CN110102666B

CN110102666B - Metal wire cutting assembly line

Info

Publication number: CN110102666B
Application number: CN201910346932.4A
Authority: CN
Inventors: 林天龙
Original assignee: Linhai Chuangyu Arts & Crafts Co ltd
Current assignee: Linhai Banghao Craft Co ltd; Linhai Chuangyu Arts & Crafts Co ltd
Priority date: 2019-04-27
Filing date: 2019-04-27
Publication date: 2020-06-09
Anticipated expiration: 2039-04-27
Also published as: CN110102666A

Abstract

The invention relates to the field of metal wire processing, and discloses a metal wire cutting assembly line which comprises a coiling device, a wire feeding device and a forming device, wherein the coiling device, the wire feeding device and the forming device are sequentially arranged along the metal wire conveying direction, a metal wire is coiled on the coiling device, one end of the metal wire passes through the wire feeding device, the wire feeding device extracts the metal wire on the coiling device and conveys the metal wire with fixed length at intervals to the forming device, the forming device forms the cut metal wire into a metal wire section, and the two ends of the metal wire end are finished to be in an L shape, so that the production efficiency of basic materials required by a lantern framework is improved.

Description

Metal wire cutting assembly line

Technical Field

The invention relates to the field of metal wire processing, in particular to a metal wire cutting assembly line.

Background

The steel wire is a material commonly used in life, and can be mostly used as a fixing tool or a forming frame structure.

The inner structure of one lantern is formed by a plurality of steel wire sections, the existing steel wire sections are formed by cutting off long steel wires, the two ends of each steel wire section are bent, the middle parts of the steel wire sections are attached to the spherical lantern mold, and finally the bent parts at the two ends of the steel wire sections are fixedly connected to form the framework of the lantern.

As in the above-mentioned publication technique, when producing the lantern, the both ends of wire end still adopt pliers bending forming through the manual work mostly to need set up the mark at the both ends of wire section through measuring tool and marker pen before the bending, this kind of production mode needs the more manpower of old fertile and time at the bending at wire section both ends, reduces the efficiency of lantern skeleton production, exists the weak point of treating the improvement.

Disclosure of Invention

The invention aims to provide a metal wire cutting assembly line, wherein one end of a metal wire passes through a wire feeding device, the wire feeding device extracts the metal wire on a coiling device and conveys the metal wire with fixed length at intervals to a forming device, the forming device cuts the metal wire into metal wire sections, and two ends of the metal wire ends are finished to be in an L shape, so that the production efficiency of basic materials required by a lantern framework is improved.

The technical purpose of the invention is realized by the following technical scheme:

a metal wire cutting assembly line comprises a material rolling device, a wire feeding device and a forming device which are arranged in sequence;

the coil stock device comprises a coil stock frame and a coil stock tray for winding the metal wire, wherein the coil stock frame comprises a coil stock base and a coil stock column fixed on the coil stock base along the vertical direction, and the coil stock tray is coaxially and rotatably arranged on the coil stock column;

the wire feeding device comprises a wire feeding frame and a feeding roller set arranged at the upper end of the wire feeding frame, the feeding roller set comprises a driving roller and a squeezing roller which are arranged at intervals along the vertical direction, a driving piece for driving the driving roller to rotate is arranged on the wire feeding frame, and the squeezing roller is arranged in a lifting mode along the vertical direction;

the forming device comprises a forming frame, a first forming device and a second forming device, wherein the first forming device and the second forming device are sequentially arranged on the forming frame; the second forming device is including being fixed in the fashioned shaping module two and the sliding module two of being used for injecing the wire on the shaping frame and bending, two ends that the sliding module promoted the wire are extruded on shaping module two, just be provided with the limiting plate that is used for butt wire tip on the shaping module two, the charging chute has been seted up on the shaping frame and between being located first forming device and the second forming device.

