CN115148420B

CN115148420B - Cable production equipment

Info

Publication number: CN115148420B
Application number: CN202210949676.XA
Authority: CN
Inventors: 朱光虎
Original assignee: Wuyi Hushun Electric Tools Co ltd
Current assignee: Wuyi Hushun Electric Tools Co ltd
Priority date: 2022-08-09
Filing date: 2022-08-09
Publication date: 2023-06-02
Anticipated expiration: 2042-08-09
Also published as: CN115148420A

Abstract

The invention relates to the field of cable production, and discloses cable production equipment, which comprises a wire outlet device, a cooling device and a cutting device for cutting cables, wherein the wire outlet device, the cooling device and the cutting device are arranged in the cable direction, a guide device is arranged between the wire outlet device or the cooling device or the cutting device, the guide device comprises a fixed main frame, a guide transmission wheel set arranged on the fixed main frame and a tensioning wheel set used for tensioning the cables, the fixed main frame is provided with a fixed platform capable of moving along the height direction and used for installing the guide transmission wheel set, a lifting platform used for installing the lifting wheel set and a lifting transfer driving the lifting platform to move along the height direction of the fixed main frame, and the fixed platform and the lifting platform are respectively provided with a first height positioning component and a second height positioning component which are in locking states relative to the height direction of the fixed main frame.

Description

Cable production equipment

Technical Field

The invention relates to the field of cable production, in particular to cable production equipment.

Background

The existing cable is required to be coiled with a wire outlet device of a wire or a copper wire in the production process, the wire or the copper wire is encapsulated to form the cable, the cable is cooled and transported, finally, the cable is cut through cutting equipment, a guide wheel used for guiding is arranged among the wire outlet device, the cooling device and the wire cutting device, but the guide wheel of the cable production equipment only has a guiding function, because the cable transportation path is long, stand columns are arranged among the equipment for saving working places, the guide wheels are provided with a plurality of groups along the height direction of the stand columns, and the cable is wound on the guide wheel back and forth, so that the effect of saving the working places is achieved, but after the cable production equipment is restarted, the cable is required to be wound again, the guide wheels are troublesome and are only used for guiding, can not play a tensioning role, and when the cable is wound on the guide wheel back and forth, the cable is loosened, and the common tensioning mechanism can not realize dynamic adjustment when the cable is in the loosening state.

Disclosure of Invention

The invention provides a cable production device aiming at the defect that the phenomena such as cable loosening and the like in the prior art cannot be dynamically adjusted.

In order to solve the technical problems, the invention is solved by the following technical scheme: the utility model provides a cable production facility, including the cable device that is qualified for next round of competitions that sets up along the cable direction, be used for cable refrigerated cooling device and be used for the cutting device that the cable cut off, be located and be provided with guider between device or the cooling device or the cutting device that is qualified for next round of competitions, guider includes fixed body frame, set up in the direction drive wheelset of fixed body frame and be used for cable tensioning's tensioning wheelset, fixed body frame is provided with the lift that can follow the direction of height and removes the fixed platform that is used for installing the direction drive wheelset, be used for installing the lift platform of lifting wheelset and drive the lift platform and remove along the direction of height of fixed body frame and move, fixed platform and lift platform are provided with the altitude location subassembly I and altitude location subassembly II that are locking state relatively to fixed body frame altitude direction when lifting is driven to rise fixed platform and lift platform to rise and move along the direction of height of fixed body frame respectively.

By adopting the scheme, the fixed platform and the lifting platform can be synchronously driven to lift along the height direction under the action of lifting and transferring, the fixed platform can be independently positioned through the first height positioning component, the lifting platform can be independently positioned through the second height positioning component, and the positioning of the height positions of the fixed platform and the lifting platform is facilitated.

Preferably, the lifting transfer comprises a rack arranged along the height direction of the fixed main frame, a gear meshed with the rack and a rotary driver connected to the lifting platform and driving the gear to rotate, wherein the fixed platform is positioned above the lifting platform, and when the fixed platform is abutted to the lifting platform, the lifting transfer can synchronously drive the lifting platform to lift through the lifting platform.

By adopting the scheme, the lifting structure is simple through the rack, and purchasing and installation are convenient.

