CN117307994A - Automatic wire twisting machine for copper wire lamp - Google Patents

Abstract

The utility model discloses an automatic wire twisting machine for a copper wire lamp, which belongs to the technical field of automatic processing equipment and comprises a frame (11), wherein a storage mechanism (3) is arranged on one side of the frame (11), a conveying mechanism (4) is arranged on the frame (11), a fixed block (12) is arranged on the conveying mechanism (4), and a first clamp (10) is arranged on the fixed block (12); the copper wire lamp strip feeding and pulling device comprises a machine frame (11), wherein a wire feeding and pulling mechanism, a wire twisting mechanism (2), a material removing mechanism (5) and a material receiving mechanism (6) are sequentially arranged on the machine frame.

Description

Automatic wire twisting machine for copper wire lamp

Technical Field

The utility model belongs to the technical field of automatic processing equipment, and particularly relates to an automatic copper wire lamp wire twisting machine capable of automatically twisting a lamp strip.

Background

The copper wire lamp strip mainly welds the LED lamp on a long copper wire through a special processing technology, and the LED lamp strip emits light to form a light strip after being connected with a power supply, and mainly plays roles in decoration and atmosphere shaping in holidays.

The utility model discloses a LED lamp strip winding device, which comprises a transverse plate, a front-back moving device, a mounting plate, a first support plate, a reel fixing device and the like, wherein the application date is 2010-08-10, and the application number is 201020290919.6; the left side at diaphragm top is equipped with back-and-forth movement device, is connected with the mounting panel on back-and-forth movement device's the moving part, and the top of mounting panel is connected with first extension board, and the top of first extension board is equipped with reel fixing device. The LED lamp strip winding device rotates through the first winding disc and moves forwards and backwards to enable the LED lamp strip to be uniformly wound on the first winding disc, so that the labor intensity of workers can be reduced.

However, the LED lamp strip winding device can only automatically wind the lamp strip, and cannot perform special treatment on the copper wire lamp strip. When needs turn round the line to some wires in the copper line lamp area, often need the manual work to turn round the line, this kind of manual mode has increased manufacturing cost, and production efficiency is low, can't satisfy the automated production requirement in copper line lamp area. Therefore, in order to automatically feed, pull wires, twist wires, bend and automatically collect and wind the copper wire lamp strip, an automatic copper wire lamp twisting machine needs to be designed.

Disclosure of Invention

The utility model aims to solve the technical problems that in the prior art, copper wire lamp strips cannot be automatically fed, pulled, twisted, bent and automatically collected and wound, and provides an automatic copper wire lamp twisting machine capable of automatically feeding, pulled, twisted, bent and automatically collected and wound.

In order to solve the technical problems, the utility model provides an automatic copper wire lamp twisting machine which comprises a rack, wherein a storage mechanism is arranged on one side of the rack, a conveying mechanism for conveying a copper wire lamp strip is arranged on the rack, fixing blocks are uniformly arranged on the conveying mechanism, and a first clamp is arranged on the fixing blocks; the machine frame on set gradually be used for sending the line and the line mechanism of acting as go-between send the line, be used for to copper line lamp area turn round line the line mechanism, be used for taking off the material mechanism and be used for collecting copper line lamp take-up mechanism that takes off copper line lamp area from anchor clamps one.

As a further improvement measure of the utility model, the automatic wire twisting machine for the copper wire lamp is characterized in that a first bracket is arranged on the rack, the wire twisting mechanism comprises a second clamp arranged on the first bracket, a driving mechanism for driving the second clamp to rotate and a first driving mechanism for driving the second clamp to move back and forth, the second clamp comprises a first main shaft, a clamp is arranged at one end of the first main shaft, and a first driving member for driving the clamp to clamp is arranged on the first bracket.

As a further improvement measure of the utility model, the driving mechanism I comprises a first sliding rail arranged on the frame, a first sliding block is arranged on the first sliding rail, the first bracket is arranged on the first sliding block, the frame is provided with a first cylinder fixing plate, the first cylinder fixing plate is provided with a first cylinder for driving the first sliding block to slide, and an elastic piece I is arranged between the first cylinder fixing plate and the first sliding block.