By adopting the technical scheme, a coil material formed by winding metal wires is placed on the coil material tray, when one end of the metal is pulled, the coil material tray rotates, the metal wires are smoothly conveyed to a forming device by the wire conveying device, the metal wires penetrate through a space between the driving roller and the extrusion roller, the metal wires are clamped between the extrusion roller and the driving roller, the driving roller rotates, the purpose of conveying the metal wires by the feeding roller group is achieved, then the metal wires are conveyed into the forming device until one end of the metal wires is abutted against the limiting plate, the metal wires are positioned above the blanking groove, the sliding module I and the sliding module II are driven to synchronously slide towards the forming module I and the forming module II, the metal wires are cut by the cutting knife on the sliding module I, the sliding module I is matched with the forming module I, the sliding module II is matched with the forming module II, two ends of the metal wire section form L-shaped bends, and then the sliding module I and the sliding module II are far away from the, the metal wire section after bending passes through the charging chute, accomplishes the process of unloading, realizes cutting off of metal wire section and the processing of bending, and then promotes lantern skeleton's preparation efficiency.

The invention is further configured to: a brake disc which is abutted against the lower end of the coiling disc is arranged on the coiling column in a sliding way along the length direction of the coiling column, a control component for driving a brake disc to move is arranged between the material rolling equipment and the wire feeding equipment, the control component comprises a control rod and a pushing component, the lower end of the control rod is hinged and is rotationally arranged on a vertical plane, the upper end of the control rod is provided with a fixing ring which is penetrated by a metal wire, the pushing assembly comprises a first sliding ring and a second sliding ring which are sleeved on the material rolling column in a sliding manner, the upper end of the first sliding ring is fixed at the lower end of the brake disc, the second sliding ring is positioned below the first sliding ring, the first sliding ring and the second sliding ring are respectively hinged with a push rod, the one end that the material pole was kept away from to the push rod articulates on the control lever, the cover is equipped with brake spring on the material pole and is located between slip ring one and the slip ring two, brake spring promotes the trend that slip ring one and slip ring two moved to the back.

By adopting the technical scheme, the metal wire penetrates through the fixed ring, when the metal wire is loosened, the brake spring pushes the brake disc to abut against the coiling disc, and the rotating speed of the coiling disc is controlled, so that the metal wire is tightened; when the wire was too tight, the solid fixed ring rebound of wire pulling for the control lever is rotated to the direction of keeping away from the coil stock dish, and then is close to relatively through push rod pulling slip ring one and slip ring two, makes the coil stock dish keep away from to the brake disc, reduces the resistance that the coil stock dish rotated and received, makes the wire relax, promotes the stability of wire pay-off.

The invention is further configured to: the metal wire forming device is characterized in that a material loading assembly is arranged on the forming frame and above the blanking groove, the material loading assembly comprises a fixed material plate and a sliding material plate, the fixed material plate is located above the sliding material plate, a clamping material groove is formed in the lower end of the fixed material plate, the clamping material groove extends along the moving direction of a metal wire, and the sliding material plate slides along the length direction of the sliding material plate.

By adopting the technical scheme, when the feeding equipment conveys the metal wire to move towards the forming equipment, the metal wire is embedded in the clamping groove, and the sliding material plate is supported at the lower end of the metal wire, so that one end of the metal wire, far away from the feeding equipment, is stably positioned between the sliding module II and the forming module II; after the metal wire is cut off and bent, the sliding material plate is moved, the material clamping groove limits the movement of the metal wire section until the sliding material plate is completely separated from the upper part of the blanking groove, the end of the metal wire falls down and passes through the blanking groove, and the stable blanking process is realized.

The invention is further configured to: and a guide chamfer used for guiding the metal wire is arranged at one end of the fixed material plate, which faces the first forming device, and at the notch of the clamping groove.

Through adopting above-mentioned technical scheme, when feeder equipment transported the wire, the wire slides the butt on the guide chamfer for the stable inlaying of wire locates the card silo, realizes the stable support of slip flitch in the lower extreme of wire, promotes the stability that the wire cut off and bend.

The invention is further configured to: be provided with the power component who is used for driving the removal of slip flitch on the shaping frame, power component includes that the moving direction along the wire extends the driving shaft that sets up and the coaxial drive cam that sets up in the driving shaft, it is provided with the catch bar rather than the vertical fixation on the slip flitch, the one end of catch bar extends to one side that the slip flitch was kept away from to the driving shaft, and this end is provided with in drive cam butt complex butt portion two, be provided with the reset assembly two that is used for driving the slip flitch and removes to the blanking groove direction on the shaping frame.

Through adopting above-mentioned technical scheme, when the drive cam rotated, the drive cam rotated the in-process and promoted butt portion two for the pushing rod pulling slip flitch removes and keeps away from the silo of unloading, realizes the purpose of stably unloading.

