CN110989121B - Optical fiber bus puncture wire clamp tank-drawing type swinging wire guiding machine - Google Patents

Abstract

The invention discloses a bus puncture wire clamp pot-drawing type swinging wire guide machine of optical fibers, which structurally comprises: the invention realizes the matching of the plug rod cap and the optical fiber lead swinging tank to form a folded surface concentrated focusing lighting collecting effect and also form an optical fiber reverse puncturing wire clamp operation of puncturing wire clamp operation, ensures that an optical core in a fiber directly forms a nondestructive clamp type butting wire operation by pulling a butting bus slot through a drawing slip ring of a balloon bundle cylinder seat, and the placing angle of the bus can be better cut in by lifting and rotating the shell of the tank cylinder without stretching the length of the bus, the clamping seat of the device is efficient, the upper and lower bit lines can be conveniently found to carry out puncture wire clamp guide cable bridging, the rapid lead introduction and the self end cap protection of the optical fiber are efficient, the phenomenon of unstable power on and off after wiring is reduced, and the improvement of optical guide functionality is guaranteed.

Description

Optical fiber bus puncture wire clamp tank-drawing type swinging wire guiding machine

Technical Field

The invention relates to a bus puncture wire clamp pot-drawing swinging wire guide machine for optical fibers, belonging to the field of optical fibers.

Background

The optical fiber is a photoelectric transmission equipment cable which is commonly used at present, has a very large-range covering and collecting effect on the building of a broadband network and the receiving of a television signal, has relatively common integral hardness, needs to be comprehensively put in place for the operation of holding, fixing and protecting a wire, and has the following common defects of the prior art to be optimized:

optical fiber's pliability and the hugging closely of fiber density twist reverse extremely fragile, so need the plastic shell to protect, and the built-in light core pipe that the fibre was tightened often can cause the pollution corrosion phenomenon that the end exposes to the stain dust at the wire grafting in-process, the spring assembly dynamics resistance to wire double-layered line grafting equipment is not enough, it leads to deformation phenomenon to flatten the plastic shell easily, make the light core pipe all receive pressure end deformation with a fibre bundle section of thick bamboo, the light guide refracting index step-down, the circular telegram cross section descends, lead to the light core when the node wire is pegged graft, the parallel serial ports contact of bus duct is unstable, all be very big functional consumption to interface pin electrode slice and optical fiber pipe.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a bus puncture wire clamp tank drawing type swinging wire guide machine for optical fibers, which aims to solve the problems that the flexibility of the optical fibers and the tight twisting of the fiber density are very weak, a plastic shell is needed for protection, the pollution corrosion phenomenon that the end of an internal optical core pipe tightened by the fibers is exposed and polluted by dust is often caused in the wire inserting process, the resistance to the spring assembling force of wire clamping and inserting equipment is insufficient, the plastic shell is easy to flatten, the deformation phenomenon is caused, the optical core pipe and a fiber bundle cylinder are deformed by the pressure end, the optical refractive index is lowered, the electrified cross section is reduced, the parallel serial port contact of a bus duct is unstable, and the electrode plate of an interface pin and the optical fiber pipe are greatly consumed in functionality.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a wire guide of optical fiber's generating line puncture fastener jar pull-out pendulum change, its structure includes: the optical fiber guide line swinging tank is nested under the bottom of the plug rod cap, the axis of the optical fiber guide line swinging tank is collinear, the reed pipe sliding seat is movably connected with the base block, the optical fiber guide line swinging tank is nested on the right side of the base block, the base block is mechanically connected with the vertical plate block through a rolling shaft and is mutually vertical, the vertical plate block is provided with two vertical plates which are inserted and embedded on the top of the reed bottom plate, the handle dragging wheel is arranged on the left side of the reed bottom plate, the reed bottom plate is mechanically connected with the handle dragging wheel, the optical fiber guide line swinging tank is provided with a tank top cover disc, a sealing ring, a bus plug pipe, an overload flow limiting plate, a tank shell, a quick butt joint cap, a balloon barrel holder and a prism expansion angle disc, the tank top cover disc and the sealing ring are in interference fit and are in axis alignment, the utility model discloses a take out jar cover, including jar cylinder shell, jar top cover dish, take out stopper inner tube, take out stopper pipe, the jar cover dish is nested on jar cylinder shell's top, take out stopper pipe and insert the inside of inlaying at the bus corrugated pipe, the bus takes out stopper pipe and restraints a barrel holder lock through quick butt joint cap and axle center collineation together with the sacculus, overload current-limiting plate is equipped with two and hugs closely respectively in the inside left and right sides of jar cylinder shell, sacculus restraints barrel holder and prism exhibition angle dish swing joint, jar cylinder shell nestification is under the bottom of taking out stopper rod cap and the axle center collineation.

