CN114394484B - Cable auxiliary correction mechanism for automatic paying-off machine - Google Patents

Abstract

The invention relates to the technical field of cable discharge devices, and discloses a cable auxiliary correction mechanism for an automatic paying-off machine, which comprises an extrusion molding frame, wherein supporting legs are fixedly connected to the outer side of the extrusion molding frame, a splice plate at a break is fixedly connected to the outer side of the middle part of the extrusion molding frame, and a first roller is movably sleeved at the middle part of the front end of the extrusion molding frame. This a cable auxiliary correction mechanism for automatic paying out machine through rotating the dwang, drives and carries out threaded motion between dwang and the rolling disc to drive first locating plate downwardly moving, drive the inside that the device telescopic link extends to another telescopic sleeve simultaneously, can drive the inside side of second cylinder and extrude, it is different to extrude the cable of different thickness through the second cylinder extrusion force, simultaneously under the effect of device spring elasticity, can drive the second cylinder and play elastic buffering under downwardly extruding, avoid the problem to cable extrusion damage.

Description

Cable auxiliary correction mechanism for automatic paying-off machine

Technical Field

The invention relates to the technical field of cable discharge devices, in particular to a cable auxiliary correction mechanism for an automatic paying-off machine.

Background

When driving the cable and discharging, the cable has crooked phenomenon, when needing to drive the cable to pay off to the outside so far, need to drive the orthotic devices of cable and carry out the correction when driving the cable unwrapping wire, research and develop a cable auxiliary correction mechanism for automatic paying off machine so far.

In the cable auxiliary correction mechanism for the automatic paying-off machine, the bending part and the angle are different when the cable is paid off, and the existing correction device can only correct the cable from the side face and the upper and lower parts, so that the problem of inconvenience in the later operation of the cable is caused.

Disclosure of Invention

The invention provides a cable auxiliary correction mechanism for an automatic paying-off machine, which aims at overcoming the defects of the existing cable auxiliary correction mechanism for the automatic paying-off machine, and has the advantages that a motor is started to drive a gear arranged on the inner side of the motor to engage with the outer side of a rotating disc, so that the rotating disc can be driven to rotate, an extrusion device arranged on the inner side of the rotating disc is driven to extrude cables in different directions, and the extrusion device is driven to extrude cables in different directions.

The invention provides the following technical scheme: the utility model provides a cable auxiliary correction mechanism for automatic paying out machine, includes extrusion frame, the outside fixedly connected with supporting legs of extrusion frame, the outside fixedly connected with disconnection department splice plate in extrusion frame middle part, the middle part activity of extrusion frame front end has cup jointed first cylinder, the middle part fixedly connected with discharge gate of extrusion frame rear end, one side fixedly connected with rolling disc shaping board in extrusion frame middle part, the inboard activity of rolling disc shaping board has cup jointed the rolling disc, the motor is installed in the outside of rolling disc shaping board, the dwang is installed to one side of rolling disc, the lower part activity of dwang has cup jointed first locating plate, one side fixedly connected with telescopic sleeve of first locating plate lower part, one side fixedly connected with telescopic rod of telescopic sleeve, the outside activity of telescopic sleeve has cup jointed the spring, the outside inboard of telescopic sleeve is installed and is pressed from both sides the cover, the inside activity of cylinder cover has cup jointed the second cylinder, the inside both sides of extrusion frame are installed second extrusion correction device.

Preferably, two first rollers are mounted at the front end of the inside of the extrusion molding frame, the middle parts of the first rollers are concave, and circular grooves are formed in the middle parts of the front ends of the two first rollers.

Preferably, the discharge hole extends to the rear end of the extrusion frame, and a chamfer is formed between the connection part of the discharge hole and the extrusion frame.

Preferably, the middle part of extrusion frame rear end is the disconnection state, disconnection department splice plate connects between two extrusion frames, the movable inside cup joint in disconnection department of rolling disc, the outside of rolling disc shaping board is convex, the outside activity of rolling disc shaping board cup joints the inside in the rolling disc outside.

Preferably, the rotating disc is circular, a gear is arranged on the inner side of the motor, and the gear is in meshed connection with the outer side of the rotating disc.

Preferably, the rotating rods are in threaded connection with the rotating disc, two rotating rods are mounted on the inner side of the rotating disc, the springs are clamped between the first positioning plate and the outer side of the roller jacket, and the telescopic rods are movably sleeved in the other telescopic sleeve.

Preferably, the structure between the rotating rod and the second extrusion correcting device is the same, and the second roller is installed inside the two rotating rods.

