CN219669752U - Auxiliary wire feeding mechanism and cable storage and conveying device - Google Patents

Abstract

The utility model discloses an auxiliary wire feeding mechanism, which relates to the field of automatic cable processing equipment and comprises a mounting structure, a rotating structure, a cantilever rod and a threading part, wherein the mounting structure can be fixedly mounted at the top end of a cable drum, the cantilever rod is rotatably connected to the mounting structure through the rotating structure, the threading part is arranged on the cantilever rod and used for allowing a cable on the cable drum to pass through, and the rotating structure is configured to at least allow the cantilever rod to rotate in the circumferential direction of the top end of the cable drum. The utility model also discloses a cable storage and conveying device. The auxiliary wire feeding mechanism can effectively ensure the efficiency and safety of switching the specification of the cable.

Description

Auxiliary wire feeding mechanism and cable storage and conveying device

Technical Field

The utility model relates to the field of automatic cable processing equipment, in particular to an auxiliary wire feeding mechanism and a cable storing and conveying device.

Background

The existing processing of the power line and the multi-core data line of the control cabinet requires cutting and stripping the multi-core sheath line and processing the end part of the inner core line, but the existing cutting and stripping machine can only process one specification of cable at a time, if one set of multi-core line contains cables with different specifications, cutting and stripping the set of multi-core line needs to switch the incoming line specification for a plurality of times, and the conventional large-scale cable power line feeding mechanism is adopted, only one specification of cable can be stored laterally at a time, and a large amount of downtime is required for taking out the coil in the large-scale cable power line feeding mechanism when the incoming line specification is switched at a time, and then the coil to be processed is put into the coil to be processed, so that the operation is complex and the efficiency is low. Meanwhile, the multi-core sheath wire coil is generally a larger and heavier wire coil, so that the labor intensity of wire replacement every time is high, and from the viewpoint of labor safety, potential safety hazards exist in frequent wire replacement.

Disclosure of Invention

In order to overcome the defects in the prior art, one of the purposes of the utility model is to provide an auxiliary wire feeding mechanism which can effectively ensure the efficiency and the safety of switching the specifications of the cables.

The utility model is realized by adopting the following technical scheme:

the utility model provides an auxiliary wire feeding mechanism, includes mounting structure, rotating-structure, cantilever bar and threading portion, mounting structure can fixed mounting in the top of cable dish, the cantilever bar passes through rotating-structure rotatable connect in mounting structure, threading portion sets up be used for supplying the cable on the cable dish to pass on the cantilever bar, wherein, rotating-structure is configured to at least can allow the cantilever bar rotates in the circumferencial direction on the top of cable dish.

Preferably, the mounting structure comprises a cover plate, an adjusting knob, a supporting block, a fixing support and a fixing clamp, wherein the cover plate can be fixedly mounted on the top end of the cable tray, the cantilever rod is rotatably connected with the cover plate through the rotating structure, the adjusting knob is fixedly mounted on the middle part of the cover plate, the adjusting knob can adjust the distance between the supporting block and the central shaft of the adjusting knob, the supporting block is embedded in the adjusting knob, one end of the fixing support is fixedly connected with the end face edge of the cover plate, which is close to the supporting block, and the other end of the fixing support is connected with the fixing clamp.

Preferably, the rotating structure comprises a rotating main shaft, one end of the rotating main shaft is fixedly connected in the adjusting knob, the other end of the rotating main shaft is fixedly connected with one end of the cantilever rod, which is far away from the threading part, and the rotating main shaft is configured to allow the cantilever rod to rotate in the circumferential direction of the top end of the cable tray.

Preferably, the rotating structure further comprises a lifting hinge and a rotary guide supporting wheel, the cantilever rod is rotatably connected to the cover plate through the lifting hinge, the lifting hinge is configured to allow the cantilever rod to lift in the axis direction of the top end of the cable tray, and the rotary guide supporting wheel is fixedly connected to the lifting hinge.

Preferably, the device further comprises a counterweight, wherein the counterweight is connected with one end of the threading part far away from the cantilever rod.

Preferably, the cone is arranged in the adjusting knob, the supporting block comprises a main supporting block and a stable supporting block, one end of the main supporting block is fixedly connected with one end of the rotating main shaft in the adjusting knob, the other end of the main supporting block is connected with the cone, the cone can reciprocate along the axis direction of the main supporting block, one side of the stable supporting block is attached to the cone, and the other side of the stable supporting block is attached to the inner wall of the cable tray.