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

as a further improvement of the invention, the bus plug tube consists of a plug inner tube, a bus corrugated tube and a top support ellipsoid balloon, the plug inner tube is inserted and embedded in the bus corrugated tube, the axes of the plug inner tube and the bus corrugated tube are collinear, and the bus corrugated tube and the top support ellipsoid balloon are in interference fit.

As a further improvement of the invention, the top-supported elliptical balloon consists of an elliptical balloon, a spring wire, an inner rubber pad and a compression spring tube, wherein the elliptical balloon is mechanically connected with the inner rubber pad through the spring wire, the axes of the elliptical balloon and the inner rubber pad are collinear, and the inner rubber pad and the compression spring tube are in interference fit and are positioned on the same vertical surface.

As a further improvement of the invention, the quick butt joint cap comprises a double-rod sliding support frame, a clamp spring lining plate, an inner shaft connecting cylinder and a round table seat, wherein the double-rod sliding support frame is inserted and embedded in the front side of the clamp spring lining plate and is vertical to the clamp spring lining plate, the clamp spring lining plate is mechanically connected with the inner shaft connecting cylinder, the double-rod sliding support frame is movably connected with the round table seat, and the inner shaft connecting cylinder is inserted and embedded in the round table seat and has a collinear axis.

As a further improvement of the invention, the clamp spring lining plate consists of two triangular convex blocks, clamp spring reinforcing ribs and an arc top lining plate, wherein the triangular convex blocks and the clamp spring reinforcing ribs are in interference fit, and the two triangular convex blocks are respectively inserted and embedded in the left side and the right side of the inner part of the arc top lining plate.

As a further improvement of the invention, the balloon tube seat consists of a sleeve, a pulling slip ring and a balloon seat, wherein the sleeve and the pulling slip ring are in clearance fit, the axes of the sleeve and the pulling slip ring are collinear, and the sleeve is inserted and embedded on the top of the balloon seat and penetrates through the sleeve and the pulling slip ring.

As a further improvement of the invention, the prism spread angle disk comprises an inner frame conical lens seat, a wingspan mirror plate and a thick ring disk, wherein the inner frame conical lens seat and the wingspan mirror plate are more than two and are alternately and tightly attached together around the axis of the thick ring disk, and the inner frame conical lens seat, the wingspan mirror plate and the thick ring disk are positioned on the same vertical plane.

As a further improvement of the invention, the compression spring tube is of an arc short tube structure with mushroom-shaped caps at the left and right sides, so that the pushing distance of the corrugated tube when the bus is inserted is conveniently and elastically fixed by the left and right outer supports, the smooth core tube is prevented from being damaged by slipping and hooking fibers of the wire tube, and the butt joint stability of the bus is ensured.

As a further improvement of the invention, the clamp spring reinforcing rib is of a bar structure with a left through hole gasket, a right through hole gasket and a plurality of folded angles in the middle, so that the through holes on two sides are conveniently oppositely overlapped to perform pin insertion locking, and the clamp spring is enabled to form an end which is annularly wrapped on the optical fiber and butted with the bus to form an occlusion fixing effect.

As a further improvement of the invention, the drawing slip ring is of a magnet ring structure with thin ball bearing rings at the upper part and the lower part, so that the rotation effect of surrounding and wrapping the upper ball and the lower ball after tightly absorbing the optical fiber by the center is facilitated, and the sliding butt joint protection degree of the optical fiber is high.

As a further improvement of the invention, the wingspan mirror plate is a wingspan mirror plate structure with two sides provided with long triangular plates for insertion, so that the refraction of the lighting inner included angle at the periphery is facilitated, the focusing effect of a kaleidoscope beam line during light guide transmission is formed, and the high-efficiency light condensation performance of the optical core is ensured.

