuminating an optical fiber filament structurally comprises: the lamp comprises a line concentration lamp post, a lamp bead groove seat, a lamp bead plate block, a support rod, a lamp shade clamping ring, a bottom electric plate groove barrel and a fiber through pipe barrel groove, wherein the fiber through pipe barrel groove is inserted and embedded under the bottom of the bottom electric plate groove barrel and communicated with each other, the lamp shade clamping ring and the bottom electric plate groove barrel are buckled together, the axes of the lamp shade clamping ring and the bottom electric plate groove barrel are collinear, the support rod is inserted and embedded on the top of the lamp shade clamping ring and vertical to each other, the lamp bead plate block is mechanically connected with the support rod, the lamp bead groove seat is provided with more than two parts which are arranged inside the lamp bead plate block and on the same inclined plane, the line concentration lamp post is embedded on the top of the lamp bead plate block, the fiber through pipe barrel groove is provided with a steady flow pull ring frame, a bi-lens slide frame, a track rod support, a fiber silk thread, a barrel groove body, a relay feedback seat, a through pipe line concentration cylinder and a top frame, the utility model discloses a line ball collecting device, including a double-lens balladeur train, optical fiber pole support, a cylinder groove body, relay feedback seat, optical fiber pole, the double-lens balladeur train is in the same place with the optical fiber silk thread lock, the optical fiber silk thread all inserts the inside of inlaying at a cylinder groove body with the track pole support, a cylinder groove body and relay feedback seat swing joint, the optical fiber silk thread is equipped with more than two and all inserts and inlay on the top of poling line collecting section of thick bamboo, poling line collecting section of thick bamboo and line ball roof-rack.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the steady flow pull ring frame consists of an electrode plate, a pull ring frame and a rubber ball core, wherein the rubber ball core and the pull ring frame are in interference fit, and the two electrode plates are respectively nested at the upper side and the lower side of the pull ring frame.

As a further improvement of the invention, the pull ring frame consists of a ring frame thin plate, a press-buckling block, a spring wire frame and a pin piece, wherein the ring frame thin plate is buckled with the press-buckling block, the spring wire frame is electrically connected with the pin piece, and the spring wire frame is arranged inside the ring frame thin plate and is positioned on the same vertical plane.

As a further improvement of the invention, the double-lens sliding frame consists of a double-lens clamping block and a sliding sleeve, the double-lens clamping block is arranged on the left side of the sliding sleeve, and the double-lens clamping block is movably connected with the sliding sleeve and is positioned on the same vertical surface.

As a further improvement of the present invention, the dual-lens clamping block comprises an inward convex lens, an electric plate slot, a thin electric plate, and an angle-spreading bent tube, wherein the electric plate slot is electrically connected with the thin electric plate and is located on the same inclined plane, the thin electric plate is inserted and embedded inside the inward convex lens, and the angle-spreading bent tube and the inward convex lens are buckled together.

As a further improvement of the invention, the relay feedback seat is composed of a relay arc plate, a spring wire and a spring wire bottom plate, the relay arc plate is mechanically connected with the spring wire bottom plate through the spring wire, the axes of the relay arc plate and the spring wire bottom plate are collinear, and the spring wire is inserted and embedded on the axis of the spring wire bottom plate.

As a further improvement of the invention, the relay arc plate consists of a lens balloon, a copper wire, a relay seat and an arc plate groove, wherein the lens balloon is electrically connected with the relay seat through the copper wire and is positioned on the same central line, and the relay seat is arranged inside the arc plate groove and is positioned on the same arc surface.

As a further improvement of the invention, the line pressing top frame consists of a pressing ball cap, a short post rod and a sliding block, wherein the pressing ball cap is nested on the left side of the short post rod, the axes of the pressing ball cap and the short post rod are collinear, and the short post rod is nested on the left side of the sliding block.

As a further improvement of the invention, the top pressure ball cap consists of a ball cap shell, two magnet balls, a ball rod and an edge inner cavity, wherein the two magnet balls are respectively clung to the upper side and the lower side of the ball rod, the axes of the magnet balls are collinear, the ball cap shell and the edge inner cavity are of an integrated structure and are communicated with each other, and the magnet balls and the ball rod are both arranged inside the edge inner cavity and are positioned in the same circle.