Preferably, the support block further comprises a support extension block, one side of the support extension block is fixedly connected with one side, far away from the cone, of the stable support block, and the other side of the support extension block is attached to the inner wall of the cable tray.

Preferably, the central axis of the adjusting knob, the rotating main shaft and the central axis of the main supporting block are all positioned on the same straight line.

Another object of the present utility model is to provide a cable storage and delivery device.

The utility model provides a cable is deposited and conveyor, includes at least one station, is provided with the cable dish on the station, and the terminal surface of cable dish is parallel with the station horizontal plane, and the cable dish is kept away from the one end of station and is all corresponding to set up foretell supplementary wire feeding mechanism, still includes framework and first wire mechanism, the framework is erect supplementary wire feeding mechanism is last, first wire mechanism fixed connection is in on the framework, supplementary wire feeding mechanism can be with the cable transmission to first wire mechanism.

Preferably, the first wire mechanism includes at least one dead lever, wire guide plate and metallic channel, the dead lever with border fixed connection in the box, every two stations correspond a dead lever, correspond on every dead lever and set up a wire guide plate, correspond on every wire guide plate and set up a metallic channel, every metallic channel corresponds the transmission cable of a specification, and the port department of metallic channel all is provided with the horn mouth, and the metallic channel is half moon shape structure setting.

Compared with the prior art, the utility model has the beneficial effects that: the auxiliary wire feeding mechanism is provided with the mounting structure, the mounting structure can fixedly mount the auxiliary wire feeding mechanism at the top end of the wire coil, the wire storage and conveying device is provided with the station, the wire coil can be directly placed on the station underframe, the end face of the wire coil is parallel to the station horizontal plane, namely, the wire coil adopts a forward placement mode, compared with a lateral placement mode, the storage stability of the wire coil can be effectively improved, meanwhile, when the wire coil needs to be switched every time, the wire coil is directly moved by using a forklift fork, the labor intensity when the wire coil is replaced for multiple times is not needed, the accidental risk of being injured by a large wire coil is reduced, and the efficiency and safety of switching the wire specifications are effectively improved; the auxiliary wire feeding mechanism is further provided with a rotating structure, a cantilever rod and a threading part, the cable coil is placed on the cable drum, the threading part is arranged on the cantilever rod and used for enabling a cable on the cable drum to pass through, the cantilever rod is rotatably connected to the mounting structure through the rotating structure, the rotating structure is configured to at least allow the cantilever rod to rotate in the circumferential direction of the top end of the cable drum, namely the rotating structure can control the cantilever rod to rotate around the cable unwinding direction on the cable drum, the coil stress of the cable coil on the cable drum can be effectively unwound, knotting or jamming of the cable coil is avoided in the wire feeding process, the reliability and fluency of the wire feeding of the auxiliary wire feeding mechanism are ensured, and when the speed of pulling the cable in the wire cutting and peeling machining process is reduced, the rotating structure allows the speed of the cantilever rod rotating in the circumferential direction of the top end of the cable drum to be synchronously slowed down until the wire feeding operation is stopped, and the on-site environment management and normal wire feeding operation of other auxiliary wire feeding mechanisms are prevented from being influenced due to inertia; the cable storage and conveying device can be provided with a plurality of stations, cable trays of different specifications can be correspondingly placed at different stations, and in the processing of the wire harness of the control cabinet, complicated operation of switching the wire inlet specifications is not required to be carried out every time by spending a large amount of downtime, and only the wire heads of the cable trays of different specifications on different stations are required to be adaptively replaced according to processing requirements, so that the efficiency and the safety of switching the wire inlet specifications are further effectively improved.

Drawings

Fig. 1 is a schematic diagram of an overall structure of an auxiliary wire feeding mechanism in an embodiment of the present utility model.

Fig. 2 is a schematic cross-sectional structure of an auxiliary wire feeding mechanism according to an embodiment of the present utility model.

Fig. 3 is a schematic overall structure of a cable storing and transporting device according to an embodiment of the present utility model.

Fig. 4 is a schematic partial structure of a cable storing and transporting device according to an embodiment of the present utility model.