Advantageous effects

The invention relates to a lead machine for the pull-out swinging of a bus puncture clamp tank of optical fibers, which is characterized in that a worker lifts a plug rod cap from a tank top cover disc and a sealing ring of an optical fiber lead swinging tank, inserts a bus into a plug inner tube of a bus plug tube, sleeves a bus corrugated tube at the position where the bus extends to a bottom quick butt joint cap, pushes and stretches a spring wire left and right through an inner rubber pad of a propping elliptical ball bag to drive the elliptical ball bag to expand outwards to lower the bus to form a limiting and increasing contact area and a friction coefficient to a stable anti-buckling state, then supports a base block through a spring tube sliding seat and a vertical plate block overturning tank shell to adjust the bus to align a position where a bottom lining plate of a clamp spring and a handle traction wheel clamp and then a lead position, ensures the balance degree of the lead to the optical fibers by inserting and inserting, and compresses internal environment current and voltage through an overload current limiting plate and sliding control correlation electrode in the internal environment, the discharging safety and stability of the internal circuit are guaranteed, a worker inserts the optical fiber tube into the inner shaft connecting tube and the sleeve of the quick butt-joint cap and the balloon tube base, the double-rod sliding support frame supports the clamp spring lining plate to press and attach the inner shaft connecting tube to rotate along the circular table base, a triangular lug is formed to draw the clamp spring reinforcing rib to wrap the bus end cap along the arc top lining plate to tightly buckle the end of the optical fiber tube, an optical core in the optical fiber tube pushed in the drawing sliding ring is pushed to penetrate through the thick ring disc of the prism angle-expanding disc through the elasticity of the balloon base, and the optical beam focusing, penetrating, transmitting and correcting splicing effects are formed by matching the inner frame conical mirror base and the illumination tube of the wingspan mirror plate, so that the axis alignment of the lead and the high efficiency of the wrapping puncture clamp are guaranteed, and the lead operation of the pull-type swinging of the bus puncture clamp tank of the optical fiber can be flexibly applied and aligned to other lead position surface effects.

The invention has the following advantages after operation:

the plug rod cap is matched with the optical fiber lead swinging tank, the bus is connected with the plug rod cap through the plug rod cap and is butted with the bus to enter the bus plug pipe, then a prism angle expanding disc is erected in the tank cylinder shell to form a folding surface concentrated focusing lighting convergence effect, then the optical fiber reverse puncturing wire clamp operation of the puncturing wire clamp operation is formed by directly inserting and connecting the bus, the optical core in the fiber is ensured to directly pull the butt joint bus slot through the traction slip ring of the balloon barrel seat to form the lossless clamp type butt joint wire operation, and the placing angle of the bus can be better cut in by lifting and rotating the shell of the tank cylinder without stretching the length of the bus, the clamping seat of the device is efficient, the upper and lower bit lines can be conveniently found to carry out puncture wire clamp guide cable bridging, the rapid lead introduction and the self end cap protection of the optical fiber are efficient, the phenomenon of unstable power on and off after wiring is reduced, and the improvement of optical guide functionality is guaranteed.

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 view of a bus puncture clamp can-drawing swinging wire guide of an optical fiber according to the present invention.

Fig. 2 is a detailed cross-sectional structural diagram of the fiber optic cable pendulum tank of the present invention.

FIG. 3 is a schematic cross-sectional view of the bus-pumping tube and the balloon bundle seat of the present invention in working condition.

Fig. 4 is a schematic view of a three-dimensional internal view structure of the top-support elliptical balloon in a working state.

Fig. 5 is a perspective view of the working state of the rapid docking cap according to the present invention.

Fig. 6 is an enlarged structural schematic view of the cross section of the circlip lining plate in the working state.

Fig. 7 is a schematic view of the working state of the prism angle-expanding disk of the present invention.