The invention is further configured to: the reset assembly II comprises a support plate II supported at the lower end of the push rod and a limiting wheel II abutted to the upper end of the push rod, two ends of the limiting wheel II are provided with limiting seats II fixed on the support plate, a stop rod II is arranged on one side, away from the sliding material plate, of the push rod and is located on the limiting seat II, and a reset tension spring is arranged between the stop rod II and the limiting seat II.

Through adopting above-mentioned technical scheme, when drive cam pivoted in-process, the extension spring that resets stimulates shelves pole two all the time for butt portion and drive cam butt, and then realize the purpose that the catch bar drove the removal of slip flitch, realize the purpose that the slip flitch steadily supported the wire.

The invention is further configured to: the forming frame is provided with a power component for driving the sliding module I or the sliding module II to move, the power component comprises a driving rod fixedly connected with the sliding module I or the sliding module II and a power cam coaxially arranged on the driving shaft, one end of the driving rod extends to one side, close to the fixed material plate, of the driving shaft, the end of the driving rod is provided with a first abutting portion matched with the power cam in an abutting mode, and a first resetting component used for pushing the driving rod to move away from the metal wire is arranged on the forming frame.

By adopting the technical scheme, the power cam pushes the first abutting part in the rotating process, so that the driving rod pushes the first sliding module or the second sliding module to move, and the cutting and bending steps of the metal wire are realized.

The invention is further configured to: the first reset assembly comprises a first support plate supported at the lower end of the drive rod and a first limit wheel abutted to the upper end of the drive rod, first limit seats fixed on the first support plate are arranged at two ends of the first limit wheel, a first blocking rod is arranged on one side, away from the metal wire, of the first limit seat on the drive rod, and a reset spring is arranged between the first blocking rod and the first limit seat.

Through adopting above-mentioned technical scheme, when power cam pivoted in-process, reset spring promotes shelves pole one all the time for butt portion one and power cam butt, and then realize that the actuating lever drives the purpose that the sliding module one or the sliding module two removed, realize the purpose of stably cutting off and bending the wire.

The invention is further configured to: the forming frame is provided with a limiting groove along the conveying direction of the metal wire, the first supporting plate and the second supporting plate are provided with the limiting groove, the first fixing module and the second fixing module are provided with the limiting groove, the limiting groove is provided with a locking nut, the locking nut is matched with a locking bolt in a threaded mode, and the locking bolt is arranged on the first supporting plate, the second supporting plate, the first fixing module and the second fixing module in a penetrating mode respectively.

By adopting the technical scheme, when the locking bolt is rotated, the locking nut, the locking bolt and the forming frame are fixed and loosened, the first support plate, the second support plate, the first fixing module and the second fixing module are slid, and the metal wire sections with different lengths are cut and bent and formed through adjustment and application.

In conclusion, the invention has the following beneficial effects:

the wire feeding device extracts the metal wires on the coil material device, the metal wires with fixed lengths at intervals are conveyed to the forming device, the forming device cuts off the metal wires to form metal wire sections, the two ends of the metal wire ends are finished to be L-shaped, and the production efficiency of basic materials required by the lantern framework is improved.

Drawings

FIG. 1 is a schematic assembly of a wire cutting line;

FIG. 2 is a schematic diagram for embodying the structure of a roll stock apparatus;

FIG. 3 is a schematic diagram for embodying the configuration of a wire feeding apparatus;

FIG. 4 is a schematic view for embodying the structure of a molding apparatus;

fig. 5 is a schematic diagram for embodying a fixed flitch structure.