Preferably, the first height positioning component comprises a first locking piece which is arranged on the fixed platform in a sliding manner, a first positioning pin for positioning the first locking piece and a first positioning hole which is arranged on the fixed platform and matched with the first positioning pin, the first locking piece is provided with a tooth surface which can be meshed with the rack, the first locking piece can move towards or in principle in the rack direction, when the first locking piece is meshed with the rack, the first positioning pin is matched with the first positioning hole and can limit the first locking piece to be separated from the rack, and when the first positioning component is meshed with the rack, the first positioning component can limit the fixed platform to move along the height direction of the fixed main frame.

By adopting the scheme, the locking piece I is locked through the relative rack of the locking piece I, and the locking piece I is locked through the locating pin, so that compared with the traditional cylinder locking, the scheme does not need to be provided with a pressure maintaining device for the locking cylinder, and the pressure maintaining device needs to be connected with a pressure maintaining pump, so that the volume and the weight are larger and are not convenient to be arranged on the fixing frame.

Preferably, the lifting platform is provided with a positioning pin II, when the locking piece I is meshed with the rack, the positioning pin II is arranged opposite to the positioning pin I, the lifting transfer drives the lifting platform to move towards the fixed platform, and the positioning pin II can drive the positioning pin I to be separated from the positioning hole I.

By adopting the scheme, the second positioning pin can play a role in unlocking the first positioning pin.

Preferably, the positioning pin is perpendicular to the moving direction of the first locking piece and the fixed platform at the same time, a first spring capable of driving the first locking piece to move towards the fixed platform all the time is arranged in the first locking piece, and a second spring capable of driving the first locking piece to move away from the rack is also arranged in the first locking piece.

By adopting the scheme, the first spring and the second spring are mainly used for resetting the first locating pin and the first locking piece.

Preferably, the lifting platform is further provided with a push plate and a translation driver for driving the push plate to move, the first locking piece is provided with a push rod, the push rod can be connected with the push plate in a matched mode after penetrating through the fixed platform, the push plate moves to drive the first locking piece to move towards the direction of the rack through the push rod, and the first locking piece can be driven to be meshed with the rack by the movement of the push plate.

By adopting the scheme, the push rod is convenient for poking the first locking piece.

Preferably, the push plate is provided with an inclined strut plate in a matched manner, the inclined strut plate comprises an inclined strut plate I and an inclined strut plate II, one sections of the inclined strut plate I and the inclined strut plate II are pivoted with each other, the other ends of the inclined strut plate I and the inclined strut plate II are pivoted with the lifting platform and the push plate respectively, when the translation and transfer drive the push plate to move to the position most towards the rack, the pivoted ends of the inclined strut plate I and the inclined strut plate II are jacked up relative to the fixed platform, the limiting movement distance between the fixed platform and the lifting platform is increased by the inclined strut plate I and the inclined strut plate II, the locating pin II is limited to enter the locating hole I, and when the push plate moves away from the rack, the inclined strut plate can be driven to reset without limiting the locating pin II to enter the locating hole I.

By adopting the scheme, when the positioning pin two pairs of the positioning pin one are not needed to be unlocked, the positioning pin two can be prevented from entering the positioning hole one through the inclined supporting plate, so that the positioning pin two pairs of the positioning pin one are prevented from being unlocked.

Preferably, the lifting platform is slidably provided with a second locking piece, the second locking piece is provided with a second positioning hole matched with the second positioning pin, and the second locking piece is provided with a tooth surface capable of being meshed with the rack and can fall into the second positioning hole when being matched with the second positioning pin.

By adopting the scheme, the second locating pin can also be used for locking the second locking piece through the second locating hole.

Preferably, the second locking piece is connected with the push plate through a binding rope, the lifting platform is provided with a directional wheel, the middle part of the binding rope is wound on the directional wheel, and when the translation driver drives the push plate to move away from the rack, the second locking piece is driven to move towards the rack through the binding rope.

By adopting the scheme, the second locking piece can be driven to move through the binding rope, and the pulling direction of the binding rope can be changed through the directional wheel, so that the fixed platform and the lifting platform are in different states when the translation driver is in three positions.

Preferably, the push plate is provided with an unlocking piece, the unlocking piece is provided with a slope surface I, the positioning pin II is provided with a slope surface II, and when the translation driver drives the push plate to move towards the direction of the rack, the slope surface I is abutted with the slope surface II to drive the locking piece II to be separated from the positioning hole II.