As a further improvement measure of the utility model, the automatic wire twisting machine for the copper wire lamp comprises a second driving mechanism, wherein the second driving mechanism comprises a second driving piece arranged on a first bracket, synchronous belt wheels are arranged on a driving shaft of the second driving piece and a first main shaft, and synchronous belts are arranged between the synchronous belt wheels.

As a further improvement measure of the utility model, the automatic copper wire lamp twisting machine is characterized in that the frame is provided with a positioning mechanism for determining the twisting length of the copper wire lamp strip, the positioning mechanism comprises a cylinder fixing plate II and a cylinder II, the cylinder II is fixed on the cylinder fixing plate II, a piston rod of the cylinder II is provided with a fixing plate, and the fixing plate is provided with a positioning block and a compression block I.

As a further improvement measure of the utility model, the automatic copper wire twisting machine is characterized in that a shaping mechanism for determining the shape of the bulb end of the copper wire lamp strip is arranged on the rack; the shaping mechanism comprises a third air cylinder fixing plate and a third air cylinder, wherein the third air cylinder is fixed on the third air cylinder fixing plate, a shaping plate is arranged on a piston rod of the third air cylinder, and the width of the lower end part of the shaping plate is smaller than that of the upper part.

As a further improvement measure of the utility model, the automatic wire twisting machine for the copper wire lamp comprises a wire feeding and pulling mechanism, wherein the wire feeding and pulling mechanism comprises a wire feeding part and a wire pulling part; the wire feeding component comprises a second bracket arranged on the frame, a fourth cylinder is arranged on the second bracket, a second sliding rail is arranged on the fourth cylinder, a second sliding block is arranged on the second sliding rail, and a push rod is arranged on the second sliding block; the stay wire component comprises a clamp III and a bracket III arranged on the rack, a cylinder six is arranged on the bracket III, a sliding plate is arranged on the cylinder six, and the clamp III and a cylinder five for driving the clamp III to clamp are arranged on the sliding plate; the wire feeding and pulling mechanism is characterized in that an opening mechanism for opening the first clamp is arranged below the wire feeding and pulling mechanism, the opening mechanism comprises a cylinder seven arranged on the frame, a top block is arranged on a piston rod of the cylinder seven, and the top block is arranged below the first clamp.

As a further improvement measure of the utility model, the automatic copper wire lamp twisting machine comprises a bracket IV, wherein the bracket IV is provided with a storage disc and a driving part III for driving the storage disc to rotate, the driving part III is provided with a servo motor, a fixed pulley is arranged above the storage disc, a movable pulley is arranged between the storage disc and the fixed pulley, the bracket IV is longitudinally provided with a sliding rail III, the sliding rail III is provided with a sliding block III, the movable pulley is arranged on the sliding block III, and the bracket IV is longitudinally provided with 4 induction parts.

As a further improvement measure of the utility model, the automatic wire twisting machine for the copper wire lamp is characterized in that the fixed pulley is provided with 4-6 groove bodies I for winding the copper wire lamp strip; the movable pulley is provided with a second groove body used for winding the copper wire lamp strip, and the second groove body is provided with 3-5 grooves.

As a further improvement measure of the utility model, the automatic wire twisting machine for the copper wire lamp comprises a bracket five, wherein the bracket five is provided with a driving wheel and a driven wheel, the driving wheel is connected with a driving piece four, the driving wheel is connected with the driving piece four through a main shaft two, the driving wheel and the driven wheel are provided with chains, the main shaft two is provided with an index plate, the rack is provided with an inductor, the inductor is arranged corresponding to the index plate, and the fixed block is arranged on the chains.

As a further improvement measure of the utility model, the first clamp comprises a cylindrical body, the center of the cylindrical body is provided with a push rod, the upper end of the push rod is provided with a second compression block, the lower end of the push rod is provided with a base, the base is arranged below the cylindrical body, and an elastic piece II is arranged between the base and the lower end face of the cylindrical body.

As a further improvement measure of the utility model, the automatic copper wire lamp twisting machine comprises a support six arranged on a frame, wherein the support six is provided with a cylinder eight, a piston rod of the cylinder eight is provided with a top plate I, the top plate I is arranged at the outlet end of the conveying mechanism, a fixing seat is arranged below the outlet end of the conveying mechanism, an inclined extrusion block is arranged on the fixing seat, and a guide wheel II is arranged above the outlet end of the conveying mechanism.