Reference numerals: 1. a mounting structure; 2. a rotating structure; 3. a cantilever bar; 4. a threading part; 5. a cable drum; 6. a cover plate; 7. an adjustment knob; 8. a support block; 9. a fixed bracket; 10. a fixing clamp; 11. rotating the main shaft; 12. a lifting hinge; 13. rotating the guide support wheel; 14. a counterweight; 15. a cone; 16. a main support block; 17. stabilizing the support block; 18. supporting the extension block; 19. a station; 20. a frame; 21. a first wire guide mechanism; 22. a fixed rod; 23. a wire guide plate; 24. a wire groove; 25. a horn mouth.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

Referring to fig. 1-4, the present utility model provides an auxiliary wire feeding mechanism, comprising a mounting structure 1, a rotating structure 2, a cantilever rod 3 and a threading part 4, wherein the mounting structure 1 can be fixedly mounted at the top end of a cable drum 5, the cantilever rod 3 is rotatably connected to the mounting structure 1 through the rotating structure 2, the threading part 4 is arranged on the cantilever rod 3 for allowing a cable on the cable drum 5 to pass through, and the rotating structure 2 is configured to at least allow the cantilever rod 3 to rotate in the circumferential direction of the top end of the cable drum 5.

The auxiliary wire feeding mechanism is provided with the mounting structure 1, the rotating structure 2, the cantilever rod 3 and the threading part 4, the mounting structure 1 can be fixedly mounted at the top end of the cable drum 5, the top end is one end surface of the cable drum 5, the end surface of the cable drum 5 is parallel to the ground, namely, the cable drum 5 adopts a forward placement mode, compared with a lateral placement mode of the cable drum 5, the storage stability of a cable can be effectively improved in the forward placement mode, meanwhile, when a new cable needs to be replaced each time, the cable drum 5 is directly used by a forklift, the cable drum 5 does not need to be overturned for a plurality of times, the labor intensity when the cable is replaced is reduced, the accidental risk of being damaged by a large cable drum 5 is reduced, and the efficiency and the safety of cable specification switching are effectively improved; the threading part 4 is arranged on the cantilever rod 3 and used for allowing a cable on the cable drum 5 to pass through; the cantilever bar 3 is rotatably connected to the mounting structure 1 through the rotating structure 2, the rotating structure 2 is configured to at least allow the cantilever bar 3 to rotate in the circumferential direction of the top end of the cable drum 5, that is, the rotating structure 2 can control the cantilever bar 3 to rotate around the cable unwinding direction on the cable drum 5, so that the winding stress of the cable winding on the cable drum 5 can be effectively unwound, knotting or jamming of the cable in the cable feeding process can be avoided, the cable feeding reliability and smoothness of the auxiliary cable feeding mechanism are ensured, and when the cable pulling speed is reduced, the rotating structure 2 allows the speed of the cantilever bar 3 rotating in the circumferential direction of the top end of the cable drum 5 to be synchronously reduced until the cable feeding operation is stopped, and the influence on the normal cable feeding operation of the field environment management and other auxiliary cable feeding mechanisms due to excessive cable unwinding caused by inertia is prevented.

Specifically, in this embodiment, the installation structure 1 includes a cover plate 6, an adjusting knob 7, a supporting block 8, a fixing bracket 9 and a fixing clip 10, the cover plate 6 can be fixedly installed at the top end of the cable tray 5, the cantilever rod 3 is rotatably connected to the cover plate 6 through the rotating structure 2, the adjusting knob 7 is fixedly installed at the middle part of the cover plate 6, the adjusting knob 7 can adjust the distance between the supporting block 8 and the central shaft of the adjusting knob 7, the supporting block 8 is embedded in the adjusting knob 7, one end of the fixing bracket 9 is fixedly connected to the edge of the end face of the cover plate 6 close to the supporting block 8, and the other end of the fixing bracket 9 is connected with the fixing clip 10; the cover plate 6 and the supporting block 8 are matched with each other to play a main supporting role on the auxiliary wire feeding mechanism; the distance between supporting shoe 8 and the adjusting knob 7 center pin can be adjusted to adjusting knob 7, can adapt to the cable dish 5 of maximum diameter in order to adapt to different interior bore of mounting structure 1, and fixed bolster 9 can adapt to the cable dish 5 of adjusting length in order to adapt to equidimension not, and the application scope of supplementary wire feeding mechanism can effectively be enlarged in setting up of adjusting knob 7 and fixed bolster 9, and fixation clamp 10 can make supplementary wire feeding mechanism press from both sides fast on the outer edge of cable dish 5 to ensure supplementary wire feeding mechanism installs fast and fixes on cable dish 5, effectively improve supplementary wire feeding mechanism's installation effectiveness.