By adopting the scheme, the locking piece is mainly used for unlocking the second positioning pin.

The invention has the remarkable technical effects due to the adoption of the technical scheme: the first position of the push plate is at a middle position, the second position of the push plate is a limiting position of the translation driver for driving the push plate to move towards the rack, the third position of the push plate is a limiting position of the translation driver for driving the push plate to move away from the rack, when the push plate is located at the first position, the first locking piece and the second locking piece do not form locking on the rack, at the moment, the lifting transfer can drive the lifting platform to move up and down along the height direction, the operation is convenient for a person standing on the bottom surface to wind an initial cable on the guide transmission wheel set and the tensioning wheel set, after the person winds up, the movable transfer can drive the fixed platform and the lifting platform to synchronously rise, when the fixed platform reaches a certain position, the push plate moves to the second position, the first locking piece is meshed with the rack, so that the fixed platform can independently descend, the fixed platform does not synchronously move with the lifting platform, when the fixed platform needs to synchronously move with the lifting platform, the fixed platform can synchronously move to the first position, the fixed platform and the lifting platform can synchronously move up and down along the height direction, the lifting transfer can drive the tensioning wheel set independently, the lifting transfer can drive the tensioning platform to move to the tensioning wheel set up and the tensioning platform can move along the height direction, and the tensioning wheel set up and the tensioning wheel can move to the second tensioning platform can flexibly move along the direction, and the tensioning platform can move the tensioning wheel set up and the tensioning position can be conveniently to the position and the tensioning platform can move along the wire set to the tension cable.

Drawings

FIG. 1 is a schematic view of a guide structure in an embodiment;

FIG. 2 is a schematic view of another side structure of the guide device in the embodiment;

FIG. 3 is a cross-sectional view of a guide in an embodiment;

FIG. 4 is an exploded view of an embodiment of a guide assembly;

FIG. 5 is an enlarged schematic view of FIG. 4 at A;

FIG. 6 is an enlarged schematic view of FIG. 4 at B;

FIG. 7 is a diagram showing the installation of a spring II in the embodiment;

FIG. 8 is a view of the push plate in a second position in accordance with the present embodiment;

FIG. 9 is a first embodiment of a push plate in a first position;

FIG. 10 is a third embodiment of the push plate in a third position;

FIG. 11 is a schematic view of an embodiment in which the locating pin is unlocked relative to the locking member;

fig. 12 is an enlarged schematic view at C in fig. 9.

The names of the parts indicated by the numerical reference numerals in the above drawings are as follows: 1. fixing a main frame; 2. a fixed platform; 3. a lifting platform; 4. a first height positioning component; 401. a first locking piece; 402. positioning pin I; 403. positioning holes I; 404. a guide rail; 405. a stepped hole; 406. a first spring; 407. a second spring; 5. a second height positioning component; 501. a second positioning pin; 502. a second locking piece; 503. positioning holes II; 6. a guide transmission wheel set; 7. a tensioning wheel set; 8. lifting and transferring; 801. a rack; 802. a gear; 803. a rotary driver; 9. avoidance holes; 10. a supporting wheel; 11. a push plate; 1101. a push rod; 1102. a strip hole; 1103. a long groove; 15. a translation driver; 16. a first inclined supporting plate; 17. a second inclined supporting plate; 18. a fixed block; 19. a chute; 20. binding ropes; 21. a directional wheel; 22. an unlocking member; 23. a slope surface I; 24. a guide hole; 25. a slope II; 26. and a third spring.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Examples:

the utility model provides a cable production facility, includes the outlet device that sets up along the cable direction, is used for cable refrigerated cooling device and is used for the cutting device that the cable cut off, is located and is provided with guider between outlet device and the cooling device and the cutting device, and guider can be used to the transmission and the direction of cable.

