CN217387848U - Double-end full-automatic tin-dipping wire stripping machine - Google Patents

Abstract

The utility model belongs to the technical field of the cable processing, specifically disclose a full-automatic tin wire stripping machine of being stained with of double-end, including the frame, the frame is equipped with the cable chuck in proper order along the inlet wire direction, peels off and cuts mechanism and fastener, the cable chuck rotate set up in the frame, the fastener rotate and lateral sliding set up in the frame, the two below of cable chuck and fastener is equipped with the auxiliary solder box and tin box respectively, and the positive interval of fastener is equipped with the rotary clamp, and the upset of rotary clamp just slides and sets up in the leading-out terminal of frame. The utility model discloses a full-automatic tin sticky wire stripping machine of double-end, through cable chuck centre gripping cable, the terminal of cable is cliied to the fastener, utilize to shell and cut the mechanism and open the cable and form one section and skin and expose the sinle silk, realize the double-end tin sticky of skinning, improve production efficiency, cable chuck and fastener rotate respectively, make the part that the cable was surely shelled be stained with scaling powder and tin cream, the cable that has been segmented and the tin sticky on will pressing from both sides by the rotary clamp again shifts in unison, neatly is qualified for the next round of competitions, the back station normal operating of being convenient for.

Description

Double-end full-automatic tin-dipping wire stripping machine

Technical Field

The utility model belongs to the technical field of the cable processing, especially, relate to a full-automatic tin sticky wire stripping machine of double-end.

Background

The existing many electronic products need to be electrically connected with other active devices through cables to transmit current or signals, such as various interfaces and coaxial connectors, generally, before the cables are connected with the electronic products, the cables need to be cut off to form a certain length, then the tail ends of the cables with the certain length are peeled to expose wire cores, and finally tin-dipping treatment is carried out to form the treated cables which can be connected with the electronic products.

The traditional cable treatment process is as follows: cut the cable and become the section, it exposes the sinle silk to skin, be stained with scaling powder and tin cream, form the cable that certain length waited to use, whole process efficiency is low excessively, and is with high costs, in order to improve the efficiency of cable wire stripping tin sticky, the enterprise has made the automatic wire stripping machine of cutting, utilize cutter and broach cooperation, directly cut off and skin the unilateral of cable, tin sticky, because the cable of once cutting is more, lead to the cable after cutting in a confused state of mind of a matter many times to place, it is neat to need artifical arrangement, can get into back work station smoothly, and simultaneously, can only realize the one-end tin sticky of skinning, work efficiency is lower.

The inventors therefore sought to devise a wire stripper that addresses the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an: the utility model provides a double-end full-automatic tin sticky wire stripping machine, but not only the double-end tin sticky of skinning improves production efficiency, but also can shift the cable after the tin sticky of skinning, and the neat line of play is convenient for back work station normal operating.

In order to achieve the above object, the utility model adopts a technical scheme as follows:

the double-head full-automatic tin-dipping wire stripping machine comprises a rack, wherein a cable chuck, a stripping and cutting mechanism and a wire clamp are sequentially arranged on the rack along a wire inlet direction, the cable chuck is rotatably arranged on the rack, the wire clamp is rotatably and transversely slidably arranged on the rack, a soldering aid box and a tin box are respectively arranged below the cable chuck and the wire clamp, wire rotating clamps are arranged on the front sides of the wire clamps at intervals, and the wire rotating clamps are arranged at wire outlet ends of the rack in an overturning and sliding mode.

As an improvement of the utility model discloses full-automatic tin wire stripping machine of double-end, the cable chuck includes base and at least a pair of rubber tyer, be equipped with the alignment jig on the base, it is right the rubber tyer sets up side by side and the two rotate respectively set up in the base with on the alignment jig, it is same right the rubber tyer linkage is connected.

As the utility model discloses a full-automatic tin wire stripping machine of double-end improves, the alignment jig with rotate respectively on the base and be connected with an intermediate gear, it is same right the rubber tyer respectively with two intermediate gear transmission is connected, two connect through transition gear transmission between the intermediate gear, transition gear passes through adaptor and one of them the radial swing joint of intermediate gear.