As a further improvement measure of the utility model, the automatic copper wire lamp twisting machine is characterized in that a second top plate is further arranged on a piston rod of the air cylinder eight, and the second top plate is longitudinally arranged.

As a further improvement measure of the utility model, the automatic copper wire lamp twisting machine comprises a support seven arranged on the frame, a receiving tray and a driving piece five for driving the receiving tray to rotate are arranged on the support seven, and a driving mechanism three for driving the support seven to horizontally move is arranged below the receiving tray.

As a further improvement of the present utility model, the automatic copper wire twisting machine is characterized in that a detecting component for counting is arranged on the frame.

As a further improvement measure of the utility model, the automatic copper wire lamp twisting machine is characterized in that a bending mechanism for bending a copper wire lamp strip is arranged on a frame, the bending mechanism is arranged above a conveying mechanism and comprises a cylinder fixing plate IV arranged on the frame, a cylinder nine is arranged on the cylinder fixing plate IV, a pressing plate is arranged on a piston rod of the cylinder nine, and the pressing plate is L-shaped.

Compared with the prior art, the utility model has the beneficial effects that: 1. through setting up storage mechanism, can guarantee that the too big or undersize condition of tension can not appear in copper line lamp area when the material loading, can more steady material loading, prevent copper line lamp area fracture; 2. by arranging the wire feeding and pulling mechanism, the copper wire lamp strip can be pulled into a U shape while feeding wires, so that the wire twisting mechanism can conveniently twist wires, and the working efficiency can be improved; 3. by arranging the wire twisting mechanism, the wire twisting processing of the copper wire lamp strip clamped in the first clamp can be automatically completed, and the production efficiency can be improved; 4. by arranging the stripping mechanism, the wire which is twisted in the first clamp can be separated from the first clamp, so that the material collection is convenient; 5. through setting up receiving mechanism, can evenly collect the copper line of accomplishing the twisted wire in receiving the charging tray.

Drawings

Fig. 1 is a front view of the present utility model.

Fig. 2 is a top view of the present utility model.

Fig. 3 is a left side view of the present utility model.

Fig. 4 is a perspective view of the present utility model.

Fig. 5 is a top view of the wire feeding and pulling mechanism and the conveyor mechanism of the present utility model.

Fig. 6 is a perspective view of the wire feeding and pulling mechanism and the conveying mechanism of the present utility model.

Fig. 7 is a left side view of the pull wire assembly of the present utility model.

Fig. 8 is a perspective view of the stay wire member of the present utility model.

Fig. 9 is a top view of the twisting mechanism, the crimping mechanism and the conveying mechanism of the present utility model.

Fig. 10 is a perspective view of the twisting mechanism, the bending mechanism and the conveying mechanism of the present utility model.

Fig. 11 is a right side view of the second clamp, the first drive mechanism and the second drive mechanism of the present utility model.

Fig. 12 is a perspective view of the second clamp, the first drive mechanism and the second drive mechanism of the present utility model.

Fig. 13 is a front view of the positioning mechanism of the present utility model.

Fig. 14 is a perspective view of the positioning mechanism of the present utility model.

Fig. 15 is a front view of the transfer mechanism of the present utility model.

Fig. 16 is a perspective view of the transfer mechanism of the present utility model.

Fig. 17 is a front view of a first clamp of the present utility model.

Fig. 18 is a left side view of the press brake mechanism of the present utility model.

Fig. 19 is a perspective view of the press brake mechanism of the present utility model.

Fig. 20 is a front view of the stripping mechanism of the present utility model.

Fig. 21 is a perspective view of the stripping mechanism of the present utility model.

Reference numerals illustrate: 1-a wire feeding and pulling mechanism; 101-a second slide rail; 102-a second slide block; 103-cylinder IV; 104-pushing rod; 105-third bracket; 106, a third clamp; 107-cylinder five; 108-a sixth cylinder; 109-cylinder seven; 110-top block; 111-a sliding plate; 112-a second bracket; 113-a first limiting block; 114-a second limiting block;

2-a wire twisting mechanism; 201-first bracket; 202-ejector rod; 203-clamping; 204-first driver; 205-second driver; 206-synchronous pulleys; 207-synchronous belt; 208-slide rail one; 209-first slider; 210-a first cylinder fixing plate; 211-first cylinder; 212-first elastic piece;