More specifically, the rotating structure 2 includes a rotating main shaft 11, one end of the rotating main shaft 11 is fixedly connected within the adjusting knob 7, the other end of the rotating main shaft 11 is fixedly connected with one end of the cantilever rod 3 away from the threading part 4, and the rotating main shaft 11 is configured to allow the cantilever rod 3 to rotate in the circumferential direction of the top end of the cable tray 5; the arrangement of the rotary main shaft 11 can control the cantilever rod 3 to rotate around the cable releasing direction on the cable drum 5, so that the cable winding stress on the cable drum 5 can be effectively released, and the cable is prevented from being knotted or blocked in the process of feeding the cable, so that the reliability and fluency of feeding the auxiliary cable feeding mechanism are ensured.

More specifically, the rotating structure 2 further includes a lifting hinge 12 and a rotation guide supporting wheel 13, the cantilever bar 3 is rotatably connected to the cover plate 6 through the lifting hinge 12, the lifting hinge 12 is configured to allow the cantilever bar 3 to be lifted in the axial direction of the top end of the cable drum 5, and the rotation guide supporting wheel 13 is fixedly connected to the lifting hinge 12; when the wire feeding speed is increased, the upward pulling force of the cantilever rod 3 is increased due to the upward acceleration of accelerating and pulling the wire feeding, the lifting hinge 12 allows the cantilever rod 3 to be lifted in the axial direction of the top end of the cable drum 5, the upward pulling force of the cantilever rod 3 is balanced, and the wire is prevented from being clamped in the pulling process of the cable, so that the smoothness of the wire feeding of the auxiliary wire feeding mechanism is ensured; when the wire feeding speed is slowed down, cantilever bar 3 descends, and rotatory direction supporting wheel 13 is laminated with apron 6, makes cantilever bar 3 rotatory damping increase, and cantilever bar 3 only continues slow rotation through inertia and loosens the cable, until stopping pulling the cable, cantilever bar 3 stop rotate and keep the cable to deposit the state, prevent because inertia leads to excessively to loosen the wire and influence on-the-spot environment management and other supplementary normal wire feeding operation of send line mechanism.

Specifically, in this embodiment, the device further includes a counterweight 14, and the counterweight 14 is connected to one end of the threading part 4 away from the cantilever rod 3; the balance weight 14 can adaptively adjust the balance weight of the cantilever rod 3 according to different rotary inertia forces, so that the coiling stress of the cable is effectively loosened, the cable is ensured to rotate along the loosening direction, the cable is prevented from being twisted and clamped in the wire feeding process of the auxiliary wire feeding mechanism, and the wire feeding smoothness of the auxiliary wire feeding mechanism is further ensured.

More specifically, a cone 15 is arranged in the adjusting knob 7, the supporting block 8 comprises a main supporting block 16 and a stable supporting block 17, one end of the main supporting block 16 is connected with one end of the rotating main shaft 11 fixedly connected in the adjusting knob 7, the other end of the main supporting block 16 is connected with the cone 15, the cone 15 can reciprocate along the axis direction of the main supporting block 16, one side of the stable supporting block 17 is attached to the cone 15, and the other side of the stable supporting block 17 is attached to the inner wall of the cable tray 5; the cone 15 is arranged in the adjusting knob 7, the cone 15 can reciprocate along the axis direction of the main supporting block 16, the cone 15 is matched with four stable supporting blocks 17 uniformly distributed below the adjusting knob 7, when the adjusting knob 7 is rotated clockwise, the cone 15 moves downwards, the distance between the stable supporting blocks 17 and the central shaft of the adjusting knob 7 is reduced, and the adjusting knob is suitable for the cable tray 5 with smaller inner aperture; when the adjusting knob 7 is rotated anticlockwise, the cone 15 moves upwards, the distance between the stable supporting block 17 and the central shaft of the adjusting knob 7 is increased, and the cable drum 5 with larger inner aperture is suitable; the cone 15, the main supporting block 16 and the stable supporting block 17 are matched, so that the maximum diameter of the installation structure 1 can be adaptively adjusted to adapt to cable trays 5 with different inner diameters, and the application range of the auxiliary wire feeding mechanism is effectively enlarged.

