CN109399375A - Fiber optic cable unwrapping wire automatic guiding device - Google Patents

Abstract

The invention discloses a kind of fiber optic cable unwrapping wire automatic guiding devices, including bottom plate, the bottom end of the fixing bolt is connected with fixed disk, the cabinet is internally provided with hoisting mechanism, the side of the cabinet is provided with placing groove, the side that the cabinet is located remote from slot is provided with rotating mechanism, and the inside of the cabinet is set to the shaft having through its surface, and the bottom of the mounting plate is provided with guiding mechanism.The present invention is risen placing groove by the hoisting mechanism being arranged, convenient for optical fiber coiling bucket is moved to above cabinet, drive roll rotation is driven by first servo motor, drive roll drives shaft rotation by the first belt, so that optical fiber coiling bucket rotates, when the free end of man-hour manually hand-held optical cable moves ahead along cable duct traction, labor intensity is reduced, is improved work efficiency, the guiding mechanism of setting is passed through, it avoids optical fiber from swinging back and forth on optical fiber coiling bucket when releasing, influences to cut.

Description

Fiber optic cable unwrapping wire automatic guiding device

Technical field

The present invention relates to technical field of optical fiber, specially a kind of fiber optic cable unwrapping wire automatic guiding device.

Background technique

Optical cable is using optical fiber as carrier, and using light wave as the fiber optic communication cable of transmission medium, optical cable is mainly used for the communications industry, Such as the operators such as telecommunications, movement and connection, in addition field of broadcast televisions can also use optical cable as the transmission medium of CHINA RFTCOM Co Ltd, As the large area of computer and smart phone is universal, information propagation amount increases severely, the not competent existing work of traditional cable It measures, optical cable is just play the leading role of information propagation.

For existing Connectorized fiber optic cabling in unwrapping wire due to not having guiding device, optical fiber carrys out backswing when releasing on a bobbin It is dynamic, influence to cut, need to get optical fiber coiling bucket into bracket before unwrapping wire, carry out optical cable unwrapping wire be usually by man-hour manually hand-held optical cable from Moved ahead by holding along cable duct traction, make optical fiber coiling bucket rotate unwrapping wire by manpower, labor intensity is big and efficiency compared with It is low.

Summary of the invention

The purpose of the present invention is to provide a kind of fiber optic cable unwrapping wire automatic guiding devices, to solve in above-mentioned background technique In unwrapping wire due to not having guiding device, optical fiber swings back and forth the existing Connectorized fiber optic cabling proposed on a bobbin when releasing, It influences to cut, needs to get optical fiber coiling bucket into bracket before unwrapping wire, carrying out optical cable unwrapping wire is usually the freedom by man-hour manually hand-held optical cable End moves ahead along cable duct traction, makes optical fiber coiling bucket rotate unwrapping wire by manpower, labor intensity is big and efficiency is lower The problem of.

To achieve the above object, the invention provides the following technical scheme: a kind of fiber optic cable unwrapping wire automatic guiding device, packet Bottom plate is included, the fixing bolt through its surface is connected at the top of the bottom plate, the bottom end of the fixing bolt is connected with fixation Disk is equipped with cabinet at the top of the bottom plate, and the cabinet is internally provided with hoisting mechanism, and the side of the cabinet is provided with Placing groove, the side that the cabinet is located remote from slot are provided with rotating mechanism, and the rotating mechanism is mounted on the top of bottom plate, institute The inside for stating cabinet is set to the shaft having through its surface, and the shaft is located at the top of rotating mechanism, one end of the cabinet It is connected with mounting plate, the bottom of the mounting plate is provided with guiding mechanism.

Preferably, the quantity of the bottom plate is two, and the " T " shape symmetrical configuration distribution of two bottom plates, each bottom The bottom of plate is mounted on the universal wheel that quantity is three, and the upper end of each bottom plate is provided with three groups of fixing bolts, described Shaft is flexibly connected with cabinet by bearing.

Preferably, the rotating mechanism includes first servo motor, drive roll, the first belt, the second belt and driven voller, The output end of the first servo motor is connected with drive roll, and drive roll is connected by the first belt with shaft, and described turn Axis is provided with driven voller far from the side of first servo motor, and driven voller is connected by the second belt with shaft.

Preferably, the surface of the drive roll, shaft and driven voller is provided with groove, and the first belt and the second belt Inside grooves are mounted on, the driven voller is rotatablely connected by rotary shaft and bottom plate.

Preferably, the hoisting mechanism includes the second servo motor, first gear, second gear, threaded rod, nut, company Fishplate bar and guide post, second servo motor are mounted on the bottom middle position of cabinet, and the output of the second servo motor End is connected with first gear, and the two sides of the first gear are provided with threaded rod, and the surface of two threaded rods is mounted on Second gear engaged with the first gear, is respectively connected with nut on the outside of two threaded rods, and two nuts with connection Plate welding, the connecting plate are flexibly connected by sliding sleeve with guide post, and connecting plate and placing groove weld.