3-a storage mechanism; 301-a bracket IV; 302-a storage tray; 303-driving member three; 304-fixed pulleys; 305-a movable pulley; 306-slide rail III; 307-slider three; 308-guiding wheel I; 309-first sensing member; 310-a second sensing element; 311-third sensing piece; 312-fourth sensing piece;

4-a conveying mechanism; 401-fifth bracket; 402-a driving wheel; 403-driven wheel; 404-a chain; 405-dividing disc; 406-drive six; 407-sensing piece;

5-a stripping mechanism; 501-a sixth bracket; 502-cylinder eight; 503-roof one; 504-fixing base; 506-a second guide wheel; 507-roof two;

6, a material receiving mechanism; 601-a bracket seven; 602-a receiving tray; 603-driving member five; 604-slide rail four; 605-slider four; 606-screw rod; 607—drive six;

7-a positioning mechanism; 701-a second cylinder fixing plate; 702-a second cylinder; 703-a fixing plate; 704-positioning blocks; press 705-tight block one; 706-grooves;

8-a shaping mechanism; 801-a third cylinder fixing plate; 802-cylinder III; 803-shaping plate;

9-a bending mechanism; 901-detecting means; 902-a cylinder nine; 903—a cylinder fixing plate four; 904-a platen;

10-clamping first; 1001-a cylinder; 1002-ejector rod; 1003-second compacting block; 1004-a base; 1005-second elastic member;

11-a frame; 12-fixed block.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

On the contrary, the utility model is intended to cover any alternatives, modifications, equivalents, and variations as may be included within the spirit and scope of the utility model as defined by the appended claims. Further, in the following detailed description of the present utility model, certain specific details are set forth in order to provide a better understanding of the present utility model. The present utility model will be fully understood by those skilled in the art without the details described herein.

The terms "horizontal," "upper," "lower," and the like are used herein for illustrative purposes only.

The automatic copper wire lamp twisting machine comprises a frame 11, a storage mechanism 3 is arranged on one side of the frame 11, the storage mechanism 3 comprises a bracket IV 301, a storage disc 302 and a driving piece III 303 for driving the storage disc 302 to rotate are arranged on the bracket IV 301, a copper wire lamp strip to be processed is firstly wound in the storage disc 302, the driving piece III 303 is arranged as a servo motor, and the servo motor can control the rotation of the storage disc 302. A fixed pulley 304 arranged on a bracket IV 301 is arranged above the storage disc 302, a movable pulley 305 is arranged between the storage disc 302 and the fixed pulley 304, a sliding rail III 306 is longitudinally arranged on the bracket IV 301, a sliding block III 307 is arranged on the sliding rail III 306, the movable pulley 305 is arranged on the sliding block III 307, the movable pulley 305 can longitudinally slide along the sliding rail III 306, the movable pulley 305 and the fixed pulley 304 are matched to form a pulley block, 4 induction pieces are longitudinally arranged on the bracket IV 301, two guide wheels I308 are arranged on the frame 11 at the outlet of the fixed pulley 304, and the two guide wheels I308 are mutually matched to play a role in guiding the conveying of the copper wire lamp strip. The fixed pulley 304 is provided with 4-6 grooves I for winding the copper wire lamp strip; the movable pulley 305 is provided with a second groove body used for winding the copper wire lamp strip, and the second groove body is provided with 3-5 grooves.

The copper wire lamp strip to be processed is wound in the storage disc 302, the copper wire lamp strip is led out of the storage disc 302 to the first groove body of the fixed pulley 304, then led out of the first groove body to the second groove body of the movable pulley 305, then led out of the second groove body to the first groove body, repeated for 3-5 times, finally led out of the fixed pulley 304 to the first guide wheel 308, so that the movable pulley 305 and the fixed pulley 304 are mutually matched to form a pulley block, the copper wire lamp strip lines stored between the movable pulley 305 and the fixed pulley 304 of the copper wire lamp strip are longer, and the copper wire lamp strip is uniformly stressed, so that the copper wire lamp strip is not easy to break when being led out.