Reference numerals: a1, material rolling equipment; a2, a coil rack; a3, a coil stock base; a4, a coil stock column; a41, card slot; a5, a coil stock tray; a6, brake disc; a61, a fixture block; a7, a first sliding ring; a8, a second sliding ring; a9, brake spring; a10, control lever; a101, fixing a ring; a11, push rod;

b1, wire feeding equipment; b2, a wire feeding frame; b3, mounting plates; b31, mounting grooves; b4, a bearing seat; b5, a feeding roller set; b51, a driving roller; b52, a squeezing roller; b6, adjusting bolts; b61, adjusting nuts;

c1, forming equipment; c2, forming a frame; c21, a limit groove; c22, a charging chute; c23, locking nut; c24, locking bolt; c3, a first molding device; c31, forming a first molding module; c32, a first sliding module; c33, cutting off the knife; c4, a second molding device; c41, forming a second mold block; c42, a second sliding module; c43, a limiting plate; c5, driving shaft; c6, power cam; c7, a driving rod; c71, abutting part one; c8, resetting the component I; c81, a first supporting plate; c82, a first limit wheel; c83, a first limit seat; c84, a first gear lever; c85, return spring; c9, a loading plate group; c91, fixing a material plate; c911, clamping a material tank; c912, guiding and chamfering; c92, a sliding material plate; c10, drive cam; c11, push rod; c111, a second abutting part; c12, resetting the component II; c121 and a second supporting plate; c122, a second limiting wheel; c123 and a second limiting seat; c124, a second gear lever; c125, a reset tension spring.

Detailed Description

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

As shown in fig. 1, a metal wire cutting line includes a coiling device a1, a wire feeding device B1 and a forming device C1, which are sequentially arranged along a metal wire conveying direction, wherein a metal wire is coiled on the coiling device a1, one end of the metal wire passes through the wire feeding device B1, the wire feeding device B1 extracts the metal wire on the coiling device a1, and conveys the metal wire with fixed intervals to the forming device C1, the forming device C1 cuts the metal wire into metal wire sections, and two ends of the metal wire ends are finished to be L-shaped, so that the production efficiency of basic materials required by a lantern framework is improved.

As shown in fig. 2, the material rolling device a1 includes a material rolling frame a2 and a material rolling tray a5, wherein the material rolling frame a2 includes a material rolling base A3 fixed on the ground and a material rolling column a4 along the vertical direction, the lower end of the material rolling column a4 is fixed on the material rolling base A3, the material rolling tray a5 is rotatably disposed on the material rolling column a4, vertical rods are circumferentially disposed at intervals at the upper end of the material rolling tray a5, the material rolling tray made of metal wires is sleeved outside the vertical rods, when one end of the metal is pulled, the material rolling tray a5 rotates, and the wire feeding device B1 smoothly feeds the metal wires to the forming device C1.

As shown in fig. 2, a brake disc a6 is disposed on the winding column a4 and below the winding disc a5, and the sliding of the brake disc a6 in the vertical direction and the pressing force between the brake disc a6 and the winding disc a5 are controlled to change the rotation speed of the winding disc a5, so as to control the length of the wire between the winding device a1 and the wire feeding device B1, thereby preventing the wire from being too long and vibrating to fly out of a person passing by, or preventing the wire from being too tight to deform. Wherein the opposite both ends of diameter have been seted up draw-in groove A41 on coil stock post A4, and draw-in groove A41 extends the setting along vertical direction, extends to have on brake disc A6 to cooperate fixture block A61 in draw-in groove A41, and then prescribe a limit to brake disc A6's rotation, realizes that the stable butt of brake disc A6 controls coil stock A5's rotational speed.

As shown in fig. 2, a first sliding ring a7 and a second sliding ring A8 are coaxially and slidably sleeved on the material coiling column a4, the first sliding ring a7 is fixed at the lower end of the brake disc A6, the second sliding ring A8 is located below the first sliding ring a7, a brake spring a9 is sleeved on the material coiling column a4, two ends of the brake spring a9 respectively abut against the first sliding ring a7 and the second sliding ring A8, and the brake spring a9 supports the first sliding ring a7 and the second sliding ring A8 to move back and forth, so that the brake disc A6 and the material coiling disc a5 are squeezed, and rotation of the material coiling disc a5 is limited, so that the wire between the material coiling device a1 and the wire feeding device B1 is quickly tightened.