Preferably, the guiding mechanism includes support frame and actinobacillus wheel, and the actinobacillus wheel is living by rotary shaft and support frame Dynamic connection, and the surface of actinobacillus wheel is provided with cable clamping interface, support frame as described above is fixedly connected by screw with mounting plate.

Preferably, the placing groove includes the first fixed plate, the second fixed plate, pin shaft, ball, third fixed plate and the 4th Fixed plate, first fixed plate and the second fixed plate are rotatablely connected by pin shaft, and the first fixed plate, the second fixed plate are logical It crosses bolt to be connected with third fixed plate and the 4th fixed plate respectively, the ball is located in the first fixed plate and the second fixed plate Portion.

Preferably, the arc-shaped structure in the cross section of first fixed plate and the second fixed plate, and the 4th fixed plate Surface is provided with the through-hole to match with shaft, the arc-shaped structure in cross section of the third fixed plate.

Compared with prior art, the beneficial effects of the present invention are: the present invention is by opening two the second fixed plates, by optical fiber Coiling bucket is pushed into placing groove, is fixed the second fixed plate and third fixed plate and the 4th fixed plate by bolt, the second servo Motor drives first gear rotation, two threaded rod rotations is driven by engaging with second gear, so that nut is on threaded rod It moves up and down, so that connecting plate be driven to slide up and down, placing groove is risen, shaft is sequentially passed through into cabinet and optical fiber coiling bucket, By first servo motor drive drive roll rotation, drive roll by the first belt drive shaft rotation so that optical fiber around The rotation of line bucket, carries out unwrapping wire, and when unwrapping wire, fiber optic cable passes through the actinobacillus wheel of guiding mechanism, avoids optical fiber when releasing in optical fiber It swings back and forth on coiling bucket, influences to cut, when the free end of man-hour manually hand-held optical cable moves ahead along cable duct traction, optical fiber coiling bucket Automatic rotation, reduces labor intensity, improves work efficiency.

Detailed description of the invention

Fig. 1 is surface structure schematic diagram of the invention；

Fig. 2 is placement slot structure schematic diagram of the invention；

Fig. 3 is hoisting mechanism structural schematic diagram of the invention；

Fig. 4 is placing groove schematic diagram of internal structure of the invention；

Fig. 5 is guiding mechanism structural schematic diagram of the invention；

Fig. 6 is pivot structure schematic diagram of the invention；

Fig. 7 is rotating mechanism structural schematic diagram of the invention.

In figure: 1, bottom plate；2, fixing bolt；3, fixed disk；4, universal wheel；5, rotating mechanism；501, first servo motor； 502, drive roll；503, the first belt；504, the second belt；505, driven voller；6, shaft；7, cabinet；8, hoisting mechanism；801, Second servo motor；802, first gear；803, second gear；804, threaded rod；805, nut；806, connecting plate；807, it leads Xiang Zhu；9, mounting plate；10, guiding mechanism；1001, support frame；1002, actinobacillus wheel；11, placing groove；1101, the first fixed plate； 1102, the second fixed plate；1103, pin shaft；1104, ball；1105, third fixed plate；1106, the 4th fixed plate.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Fig. 1-7 is please referred to, a kind of embodiment provided by the invention: a kind of fiber optic cable unwrapping wire automatic guiding device, including Bottom plate 1, the top of bottom plate 1 are connected with the fixing bolt 2 through its surface, and the bottom end of fixing bolt 2 is connected with fixed disk 3, bottom The top of plate 1 is equipped with cabinet 7, and cabinet 7 is internally provided with hoisting mechanism 8, and the side of cabinet 7 is provided with placing groove 11, case The side that body 7 is located remote from slot 11 is provided with rotating mechanism 5, and rotating mechanism 5 is mounted on the top of bottom plate 1, and the inside of cabinet 7 is set To the shaft 6 having through its surface, shaft 6 is located at the top of rotating mechanism 5, and one end of cabinet 7 is connected with mounting plate 9, installation The bottom of plate 9 is provided with guiding mechanism 10.

In this embodiment: making fixed disk 3 and ground be adjacent to fixation by rotary fixing screw bolt 2, pass through the promotion of setting Mechanism 8 is convenient for for optical fiber coiling bucket being moved to 7 top of cabinet, passes through the rotating mechanism 5 of setting, the free end of man-hour manually hand-held optical cable When moving ahead along cable duct traction, optical fiber coiling bucket rotates automatically, reduces labor intensity, improves work efficiency, and leads to The guiding mechanism 10 for crossing setting avoids optical fiber from swinging back and forth on optical fiber coiling bucket when releasing in unwrapping wire, influences to cut.