More specifically, the supporting block 8 further comprises a supporting extension block 18, one side of the supporting extension block 18 is fixedly connected with one side of the stabilizing supporting block 17 away from the cone 15, and the other side of the supporting extension block 18 is attached to the inner wall of the cable tray 5; the support extension block 18 is fixedly connected with the stable support block 17 through a bolt, and the maximum diameter of the installation structure 1 can be further enlarged by the support extension block 18 so as to be suitable for cable reels 5 with different inner apertures in a larger range, and the application range of the auxiliary wire feeding mechanism is further enlarged.

More specifically, the central axis of the adjusting knob 7, the rotary main shaft 11 and the central axis of the main supporting block 16 are all on the same straight line; the coaxiality of the central shafts of the adjusting knob 7, the rotating main shaft 11 and the main supporting block 16 is kept consistent, so that the rotating stability of the cantilever rod 3 can be effectively ensured, and meanwhile, the reliability of the adjusting knob 7 on the adjustment of the maximum diameter of the mounting structure 1 can be ensured.

The embodiment also provides a cable storage and conveying device, which comprises at least one station 19, wherein a cable drum 5 can be placed on the station 19, the end face of the cable drum 5 is parallel to the horizontal plane of the station 19, one end of the cable drum 5, far away from the station 19, is correspondingly provided with the auxiliary wire feeding mechanism, the cable storage and conveying device further comprises a frame 20 and a first wire guiding mechanism 21, the frame 20 is erected on the auxiliary wire feeding mechanism, the first wire guiding mechanism 21 is fixedly connected on the frame 20, and the auxiliary wire feeding mechanism can transmit cables to the first wire guiding mechanism 21.

The cable storing and conveying device of the embodiment is provided with the station 19, the cable tray 5 is placed on the station 19, the end face of the cable tray 5 is parallel to the horizontal plane of the station 19, namely, the cable tray 5 adopts a forward placing mode, compared with a mode of laterally placing the cable tray 5, the mode of forward placing the cable tray 5 can effectively improve the storage stability of cables, when a new cable needs to be replaced each time, a forklift fork is directly used for carrying out the cable tray 5, the cable tray 5 does not need to be overturned for a plurality of times, the labor intensity when the cable needs to be replaced is reduced, the accidental risk of being crushed by the large cable tray 5 is reduced, the cable specification switching efficiency and safety are effectively improved, meanwhile, the cable storing and conveying device of the embodiment can be provided with a plurality of stations 19, different cable trays 5 with different specifications can be correspondingly arranged, in the control cabinet processing, complicated switching wire inlet specification operation is not required each time, only the cable tray 5 with different specifications on the control cabinet is required to be replaced, the cable tray with different specifications can be further switched according to the processing requirements, and the cable specification switching efficiency and the cable tray with different specifications can be further improved; the auxiliary wire feeding mechanism can convey wires to the first wire guiding mechanism 21, the first wire guiding mechanism 21 can gather and guide the wires conveyed by the auxiliary wire feeding mechanism, the first wire guiding mechanism 21 can convert the conveying direction of the wires into the horizontal direction, the wires are prevented from loosening or interleaving in the wire feeding process, normal processing of the follow-up wires is affected, and the reliability of wire feeding is further ensured.

Specifically, in this embodiment, the first wire guide mechanism 21 includes at least one fixing rod 22, wire guide plates 23 and wire guide grooves 24, the fixing rod 22 is fixedly connected with the inner edge of the frame 20, each two stations 19 corresponds to one fixing rod 22, each fixing rod 22 is correspondingly provided with one wire guide plate 23, each wire guide plate 23 is correspondingly provided with one wire guide groove 24, each wire guide groove 24 correspondingly transmits a cable with one specification, the ports of the wire guide grooves 24 are respectively provided with a bell mouth 25, and the wire guide grooves 24 are arranged in a half-moon structure; the wire grooves 24 can support the cables, so that the cables are prevented from bending downwards due to gravity to increase the wire feeding resistance, and meanwhile, the wire grooves 24 can prevent interference and collision phenomena between the cables caused by no horizontal constraint of the cables moving at high speed in the wire feeding process, so that the reliability and safety of the wire feeding process are ensured; each wire slot 24 correspondingly transmits a cable with one specification, namely, when the specification of the incoming wire needs to be switched, only the wire head of the cable transmitted in the wire slot 24 needs to be replaced adaptively, so that the efficiency of switching the specification of the incoming wire is further improved effectively; because the cable output port of the first wire guide mechanism 21 is not on the same horizontal plane with the input port of the external automatic cable processing equipment, the port of the wire guide groove 24 is provided with the horn mouth 25, and the cable can be smoothly turned through the smooth horn mouth 25 and transmitted to the input port of the external automatic cable processing equipment, so that the reliability of the wire feeding is further ensured; the metallic channel 24 is when guaranteeing to carry out the guide operation to the cable of supplementary wire feeding mechanism transmission, and metallic channel 24 sets up to half moon shape structure, can make the cable be the semi-naked state, makes the operator can monitor the state of cable in real time, if the cable presents the damaged state, the operator can quick replacement corresponding cable to guarantee follow-up and act as go-between and the normal clear of processing operation.