As an improvement of the utility model discloses full-automatic tin sticky wire stripping machine of double-end, it includes two pairs of skinning knives, two pairs to shell the mechanism be equipped with a pair of cutter between the skinning knife, the two vertical slip of skinning knife and cutter set up in the frame.

As an improvement of the utility model discloses a full-automatic tin pick-up wire stripping machine of double-end, two pairs the interval is equipped with two pairs of swoves of rubbing with the hands between the sword, the cutter is located two pairs rub with the hands between the sword, rub with the hands the sword with the vertical and vertical sliding connection of sword, it is same right rub with the hands the vertical and vertical slip opposite direction of sword.

As the utility model discloses a full-automatic tin sticky wire stripping machine's of double-end improvement, the discharge end of frame is equipped with the outlet plate, the outlet plate is close to the one end longitudinal sliding connection of transfer line clamp has the slider of getting the line, get the line slider through draw runner activity articulate in on the outlet plate.

As the utility model discloses a double-end full-automatic tin wire stripping machine's improvement, get the line slider and be close to the one end interval protrusion of transfer line clamp is equipped with two stops, insert to adjacent two after the transfer line clamp upset between the stop.

As the utility model discloses a full-automatic tin wire stripping machine of double-end improves, get the line slider slide set up in the bottom of outlet plate, the draw runner is fixed in on the stop part, the draw runner slip lid is located on the spout of outlet plate, it is slided by eccentric link mechanism drive to get the line slider.

As the utility model discloses a double-end full-automatic tin wire stripping machine's improvement, the top of getting the line slider is equipped with gets the line pole, get the vertical slip of line pole set up in the frame, be equipped with on the pole of getting the line and get the lines.

As an improvement of the utility model discloses full-automatic tin sticky wire stripping machine of double-end, get the line slider with be equipped with the layering between the outlet plate, the activity of rotating-line clamp is inserted extremely get the inslot and elasticity support and press the layering.

Compared with the prior art, the utility model discloses a full-automatic tin sticky wire stripping machine of double-end, through cable chuck centre gripping cable, the terminal of cable is cliied to the fastener, utilize to shell and cut the mechanism and open the cable and form one section and skin and expose the sinle silk, realize the double-end tin sticky wire of skinning, improve production efficiency, cable chuck and fastener rotate respectively, make the part that the cable was cut and is shelled be stained with scaling powder and tin cream, the cable that has been segmented and tin sticky on the fastener is unified to be shifted by the rotary clamp again, neat line outgoing, the back station normal operating of being convenient for.

Description of the drawings:

FIG. 1 is a perspective view of the double-head fully automatic tin and wire stripping machine of the present invention;

FIG. 2 is a perspective enlarged view of the wire feeding mechanism of the present invention;

FIG. 3 is a partially exploded perspective view of the wire feeding mechanism of the present invention;

FIG. 4 is an enlarged perspective view of the peeling and cutting mechanism of the present invention;

fig. 5 is a three-dimensional enlarged view of the wire clamping mechanism of the present invention;

fig. 6 is a three-dimensional enlarged view of the wire-turning mechanism and the wire-outgoing mechanism of the present invention;

fig. 7 is a perspective enlarged view of the other view angle of the wire-turning mechanism and the wire-outgoing mechanism of the present invention;

fig. 8 is a partially exploded perspective view of the wire outlet mechanism of the present invention.

Illustration of the drawings:

1. a frame, 11, a wire inlet plate, 12, a wire outlet plate, 121, a sliding chute, 2, a wire feeding mechanism, 21, a base, 211, a wire guide block, 212, a rotating motor, 2121, a half gear, 213, a rotating disc, 22, a lower rubber wheel, 221, a lower gear, 23, an adjusting frame, 24, an upper rubber wheel, 241, an upper gear, 25, an adapter, 26, a transition gear, 27, an upper middle gear, 28, a lower middle gear, 281, a rubber wheel driving motor, 3, a welding assistant box, 4, a tin box, 5, a wire clamping mechanism, 51, a wire clamp, 52, a rotating driving motor, 53, a rotating disc, 54, a transverse driving motor, 541, a rack, 55, a transverse driving cylinder, 6, a wire rotating mechanism, 61, a wire rotating clamp, 611, a wire rotating cylinder, 612, a longitudinal moving cylinder, 613, a rotating motor, 62, a sliding seat, 7, a cutting mechanism, 71, an upper stripping knife, 72, a lower stripping knife, 73, a stripping motor, 731, a screw, 732. the device comprises an upper sliding seat, a 7321, an upper skin rubbing air cylinder, 733, a lower sliding seat, 7331, a lower skin rubbing air cylinder, 74, an upper rubbing knife, 75, a lower rubbing knife, 76, a rubbing knife driving air cylinder, 761, a rubbing knife turntable, 762, a skin rubbing connecting rod, 77, an upper rubbing knife, 78, a lower rubbing knife, 8, a thread outlet mechanism, 81, a thread taking sliding block, 811, a sliding strip, 812, a pressing strip, 82, a sliding thread taking motor, 821, a thread taking connecting rod, 83, a thread taking rod, 831, a thread taking strip, 84 and a thread taking air cylinder.

Detailed Description

The following embodiments of the present invention will be specifically explained with reference to the accompanying drawings, which are only used for reference and illustration, and do not limit the scope of the present invention.

Referring to fig. 1 to 8, a double-head full-automatic tin-dipping wire stripping machine comprises a frame 1, a wire feeding mechanism 2, a stripping and cutting mechanism 7, a wire clamping mechanism 5, two tin boxes 4, two soldering assistant boxes 3, a wire rotating mechanism 6 and a wire outlet mechanism 8, wherein the wire feeding mechanism 2, the stripping and cutting mechanism 7 and the wire clamping mechanism 5 are sequentially arranged on the frame 1 along the wire inlet direction of a cable, one soldering assistant box 3 and one tin box 4 are arranged at the side of the wire feeding mechanism 2, the other soldering assistant box 3 and the other tin box 4 are arranged at the side of the wire clamping mechanism 5, the wire rotating mechanism 6 is arranged at the front of the wire clamping mechanism 5 at intervals, the wire outlet mechanism 8 is arranged at the wire outlet end of the frame 1, the wire rotating mechanism 6 is arranged between the wire outlet mechanism 8 and the wire clamping mechanism 5, the free ends of the cables on a plurality of reels penetrate through the wire feeding mechanism 2, the wire feeding mechanism 2 clamps the cable and feeds the wire, the wire clamping mechanism 5 clamps the tail end of a cable, the peeling mechanism 7 cuts and peels the cable between the wire feeding mechanism 2 and the wire clamping mechanism 5 to expose a wire core at the tail end, the wire feeding mechanism 2 and the wire clamping mechanism 5 dip the respectively clamped cable with soldering flux and tin paste, the wire rotating mechanism 6 rotates out the segmented cable clamped on the wire clamping mechanism 5, and the segmented cable is combed and moved out by the wire outlet mechanism 8.

Referring to fig. 1, a wire inlet board 11 is disposed at a wire inlet end of the rack 1, a wire outlet board 12 is fixedly disposed at a wire outlet end of the rack 1, in this embodiment, a wire inlet direction of a cable is perpendicular to a wire outlet direction of the cable after the cable is segmented, that is, the wire inlet board 11 is located at a left end of the rack 1, the wire outlet board 12 is located at a front end of the rack 1, and the wire inlet board 11 is perpendicular to the wire outlet board 12.