As a further improvement of the invention, the ring frame thin plate is of a frame plate structure with narrow upper and lower points, wide middle and thick inner oval grooves, so that the crossed narrow ends of the upper and lower pull rings are conveniently twisted and pressed to form a chain belt effect, and the upper and lower tension rings form a continuous steady flow electrode conduction effect to stabilize an inner magnetic field.

As a further improvement of the invention, the spread angle bent pipe is of a bent pipe structure with an upper convex arc, a left narrow part and a right narrow part and a wide part, so that the two sides of the inner mirror image and the outer included angle form a slot to avoid light transmission, and the feedback quantity increasing operation of the whole broadband glass carrier is ensured.

As a further improvement of the invention, the lens saccule is of a composite saccule structure with a top lens lobe and a bottom ball with a saccule, so that the light sensation of the top feedback lens body is facilitated, and then the relay and current stabilization effect is formed under the refraction feedback of the ball.

As a further improvement of the invention, the inner chamber of the edge is an edge chamber structure with seven edges, mirror plates are arranged on the edge, openings are formed in the edge chamber structure, the improvement of the compressive strength in a single side is facilitated, the breakdown current is fed back by multi-angle light condensation, and the lighting stability of the tube-penetrating optical fiber wire is formed.

Advantageous effects

The invention relates to a broadband carrier eccentric double-lens tube penetrating device for lighting optical fiber, which is characterized in that a worker penetrates a line concentration lamp post into a lamp bead groove seat to integrally weave an embedded wire, penetrates a lamp bead plate block to be in butt joint with a bottom electric plate groove barrel to form an upper and lower current erection effect between a support rod and a lamp shade buckle ring, then introduces cable current to an optical fiber thread through a tube penetrating and collecting barrel in a barrel groove body of an optical fiber tube penetrating groove, realizes the sliding and pulling of a double-lens carriage and a line pressing top frame on a track rod support, enables a plate electrode of a steady flow pull ring frame to be pressed and attached to a sliding sleeve to lift, pulls a ring frame thin plate of a pull ring frame and a pressing buckle block to be meshed with a rubber ball core to lift and elastically extend, enables a single side of a spring wire frame and a pin sheet to be electrified to form a transversely wrapped electric field force, enables an inner double-lens clamping block to generate a wave band refraction effect in the process of light emitted by an inner convex lens in an electric plate slot and a light slot, enables an inner convex lens and an, the stability of the illumination of guarantee bright light, the relay arc board unilateral pressure-bearing of relay feedback seat is also driven, make lens sacculus roof pressure copper wire line electrically conductive collect get into the relay seat in and cut off, electric field force through breakdown current, guarantee arc board groove roof pressure spring silk gliding spring silk bottom plate forms the increase resistance effect of sliding varistor, restrict the breakdown current volume, prevent electrically conductive over the rated value burn out the inner circuit, reach the poling of illumination optical fiber silk and independently adjust the effect, also promote the wide band carrier wave effect of optical fiber silk, make the eccentric leaded light rate of unilateral of the mirror body promote.

The invention has the following advantages after operation:

the application end electroplate groove section of thick bamboo cooperatees with optic fibre poling section of thick bamboo groove, through the bottom plug-in connection section of thick bamboo cell body at end electroplate groove section of thick bamboo, then erect the double lens balladeur train in inside and the double lens clamp piece forms the wide band carrier light path stationary flow feedback effect to the optical fiber silk, after the guarantee removes the double lens clamp piece, to the parcel protection of optical fiber line connection end, the stable breakdown current draws wide cross conduction area, the refractive index of convex lens is improved, form the improvement addition effect of brightening of illumination, thereby the precision of stable current light guide transport, and form the suppression to the feedback current of lamp pearl groove seat one by one, avoid reverse breakdown too big burning black loss plate electrode, the signal of telecommunication continuity in the carrier process has been promoted, let the wide band flux promote, and the current protection performance is strengthened.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a broadband carrier eccentric dual-lens tube penetrating device for illuminating an optical fiber according to the present invention.