The working principle of the cable storage and conveying device is as follows: different cable reels 5 are coiled with cables with different specifications, the corresponding specification and the corresponding number of the cable reels 5 are placed on the corresponding number of stations 19 by forklift forks according to processing requirements, an auxiliary wire feeding mechanism is installed on the cable reels 5, namely, the supporting blocks 8 are installed in the inner holes of the cable reels 5, if the inner hole diameter of the cable reels 5 is smaller, the adjusting knob 7 is rotated clockwise, the cone 15 moves downwards, the stabilizing supporting blocks 17 are close to the main supporting blocks 16, if the inner hole diameter of the cable reels 5 is larger, the adjusting knob 7 is rotated anticlockwise, the cone 15 moves upwards, the stabilizing supporting blocks 17 are far away from the main supporting blocks 16, the stabilizing supporting blocks 17 are attached to the inner hole walls of the cable reels 5, if the inner hole diameter of the cable reels 5 exceeds the maximum range of the inner hole walls of the stabilizing supporting blocks 17 which can be attached to the cable reels 5, the supporting extension blocks 18 can be fixedly connected with the stabilizing supporting blocks 17, and the adjusting knob 7 is rotated anticlockwise, the cone 15 moves upwards, the stable supporting block 17 and the supporting extension block 18 are far away from the main supporting block 16, the supporting extension block 18 is attached to the inner hole wall of the cable drum 5, namely, the operation of fixedly installing the cable drum 5 by the installation structure 1 is completed, the cable head of the cable drum 5 passes through the threading part 4, the external automatic cable processing equipment is started, the auxiliary cable feeding mechanism starts to feed the cable, the cable passes through the threading part 4 and is transmitted into the cable slot 24, one cable slot 24 corresponds to the cable with one specification, the cable in the cable slot 24 is transmitted to the power cable feeding device through the horn mouth 25, the power cable feeding device pulls the cable to the cable cutting and peeling machine for cutting and peeling, a cable pulling speed sensor is arranged between the power cable feeding device and the cable cutting and peeling machine, the power cable feeding device is connected with the cable pulling speed sensor through an electric signal, the speed inductor of acting as go-between can detect the speed of acting as go-between from power wire feeding device to cutting wire peeler to feed back speed information to power wire feeding device through the signal of telecommunication, when the wire feeding speed is accelerated, lift hinge 12 drives cantilever bar 3 and rises in step on the axis direction on the top of cable dish 5, when the wire feeding speed slows down, cantilever bar 3 descends, rotatory direction supporting wheel 13 is laminated with apron 6, cantilever bar 3 is through the rotatory cable of releasing of inertia slow speed, until power wire feeding device stops pulling the cable, supplementary wire feeding mechanism stops to send the line in step, if need switch the cable of different specifications, the manual end of a thread that passes the power wire feeding device input port takes out, draw the end of a thread of another cable that needs processing in the metallic channel 24 and change power wire feeding device input port.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (10)

1. An auxiliary wire feeding mechanism, comprising:

the device comprises a mounting structure (1), a rotating structure (2), a cantilever rod (3) and a threading part (4);

the installation structure (1) can be fixedly installed at the top end of the cable tray (5), the cantilever rod (3) is rotatably connected to the installation structure (1) through the rotating structure (2), and the threading part (4) is arranged on the cantilever rod (3) and used for allowing a cable on the cable tray (5) to pass through;

wherein the rotating structure (2) is configured to at least allow the cantilever rod (3) to rotate in a circumferential direction of the tip of the cable drum (5).