Referring to fig. 1 to 3, the wire feeding mechanism 2 is located at the wire outlet end of the wire feeding plate 11, the wire feeding mechanism 2 has an adjusting function and can clamp cables with various wire diameters, the wire feeding mechanism 2 includes a cable chuck, a rotating motor 212 and a rubber wheel driving motor 281, the cable chuck is rotatably disposed on the front surface of the fixing plate of the frame 1, the cable chuck includes a base 21, an adjusting frame 23 and at least one pair of rubber wheels, the adjusting frame 23 is adjustably disposed on the base 21, the adjusting frame 23 is used for adjusting the wire pressing tightness and wire pressing width of the rubber wheels, each pair of rubber wheels are disposed in parallel and rotatably disposed on the base 21 and the adjusting frame 23 respectively, all the rubber wheels are linked, when the adjusting frame 23 is moved upwards, the distance between the same pair of rubber wheels is changed, so as to change the wire pressing tightness and wire pressing width of the rubber wheels, the groove on the base 21 forms a u shape, all the rubber wheels are vertically and rotatably arranged on the outer side surface of the base 21, one side of the base 21 far away from the rubber wheels is fixedly connected with a connecting plate, an adjusting frame 23 is slidably arranged on the connecting plate and locked by an adjusting nut, a plurality of grooves are formed in the adjusting frame 23, in order to enable the clamping of cables to be more stable, two pairs of rubber wheels are preferably selected in the embodiment, the two pairs of rubber wheels are arranged side by side at intervals, each pair of rubber wheels are arranged side by side up and down, each pair of rubber wheels is specifically an upper rubber wheel 24 and a lower rubber wheel 22, a connecting rod is rotatably connected between the two pairs of rubber wheels, specifically, an upper connecting rod is rotatably connected between the two upper rubber wheels 24, namely, two ends of the upper connecting rod are respectively rotatably connected with the two upper rubber wheels 24, a lower connecting rod is rotatably connected between the two lower rubber wheels 22, namely, two ends of the lower connecting rod are respectively rotatably connected with the two lower rubber wheels 22, and a lower gear 221 is fixed on a rotating shaft of each lower rubber wheel 22, a lower intermediate gear 28 is arranged between the two lower gears 221, the lower intermediate gear 28 is rotatably arranged on the base 21 and is simultaneously meshed with the two lower gears 221, the two lower gears 221 and the lower intermediate gear 28 are both positioned in a groove of the base 21, an upper gear 241 is fixed on a rotating shaft of each upper rubber wheel 24, an upper intermediate gear 27 is arranged between the two upper gears 241, the upper intermediate gear 27 and the lower intermediate gear 28 are staggered from top to bottom, the upper intermediate gear 27 is rotatably arranged on the adjusting frame 23 and is simultaneously meshed with the two upper gears 241, the two upper gears 241 and the upper intermediate gear 27 are both positioned in a groove of the adjusting frame 23, a transition gear 26 is further rotatably connected on the base 21, the transition gear 26 is radially movably connected with the upper intermediate gear 27, an adapter 25 is arranged between the transition gear 26 and the upper intermediate gear 27, and the transition gear 26 and the upper intermediate gear 27 are crossed in the radial sliding direction relative to the adapter 25, in order to improve the service life and the use effect of the transition gear 26, the upper intermediate gear 27 and the adaptor 25, the transition gear 26 and the upper intermediate gear 27 are perpendicular to the radial sliding direction of the adaptor 25, the transition gear 26 and the upper intermediate gear 27 are respectively in concave-convex sliding fit with two end faces of the adaptor 25, specifically, concave parts of the two end faces of the adaptor 25 are perpendicular to each other, a through hole 251 is arranged in the center of the concave part, the adaptor faces of the transition gear 26 and the upper intermediate gear 27 are respectively provided with an adaptor bump, and the two adaptor bumps extend into two concave parts of the adaptor 25 respectively, so that the transition gear 26, the upper intermediate gear 27 and the adaptor 25 are adapted in a radial movable connection manner; the rotating motor 212 and the rubber wheel driving motor 281 are fixed on the back of the fixing plate, the rotating motor 212 and the rubber wheel driving motor 281 are arranged from top to bottom, the base 21 is rotatably arranged on the fixing plate of the frame 1 through the turntable 213, a half gear 2121 is fixed on the outer ring of the turntable 213, the output shaft of the rotating motor 212 is meshed with the half gear 2121 through a gear to drive the cable chuck to rotate, and the output shaft of the rubber wheel driving motor 281 penetrates through the turntable 213 and the fixing plate 11 and is fixedly connected with the lower intermediate gear 28.