Referring to fig. 1 and 2, the guiding device comprises a fixed main frame 1 for fixing, a fixed platform 2 capable of moving along the height direction of the fixed main frame 1, a lifting platform 3 capable of moving along the height direction of the fixed main frame 1, a guiding transmission wheel set 6 arranged on the fixed platform 2, a tensioning wheel set 7 arranged on the lifting platform 3 and a lifting transfer 8 for driving the lifting platform 3 to move along the height direction, wherein the fixed platform 2 is positioned above the lifting platform 3, the fixed platform 2 and the lifting platform 3 are both plate-shaped, a rubber abutting block is arranged on the lifting platform 3 and abutted with the lower end surface of the fixed platform 2, the rubber abutting block can play a role of bearing the fixed platform 2 and buffering, a avoidance hole 9 for penetrating the fixed main frame 1 is formed in both the fixed platform 2 and the lifting platform 3, the guiding transmission wheel set 6 comprises two groups of driving wheels, but is not limited to two groups or more, the two groups of driving wheels respectively comprise driving wheels, the driving wheels are rotationally connected to the fixed platform 2, the central shaft of the driving wheels is arranged at the same level with the fixed platform 2, a cable can be wound on the driving wheels, one group of driving wheels can be connected with a rotating motor, the rotating motor can drive the driving wheels to rotate, the driving wheels rotate to assist the cable to move, the rotating motor in the embodiment is connected with the driving wheels facing the fixed platform 2, the avoiding holes 9 of the fixed platform 2 are also required to avoid the tensioning wheel group 7 while avoiding the fixed main frame 1, the tensioning wheel group 7 comprises two tensioning wheels which are arranged side by side, the tensioning wheels pass through the avoiding holes 9 of the fixed platform 2 and are positioned between the two groups of driving wheels and are arranged at the same level with the guiding driving wheel group 6, the abutting wheels 10 are arranged on the opposite avoiding holes 9 of the fixed platform 2 and the lifting platform 3, the abutting wheels 10 can abut against the side surface of the fixed main frame 1, the stability of two platforms when lifting is convenient.

Referring to fig. 3 and 4, the lifting and transferring 8 includes a rack 801 disposed along the height direction of the fixed main frame 1, a gear 802 engaged with the rack 801, and a rotary driver 803 connected to the side of the lifting platform 3 away from the fixed platform 2 by a screw thread, wherein the rotary driver 803 in this embodiment adopts a stepping motor, the rack 801 is mounted on the side of the fixed main frame 1 away from the guiding transmission wheel set 6 and the tensioning wheel set 7 and is connected to the fixed main frame 1 by a screw thread, the fixed platform 2 is provided with a first height positioning component 4 in a locking state relative to the height direction of the fixed main frame 1, the lifting platform 3 is provided with a second height positioning component 5 in a locking state relative to the height direction of the fixed main frame 1, and since the fixed platform 2 is located above the lifting platform 3, when the lifting platform 3 is abutted to the fixed platform 2, the lifting platform 3 can drive the fixed platform 2 to move along the height direction by the lifting and transferring 8, when the fixed platform 2 moves to the relative position, the first height positioning component 4 can position the fixed platform 2 and the lifting platform 3 to the relative position when the fixed platform 3 moves to the relative position, and the second height positioning component can position the lifting platform 5.

Referring to fig. 6, the first height positioning component 4 comprises a first locking member 401 slidably arranged on the fixed platform 2, a first positioning pin 402 for positioning the first locking member 401, and a first positioning hole 403 formed on the fixed platform 2 and matched with the first positioning pin 402, wherein the first locking member 401 is in a strip shape, one end of the first locking member is provided with a tooth surface capable of being meshed with a rack 801, the tooth surface is also in a rack 801 shape, the tooth surface is provided with at least two or more teeth, the first height positioning component 4 is positioned on one side of the fixed platform 2 far away from the lifting platform 3, the fixed platform 2 is connected with a guide rail 404 through screw threads, the guide rail 404 is slidably connected with a sliding block, the first locking member 401 and the sliding block are in threaded connection through screw threads, the first locking member 401 can be slidably arranged towards or away from the rack 801 through the guide rail 404, the first positioning pin 402 can be in a moving arrangement perpendicular to the plane direction of the fixed platform 2, the first locking piece 401 is provided with a stepped hole 405 for sliding the first locating pin 402, one large-diameter end of the stepped hole 405 is arranged at one side far away from the fixed platform 2, the surface of the first locating pin 402 is also stepped, when the first locating pin 402 is abutted against the stepped surfaces of the first locating pin 405 and the stepped hole, the first locating pin 402 is positioned in the first locating hole 403, the first locating hole 403 penetrates through the fixed platform 2, a first spring 406 is arranged in the stepped hole 405, the first spring 406 can drive the first locating pin 402 to move towards the fixed platform 2 all the time, when the tooth surface of the first locking piece 401 is meshed with the rack 801, the first locating pin 402 is opposite to the first locating hole 403, and when the tooth surface of the first locking piece 401 is not meshed with the rack 801, the first locating pin 402 is not opposite to the first locating hole 403.