FIG. 2 is a schematic cross-sectional view of the fiber optic feed-through tube slot of the present invention.

FIG. 3 is a schematic cross-sectional structural view of the working states of the steady flow pull ring frame, the double-lens sliding frame, the relay feedback seat and the line pressing top frame of the present invention.

FIG. 4 is an enlarged cross-sectional view of the tab frame of the present invention in its operating state.

FIG. 5 is a schematic view of the dual-lens block of the present invention in an overlooking configuration.

Fig. 6 is a schematic cross-sectional enlarged structure view of the relay arc plate according to the present invention in the operating state.

Fig. 7 is a perspective view of the top press ball cap according to the present invention in working condition.

Description of reference numerals: line concentration lamp post-1, lamp bead groove seat-2, lamp bead plate-3, support rod-4, lamp shade snap ring-5, bottom electric plate groove cylinder-6, optical fiber poling tube groove-7, steady flow pull ring frame-7A, double lens sliding frame-7B, rail rod support-7C, optical fiber silk thread-7D, tube groove body-7E, relay feedback seat-7F, poling line concentration tube-7G, line pressing top frame-7H, electrode plate-7A 1, pull ring frame-7A 2, rubber ball core-7A 3, ring frame thin plate-7A 21, pressing snap block-7A 22, spring wire frame-7A 23, pin sheet-7A 24, double lens clamp block-7B 1, sliding sleeve-7B 2, inward convex lens-7B 11, electric plate slot-7B 12, thin electric plate-7B 13, The device comprises an angle expansion bent pipe-7B 14, a relay arc plate-7F 1, a spring wire-7F 2, a spring wire bottom plate-7F 3, a lens balloon-7F 11, a copper wire-7F 12, a relay seat-7F 13, an arc plate groove-7F 14, a top pressing spherical cap-7H 1, a short column rod-7H 2, a sliding block-7H 3, a spherical cap shell-7H 11, a magnet spherical bead-7H 12, a spherical rod-7H 13 and an edge inner chamber-7H 14.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1-7, the present invention provides a broadband carrier eccentric dual-lens tube threading device for illuminating an optical fiber filament, which comprises: the lamp comprises a line concentration lamp post 1, a lamp bead groove seat 2, a lamp bead plate 3, a support rod 4, a lamp shade clamping ring 5, a bottom electric plate groove cylinder 6 and an optical fiber penetrating tube cylinder groove 7, wherein the optical fiber penetrating tube cylinder groove 7 is inserted and embedded under the bottom of the bottom electric plate groove cylinder 6 and is communicated with each other, the lamp shade clamping ring 5 and the bottom electric plate groove cylinder 6 are buckled together, the axes of the lamp shade clamping ring and the optical fiber penetrating tube cylinder groove are collinear, the support rod 4 is inserted and embedded on the top of the lamp shade clamping ring 5 and is vertical to each other, the lamp bead plate 3 is mechanically connected with the support rod 4, the lamp bead groove seat 2 is provided with more than two parts which are all arranged inside the lamp bead plate 3 and are positioned on the same inclined plane, the line concentration lamp post 1 is inserted and embedded on the top of the lamp bead plate 3, the optical fiber penetrating tube cylinder groove 7 is provided with a steady flow pull ring frame 7A, a double-lens sliding frame 7B, a track rod frame 7C, an optical, Line ball roof-rack 7H, stationary flow pull ring frame 7A installs the right side at two lens balladeur train 7B, two lens balladeur train 7B and track pole support 7C mechanical connection, two lens balladeur train 7B and optic fibre silk thread 7D lock are in the same place, optic fibre silk thread 7D all inserts the inside of inlaying at section of thick bamboo cell body 7E with track pole support 7C, section of thick bamboo cell body 7E and relay feedback seat 7F swing joint, optic fibre silk thread 7D is equipped with more than two and all inserts and inlay on the top of a poling collection section of thick bamboo 7G, a poling collection section of thick bamboo 7G and line ball roof-rack 7H mechanical connection, section of thick bamboo cell body 7E is inserted and is inlayed under the bottom of bottom electroplax groove section of thick bamboo 6 and link up each other.