Referring to fig. 1 and 4, the peeling and cutting mechanism 7 is located between the wire feeding mechanism 2 and the wire clamping mechanism 5, the peeling and cutting mechanism 7 includes two pairs of peeling knives, at least one pair of cutters, at least one pair of twisting knives, two sliding seats, a peeling and cutting motor 73 and a twisting knife driving cylinder 76, the peeling and cutting motor 73 is disposed on the top of the support frame of the working panel, the two sliding seats are sleeved on a positive and negative screw 731 (the thread directions of the upper and lower ends of the positive and negative screw 731 are opposite) of the peeling and cutting motor 73 from top to bottom, the two sliding seats are specifically an upper sliding seat 732 and a lower sliding seat 733, the peeling and cutting motor 73 drives the upper sliding seat 732 and the lower sliding seat 733 to slide towards or away from the back through the positive and negative screw 731, each pair of peeling knives is specifically an upper peeling knife 71 and a lower peeling knife 72, the two upper peeling knives 71 are fixed on the bottom of the upper sliding seat 732 at intervals, the two lower peeling knives 72 are fixed on the top of the lower sliding seat 733 at intervals, in this embodiment, preferably one pair of cutting knives and two pairs of twisting knives, the pair of cutters is specifically an upper cutter 77 and a lower cutter 78, the upper cutter 77 is fixed at the bottom of the upper sliding seat 732 and is located between the two upper cutters 77, the lower cutter 78 is fixed at the top of the lower sliding seat 733 and is located between the two lower cutters 78, the two pairs of twisting cutters are arranged at intervals and are located between the two pairs of stripping cutters, the upper cutter 77 and the lower cutter 78 are located between the two pairs of twisting cutters, the same pair of twisting cutters are respectively arranged on the two sliding seats in a longitudinally and vertically sliding manner, and the longitudinal and vertical sliding directions of the two twisting cutters are opposite, each pair of twisting cutters is specifically an upper twisting cutter 74 and a lower twisting cutter 75, in the embodiment, the two upper twisting cutters 74 are arranged on the upper sliding seat 732 in a longitudinally sliding manner through an upper sliding block, an upper skin rubbing cylinder 7321 is fixed on the upper sliding seat 732, the upper sliding block is arranged on an output shaft of the upper skin rubbing cylinder 7321, the two lower twisting cutters 75 are arranged on the lower sliding seat 733 in a longitudinally sliding manner through a lower sliding block, a lower skin rubbing cylinder 7331 is fixed on the lower sliding seat, the lower slider is arranged on an output shaft of the lower skin rubbing cylinder 7331, the support frame is rotatably provided with a knife rotating disc 761, the upper slider and the lower slider are eccentrically hinged with the knife rotating disc 761 through a skin rubbing connecting rod 762, the knife driving cylinder 76 is arranged below the knife rotating disc 761 and is meshed with the knife rotating disc 761 through a knife rack, when the upper slide 732 and the lower slide 733 move vertically in the opposite direction or in the opposite direction, the two upper knives 74 and the two lower knives 75 move vertically in the opposite direction or in the opposite direction, when the two pairs of peeling knives cut off insulation skins of cables, the upper skin rubbing cylinder 7321 drives the two upper knives 74 to move downwards, the lower skin rubbing cylinder 7331 drives the two lower knives 75 to move upwards, the knife driving cylinder 76 drives the knife rotating disc 761 to rotate, and further drives the two lower knives 75 and the two upper knives 74 to move in the opposite directions to rub the skins, so that the cut insulation skins are thoroughly cut off.

Referring to fig. 5, the wire clamping mechanism 5 includes a wire clamp 51, a transverse driving cylinder 55, a rotary driving motor 52 and a transverse driving motor 54, the rotary driving motor 52 and the transverse driving motor 54 are disposed on a side plate of the rack 1 from top to bottom, a rotary disc 53 is rotatably disposed on a front surface of the side plate, an output gear of the rotary driving motor 52 is engaged with a half gear of the rotary disc 53, a frame-shaped rack 541 is transversely slidably connected to the rotary disc 53, the wire clamp 51 is transversely slidably disposed on a front surface of the rack 541, the transverse driving cylinder 55 is disposed on the rack 541 and is in transmission connection with the wire clamp 51, and an output gear of the transverse driving motor 54 extends into the rack 541 and is engaged with the rack 541.