Referring to Fig. 1, the quantity of bottom plate 1 is two, and the two " T " shape symmetrical configuration of bottom plate 1 distributions, each bottom plate 1 To be mounted on quantity be three universal wheels 4 for bottom, and the upper end of each bottom plate 1 is provided with three groups of fixing bolts, shaft 6 It is flexibly connected with cabinet 7 by bearing, by the universal wheel 4 of setting, convenient for the movement of device.

Fig. 6 and Fig. 7 are please referred to, rotating mechanism 5 includes first servo motor 501 (model 130ST-M06025), active Roller 502, the first belt 503, the second belt 504 and driven voller 505, the output end of first servo motor 501 are connected with drive roll 502, and drive roll 502 is connected by the first belt 503 with shaft 6, shaft 6 is set far from the side of first servo motor 501 It is equipped with driven voller 505, and driven voller 505 is connected by the second belt 504 with shaft 6, drive roll 502, shaft 6 and driven voller 505 surface is provided with groove, and the first belt 503 and the second belt 504 are mounted on inside grooves, and driven voller 505 passes through Rotary shaft and bottom plate 1 are rotatablely connected, and drive drive roll 502 to rotate by first servo motor 501, drive roll 502 passes through first Belt 503 drives shaft 6 to rotate, so that optical fiber coiling bucket rotates, the free end of man-hour manually hand-held optical cable is led along cable duct When drawing forward, optical fiber coiling bucket rotates automatically, reduces labor intensity, improves work efficiency.

Referring to Fig. 3, hoisting mechanism 8 includes the second servo motor 801, first gear 802, second gear 803, threaded rod 804, nut 805, connecting plate 806 and guide post 807, the second servo motor 801 are mounted on the bottom middle position of cabinet 7, And second the output end of servo motor 801 be connected with first gear 802, the two sides of first gear 802 are provided with threaded rod 804, and the surface of two threaded rods 804 is mounted on the second gear 803 engaged with first gear 802, two threaded rods 804 Outside be respectively connected with nut 805, and two nuts 805 are welded with connecting plate 806, and connecting plate 806 passes through sliding sleeve and guiding Column 807 is flexibly connected, and connecting plate 806 and placing groove 11 weld, and drives first gear 802 to revolve by the second servo motor 801 Turn, drive the rotations of two threaded rods 804 by engage with second gear 803 so that nut 805 in threaded rod 804 on move down It is dynamic, so that connecting plate 806 be driven to slide up and down by sliding in guide post, placing groove 11 is risen, is convenient for optical fiber coiling Bucket is moved to 7 top of cabinet, and mechanical movement reduces labor intensity.

Referring to Fig. 5, guiding mechanism 10 include support frame 1001 and actinobacillus wheel 1002, actinobacillus wheel 1002 by rotary shaft with Support frame 1001 is flexibly connected, and the surface of actinobacillus wheel 1002 is provided with cable clamping interface, and support frame 1001 passes through screw and mounting plate 9 It is fixedly connected, falling off for fiber optic cable when unwrapping wire is prevented by the cable clamping interface of setting, avoid optical fiber when releasing in optical fiber coiling It swings back and forth on bucket, influences to cut.

Fig. 2 and Fig. 4 are please referred to, placing groove 11 includes the first fixed plate 1101, the second fixed plate 1102, pin shaft 1103, rolling Pearl 1104, third fixed plate 1105 and the 4th fixed plate 1106, the first fixed plate 1101 and the second fixed plate 1102 pass through pin shaft 1103 rotation connection, and the first fixed plate 1101, the second fixed plate 1102 by bolt respectively with third fixed plate 1105 and 4th fixed plate 1106 is connected, and ball 1104 is located inside the first fixed plate 1101 and the second fixed plate 1102, and first is fixed The arc-shaped structure in the cross section of plate 1101 and the second fixed plate 1102, and the surface of the 4th fixed plate 1106 is provided with and shaft 6 through-holes to match, the arc-shaped structure in the cross section of third fixed plate 1105 will by opening two the second fixed plates 1102 Optical fiber coiling bucket is pushed into placing groove 11, by bolt by the second fixed plate 1102 and third fixed plate 1105 and the 4th fixed plate 1106 is fixed, reduces the frictional force when rotation of optical fiber coiling bucket by the ball 1104 of setting, is convenient for unwrapping wire.