Preferably, the supporting legs are arranged at four corners of the outer part of the extrusion molding frame, the outer sides of the supporting legs are arc-shaped, and the four corners of the supporting legs can be contacted with the ground.

Compared with the existing cable auxiliary correction mechanism for the automatic paying-off machine, the cable auxiliary correction mechanism has the following beneficial effects:

1. this a cable auxiliary correction mechanism for automatic paying out machine, through the equal fixedly connected with supporting legs in the four corners of drive device extrusion frame front and back end outside to it all can contact with ground to drive the supporting legs, when drive device extrusion frame put simultaneously, can adjust the position of supporting legs as required, when the extrusion frame receives the power that produces when the cable is tensile to appear changing simultaneously, can avoid the extrusion frame to empty, lead to the extrusion frame to empty the problem that causes the damage to the part.

2. This a cable auxiliary correction mechanism for automatic paying out machine through rotating the dwang, drives and carries out threaded motion between dwang and the rolling disc to drive first locating plate downwardly moving, drive the inside that the device telescopic link extends to another telescopic sleeve simultaneously, can drive the inside side of second cylinder and extrude, it is different to extrude the cable of different thickness through the second cylinder extrusion force, simultaneously under the effect of device spring elasticity, can drive the second cylinder and play elastic buffering under downwardly extruding, avoid the problem to cable extrusion damage.

3. This a cable auxiliary correction mechanism for automatic paying off machine through the starter motor, drives and carries out the meshing motion between gear and the rolling disc of inboard installation of motor to it is rotatory to drive the rolling disc, drives the extrusion orthotic devices of the inboard installation of rolling disc and carries out rotatory extrusion around the cable, drives the second cylinder to cable extrusion to increase flexibility and efficiency nature to this.

Drawings

FIG. 1 is a schematic diagram of a structural body of the present invention;

FIG. 2 is a schematic diagram of the front view of the structure of the present invention;

FIG. 3 is a schematic cross-sectional view of a structural body of the present invention;

FIG. 4 is a schematic view in partial cross-section of a rotary extrusion orthotic device constructed in accordance with the present invention.

In the figure: 1. extruding and forming a frame; 2. supporting feet; 3. splice plates at the break; 4. a first roller; 5. a discharge port; 6. a rotating disc shaping plate; 7. a rotating disc; 8. a motor; 9. a rotating lever; 10. a first positioning plate; 11. a telescopic sleeve; 12. a telescopic rod; 13. a spring; 14. a roller jacket; 15. a second drum; 16. and a second compression orthotic device.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, 2, 3 and 4, an auxiliary cable correction mechanism for an automatic paying-off machine comprises an extrusion frame 1, wherein a supporting leg 2 is fixedly connected to the outer side of the extrusion frame 1, the supporting leg 2 drives the extrusion frame 1 to be supported and limited when being placed, a splice plate 3 is fixedly connected to the outer side of the middle part of the extrusion frame 1, the splice plate 3 drives the splice of the extrusion frame 1, the middle part of the front end of the extrusion frame 1 is movably sleeved with a first roller 4, a cable passes through the inside of the first roller 4, the cable is driven to be in contact with the inside of the first roller 4, the cable is driven to pass through the inside of the extrusion frame 1 by rotating the first roller 4, friction force is reduced, a discharge port 5 is fixedly connected to the middle part of the rear end of the extrusion frame 1, the discharge port 5 drives the cable to be conveniently driven to be discharged when the cable passes through the inside of the extrusion frame 1, one side of the middle part of the extrusion molding frame 1 is fixedly connected with a rotating disc shaping plate 6, the rotating disc shaping plate 6 drives the movable track of the rotating disc 7 to limit, the inner side of the rotating disc shaping plate 6 is movably sleeved with the rotating disc 7, the outer side of the rotating disc shaping plate 6 is provided with a motor 8, the motor 8 is started to drive the rotating disc 7 to rotate, the extrusion correction device can be driven to continuously extrude and mold cables at different angles on the outer side, one side of the rotating disc 7 is provided with a rotating rod 9, the rotating rod 9 pushes a first positioning plate 10 to move inwards, the inward extrusion force of a second roller 15 can be driven to be regulated, the lower part of the rotating rod 9 is movably sleeved with a first positioning plate 10, one side of the lower part of the first positioning plate 10 is fixedly connected with a telescopic sleeve 11, one side of the telescopic sleeve 11 is fixedly connected with a telescopic rod 12, the telescopic link 12 can stretch out and draw back the regulation in flexible cover 11 inside, provide the activity space when driving second cylinder 15 to the inboard removal, flexible cover 11's outside activity has cup jointed spring 13, spring 13 provides the buffer force to the inside extrusion of cylinder cover 14, cylinder cover 14 is installed to the outside inboard of flexible cover 11, cylinder cover 14's inside activity has cup jointed second cylinder 15, second cylinder 15 inwards extrudees, drive second cylinder 15 to carry out extrusion correction to the cable, second extrusion orthotic devices 16 are installed to the inside both sides of extrusion frame 1.