Referring to fig. 3, the steady flow pull ring frame 7A is composed of an electrode plate 7A1, a pull ring frame 7A2 and a rubber ball core 7A3, the rubber ball core 7A3 and the pull ring frame 7A2 adopt interference fit, the electrode plate 7A1 is provided with two and is respectively nested on the upper side and the lower side of the pull ring frame 7A2, the double-lens carriage 7B is composed of a double-lens clamping block 7B1 and a sliding sleeve 7B2, the double-lens clamping block 7B1 is installed on the left side of the sliding sleeve 7B2, the double-lens clamping block 7B1 is movably connected with the sliding sleeve 7B2 and is on the same vertical plane, the relay feedback seat 7F is composed of a relay arc 7F1, a spring wire 7F2 and a spring wire bottom plate 7F3, the relay arc 7F1 is mechanically connected with the spring wire bottom plate 7F3 through the spring wire 7F2 and is mechanically connected with the spring wire bottom plate 7F2 through the collinear spring wire, the pull ring frame is arranged on the right side of the pull ring frame 599 through the double-lens clamping block 599, the rotary wrapping effect of the unidirectional electromagnetic field is formed, so that the stability of an internal circuit of the optical fiber is improved, and the electric leakage effect is avoided.

Referring to fig. 4, the tab frame 7a2 is composed of a ring frame thin plate 7a21, a press-fastening block 7a22, a spring frame 7a23, and a lead tab 7a24, the ring frame thin plate 7a21 is fastened with the press-fastening block 7a22, the spring frame 7a23 is electrically connected to the lead tab 7a24, the spring frame 7a23 is installed inside the ring frame thin plate 7a21 and located on the same vertical plane, the ring frame thin plate 7a21 is a frame plate structure with narrow upper and narrow lower ends, wide middle and thick, and an elliptical groove inside, so that the twisting of the narrow ends of the upper and lower tabs is facilitated, a chain belt effect is formed, the upper and lower tension forms a continuous current stabilizing electrode conduction effect to stabilize an internal magnetic field, and an alternating electric field force effect is formed by the conductive butt-joint of the lead tabs 7a24 on both sides of the spring frame 7a 23.

Referring to fig. 5, the dual-lens clamping block 7B1 is composed of an inner convex lens 7B11, an electric plate slot 7B12, a thin electric plate 7B13, and an angular spread elbow 7B14, the electric plate slot 7B12 is electrically connected to the thin electric plate 7B13 and is located on the same inclined plane, the thin electric plate 7B13 is inserted and embedded inside the inner convex lens 7B11, the angular spread elbow 7B14 is fastened with the inner convex lens 7B11, the angular spread elbow 7B14 is an elbow structure with an upper convex arc, and the left narrow and right wide middle portions, so that slots on both sides of the inner mirror image and the outer included angle form an effect of preventing light transmission, and the feedback amount increasing operation of the entire broadband glass carrier is ensured, and the angular spread elbow 7B14 is arranged in the middle of the included angle of the inner convex lens 7B11 to form a width section covering effect of three lenses, thereby ensuring the extension of the carrier area and improving the broadband conduction stability.

Referring to fig. 6, the relay arc plate 7F1 is composed of a lens balloon 7F11, a copper wire 7F12, a relay seat 7F13, and an arc plate groove 7F14, the lens balloon 7F11 is electrically connected to the relay seat 7F13 through a copper wire 7F12 and is located on the same central line, the relay seat 7F13 is installed inside the arc plate groove 7F14 and is located on the same arc surface, the lens balloon 7F11 is a composite balloon structure with a lens flap at the top and a balloon ball at the bottom, so that the light sensation of the mirror body is facilitated to be fed back from the top, then a relay current stabilizing effect is formed under the refraction feedback of the ball, and the missing diffuse reflection light is collected at the bottom angle by the lens balloon 7F11 and fed back to the relay seat 7F13 to form a current collection, storage and stabilization effect.