Referring to fig. 6, the height positioning assembly two 5 includes a positioning pin two 501 disposed on the lifting platform 3, and a locking member two 502 cooperating with the positioning pin two 501, when the locking member one 401 is engaged with the rack 801, the positioning pin two 501 is opposite to the positioning pin one 402, when the lifting transfer 8 drives the lifting platform 3 to move towards the fixed platform 2, when the positioning pin two 501 abuts against the positioning pin one 402, the lifting assembly continues to move, the positioning pin two 501 can drive the positioning pin one 402 to be separated from the positioning hole one 403, so as to complete the locking state of the locking member one 401 by the positioning pin two 501, and in combination with fig. 7, a spring two 407 is disposed between the locking member one 401 and the fixed platform 2, the spring two 407 can drive the locking member one 401 to move away from the rack 801, and when the positioning pin one 402 is separated from the positioning hole one 403, the locking member one 401 is driven to be separated from the rack 801 under the action of the spring two 407.

Referring to fig. 5, 6 and 8, a push plate 11 for pushing a first locking member 401 and a translation driver 15 for driving the push plate 11 to move are arranged on one side of the lifting platform 3 towards the fixed platform 2, the translation driver 15 in this embodiment adopts an electric push rod 1101, but the non-limiting translation driver 15 is an electric push rod 1101, a double-stroke serial cylinder, a linear module, a linear motor or the like can also be adopted for the electric push rod 1101, a push rod 1101 is fixedly connected to the first locking member 401, a strip hole 1102 which is in a strip hole shape and is used for penetrating the push rod 1101 is formed in the fixed platform 2, the length direction of the strip hole 1102 is arranged towards the rack 801, the push rod 1101 is connected with the push plate 11 in a matched manner after passing through the fixed platform 2, a long groove 1103 for pushing the push rod 1101 is formed in the push plate 11, when the first locking member 401 is not meshed with the rack 801 and the fixed platform 2 is abutted with the lifting platform 3, the translation driver 15 drives the push plate 11 to move towards the rack 801, the push plate 11 can push the push rod 1101 to move through one end of the long groove 1103, the push rod 1101 moves to drive the first locking piece 401 to move, after the first locking piece 401 is meshed with the rack 801, the first positioning pin 402 falls into the first positioning hole 403 to complete locking of the first locking piece 401, the first locking piece 401 is guaranteed to be in a state meshed with the rack 801, the push plate 11 does not drive the second positioning pin 501 to drive the first positioning pin 402 to separate from the first positioning hole 403, the push plate 11 and the lifting platform 3 are provided with diagonal bracing plates, each diagonal bracing plate comprises a first diagonal bracing plate 16 and a second diagonal bracing plate 17, one side of the lifting platform 3 facing the fixed platform 2 is connected with a fixed block 18 through screw threads, a through hole for penetrating the second positioning pin 501 is formed in the positioning block, the second positioning pin 501 is slidably arranged in the positioning block, one end of each diagonal bracing plate 16 and one end of each diagonal bracing plate 17 are simultaneously pivoted, the other ends of the first inclined support plate 16 and the second inclined support plate 17 are respectively pivoted with the push plate 11 and the fixed block 18, the first inclined support plate 16 and the second inclined support plate 17 are in isosceles triangle arrangement, the fixed block 18 is not moved, when the push plate 11 moves towards the direction of the rack 801, one end of the first inclined support plate 16 and one end of the second inclined support plate 17 which are not pivoted are mutually close to each other, so that the waist length of an isosceles triangle formed by the first inclined support plate 16 and the second inclined support plate 17 is unchanged, the bottom edge is shortened, the height is prolonged, one end of the first inclined support plate 16 and one end of the second inclined support plate 17 which are pivoted together are abutted with the fixed platform 2, the inclined support plate forms support for the fixed platform 2 and the lifting platform 3, the limit movement distance between the fixed platform 2 and the lifting platform 3 is limited, the limit movement distance is larger than the length of the positioning pin two 501, and accordingly the positioning pin two 501 can be prevented from entering the positioning hole one 403, the positioning pin 402 is prevented from being separated from the positioning hole one 403, when the positioning pin 402 is required to be separated from the positioning hole one 403, the push plate 11 is driven to move away from the direction of the isosceles triangle formed by the first inclined support plate 16 and the second inclined support plate 17, the first inclined support plate 17 is reduced, the limit movement between the two ends of the first inclined support plate 17 and the first inclined support plate 17 is not required to be separated from the positioning hole one positioning hole, and the positioning pin 17 is not separated from the positioning hole one positioning hole is formed.