Description of reference numerals: a plugging rod cap-1, an optical fiber lead pendulum tank-2, a reed pipe slide seat-3, a base block-4, a vertical plate block-5, a spring clamping bottom lining plate-6, a handle traction wheel-7, a tank top cover disc-2A, a sealing ring-2B, a busbar plugging pipe-2C, an overload flow limiting plate-2D, a tank cylinder shell-2E, a quick butt joint cap-2F, a balloon bundle cylinder seat-2G, a prism angle expanding disc-2H, a plugging inner pipe-2C 1, a busbar corrugated pipe-2C 2, a top support elliptical balloon-2C 3, an elliptical balloon-2C 31, a spring wire-2C 32, an inner rubber pad-2C 33, a compression reed pipe-2C 34, a double-rod sliding support frame-2F 1, a clamp spring-2F 2, an inner connecting shaft-2F 3, a circular platform seat-2F 4, Triangular bump-2F 21, clamp spring reinforcing ribs-2F 22, arc top lining plates-2F 23, sleeves-2G 1, pulling slip rings-2G 2, balloon seats-2G 3, inner frame cone mirror seats-2H 1, wingspan mirror plates-2H 2 and thick ring disks-2H 3.

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.

Referring to fig. 1 to 7, the present invention provides a bus piercing connector cage-pull swinging wire guide for optical fiber, which comprises: the optical fiber cable swinging device comprises a plug rod cap 1, an optical fiber cable swinging tank 2, a reed pipe sliding seat 3, a base block 4, a vertical plate block 5, a spring bottom lining plate 6 and a handle traction wheel 7, wherein the optical fiber cable swinging tank 2 is nested below the bottom of the plug rod cap 1, the axes of the optical fiber cable swinging tank 2 are collinear, the reed pipe sliding seat 3 is movably connected with the base block 4, the optical fiber cable swinging tank 2 is nested on the right side of the base block 4, the base block 4 is mechanically connected with the vertical plate block 5 through a rolling shaft and is perpendicular to the vertical plate block, the vertical plate block 5 is provided with two vertical plate blocks which are all inserted and embedded on the top of the spring bottom lining plate 6, the handle traction wheel 7 is arranged on the left side of the spring bottom lining plate 6, the spring bottom lining plate 6 is mechanically connected with the handle traction wheel 7, the optical fiber cable swinging tank 2 is provided with a tank top cover disc 2A, a sealing ring 2B, a bus plug pipe 2C, an overload limiting 2D, a tank shell 2E, a quick butt joint cap 2F, Sacculus beam tube seat 2G, prism exhibition angle dish 2H, jar top cap dish 2A adopts interference fit and axle center collineation with sealing washer 2B, jar top cap dish 2A nests on jar cylinder body 2E's top, generating line plug tube 2C inlays in jar cylinder body 2E's inside of inlaying, generating line plug tube 2C is in the same place and the axle center collineation through quick butt joint cap 2F and sacculus beam tube seat 2G lock, overload current-limiting plate 2D is equipped with two and hugs closely respectively in jar cylinder body 2E inside left and right sides, sacculus beam tube seat 2G and prism exhibition angle dish 2H swing joint, jar cylinder body 2E nestification is under the bottom of plug rod cap 1 and the axle center collineation.

Referring to fig. 3, the bus plug tube 2C includes a plug inner tube 2C1, a bus corrugated tube 2C2, and a top-supported elliptical balloon 2C3, the plug inner tube 2C1 is inserted into the bus corrugated tube 2C2 and the axes thereof are collinear, the bus corrugated tube 2C2 and the top-supported elliptical balloon 2C3 are in interference fit, the balloon bundle cylinder base 2G includes a sleeve 2G1, a pulling slip ring 2G2, and a balloon base 2G3, the sleeve 2G1 and the pulling slip ring 2G2 are in clearance fit and the axes thereof are collinear, the sleeve 2G1 is inserted into the top of the balloon base 2G3 and is mutually communicated, the pulling slip ring 2G2 is a ring structure with thin balls at upper and lower portions, so that the upper and lower balls perform a rotation effect of surrounding wrapping after the central absorption of the fastening optical fiber, the optical fiber sliding butt protection degree is high, the bus plug tube 2C2 is sleeved and extended to pass through the top-supported elliptical balloon 3, prevent that end line ball deformation is excessive, and avoid the well short distance unwrapping wire not enough, the generating line propulsion distance accurate high efficiency that the guarantee is tensile to get into.