The working process is as follows: a worker inserts a wire concentration lamp post 1 into a lamp bead groove seat 2 to integrally compile an embedded wire, then penetrates through a lamp bead plate block 3 to butt a bottom electric plate groove barrel 6 to form an upper and lower current erection effect between a support rod 4 and a lamp shade clamping ring 5, then introduces cable current to an optical fiber wire 7D through a tube penetrating wire concentration barrel 7G in a barrel groove body 7E of an optical fiber tube penetrating barrel groove 7 to realize the sliding and pulling of a double-lens sliding frame 7B and a wire pressing top frame 7H on a track rod support 7C, enables an electrode plate 7A1 of a steady current pull ring frame 7A to press against a sliding sleeve 7B2 to lift, pulls a ring frame sheet 7A21 of a pull ring frame 7A2 and a pressing and buckling block 7A22 to be meshed with a rubber ball core 7A3 to elastically extend, enables a spring wire frame 7A23 and a pin sheet 7A24 to be electrically electrified on one side to form a transversely wrapped electric field force, enables the double-lens clamping block 7B1 inside to be electrically electrified through an inner convex lens 11 in the process of irradiating light of an electric thin plate 7B12 and, the wave band refraction effect is generated, the inner convex lens 7B11 and the angle expanding bent tube 7B14 form a widening wave frequency and bear a wave band to upload an electric signal to the lamp bead groove seat 2 to ensure the stability of lighting of the lamp, the relay arc plate 7F1 of the relay feedback seat 7F is driven to bear pressure on one side, the copper wire 7F12 is jacked and collected by the lens balloon 7F11 to enter the relay seat 7F13 for current interception, the resistance increasing effect of sliding resistance forming is formed by jacking the spring wire 7F2 and the lower spring wire bottom plate 7F3 through the electric field force of the breakdown current, the breakdown current is limited, the electric conduction is prevented from exceeding a rated value to burn an inner circuit, the self-regulation effect of a tube of the lighting optical fiber is achieved, the broadband carrier effect of the optical fiber is also improved, and the single-side eccentric light guide rate of the lens is improved.

Example two:

referring to fig. 1 to 7, the present invention provides a broadband carrier eccentric dual-lens tube penetrating device for illuminating an optical fiber filament, which is otherwise the same as embodiment 1, except that:

referring to fig. 3, the wire pressing top frame 7H is composed of a top pressing ball cap 7H1, a short column rod 7H2 and a slider 7H3, the top pressing ball cap 7H1 is nested on the left side of the short column rod 7H2, the axes of the top pressing ball cap and the short column rod 7H2 are collinear, the short column rod 7H2 is nested on the left side of the slider 7H3, and the short column rod 7H2 and the slider 7H3 are transversely and longitudinally crossed, so that the lifting displacement of the longitudinal slider 7H3 drives the short column rod 7H2 to transversely pull the synchronous effect, thereby ensuring the consistency of the feeding amount and avoiding the lifting deviation.

Referring to fig. 7, the top pressure ball cap 7H1 is composed of a ball cap housing 7H11, a magnet ball 7H12, a ball bar 7H13, and an edge inner chamber 7H14, two magnet balls 7H12 are respectively attached to the upper and lower sides of the ball bar 7H13, the axes of the magnet balls are collinear, the ball cap housing 7H11 and the edge inner chamber 7H14 are integrated and communicated with each other, the magnet ball 7H12 and the ball bar 7H13 are both installed inside the edge inner chamber 7H14 and are in the same circle, the edge inner chamber 7H14 is an edge chamber structure with seven edges and openings inside, so that the improvement of the compressive strength in one side is facilitated, the breakdown current is fed back by multi-angle light gathering, the lighting stability of the tube-through optical fiber is formed, and the magnet ball 7H12 presses the ball bar 7H13 to roll and rub up and down. An electromagnetic friction electrostatic field is formed, so that the magnetic pressure can single-side right the optical fiber, and the effect of pushing and pressing the right line rod up and down is achieved.