Referring to fig. 1 and 2, two first rollers 4 are installed at the front end of the inside of the extrusion frame 1, the middle parts of the first rollers 4 are concave, circular grooves are formed in the middle parts of the front ends of the two first rollers 4, the two first rollers 4 are installed at the front end of the extrusion frame 1 through driving, meanwhile, the inside between the two first rollers 4 is formed into circular grooves, meanwhile, the first rollers 4 are rotatable, namely when a cable is driven to move between the two first rollers 4, rolling conveying is carried out through the two first rollers 4, friction force can be reduced, and the cable is conveniently driven to move to the inside of the extrusion frame 1.

Referring to fig. 3, the discharge port 5 extends to the rear end of the extrusion frame 1, a chamfer is provided between the connection of the discharge port 5 and the extrusion frame 1, and the chamfer is provided between the connection of the extrusion frame 1 and the discharge port 5 by driving the discharge port 5 to extend to the rear end of the extrusion frame 1, so that the cable can be driven to be conveyed to the outside, and the flexibility and stability can be increased.

Referring to fig. 1 and 3, the middle part of extrusion frame 1 rear end is the disconnection state, disconnection splice plate 3 connects between two extrusion frames 1, the inside at disconnection department is cup jointed in the activity of carousel 7, the outside of carousel design board 6 is convex, the outside activity of carousel design board 6 cup joints in the inside outside of carousel 7, be the disconnection state through the middle part of drive device extrusion frame 1 rear end, and install disconnection splice plate 3 in the outside of disconnection department, splice between the extrusion frame 1 of front and back end can drive, drive simultaneously the inside of device carousel 7 activity cup joint at the disconnection department, can drive carousel 7 and provide the space when the mid-mounting of extrusion frame 1, the outside fixedly connected with carousel design board 6 of device disconnection department splice plate 3 simultaneously, the inside activity of drive carousel design board 6 cup joints in the inside in the outside of carousel 7, can be when carousel 7 rotate, carousel design board 6 drives the carousel 7 and rotate and provide the activity space, the problem that the position skew appears when avoiding carousel 7 to rotate.

Referring to fig. 1 and 4, the rotating disc 7 is circular, the gear is installed to the inboard of motor 8, the outside intermeshing of gear and rotating disc 7 is connected, be circular through rotating disc 7, start motor 8 simultaneously, the gear that drives the inboard installation of motor 8 carries out the meshing motion with the outside of rotating disc 7, can drive device rotating disc 7 rotation, the extrusion orthotic devices of the inboard installation of rotating disc 7 is driven simultaneously, the rotatory correction of cable that drives the process, can be according to cable bending position angle difference time, all can drive orthotic devices and correct the effect of handling to the cable.

Referring to fig. 4, the rotating rod 9 and the rotating disc 7 are in threaded connection with each other, two rotating rods 9 are installed on the inner side of the rotating disc 7, a spring 13 is clamped between the first positioning plate 10 and the outer side of the roller jacket 14, a telescopic rod 12 is movably sleeved in the other telescopic sleeve 11, the rotating rod 9 is driven to conduct threaded movement with the rotating disc 7 through the rotating rod 9, the first positioning plate 10 is driven to move downwards, meanwhile, the telescopic rod 12 is driven to extend to the inner side of the other telescopic sleeve 11, the second roller 15 can be driven to extrude inwards, cables with different thicknesses are extruded through different extrusion forces of the second roller 15, meanwhile, the second roller 15 can be driven to extrude downwards to conduct elastic buffering under the elastic action of the device spring 13, and the problem of cable extrusion damage is avoided.

Referring to fig. 3, the structure between the rotating rods 9 and the second extrusion correcting device 16 is the same, the second roller 15 is installed inside the two rotating rods 9, the structure between the rotating rods 9 and the second extrusion correcting device 16 is the same by driving the second roller 15 to be installed inside the two rotating rods 9, and the cable can be driven to move into the extrusion frame 1 and the cable can be driven to move out of the extrusion frame 1, so that the cable can be driven to perform extrusion correction and extrusion shaping during discharge.