Referring to fig. 4, the top-supported elliptical balloon 2C3 is composed of an elliptical balloon 2C31, spring wires 2C32, an inner rubber pad 2C33, and a compression spring tube 2C34, the elliptical balloon 2C31 is mechanically connected with the inner rubber pad 2C33 through the spring wires 2C32, axes of the elliptical balloon and the inner rubber pad 2C33 are collinear, the inner rubber pad 2C33 and the compression spring tube 2C34 are in interference fit and located on the same vertical plane, the compression spring tube 2C34 is an arc short tube structure with mushroom-shaped caps on the left and right, so that the corrugated tube pushing distance when the bus is inserted is elastically fixed by the left and right supports, the wire tube is prevented from slipping off and linking fibers to damage the smooth tube, the bus docking stability is guaranteed, a spherical uniform stress expansion operation is formed by the spring wires 2C32 supported outside the spring compression tube 2C34, and a tensioning force is formed for clamping the center spacer.

Referring to fig. 5, the quick butt joint cap 2F is composed of a double-rod slide support frame 2F1, a snap spring lining plate 2F2, an inner connecting tube 2F3 and a circular table base 2F4, the double-rod slide support frame 2F1 is inserted and embedded in the front side of the snap spring lining plate 2F2 and is perpendicular to each other, the snap spring lining plate 2F2 is mechanically connected with the inner connecting tube 2F3, the double-rod slide support frame 2F1 is movably connected with the circular table base 2F4, the inner connecting tube 2F3 is inserted and embedded in the circular table base 2F4, the axis of the inner connecting tube is collinear, the double-rod slide support frame 2F1 abuts against the circular table base 2F4 to form an outer supporting rotation effect of an inclined plane track, and the compactness of the snap joint is enhanced.

Referring to fig. 6, the clamp spring lining plate 2F2 is composed of a triangular projection 2F21, clamp spring reinforcing ribs 2F22 and an arc top lining plate 2F23, the triangular projection 2F21 and the clamp spring reinforcing ribs 2F22 are in interference fit, two triangular projections 2F21 are arranged and are respectively inserted into the left side and the right side of the arc top lining plate 2F23, the clamp spring reinforcing ribs 2F22 are left and right through-hole gaskets with multiple break angles in the middle, so that the through-holes on the two sides can conveniently lock pins in opposite folding, the clamp spring forms an end surrounding and wrapping the optical fibers and a bus to be in butt joint, an occlusion fixing effect is formed, and the clamp spring reinforcing ribs 2F22 stretch out through the arc surface sliding brushes of the arc top lining plate 2F23 to stretch out and fold the gasket holes to penetrate, so that the bus is wrapped with the optical fibers to ensure the anti-releasing effect.

Referring to fig. 7, the prism spread angle disk 2H is composed of an inner frame cone lens seat 2H1, a wing span mirror plate 2H2, and a thick ring plate 2H3, the inner frame cone lens seat 2H1 and the wing span mirror plate 2H2 are provided with more than two and are alternately and tightly attached together around the axis of the thick ring plate 2H3, the inner frame cone lens seat 2H1, the wing span mirror plate 2H2, and the thick ring plate 2H3 are located on the same vertical plane, the wing span mirror plate 2H2 is a wing span type mirror plate structure with long triangular plates inserted on both sides, peripheral lighting inner included angle refraction is facilitated, a kaleidoscope wire harness focusing effect during light guide transmission is formed, the light focusing performance of an optical core is guaranteed to be efficient, an external support refraction inner side focusing optical core concentrated transmission operation effect is formed by matching a convex tip of the inner frame cone lens seat 2H1 with a groove seam of the wing span mirror plate 2H2, and the wire piercing connector is conveniently corrected to be accurately aligned with a center line.