A control rod A10 is arranged between the coiling device A1 and the wire feeding device B1, the lower end of the control rod A10 is hinged with a hinged seat, the hinged seat is fixed on the ground, the control rod A10 can rotate on a vertical plane in a direction towards or away from the coiling device A1, a fixing ring A101 is arranged at the upper end of the control rod A10, metal wires are arranged in the fixing ring A101 in a penetrating manner, push rods A11 are arranged between the control rod A10 and a first sliding ring A7 and a second sliding ring A8 respectively, one end of each push rod A11 is hinged to the control rod A10, and the other end of each push rod A11 is hinged to the first sliding ring A7 or the second sliding ring A8; when the metal wire is loosened, the brake spring A9 pushes the brake disc A6 to abut against the coiling disc A5, and the rotating speed of the coiling disc A5 is controlled, so that the metal wire is tightened; when the wire was too tight, the solid fixed ring A101 of wire pulling upwards removed for control lever A10 rotates to the direction of keeping away from coiling dish A5, and then pulls a first A7 of slip ring and two A8 of slip ring through push rod A11 and be close to relatively, makes brake disc A6 keep away from coiling dish A5, reduces the resistance that coiling dish A5 rotated and received, makes the wire relax, promotes the stability of wire pay-off.

As shown in fig. 3, the wire feeding device B1 includes a wire feeding frame B2 and a feeding roller set B5 disposed on the wire feeding frame B2, a pair of mounting plates B3 is disposed at an upper end of the wire feeding frame B2, the mounting plates B3 extend in a vertical direction, a mounting groove B31 is disposed on the mounting plate B3, and a mounting groove B31 extends in a vertical direction, the feeding roller set B5 includes a driving roller B51 and a pressing roller B52 disposed between the mounting plates B3, both ends of the driving roller B51 are rotatably fixed on the mounting plate B3, both ends of the pressing roller B52 are provided with bearing seats B4, the bearing seats B4 are slidably inserted in the mounting grooves B4, an adjusting bolt B4 is fixed at an upper end of the bearing seats B4, the adjusting bolt B4 is in threaded connection with an adjusting nut B4, the adjusting nut B4 abuts against an upper end of the mounting plate B4, a motor is fixed on the feeding frame, and an output end of the motor;

the adjusting nut B61 is rotated, so that the adjusting bolt B6 pulls the bearing seat B4 to move upwards, the driving roller B51 is separated from the extrusion roller B52, the metal wire penetrates between the driving roller B51 and the extrusion roller B52, the adjusting nut B61 is rotated reversely, the extrusion roller B52 drives the bearing seat B4 to move downwards, the metal wire is clamped between the extrusion roller B52 and the driving roller B51, the motor is started, the driving roller B51 is driven to rotate by the motor, and the purpose of conveying the metal wire by the feeding roller group B5 is achieved.

As shown in fig. 4 and 5, the molding apparatus C1 includes a molding frame C2, a first molding device C3 and a second molding device are sequentially disposed on the molding frame C2 along a conveying direction of the wire, and a blanking slot C22 is disposed on the molding frame C2 and between the first molding device C3 and the second molding device, where the first molding device C3 includes a first molding module C31 and a first sliding module C32, the second molding device includes a second molding module C41 and a second sliding module C42, the first molding module C31, the first sliding module C32, the second molding module C41, and the second sliding module C42 are all L-shaped, a cutting knife C33 is fixed at an end of the first sliding module C32 close to the feeding apparatus, and a limiting plate C43 is fixed at an end of the second molding module C41 far from the feeding apparatus;

feeding equipment sends the metal wire into forming equipment C1, until one end of the metal wire abuts against a limiting plate C43, the metal wire is located above a blanking groove C22, a sliding module I C32 and a sliding module II C42 are driven to synchronously slide towards a forming module I C31 and a forming module II C41, a cutting knife C33 on the sliding module I C32 cuts off the metal wire, the sliding module I C32 is matched with the forming module I C31, and the sliding module II C42 is matched with the forming module II C41, so that two ends of the metal wire section form L-shaped bends, then the sliding module I C32 and the sliding module II C42 are far away from the forming module I C31 and the forming module II C41, the bent metal wire section passes through the blanking groove C22, the blanking process is completed, the cutting and bending processing of the metal wire section is achieved, and the manufacturing efficiency of the lantern framework is further improved.

As shown in fig. 4 and 5, a driving shaft C5 is provided on the forming frame C2 and extends in the wire conveying direction, a motor is provided at one end of the driving shaft C5, the motor drives the driving shaft C5 to rotate around the axis thereof, a pair of power cams C6 are coaxially provided on the driving shaft C5, a driving rod C7 is respectively fixed on the sliding module one C32 or the sliding module two C42, one end of the driving rod C7 extends to one side of the driving shaft C5 close to the chute C22, a first abutting portion C71 is mounted on the driving rod C7, the first abutting portion C71 abuts against the power cams C6, the driving rod C7 and the power cams C6 form a power member, the power cams C6 push the first abutting portion C71 during rotation, so that the driving rod C7 pushes the sliding module one C32 or the sliding module two C42 to move, thereby realizing the wire cutting and bending steps.