Referring to fig. 1 and 2, the supporting legs 2 are installed at four corners outside the extrusion frame 1, the outer sides of the supporting legs 2 are arc-shaped, the four corners of the supporting legs 2 can be in contact with the ground, the supporting legs 2 are fixedly connected to the four corners outside the front end and the rear end of the extrusion frame 1 through driving devices, the supporting legs 2 are driven to be in contact with the ground, the positions of the supporting legs 2 can be adjusted according to requirements when the extrusion frame 1 is placed, and meanwhile, when the extrusion frame 1 is subjected to fluctuation of force generated when cables are stretched, the problem that the extrusion frame 1 falls down to cause damage to parts can be avoided.

Working principle: when the novel cable extrusion frame is used, after the cable is driven to move to the inner side of the first roller 4, the cable can be driven to move to the inner side of the extrusion frame 1, the first roller 4 can be driven to assist in driving the cable to move, the problem that the cable is blocked between the cable and the extrusion frame 1 is avoided, meanwhile, the rotating rod 9 is rotated, the second roller 15 mounted on the inner side of the rotating rod 9 is driven to extrude inwards, the second roller 15 is driven to extrude the cable, the phenomenon that the cable position bends is avoided, meanwhile, the motor 8 is started, the gear mounted on the inner side of the motor 8 is driven to move in a meshing mode with the rotating disc 7, the rotating disc 7 can be driven to rotate, meanwhile, the second roller 15 mounted on the inner side of the rotating disc 7 is driven to extrude all around the passing cable, the spring 13 is mounted between the roller jacket 14 and the first positioning plate 10, the buffering effect is achieved when the second roller 15 is driven, meanwhile, the supporting legs 2 are fixedly connected to the outer side of the extrusion frame 1, the supporting legs can be driven to contact with the ground, and the problem that the extrusion frame 1 is offset due to different positions is avoided.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. Cable auxiliary correction mechanism for automatic paying-off machine, including extrusion frame (1), its characterized in that: the utility model discloses a rotary shaping frame, including extrusion frame (1), supporting legs (2) are fixedly connected with in the outside of extrusion frame (1), the outside fixedly connected with disconnection department splice plate (3) at extrusion frame (1) middle part, the middle part activity of extrusion frame (1) front end has cup jointed first cylinder (4), two are installed at the inside front end of extrusion frame (1) to first cylinder (4), the middle part of first cylinder (4) is sunken form, two the middle part of the front end of first cylinder (4) forms circular shape recess, the middle part fixedly connected with discharge gate (5) at extrusion frame (1) rear end, one side fixedly connected with rolling disc shaping board (6) at extrusion frame (1) middle part, rolling disc shaping board (6) inboard activity cup joint rolling disc (7), the middle part of extrusion frame (1) rear end is the disconnect state, disconnection department splice plate (3) is connected between two extrusion frame (1), rolling disc (7) activity cup joints the inside of disconnection department motor, rolling disc (6) outside (6) are the rolling disc shaping board (7) is installed in the outside of rolling disc shaping board (8), the lower part activity of dwang (9) has cup jointed first locating plate (10), one side fixedly connected with telescopic sleeve (11) of first locating plate (10) lower part, one side fixedly connected with telescopic sleeve (12) of telescopic sleeve (11), the outside activity of telescopic sleeve (11) has cup jointed spring (13), mutual threaded connection between dwang (9) and rotating disc (7), two dwang (9) are installed to the inboard of rotating disc (7), spring (13) centre gripping is between first locating plate (10) and cylinder jacket (14) outside, telescopic sleeve (12) activity cup joints in the inside of another telescopic sleeve (11), cylinder jacket (14) are installed to the inside activity of telescopic sleeve (11), second cylinder (15) have been cup jointed to the inside both sides of extrusion frame (1), second extrusion orthotic devices (16) are installed to the inside both sides of dwang (9), the structure between dwang (9) and second extrusion orthotic devices (16) is the same, two inside of second (15) are installed at two inside poles (9).

2. A cable assist correction mechanism for an automatic pay-off machine as defined in claim 1, wherein: the discharge hole (5) extends towards the rear end of the extrusion molding frame (1), and a chamfer is formed between the connection part of the discharge hole (5) and the extrusion molding frame (1).

3. A cable assist correction mechanism for an automatic pay-off machine as defined in claim 1, wherein: the rotating disc (7) is circular, a gear is arranged on the inner side of the motor (8), and the gear is meshed and connected with the outer side of the rotating disc (7).

4. A cable assist correction mechanism for an automatic pay-off machine as defined in claim 1, wherein: the four corners of the outer part of the extrusion molding frame (1) are provided with supporting feet (2), the outer sides of the supporting feet (2) are arc-shaped, and the four corners of the supporting feet (2) can be contacted with the ground.