The working process is as follows: a worker lifts a plugging rod cap 1 from a tank top cover disc 2A and a sealing ring 2B of an optical fiber lead swinging tank 2, inserts a bus into a plugging inner tube 2C1 of a bus plugging tube 2C, sleeves a bus corrugated tube 2C2 to extend to the position of a bottom quick butt joint cap 2F, pushes a spring wire 2C32 to drive an elliptical balloon 2C31 to expand outwards to lower the bus to form a limiting and increasing contact area and a friction coefficient to a stable and anti-tripping state through an inner rubber pad 2C33 of a supporting elliptical balloon 2C3 and an inner compression spring tube 2C34 to push and stretch left and right, then supports a base block 4 through a spring tube sliding base 3 to match with a vertical plate 5 to turn over a tank shell 2E to adjust the position of the bus aligned with a clamping spring plate 6 and a handle guide wheel 7 to ensure the balance degree of lead plugging to optical fibers, and compresses internal environment drag current and voltage through a sliding control correlation electrode in an overload current limiting plate 2D in an internal environment, the safety and the stability of the discharge of the internal circuit are ensured, the staff inserts the optical fiber tube into the internal connecting tube 2F3 and the sleeve 2G1 of the fast butt-joint cap 2F and the balloon barrel seat 2G, the double-rod sliding support frame 2F1 pushes against the clamp spring lining plate 2F2 to press against the inner connecting cylinder 2F3 to rotate along the round table base 2F4, a triangular lug 2F21 is formed to pull the clamp spring reinforcing rib 2F22 to wrap a bus end cap along the arc top lining plate 2F23 to tightly buckle the end of the optical fiber tube, so that the optical core in the optical fiber tube pushed in the pulling sliding ring 2G2 is elastically pushed to pass through the thick ring disk 2H3 of the prism angle expanding disk 2H through the ball bag base 2G3, and the light beam focusing, penetrating and transmitting and correcting splicing effects are formed by matching the inner frame conical lens base 2H1 with the light beam cylinder of the wingspan mirror plate 2H2, the axial center of the lead is ensured to be aligned with the axis and the puncture wire clamp is wrapped highly efficiently, and the lead operation of the bus puncture wire clamp pot pulling and swinging of the optical fiber can be flexibly applied and aligned with other lead position surfaces.

The invention achieves the aims of utilizing the matching of the plug rod cap 1 and the optical fiber lead swinging tank 2, enabling the bus to be in butt joint to enter the bus plug tube 2C through the plug rod cap 1, erecting the prism angle expanding disc 2H in the tank cylinder shell 2E to form a folding surface concentrated focusing lighting collecting effect, then forming the optical fiber reverse puncturing wire clamp operation of the puncturing wire clamp operation through the bus direct insertion, ensuring that the optical core in the fiber directly pulls the butt joint bus slot through the pulling slip ring 2G2 of the balloon bundle cylinder seat 2G to form the lossless clamp type butt joint lead operation, enabling the putting angle of the bus to be capable of carrying out a better cutting operation through lifting the tank cylinder shell 2E without stretching the length of the bus, having high efficiency of a clamping seat of the equipment, being convenient to find the upper and lower counterpoint lines to carry out the puncturing wire clamp lead bridging, having high efficiency of fast lead introduction of the optical fiber and protecting the end cap of the optical fiber, also reduce the unstable phenomenon of switching on and switching off behind the wiring, guarantee the improvement of light guide functionality, solve the pliability of optical fiber and hug closely of fiber density and twist reverse extremely fragile with this, so need the plastic shell to protect, and the built-in light core pipe that the fibre was tightened often can cause the pollution corrosion phenomenon that the end exposes the staining dust at the wire grafting in-process, spring assembly dynamics resistance to wire double-layered line grafting equipment is not enough, it leads to the deformation phenomenon to flatten the plastic shell easily, make the light core pipe all receive the pressure end deformation with a fibre bundle section of thick bamboo, the light guide refracting index step-down, the circular telegram cross section descends, when leading to the light core to peg graft at the node wire, the parallel serial ports contact of bus duct is unstable, all be the problem of very big functional consumption to interface pin electrode slice and optical fiber pipe.

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 (6)

1. The utility model provides a wire guide of optical fiber's generating line puncture fastener jar pull-out pendulum change, its structure includes: the drawing and plugging rod cap is characterized in that the drawing and plugging rod cap comprises a drawing and plugging rod cap (1), an optical fiber conductor swinging tank (2), a reed pipe sliding seat (3), a base block (4), a vertical plate block (5), a clamp spring bottom lining plate (6) and a handle traction wheel (7), wherein the optical fiber conductor swinging tank (2) is nested below the bottom of the drawing and plugging rod cap (1), the reed pipe sliding seat (3) is movably connected with the base block (4), the optical fiber conductor swinging tank (2) is nested on the right side of the base block (4), the base block (4) is mechanically connected with the vertical plate block (5) through a rolling shaft, the vertical plate block (5) is provided with two blocks which are all inserted and embedded on the top of the clamp spring bottom lining plate (6), the handle traction wheel (7) is installed on the left side of the clamp spring bottom lining plate (6), and the clamp spring bottom lining plate (6) is mechanically connected with the handle traction wheel (7), and the drawing device is characterized in that:

the optical fiber lead placing tank (2) is provided with a tank top cover disc (2A), a sealing ring (2B), a bus pumping pipe (2C), an overload flow limiting plate (2D), a tank cylinder shell (2E), a fast butt joint cap (2F), a balloon bundle cylinder seat (2G) and a prism spread angle disc (2H), the tank top cover disc (2A) is matched with the sealing ring (2B), the tank top cover disc (2A) is nested on the top of the tank cylinder shell (2E), the bus pumping pipe (2C) is inserted and embedded in the tank cylinder shell (2E), the bus pumping pipe (2C) is buckled with the balloon bundle cylinder seat (2G) through the fast butt joint cap (2F), the overload flow limiting plate (2D) is provided with two parts and is respectively clung to the left side and the right side of the tank cylinder shell (2E), and the balloon bundle cylinder seat (2G) is movably connected with the prism spread angle disc (2H), the tank shell (2E) is nested below the bottom of the plug rod cap (1);

the bus plug tube (2C) is composed of a plug inner tube (2C1), a bus corrugated tube (2C2) and a top support oval balloon (2C3), the plug inner tube (2C1) is inserted and embedded in the bus corrugated tube (2C2) and the axis of the plug inner tube is collinear, the bus corrugated tube (2C2) is matched with the top support oval balloon (2C3), the quick butt joint cap (2F) is composed of a double-rod slide support frame (2F1), a clamp spring lining plate (2F2), an inner connecting cylinder (2F3) and a circular pedestal (2F4), the double-rod slide support frame (2F1) is inserted and embedded in the front side of the clamp spring lining plate (2F2), the clamp spring lining plate (2F2) is mechanically connected with the inner connecting cylinder (2F3), the double-rod slide support frame (2F1) is movably connected with the circular pedestal (2F4), the inner connecting cylinder (2F3) is inserted and embedded in the circular pedestal (4), and the prism inner connecting cylinder (2F 5635) is composed of an angle expansion cone (1H) and an inner prism base (365635), The inner frame taper mirror seat (2H1) and the wingspan mirror plate (2H2) are provided with more than two and are mutually and alternately clung to the axle center of the thick ring plate (2H 3).

2. The optical fiber bus bar puncture clamp can drawing type swinging wire guide machine according to claim 1, characterized in that: the top-supporting elliptical balloon (2C3) is composed of an elliptical balloon (2C31), a spring wire (2C32), an inner rubber mat (2C33) and a compression reed pipe (2C34), the elliptical balloon (2C31) is mechanically connected with the inner rubber mat (2C33) through the spring wire (2C32), and the inner rubber mat (2C33) is matched with the compression reed pipe (2C 34).

3. The optical fiber bus bar puncture clamp can drawing type swinging wire guide machine according to claim 1, characterized in that: jump ring welt (2F2) comprise triangle lug (2F21), jump ring strengthening rib (2F22), arc top welt (2F23), triangle lug (2F21) cooperatees with jump ring strengthening rib (2F22), triangle lug (2F21) are equipped with two and insert respectively and inlay the left and right sides in arc top welt (2F23) inside.

4. The optical fiber bus bar puncture clamp can drawing type swinging wire guide machine according to claim 1, characterized in that: the balloon barrel bundling seat (2G) is composed of a sleeve (2G1), a pulling sliding ring (2G2) and a balloon seat (2G3), the sleeve (2G1) is matched with the pulling sliding ring (2G2), and the sleeve (2G1) is inserted and embedded on the top of the balloon seat (2G 3).

5. The optical fiber bus bar puncture clamp can drawing type swinging wire guide machine according to claim 2, characterized in that: the compression reed pipe (2C34) is of an arc short pipe structure with mushroom-shaped caps on the left and right.

6. The optical fiber bus bar puncture clamp can pull-out swinging wire guide machine according to claim 3, characterized in that: the clamp spring reinforcing ribs (2F22) are of a bar structure with left and right gaskets with through holes and a plurality of folding angles in the middle.

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