2. The auxiliary wire feeding mechanism according to claim 1, wherein,

the mounting structure (1) comprises a cover plate (6), an adjusting knob (7), a supporting block (8), a fixing bracket (9) and a fixing clamp (10);

the utility model discloses a cable drum, including apron (6), cantilever bar (3), bearing block (8), fixed bolster (9), cantilever bar (3) can fixed mounting on the top of cable drum (5), cantilever bar (3) pass through rotating-structure (2) rotatable connect in apron (6), adjust knob (7) fixed mounting is in the middle part of apron (6), adjust knob (7) can adjust supporting shoe (8) with distance between adjust knob (7) center pin, supporting shoe (8) embedding in adjust knob (7), fixed bolster (9) one end fixed connection is in apron (6) are close to on the terminal surface border of supporting shoe (8), the fixed bolster (9) other end with fixation clamp (10) are connected.

3. Auxiliary wire feeding mechanism according to claim 2, wherein the rotating structure (2) comprises a rotating spindle (11), one end of the rotating spindle (11) is fixedly connected in the adjusting knob (7), the other end of the rotating spindle (11) is fixedly connected with one end of the cantilever rod (3) far away from the threading part (4), and the rotating spindle (11) is configured to allow the cantilever rod (3) to rotate in the circumferential direction of the top end of the wire reel (5).

4. The auxiliary wire feeding mechanism according to claim 2, wherein,

the rotating structure (2) further comprises a lifting hinge (12) and a rotary guide supporting wheel (13);

the cantilever rod (3) is rotatably connected to the cover plate (6) through the lifting hinge (12), the lifting hinge (12) is configured to allow the cantilever rod (3) to lift in the axial direction of the top end of the cable tray (5), and the rotary guide supporting wheel (13) is fixedly connected to the lifting hinge (12).

5. The auxiliary wire feeding mechanism according to claim 1, further comprising a counter weight (14), wherein the counter weight (14) is connected to an end of the wire passing portion (4) remote from the cantilever bar (3).

6. The auxiliary wire feeding mechanism according to claim 3, wherein,

a cone (15) is arranged in the adjusting knob (7);

the support block (8) comprises a main support block (16) and a stable support block (17), wherein one end of the main support block (16) is fixedly connected with one end of the rotary main shaft (11) in the adjusting knob (7), the other end of the main support block (16) is connected with the cone (15), the cone (15) can reciprocate along the axis direction of the main support block (16), one side of the stable support block (17) is attached to the cone (15), and the other side of the stable support block (17) is attached to the inner wall of the cable tray (5).

7. Auxiliary wire feeding mechanism according to claim 6, wherein the support block (8) further comprises a support extension block (18), one side of the support extension block (18) is fixedly connected with one side of the stable support block (17) away from the cone (15), and the other side of the support extension block (18) is attached to the inner wall of the cable tray (5).

8. Auxiliary wire feeding mechanism according to claim 6, characterized in that the central axis of the adjustment knob (7), the central axis of the main rotation shaft (11) and the central axis of the main support block (16) are all on the same straight line.

9. The utility model provides a cable is deposited and conveyor, its characterized in that, includes at least one station (19), is provided with cable drum (5) on station (19), and the terminal surface of cable drum (5) is parallel with station (19) horizontal plane, and the one end that station (19) were kept away from to cable drum (5) all corresponds and sets up an auxiliary wire mechanism according to any one of claims 1-8, still includes framework (20) and first wire mechanism (21), framework (20) erect on the auxiliary wire mechanism, first wire mechanism (21) fixed connection is in on framework (20), auxiliary wire mechanism can with cable transmission to first wire mechanism (21).

10. The cable storage and conveying device according to claim 9, wherein the first wire guide mechanism (21) comprises at least one fixing rod (22), wire guide plates (23) and wire guide grooves (24), the fixing rods (22) are fixedly connected with the inner edge of the frame body (20), each two stations (19) corresponds to one fixing rod (22), each fixing rod (22) is correspondingly provided with one wire guide plate (23), each wire guide plate (23) is correspondingly provided with one wire guide groove (24), each wire guide groove (24) is correspondingly used for conveying a cable with one specification, horn mouths (25) are formed at the ports of the wire guide grooves (24), and the wire guide grooves (24) are arranged in a half-moon structure.