Referring to fig. 6 and 8, a chute 19 is disposed below a fixed block 18 on a lifting platform 3, a second locking member 502 is slidably disposed in the chute 19, a sliding direction of the second locking member 502 is parallel to a sliding direction of the first locking member 401, both a first positioning pin 402 and a second positioning pin 501 are perpendicular to the first locking member 401 or the second locking member 502, the second locking member 502 is also in a strip shape, one end of the second locking member 502 is provided with a tooth surface meshed with a rack 801, the second locking member 502 is provided with a second positioning hole 503 matched with the second positioning pin 501, when the second locking member 502 is meshed with the rack 801, the second positioning pin 501 can fall into the second positioning hole 503, the second locking member 502 is connected with a push plate 11 by a binding rope 20, the binding rope 20 has a certain telescopic elasticity, two ends of the binding rope 20 are respectively connected with one end of the second locking member 502 away from the rack 801 and the push plate 11, the first positioning wheel 21 for changing a moving direction of the rope 20 is integrally disposed on the fixed block 18, a guiding groove for penetrating the binding rope 20 is disposed on the fixed block 18, when the second locking member 502 is meshed with the rack 801, and when the second locking member 501 is moved away from the first positioning pin 501, and the second locking member 501 is moved away from the rack 801, and can move in a direction of the first locking member 801, and the second locking member is arranged to be meshed with the second positioning pin 801, and can move in a direction of the rack 801 when the second locking member is matched with the second positioning pin 501.

Referring to fig. 6 and 8, the push plate 11 is provided with an unlocking piece 22, a third spring 26 is arranged between the second locking piece 502 and the sliding groove 19, the third spring 26 can drive the second locking piece 502 to move away from the first rack 801, the end part of the unlocking piece 22 is provided with a first slope 23, a guide hole 24 opposite to the second locking piece 502 is formed in the second locating pin 501 in combination with fig. 12, a second slope 25 opposite to the first slope 23 is arranged in the guide hole 24, the height of the smallest part of the guide hole 24 is larger than the height of the unlocking piece 22, when the second locking piece 502 is meshed with the tooth surface, the push plate 11 moves towards the direction of the rack 801, the unlocking piece 22 can be driven to enter the guide hole 24, when the first slope 23 and the second slope 25 are opposite, the second locking piece 502 can be driven to move along the first slope 23, at the moment, the second locating pin 501 moves away from the second locating pin 502, finally, the second locating pin 501 is driven to be separated from the second locating hole 503, the second locking piece 502 is driven to be separated from the first rack 801 under the action of the third spring 26, the second locking piece 502 is driven to move continuously towards the direction of the rack 801, and the second locking piece 502 is driven to move continuously through the second locating pin 501 when the second locating pin 502 is driven to be driven to move continuously to the second locating pin 502, and the second locating piece 502 is driven to move continuously, and the second locking piece 502 is driven to move continuously to the locating piece 502, and the second locking piece 502 is driven to move continuously to move in the direction to the direction 502.