Referring to fig. 1, two flux boxes 3 and two tin boxes 4 are respectively and symmetrically arranged on a rack 1, specifically, one of the tin boxes 4 and one of the flux boxes 3 are arranged below a cable chuck along a wire feeding direction, the other flux box 3 and the other tin box 4 are arranged below a wire clamp 51 along the wire feeding direction, one side of each tin box 4, which is far away from the corresponding flux box 3, is provided with a tin scraping plate, the tin scraping plate is eccentrically connected with an eccentric wheel at the output end of a tin scraping motor through a tin scraping connecting rod, the tin scraping motor drives the tin scraping plate to swing through the eccentric wheel and the tin scraping connecting rod, and a layer of tin paste corresponding to the inner surface of the tin box 4 is scraped to one side.

Referring to fig. 1, 6 and 7, the wire rotating mechanism 6 is located between the wire clamping mechanism 5 and the wire outlet plate 12, the wire rotating mechanism 6 includes a wire rotating cylinder 611, a rotating motor 613 and a longitudinal moving cylinder 612, the frame 1 is longitudinally slidably connected with a sliding base 62, the longitudinal moving cylinder 612 is disposed on the frame 1 and drives the sliding base 62 to longitudinally move, the rotating motor 613 is fixed on the sliding base 62, an output end of the rotating motor 613 drives the wire rotating cylinder 611 to rotate through belt transmission, and an output end of the wire rotating cylinder 611 is provided with the wire rotating clamp 61.

Referring to fig. 1, 6, 7 and 8, the wire outlet mechanism 8 includes a wire taking slider 81, a sliding wire taking motor 82, a wire taking rod 83 and a wire taking cylinder 84, the wire taking slider 81 is slidably disposed at one end of the wire outlet plate 12 close to the wire rotating clamp 61 and slidably disposed at the bottom of the wire outlet plate 12, two blocking portions are protrudingly disposed at an end of the wire taking slider 81 close to the wire rotating clamp 61 at intervals, a wire taking groove is formed between the two blocking portions, a pressing strip 812 is elastically connected to the wire taking slider 81, the pressing strip 812 is exposed to the wire outlet plate 12 and located between the two blocking portions, the wire rotating clamp 61 is inserted into the wire taking groove after being turned over and elastically presses the pressing strip 812, a sliding strip 811 is fixed on each blocking portion, the sliding strip 811 is slidably covered on the sliding groove 121 of the wire outlet plate 12 (the wire outlet plate 12 is located between the sliding strip 811 and the wire taking slider 81), the wire taking slider 81 is driven by the eccentric link mechanism to slide at the bottom of the wire outlet plate 12, the eccentric link mechanism comprises a sliding wire taking motor 82, an eccentric wheel and a wire taking connecting rod 821, the sliding wire taking motor 82 is positioned below the wire outlet plate 12, the eccentric wheel is rotatably arranged at the output end of the sliding wire taking motor 82, one end of the wire taking connecting rod 821 is eccentrically connected with the eccentric wheel, and the other end of the wire taking connecting rod 821 is connected with the wire taking sliding block 81.