Working principle: removing the bolt being connected with the second fixed plate 1102, two the second fixed plates 1102 is opened, by light In fine coiling bucket push-in placing groove 11, by bolt by the second fixed plate 1102 and third fixed plate 1105 and the 4th fixed plate 1106 is fixed, and the second servo motor 801 drives first gear 802 to rotate, and drives two screw threads by engaging with second gear 803 Bar 804 rotates, so that nut 805 moves up and down in threaded rod 804, to drive connecting plate 806 by sliding over guide post It inside slides up and down, placing groove 11 is risen, convenient for optical fiber coiling bucket is moved to 7 top of cabinet, mechanical movement is reduced manually Shaft 6 is sequentially passed through cabinet 7 and light coiling bucket by labor intensity, and fiber optic cable is passed through actinobacillus wheel 1002, optical fiber is avoided to exist It swings back and forth on optical fiber coiling bucket when releasing, influences to cut, the first belt 503 and the second belt 504 are installed, first Servo motor 501 drive drive roll 502 rotate, drive roll 502 by with the first belt 503, the second belt 504 and driven voller 505 cooperation drives shaft 6 to rotate, so that optical fiber coiling bucket rotates, the free end of man-hour manually hand-held optical cable is along cable duct When traction moves ahead, optical fiber coiling bucket rotates automatically, reduces labor intensity, improves work efficiency.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.

Claims (8)

1. a kind of fiber optic cable unwrapping wire automatic guiding device, including bottom plate, it is characterised in that: be connected with and pass through at the top of the bottom plate The fixing bolt on its surface is worn, the bottom end of the fixing bolt is connected with fixed disk, and cabinet, institute are equipped at the top of the bottom plate The hoisting mechanism that is internally provided with of cabinet is stated, the side of the cabinet is provided with placing groove, and the cabinet is located remote from the one of slot Side is provided with rotating mechanism, and the rotating mechanism is mounted on the top of bottom plate, and the inside of the cabinet is set to having through its surface Shaft, the shaft is located at the top of rotating mechanism, and one end of the cabinet is connected with mounting plate, the bottom of the mounting plate It is provided with guiding mechanism.

2. fiber optic cable unwrapping wire automatic guiding device according to claim 1, it is characterised in that: the quantity of the bottom plate is Two, and the " T " shape symmetrical configuration distribution of two bottom plates, it is three universal that the bottom of each bottom plate, which is mounted on quantity, Wheel, and the upper end of each bottom plate is provided with three groups of fixing bolts, the shaft is flexibly connected with cabinet by bearing.

3. fiber optic cable unwrapping wire automatic guiding device according to claim 1, it is characterised in that: the rotating mechanism includes First servo motor, drive roll, the first belt, the second belt and driven voller, the output end of the first servo motor are connected with Drive roll, and drive roll is connected by the first belt with shaft, the shaft is provided with far from the side of first servo motor Driven voller, and driven voller is connected by the second belt with shaft.

4. fiber optic cable unwrapping wire automatic guiding device according to claim 3, it is characterised in that: the drive roll, shaft It is provided with groove with the surface of driven voller, and the first belt and the second belt are mounted on inside grooves, the driven voller passes through Rotary shaft and bottom plate are rotatablely connected.

5. fiber optic cable unwrapping wire automatic guiding device according to claim 1, it is characterised in that: the hoisting mechanism includes Second servo motor, first gear, second gear, threaded rod, nut, connecting plate and guide post, the second servo motor peace Mounted in the bottom middle position of cabinet, and the output end of the second servo motor is connected with first gear, the first gear Two sides are provided with threaded rod, and the surface of two threaded rods is mounted on second gear engaged with the first gear, two institutes It states and is respectively connected with nut on the outside of threaded rod, and two nuts are welded with connecting plate, the connecting plate passes through sliding sleeve and guiding Column is flexibly connected, and connecting plate and placing groove weld.

6. fiber optic cable unwrapping wire automatic guiding device according to claim 1, it is characterised in that: the guiding mechanism includes Support frame and actinobacillus wheel, the actinobacillus wheel is flexibly connected by rotary shaft with support frame, and the surface of actinobacillus wheel is provided with card line Slot, support frame as described above are fixedly connected by screw with mounting plate.

7. fiber optic cable unwrapping wire automatic guiding device according to claim 1, it is characterised in that: the placing groove includes the One fixed plate, the second fixed plate, pin shaft, ball, third fixed plate and the 4th fixed plate, first fixed plate and second are fixed Plate is rotatablely connected by pin shaft, and the first fixed plate, the second fixed plate pass through bolt and consolidate respectively with third fixed plate and the 4th Fixed board is connected, and the ball is located inside the first fixed plate and the second fixed plate.

8. fiber optic cable unwrapping wire automatic guiding device according to claim 7, it is characterised in that: first fixed plate and The arc-shaped structure in the cross section of second fixed plate, and the surface of the 4th fixed plate is provided with the through-hole to match with shaft, institute State the arc-shaped structure in cross section of third fixed plate.