Referring to fig. 8, 9 and 10, in this embodiment, the translation driver 15 can drive the push plate 11 to move at least in three positions, and in combination with fig. 9, the first position of the push plate 11 is in a middle position, in combination with fig. 8, the second position of the push plate 11 is a limit position where the translation driver 15 drives the push plate 11 to move towards the rack 801, in combination with fig. 10, the third position of the push plate 11 is a limit position where the translation driver 15 drives the push plate 11 to move away from the rack 801, in combination with fig. 10, when the lifting platform 3 and the fixed platform 2 are abutted, the fixed platform 2 is erected above the lifting platform 3, and when the push plate 11 is located in the middle position, the first locking member 401 and the second locking member 502 do not form locking to the rack 801, and at this time, the lifting platform 3 can be driven to move up and down in the height direction by the lifting platform 3 to synchronously drive the fixed platform 2 to move up and down, when the manual winding is completed, the fixed platform 2 and the lifting platform 3 can be driven to synchronously lift by the lifting transfer 8, when the fixed platform 2 reaches a certain position, the fixed platform 2 is supported relative to the lifting platform 3 by the inclined support plate I16 and the inclined support plate II 17 in the process of moving the push plate 11 towards the second position in combination with fig. 8, the push plate 11 pushes the locking piece I401 towards the rack 801 through the push rod 1101 to move, when the push plate 11 moves to the second position, the locking piece I401 is meshed with the rack 801, the positioning pin I402 is matched with the positioning hole I403 under the action of the spring I406, the locking piece I401 can be limited to be separated from the rack 801 when the positioning pin I402 is matched with the positioning hole I403, so that the positioning of the fixed platform 2 relative to the fixed main frame 1 in the height direction is completed, at this time, the lifting platform 3 can be independently lowered, the fixed platform 2 does not move synchronously with the lifting platform 3, when the fixed platform 2 needs to move synchronously with the lifting platform 3, the push plate 11 moves to the first position, in combination with fig. 11, the inclined supporting plate is not jacked up at this time, when the lifting platform 3 is abutted with the fixed platform 2, the positioning pin two 501 can enter the positioning hole one 403, the positioning pin one 402 is separated from the positioning hole one 403 at this time, the positioning pin one 402 is only positioned in the locking piece one 401, the locking piece one 401 is separated from the rack 801 under the action of the spring two 407, thus unlocking of the fixed platform 2 is completed, at this time, the fixed platform 2 and the lifting platform 3 can be synchronously moved, when the lifting platform 3 is independently lifted and moved, the tensioning wheel can be driven to move along the height direction, thus playing the role of tensioning cables, the flexible tensioning wheel set 7 is convenient for controlling the tensioning force of the cables, when the lifting platform 3 moves to a proper position, the push plate 11 moves to a third position, in the moving process of the push plate 11 in the direction away from the rack 801, the locking piece II 502 can be driven to move towards the rack 801 by the binding rope 20, when the push plate 11 completely moves to the third position, the locking piece II 502 is meshed with the rack 801, the unlocking piece 22 is separated from the positioning pin II 501, at the moment, the positioning pin II 501 falls into the positioning hole II 503 under the condition of self gravity, the positioning pin II 501 completes locking of the locking piece II 502, thereby limiting the separation of the locking piece II 502 from the rack 801, at the moment, the positioning of the lifting platform 3 in the height direction relative to the fixed main frame 1 is completed, when the lifting platform 3 needs to move up and down, the push plate 11 moves towards the first position direction, the unlocking piece 22 synchronously moves towards the guide hole 24 of the positioning pin II 501, the first slope 23 of the unlocking piece 22 and the second slope 25 of the positioning pin 501 are matched to drive the positioning pin 501 to be separated from the positioning hole 503, the push plate 11 continues to move towards the first position, the second locking piece 502 continues to move away from the rack 801 through the binding rope 20, the separation of the second locking piece 502 from the rack 801 is completed, and the lifting platform 3 can continue to lift.