Referring to fig. 1 to 8, the utility model discloses full-automatic tin sticky wire stripping machine's of double-end theory of operation does: the free ends of the cables on the cable reels are clamped by two pairs of rubber wheels, the rubber wheel driving motor 281 drives the lower middle gear 28 to rotate so as to drive the two lower rubber wheels 22 and the two upper rubber wheels 24 to send wires in a linkage manner, the tail ends of the cables extend out of the wire guide block 211, the transverse driving motor 54 drives the rack 541 to transversely slide on the rotating disc 53 so as to drive the cable clamp 51 to transversely move for the first time, the transverse driving cylinder 55 drives the cable clamp 51 to transversely move for the second time on the rack 541 so as to enable the cable clamp 51 to be close to the stripping and cutting opening of the stripping and cutting mechanism 7, the cable clamp 51 clamps the free ends of the cables, the stripping and cutting motor 73 drives the upper sliding seat 732 and the lower sliding seat 733 to move towards each other, the cables are cut by the pair of cutters so as to form two sections of stripped and insulation layers, the two pairs of stripping cutters cut the insulation skins of the cables at the stripping and cutting opening are cut openings, the upper stripping cylinder 7321 drives the upper scraper 71 to move downwards, the lower stripping cylinder 7331 drives the lower scraper 75 to move upwards, the insulating skin is pressed against, the twisting knife driving cylinder 76 drives the same pair of twisting knives to reversely slide, so that the insulating skin between the two pairs of peeling knives is rolled and disconnected, on one hand, the rotary motor 212 drives the half gear 2121 to rotate through the gear, further drives the turntable 213, the base 21, the adjusting frame 23 and the four rubber wheels to rotate clockwise, so that the peeled and cut insulating skin at the cutting opening of the free end of the cable falls off under the scraping action of the corresponding peeling knives, the wire core is exposed, when the four rubber wheels clamp the cable to rotate clockwise to a certain angle, the wire block 211 inclines, the wire core exposed at the tail end of the cable is inserted into the corresponding soldering flux box 3 to be dipped with soldering flux, the rotary motor 212 drives the turntable 213, the base 21, the adjusting frame 23 and the four rubber wheels to rotate for another angle again, so that the wire block 211 is in a vertical state, the wire core exposed at the tail end of the cable is inserted into the corresponding tin box 4 to be dipped with tin, and the rotary motor 212 controls the four rubber wheels to reset, on the other hand, the transverse driving motor 54 and the transverse driving cylinder 55 respectively control the wire clamp 51 to perform secondary transverse movement, when the wire clamp 51 is located above the corresponding soldering flux box 3, the rotary driving motor 52 drives the rotary disc 53, the rack 541 and the wire clamp 51 to rotate counterclockwise by an angle, so that the stripped insulating skin at the cut of the free end of the segmented wire cable falls off under the scraping action of the corresponding stripping knife, the wire core is exposed, the wire core of the segmented wire cable clamped by the wire clamp 51 is inserted into the corresponding soldering flux box 3 below and is stained with the soldering flux, the wire clamp 51 moves transversely again, when the wire clamp 51 is located above the corresponding tin box 4, the rotary driving motor 52 drives the rotary disc 53, the rack 541 and the wire clamp 51 to rotate counterclockwise by another angle, the wire core of the segmented wire cable clamped by the wire clamp 51 is inserted into the corresponding tin box 4 below and is stained with the tin, the wire clamp 51 resets, the longitudinal moving pneumatic 612 drives the wire clamp 61 to approach the wire clamp 51, the wire transferring cylinder 611 drives the wire transferring clamp 61 to clamp a plurality of segmented cables on the wire clamp 51, the rotating motor 613 drives the wire transferring clamp 61 to turn 180 degrees through belt transmission and insert the segmented cables into a wire taking groove of the wire taking slide block 81, the wire transferring clamp 61 elastically presses the pressing strip 812, the wire transferring clamp 61 loosens the segmented cables and retreats, the segmented cables fall onto two sliding strips 811 of the wire taking slide block 81, the wire taking cylinder 84 drives the wire taking rod 83 to move downwards to press against the wire outlet plate 12 to block the segmented cables on the wire outlet plate 12, and the sliding wire taking motor 82 drives the wire taking slide block 81 to retreat through the eccentric connecting rod mechanism to enable the segmented cables on the two sliding strips 811 to move onto the wire outlet plate 12, so that the segmented cables which are arranged in order are formed.

The double-head full-automatic tin-dipping wire stripping machine of the utility model can adjust the wire clamping width and the tightness of two pairs of rubber wheels by adjusting the adjusting bracket 23, the full-automatic tin-dipping wire stripper with double ends can be used for clamping cables with different wire diameters, has stronger universality, utilizes the cable chuck to clamp the cable, the wire clamp 51 to clamp the tail end of the cable, the peeling mechanism 7 cuts the cable to form a section and peels off the cable core to expose the wire core, thereby realizing double-end peeling and tin dipping, improving the production efficiency, respectively rotates the cable chuck and the wire clamp 51 to make the part peeled off by the cable be dipped with soldering flux and tin paste, then uniformly transfers the segmented and tin-dipped cable on the wire clamp 51 by the wire rotating clamp 61, neatly leads out the wire, is convenient for the normal operation of a post-station, can produce segmented cables with two ends peeled and tin-dipped and different wire diameters, and the segmented cables are arranged in order and then are led out, so that the use requirements of users are met, and convenience is provided for the normal work of the next work station.