A first resetting component C8 which pushes the driving rod C7 to drive the first sliding module C32 or the second sliding module C42 to move away from the blanking groove C22 is arranged on the forming frame C2, the first resetting component C8 comprises a first supporting plate C81 which is supported at the lower end of the driving rod C7 and a first limiting wheel C82 which abuts against the upper end of the driving rod C7, the rotating axis of the first limiting wheel C82 is perpendicular to the moving direction of the driving rod C7, a first limiting seat C83 is fixed at two ends of the axis of the first limiting wheel C82 and on the second supporting plate C121, a first stopper rod C84 is fixed on the driving rod C7, the first stopper rod C84 is located between the first limiting seat C83 and the driving shaft C5, and a resetting spring C85 is arranged between the first limiting seat C83 and the first stopper rod C84; when the power cam C6 rotates, the return spring C85 always pushes the first shift lever C84, so that the first abutting portion C71 abuts against the power cam C6, and the purpose that the driving lever C7 drives the first sliding module C32 or the second sliding module C42 to move is achieved, and the purpose of stably cutting and bending the metal wire is achieved.

As shown in fig. 4 and 5, a material loading assembly is arranged between the first cutting assembly and the second cutting assembly and above the blanking groove C22, the material loading assembly includes a fixed material plate C91 and a sliding material plate C92 which are arranged at intervals along the vertical direction, an angle steel is arranged between the fixed material plate C91 and the forming frame C2, the fixed material plate C91 is detachably mounted on the angle steel, a material clamping groove C911 is arranged at the lower end of the fixed material plate C91, the material clamping groove C911 extends along the conveying direction of the metal wire, and the sliding material plate C92 slides along the direction perpendicular to the conveying direction of the metal wire; when the feeding equipment conveys the metal wire to move towards the forming equipment C1, the metal wire is embedded in the clamping groove C911, and the sliding material plate C92 is supported at the lower end of the metal wire, so that one end, far away from the feeding equipment, of the metal wire is stably positioned between the sliding module II C42 and the forming module II C41; after the metal wire is cut and bent, the sliding material plate C92 is moved, the material clamping groove C911 limits the movement of the metal wire section until the sliding material plate C92 is completely separated from the upper part of the blanking groove C22, the metal wire end falls and passes through the blanking groove C22, and the stable blanking process is realized.

And a guide chamfer C912 is arranged at one end of the fixed material plate C91 facing the feeding first forming device C3 and positioned at the notch of the clamping groove C911, when the feeding equipment conveys the metal wire, the metal wire is in sliding contact with the guide chamfer C912, so that the metal wire is stably embedded in the clamping groove C911, the sliding material plate C92 is stably supported at the lower end of the metal wire, and the cutting and bending stability of the metal wire is improved.

As shown in fig. 4 and 5, a power assembly for driving the sliding plate C92 to move is arranged on the forming frame C2, the power assembly includes a driving shaft C5 and a driving cam C10 coaxially arranged on the driving shaft C5, a push rod C11 is fixedly arranged on the sliding plate C92 and perpendicular to the sliding plate C92, one end of the push rod C11 extends to one side of the driving shaft C5 away from the sliding plate C92, and the other end is provided with a second abutting part C111 abutted and matched with the driving cam C10, when the driving cam C10 rotates, the second abutting part C35111 is pushed in the rotation process of the driving cam C10, so that the push rod C11 pulls the sliding plate C92 to move away from the blanking groove C22, and the purpose of stable discharging is achieved.