The working personnel connect the optical fiber wires in series with the lighting lamp bead seat and the cable conductor to enable the optical fiber wire branches to be in butt joint one by one to conduct current to light and superpose lighting effects, so that the whole lamp bead plate forms a light plate covering effect, the scattering of the optical fiber wire bundles is easy to form a single-side loosening phenomenon in the integrated pipe sleeve to cause the up-and-down pulling and breaking of the optical fiber wires, at the moment, the slider 7H3 of the pressing line jacking frame 7H is needed to drive the short column rod 7H2 to push and press the pressing ball cap 7H1 to lift, so that the ball cap shell 7H11 covers the inner chamber 7H14 of the edge to move, the magnet ball 7H12 clamps the ball rod 7H13 to rotate and generate static friction to form a voltage stabilizing electromagnetic field, meanwhile, the single-side gap is righted, the whole vertical pressing tightness of the optical fiber wires is guaranteed, and the later.

The invention achieves the effect of stabilizing the current of the broadband carrier light path of the optical fiber by utilizing the matching of the bottom electric plate groove tube 6 and the optical fiber through tube groove 7 by mutually combining the components, ensures the wrapping protection of the connecting end of the optical fiber wire 7D after moving the double-lens clamping block 7B1 by inserting the tube groove body 7E at the bottom of the bottom electric plate groove tube 6, then internally erecting the double-lens sliding frame 7B and the double-lens clamping block 7B1 to form the broadband carrier light path current stabilization feedback effect of the optical fiber wire, stabilizes the cross-section current conduction area of the widening of the breakdown current, improves the refractive index of a convex mirror, forms the lightening addition effect of illumination, thereby stabilizing the precision of current light guide transmission, suppresses the feedback current of the lamp bead groove seats 2 one by one, avoids the reverse breakdown of an overlarge black-burning loss electrode plate, improves the electrical signal continuity in the carrier process, improves the conduction flux, enhances the current protection performance, and solves the problems that the wave frequency of the illumination optical fiber wire is short and the optical conductivity of, can cause the poling grafting in-process, it is too big to advance to send out breakdown current density to lamp pearl pin and electrode slice, thereby loss electrode slice and pin end let it blacken, the electric plate conductivity that crosses of lamp pearl when leading to the illumination descends, and influence and disturb the circulation of counterpoint electrode, the wave band after causing the poling is unstable, thereby intermittent type formula light guide stops suddenly, the luminance that makes the illumination is neglected and neglected, make the break-make effect when leading to optical fiber silk butt joint cable not good, let whole electric current butt joint cause the phenomenon that short frequency and breakdown current protective force are not enough, lead to the serious problem of whole optical fiber loss.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (9)

1. A broadband carrier eccentric double-lens tube penetrating device for illuminating an optical fiber filament structurally comprises: line concentration lamp pole (1), lamp pearl groove seat (2), lamp pearl plate (3), cradling piece (4), lamp shade buckle ring (5), end electroplax groove section of thick bamboo (6), optic fibre poling tube groove (7), its characterized in that:

the optical fiber tube penetrating barrel groove (7) is inserted and embedded below the bottom of the bottom electric plate groove barrel (6), the lampshade clamping ring (5) is buckled with the bottom electric plate groove barrel (6), the support rod (4) is inserted and embedded on the top of the lampshade clamping ring (5), the lamp bead plate blocks (3) are mechanically connected with the support rod (4), more than two lamp bead groove seats (2) are arranged and are all arranged inside the lamp bead plate blocks (3), and the wire collecting lamp post (1) is inserted and embedded on the top of the lamp bead plate blocks (3);

the optical fiber tube penetrating barrel groove (7) is provided with a steady flow pull ring frame (7A), a double-lens sliding frame (7B), a track rod support (7C), an optical fiber silk thread (7D), a barrel groove body (7E), a relay feedback seat (7F), a tube penetrating and wire collecting barrel (7G) and a wire pressing top frame (7H);

the right side at two lens balladeur train (7B) is installed in stationary flow tab frame (7A), two lens balladeur train (7B) and track pole support (7C) mechanical connection, two lens balladeur train (7B) are in the same place with optic fibre silk thread (7D) lock, optic fibre silk thread (7D) all insert with track pole support (7C) and inlay the inside at section of thick bamboo cell body (7E), section of thick bamboo cell body (7E) and relay feedback seat (7F) swing joint, optic fibre silk thread (7D) are equipped with more than two and all insert and inlay on the top of wearing a tub line concentration section of thick bamboo (7G), wear tub line concentration section of thick bamboo (7G) and line pressing roof-rack (7H) mechanical connection, section of thick bamboo cell body (7E) are inserted and are inlayed under the bottom of bottom electroplax groove section of thick bamboo (6).