The above disclosure is only for the preferred embodiments of the present invention, and the scope of the present invention should not be limited thereby, and the scope of the present invention is not intended to be limited thereby.

Claims (10)

1. The double-head full-automatic tin-dipping wire stripping machine comprises a machine frame and is characterized in that a cable chuck, a stripping and cutting mechanism and a wire clamp are sequentially arranged on the machine frame along a wire inlet direction, the cable chuck is rotatably arranged on the machine frame, the wire clamp is rotatably and transversely slidably arranged on the machine frame, a solder box and a tin box are respectively arranged below the cable chuck and the wire clamp, wire rotating clamps are arranged on the front sides of the wire clamps at intervals, and the wire rotating clamps are arranged at wire outlet ends of the machine frame in an overturning and sliding mode.

2. The double-ended fully automatic tin-dipping wire stripping machine according to claim 1, wherein said cable clamp comprises a base and at least one pair of rubber wheels, an adjusting bracket is arranged on said base, each pair of said rubber wheels are arranged side by side and rotatably arranged on said base and said adjusting bracket respectively, and the same pair of said rubber wheels are linked.

3. The double-ended fully automatic tin and wire stripping machine according to claim 2, wherein said adjusting bracket and said base are rotatably connected with an intermediate gear respectively, the same pair of said rubber wheels are in transmission connection with two of said intermediate gears respectively, the two of said intermediate gears are in transmission connection with each other through a transition gear, and said transition gear is in radial movable connection with one of said intermediate gears through an adapter.

4. The double-ended full-automatic tin-dipping wire stripping machine according to claim 1, wherein the stripping and cutting mechanism comprises two pairs of stripping knives, a pair of cutting knives is arranged between the two pairs of stripping knives, and the stripping knives and the cutting knives are vertically and slidably arranged on the rack.

5. The double-ended full-automatic tin-dipping wire stripping machine according to claim 4, wherein two pairs of twisting knives are arranged between the two pairs of stripping knives at intervals, the cutting knife is positioned between the two pairs of twisting knives, the twisting knives are connected with the stripping knives in a longitudinal and vertical sliding manner, and the longitudinal and vertical sliding directions of the same pair of twisting knives are opposite.

6. The double-end full-automatic tin-dipping wire stripping machine according to claim 1, wherein a wire outlet plate is arranged at a discharge end of the rack, a wire taking slide block is longitudinally connected to one end of the wire outlet plate close to the rotating wire clamp in a sliding manner, and the wire taking slide block is movably hung on the wire outlet plate through a slide bar.

7. The double-ended full-automatic tin-dipping wire stripping machine according to claim 6, wherein two blocking portions are protruded at intervals at one end of the wire taking slider close to the wire rotating clamp, and the wire rotating clamp is inserted between the two adjacent blocking portions after being overturned.

8. The double-ended fully automatic tin-dipping wire stripping machine according to claim 7, wherein said wire-taking slider is slidably disposed at the bottom of said wire-outlet plate, said slide bar is fixed to said blocking portion, said slide bar is slidably covered on a slide groove of said wire-outlet plate, and said wire-taking slider is slidably driven by an eccentric link mechanism.

9. The double-ended full-automatic tin-dipping wire stripping machine according to claim 6, wherein a wire taking rod is arranged above the wire taking slide block, the wire taking rod is vertically and slidably arranged on the rack, and a wire taking strip is arranged on the wire taking rod.

10. The double-ended fully automatic tin-dipping wire stripping machine according to claim 6, wherein a pressing strip is arranged between said wire-taking slider and said wire-outlet plate, and said wire-rotating clamp is movably inserted into a wire-taking groove of said wire-taking slider and elastically presses against said pressing strip.

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