Claims

1. The utility model provides a cable production facility, including the cable outlet device that sets up along the cable direction, a cooling device for cable cooling and a cutting device for cable cuts off, a serial communication port, be located between cable outlet device and the cooling device, or be provided with guider between cable outlet device and the cutting device, guider includes fixed main frame (1), set up in direction drive wheelset (6) of fixed main frame (1) and be used for cable tensioning wheelset (7), fixed main frame (1) are provided with fixed platform (2) along the direction of height removal and are used for installing direction drive wheelset (6), lift platform (3) and order about lift platform (3) along fixed main frame (1) direction of height removal lift and move (8), fixed platform (2) and lift platform (3) are provided with respectively and are locking state's high location subassembly (4) and high location subassembly two (5) in fixed main frame (1) relatively, when lift and move (8) order about fixed platform (2) and lift platform (3) and are along fixed main frame (1) direction of height removal, high location subassembly (4) and high location subassembly (5) are provided with high location subassembly (1) and high location subassembly (1) are relatively to move down along fixed main frame (1) direction of height orientation 801), high location subassembly (801) relatively is provided A gear (802) meshed with the rack (801) and a rotary driver (803) connected with the lifting platform (3) and driving the gear (802) to rotate, wherein the fixed platform (2) is positioned above the lifting platform (3), when the fixed platform (2) is abutted with the lifting platform (3), the lifting transfer device (8) synchronously drives the fixed platform (2) to lift through the lifting platform (3), the height positioning component I (4) comprises a locking piece I (401) slidingly arranged on the fixed platform (2), a positioning pin I (402) used for positioning the locking piece I (401) and a positioning hole I (403) arranged on the fixed platform (2) and matched with the positioning pin I (402), the locking piece I (401) is provided with a tooth surface meshed with the rack (801), the positioning pin I (402) moves towards or away from the rack (801), when the locking piece I (401) is meshed with the rack (801), the positioning pin I (402) is matched with the positioning hole I (403) and the positioning pin I (401) is limited to be meshed with the rack (801), and when the locking piece I (401) is meshed with the rack (801) is arranged on the main platform (501), the locking piece I (401) is limited to be meshed with the rack (801) in the direction, and when the locking piece I (401) is arranged along the direction of the height of the main platform (801), the positioning pin two (501) and the positioning pin one (402) are oppositely arranged, the lifting transfer (8) drives the lifting platform (3) to move towards the fixed platform (2), the positioning pin two (501) drives the positioning pin one (402) to be separated from the positioning hole one (403), the positioning pin one (402) is perpendicular to the moving direction of the locking piece one (401) and the fixed platform (2) at the same time, a spring one (406) which drives the positioning pin one (402) to move towards the fixed platform (2) all the time is arranged in the locking piece one (401), a spring two (407) which drives the locking piece one (401) to move away from the rack (801) is further arranged in the locking piece one (401), the lifting platform (3) is further provided with a push plate (11) and a translation driver (15) which drives the push plate (11) to move, the push plate (1101) is arranged in a matched connection mode after the push rod (1101) passes through the fixed platform (2) and the push plate (11), the push plate (11) drives the locking piece one (401) to move towards the rack (801), and the locking piece one (401) is meshed with the rack (801).

2. The cable production device according to claim 1, wherein the push plate (11) is provided with a diagonal brace plate in a matched manner, the diagonal brace plate comprises a diagonal brace plate I (16) and a diagonal brace plate II (17), one ends of the diagonal brace plate I (16) and the diagonal brace plate II (17) are pivoted with each other, the other ends of the diagonal brace plate I (16) and the diagonal brace plate II (17) are pivoted with the lifting platform (3) and the push plate (11) respectively, when the translation driver (15) drives the push plate (11) to move to the nearest position towards the rack (801), the pivoted ends of the diagonal brace plate I (16) and the diagonal brace plate II (17) are in jacking arrangement relative to the fixed platform (2), the limiting movement distance of the diagonal brace plate I (16) and the diagonal brace plate II (2) and the lifting platform (3) is increased, the diagonal brace plate II (501) is limited to enter the positioning hole I (403), and when the push plate (11) is driven to move away from the rack (801), the diagonal brace plate is reset, and the positioning pin II (501) is not limited to enter the positioning hole I (403).

3. The cable production device according to claim 1, wherein the lifting platform (3) is slidably provided with a second locking member (502), the second locking member (502) is provided with a second positioning hole (503) matched with the second positioning pin (501), and the second locking member (502) is provided with a tooth surface meshed with the rack (801) and the second positioning pin (501) falls into the second positioning hole (503) when the two locking members are matched.

4. A cable production device according to claim 3, characterized in that the second locking member (502) is connected with the push plate (11) by a binding rope (20), the lifting platform (3) is provided with a directional wheel (21), the middle part of the binding rope (20) is wound on the directional wheel (21), and when the translation driver (15) drives the push plate (11) to move away from the rack (801), the second locking member (502) is driven to move towards the rack (801) by the binding rope (20).

5. The cable production device according to claim 4, wherein the push plate (11) is provided with an unlocking piece (22), the unlocking piece (22) is provided with a first slope (23), the positioning pin II (501) is provided with a second slope (25), and when the translation driver (15) drives the push plate (11) to move towards the rack (801), the first slope (23) and the second slope (25) are abutted to drive the locking piece II (502) to be separated from the positioning hole II (503).