A second resetting component C12 which pulls the push rod C11 to drive the sliding material plate C92 to move in the direction close to the blanking groove C22 is arranged on the forming frame C2, the second resetting component C12 comprises a second support plate C121 supported at the lower end of the push rod C11 and a second limiting wheel C122 abutted to the upper end of the push rod C11, the rotating axis of the second limiting wheel C122 is perpendicular to the moving direction of the push rod C11, a second limiting seat C123 is fixed at two ends of the axis of the second limiting wheel C122 and on the second support plate C121, a second stopping rod C124 is fixed on the push rod C11, the second stopping rod C124 is located between the second limiting seat C123 and the driving shaft C5, and a second resetting tension spring C125 is arranged between the second limiting seat C123 and the second stopping rod C124; when the driving cam C10 rotates, the second lever C124 is always pulled by the return tension spring C125, so that the abutting portion abuts against the driving cam C10, the purpose that the pushing rod C11 drives the sliding material plate C92 to move is further achieved, and the purpose that the sliding material plate C92 stably supports the metal wire is achieved.

As shown in fig. 4 and 5, a limiting groove C21 is formed in the forming frame C2 along the conveying direction of the metal wire, limiting grooves C21 are formed below the first support plate C81 and the second support plate C121 and below the first forming module C31 and the second forming module C41, the limiting groove C21 has an inverted T-shaped cross section in the vertical direction, a locking nut C23 is disposed in the limiting groove C21, a locking nut C23 is slidably disposed in the limiting groove C21, the limiting groove C21 limits the rotation of the locking nut C23 and the moving range in the vertical direction, a locking bolt C24 is correspondingly and threadedly connected in the locking nut C23, and a plurality of locking bolts C24 are respectively inserted in the first support plate C81, the second support plate C121, the first fixing module and the second fixing module; when the locking bolt C24 is rotated to fix and loosen the locking nut C23 and the locking bolt C24 with the forming frame C2, the first support plate C81, the second support plate C121, the first fixing module and the second fixing module are slid to adjust and adapt to cutting and bending forming of metal wire sections with different lengths.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims

1. A metal silk thread cuts off assembly line which characterized in that: comprises a material rolling device (A1), a wire feeding device (B1) and a forming device (C1) which are arranged in sequence;

the coiling equipment (A1) comprises a coiling frame (A2) and a coiling tray (A5) for coiling the metal wire, wherein the coiling frame (A2) comprises a coiling base (A3) and a coiling column (A4) fixed on the coiling base (A3) along the vertical direction, and the coiling tray (A5) is coaxially and rotatably arranged on the coiling column (A4);

the wire feeding equipment (B1) comprises a wire feeding frame (B2) and a feeding roller set (B5) arranged at the upper end of the wire feeding frame (B2), the feeding roller set comprises a driving roller (B51) and a squeezing roller (B52) which are arranged at intervals in the vertical direction, a driving piece for driving the driving roller (B51) to rotate is arranged on the wire feeding frame (B2), and the squeezing roller (B52) is arranged in a lifting mode in the vertical direction;

the forming device (C1) comprises a forming frame (C2), a first forming device (C3) and a second forming device, wherein the first forming device (C3) and the second forming device are sequentially arranged on the forming frame (C2), the first forming device (C3) comprises a first forming module (C31) and a first sliding module (C32), the first forming module (C3683) is fixed on the forming frame (C2) and used for limiting bending and forming of the metal wire, the first sliding module (C32) pushes one end of the metal wire to be extruded on the first forming module (C31), and a first cutting knife (C33) used for cutting the metal wire is arranged on the first sliding module (C32); the second forming device (C4) comprises a second forming module (C41) and a second sliding module (C42) which are fixed on a forming frame (C2) and used for limiting bending forming of the metal wire, the second sliding module (C42) pushes two ends of the metal wire to be extruded on the second forming module (C41), a limiting plate (C43) used for abutting against the end of the metal wire is arranged on the second forming module (C41), and a blanking groove (C22) is formed in the forming frame (C2) and located between the first forming device (C3) and the second forming device;

last and being located blanking groove (C22) top of forming frame (C2) and being provided with the material subassembly of carrying, it includes fixed flitch (C91) and slip flitch (C92) to carry the material subassembly, fixed flitch (C91) are located slip flitch (C92) top, just card silo (C911) have been seted up to the lower extreme of fixed flitch (C91), the setting is extended to the moving direction of card silo (C911) along the wire, its length direction of perpendicular to slides the setting along slip flitch (C92).