2. The broadband carrier-eccentric dual-lens rodder for illuminating fiber optic filaments according to claim 1, wherein: the steady flow tab frame (7A) comprises electrode plate (7A1), tab frame (7A2), rubber ball core (7A3), rubber ball core (7A3) cooperatees with tab frame (7A2), electrode plate (7A1) are equipped with two and nest respectively in the upper and lower both sides of tab frame (7A 2).

3. The broadband carrier-eccentric dual-lens rodder for illuminating fiber optic filaments according to claim 2, wherein: the pull ring frame (7A2) comprises a ring frame thin plate (7A21), a press buckling block (7A22), a spring wire frame (7A23) and a pin piece (7A24), wherein the ring frame thin plate (7A21) is buckled with the press buckling block (7A22) together, the spring wire frame (7A23) is electrically connected with the pin piece (7A24), and the spring wire frame (7A23) is installed inside the ring frame thin plate (7A 21).

4. The broadband carrier-eccentric dual-lens rodder for illuminating fiber optic filaments according to claim 1, wherein: the double-lens sliding frame (7B) is composed of a double-lens clamping block (7B1) and a sliding sleeve (7B2), the double-lens clamping block (7B1) is arranged on the left side of the sliding sleeve (7B2), and the double-lens clamping block (7B1) is movably connected with the sliding sleeve (7B 2).

5. The broadband carrier-eccentric dual-lens rodder for illuminating fiber optic filaments according to claim 4, wherein: the double-lens clamping block (7B1) is composed of an inner convex lens (7B11), an electric plate slot (7B12), a thin electric plate (7B13) and an angular spread bent pipe (7B14), the electric plate slot (7B12) is electrically connected with the thin electric plate (7B13), the thin electric plate (7B13) is inserted into the inner part of the inner convex lens (7B11), and the angular spread bent pipe (7B14) is buckled with the inner convex lens (7B 11).

6. The broadband carrier-eccentric dual-lens rodder for illuminating fiber optic filaments according to claim 1, wherein: relay feedback seat (7F) comprises relay arc board (7F1), spring wire (7F2), spring wire bottom plate (7F3), relay arc board (7F1) pass through spring wire (7F2) and spring wire bottom plate (7F3) mechanical connection, insert in the axle center of spring wire bottom plate (7F3) spring wire (7F 2).

7. The broadband carrier-eccentric dual-lens rodder for illuminating fiber optic filaments according to claim 6, wherein: the relay arc plate (7F1) is composed of a lens balloon (7F11), a copper wire (7F12), a relay seat (7F13) and an arc plate groove (7F14), the lens balloon (7F11) is electrically connected with the relay seat (7F13) through the copper wire (7F12), and the relay seat (7F13) is arranged inside the arc plate groove (7F 14).

8. The broadband carrier-eccentric dual-lens rodder for illuminating fiber optic filaments according to claim 1, wherein: the pressing line top frame (7H) is composed of a top pressing ball cap (7H1), a short column rod (7H2) and a sliding block (7H3), the top pressing ball cap (7H1) is nested on the left side of the short column rod (7H2), and the short column rod (7H2) is nested on the left side of the sliding block (7H 3).

9. The broadband carrier-eccentric dual-lens rodder for illuminating fiber optic filaments according to claim 8, wherein: the top pressure ball cap (7H1) consists of a ball cap shell (7H11), magnet balls (7H12), a ball rod (7H13) and an edge inner chamber (7H14), wherein the magnet balls (7H12) are two and are respectively tightly attached to the upper side and the lower side of the ball rod (7H13), the ball cap shell (7H11) and the edge inner chamber (7H14) are of an integrated structure, and the magnet balls (7H12) and the ball rod (7H13) are both installed inside the edge inner chamber (7H 14).

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