2. A metal wire cutting line according to claim 1, wherein: a brake disc (A6) abutted against the lower end of a coiling disc (A5) is arranged on the coiling column (A4) in a sliding mode along the length direction of the coiling column, a control assembly for driving the brake disc (A6) to move is arranged between the coiling device (A1) and a wire feeding device (B1), the control assembly comprises a control rod (A10) and a pushing assembly, the lower end of the control rod (A10) is hinged and rotatably arranged on a vertical plane, a fixing ring (A101) penetrating a metal wire is arranged at the upper end of the control rod (A10), the pushing assembly comprises a first sliding ring (A7) and a second sliding ring (A8) which are sleeved on the coiling column (A4) in a sliding mode, the upper end of the first sliding ring (A7) is fixed at the lower end of the brake disc (A6), the second sliding ring (A8) is located below the first sliding ring (A7), and the first sliding ring (A7) and the second sliding ring (A8) are hinged with a push rod (11), one end, far away from the coiling rod, of the push rod (A11) is hinged to the control rod (A10), a brake spring (A9) is sleeved on the coiling rod and located between the first sliding ring (A7) and the second sliding ring (A8), and the brake spring (A9) pushes the first sliding ring (A7) and the second sliding ring (A8) to move back.

3. A metal wire cutting line according to claim 1, wherein: the fixing plate (C91) faces one end of the first forming device (C3) and is provided with a guide chamfer (C912) used for guiding the metal wire at the notch of the clamping groove (C911).

4. A metal wire cutting line according to claim 1, wherein: be provided with the power component that is used for driving sliding flitch (C92) to remove on shaping frame (C2), power component includes driving shaft (C5) and the coaxial drive cam (C10) that sets up on driving shaft (C5) that extend the setting along the moving direction of wire, sliding flitch (C92) is last and be provided with catch bar (C11) rather than the vertical fixation, the one end of catch bar (C11) extends to one side that driving shaft (C5) kept away from sliding flitch (C92), and this end is provided with in drive cam (C10) butt complex butt portion two (C111), be provided with on shaping frame (C2) and be used for driving sliding flitch (C92) to the reset subassembly two (C12) of blanking groove (C22) direction removal.

5. A metal wire cutting line according to claim 4, wherein: the second reset component (C12) comprises a second support plate (C121) supported at the lower end of the push rod (C11) and a second limiting wheel (C122) abutted to the upper end of the push rod (C11), two ends of the second limiting wheel (C122) are provided with a second limiting seat (C123) fixed on the support plate, a second blocking rod (C124) is arranged on the push rod (C11) and on one side, away from the sliding material plate (C92), of the second limiting seat (C123), and a reset tension spring (C125) is arranged between the second blocking rod (C124) and the second limiting seat (C123).

6. A metal wire cutting line according to claim 5, wherein: the forming frame (C2) is provided with a power component for driving the sliding module I (C32) or the sliding module II (C42) to move, the power component comprises a driving rod (C7) fixedly connected with the sliding module I (C32) or the sliding module II (C42) and a power cam (C6) coaxially arranged on the driving shaft (C5), one end of the driving rod (C7) extends to one side of the driving shaft (C5) close to the fixed plate (C91), the end is provided with a first abutting part (C71) in abutting fit with the power cam (C6), and the forming frame (C2) is provided with a first resetting component (C8) for pushing the driving rod (C7) to be far away from the metal wire.

7. The metal wire cutting line of claim 6, wherein: reset assembly one (C8) is including supporting in backup pad one (C81) of actuating lever (C7) lower extreme and the spacing wheel one (C82) of butt actuating lever (C7) upper end, the both ends of spacing wheel one (C82) are provided with spacing seat one (C83) that are fixed in on backup pad one (C81), just be located spacing seat one (C83) on actuating lever (C7) and keep away from one side of wire and be provided with shelves pole one (C84), be provided with reset spring (C85) between shelves pole one (C84) and spacing seat one (C83).

8. The wire severing line of claim 7, wherein: spacing groove (C21) have been seted up along the direction of transfer of wire on forming frame (C2), backup pad (C81) and backup pad two (C121) below are provided with spacing groove (C21), just fixed module one is provided with fixed module two below spacing groove (C21), be provided with lock nut (C23) in spacing groove (C21), screw-thread fit has lock bolt (C24) on lock nut (C23), and is a plurality of lock bolt (C24) are worn to locate respectively on backup pad one (C81), backup pad two (C121), fixed module one and the fixed module two.