The copper wire lamp strip is wound on the storage disc 302, the circumference of the copper wire lamp strip winding when the storage disc 302 is full is longer, and the circumference of the copper wire lamp strip winding when the storage disc 302 is not full is shorter, so that the length of the copper wire lamp strip released by rotating one circle when the storage disc 302 is full is larger than the length of the copper wire lamp strip when the storage disc 302 is not full. When the servo motor controls the storage disc 302 to rotate, the rotation speed of the storage disc 302 is constant, so that the copper wire lamp belts released by the storage disc 302 are more when the material is full, the copper wire lamp belts are too loose, and inconvenience is caused to wire feeding; the copper wire lamp strip that rotates and release when the storage disk 302 material is not full is too little, can lead to the tension of copper wire lamp strip too big, and copper wire lamp strip breaks easily when sending the line to influence processing. In order to avoid the problem of uneven feeding of the storage disc 302, 4 induction pieces are longitudinally arranged on the fourth bracket 301, and the 4 induction pieces are sequentially arranged into a first induction piece 309, a second induction piece 310, a third induction piece 311 and a fourth induction piece 312 from bottom to top, wherein the first induction piece 309 and the fourth induction piece 312 play a role in insurance. Under normal working conditions, the movable pulley 305 can move back and forth between the second sensing piece 310 and the third sensing piece 311, when the second sensing piece 310 senses the movable pulley 305, the third driving piece 303 stops working, at this time, the tension between the movable pulley 305 and the fixed pulley 304 is larger and larger as the copper wire lamp strip is continuously pulled and processed, and the movable pulley 305 moves upwards until the third sensing piece 311 detects the movable pulley 305; when the movable pulley 305 is located at the third sensing part 311, the tension between the movable pulley 305 and the fixed pulley 304 is too large, which easily causes breakage of the copper wire lamp strip, at this time, the third driving part 303 works to rotate the storage disc 302, the storage disc 302 pays out, the tension between the movable pulley 305 and the fixed pulley 304 is slowly reduced until the second sensing part 310 detects the movable pulley 305 again, so that the movable pulley 305 can slide back and forth between the second sensing part 310 and the third sensing part 311, thereby ensuring that the copper wire lamp strip is not excessively loosened or tightened, and the copper wire lamp strip can be normally pulled and processed.

When the movable pulley 305 is located at the third sensing part 311, the movable pulley 305 will continue to move upwards until the fourth sensing part 312 detects the movable pulley 305, and all mechanisms on the automatic copper wire twisting machine stop working at this time to prevent the copper wire lamp strip from breaking when the copper wire lamp strip is jammed in the storage tray 302 and the like.

If the pay-off of the storage disc 302 is too fast, the movable pulley 305 moves down quickly, which can cause the second sensing element 310 to not detect the movable pulley 305, the movable pulley 305 continues to move down until the first sensing element 309 detects the movable pulley 305, at this time, the tension between the movable pulley 305 and the fixed pulley 304 is too small, the copper wire lamp belt cannot be normally pulled, the third driving element 303 drives the storage disc 302 to rotate reversely, so that the copper wire lamp belt is led to the recovery line, the tension between the movable pulley 305 and the fixed pulley 304 is increased, and the movable pulley 305 slides upwards until the second sensing element 310 detects the movable pulley 305.

As shown in fig. 1 and fig. 15 to fig. 17, a conveying mechanism 4 for conveying a copper wire lamp strip is arranged on a rack 11, the conveying mechanism 4 on the conveying mechanism 4 comprises a fifth bracket 401, a driving wheel 402 and a driven wheel 403 are arranged on the fifth bracket 401, a driving piece four 406 is connected to the driving wheel 402, the driving piece four 406 controls the driving wheel 402 to rotate, the driving wheel 402 is connected with the driving piece four 406 through a second main shaft, a chain 404 is arranged on the driving wheel 402 and the driven wheel 403, and the chain 404, the driving wheel 402 and the driven wheel 403 are mutually matched to enable the chain 404 to rotate, so that the copper wire lamp strip on the chain 404 is driven. The second spindle is provided with the index plate 405, the frame 11 is provided with the sensor 407 corresponding to the index plate 405, the circumferential direction of the index plate 405 is provided with the sensing part 408, the sensing part 408 on the index plate 405 is matched with the sensor 407, when the sensor 407 senses the sensing part 408 on the index plate 405, the sensor 407 can transmit signals to a control center, the fourth driving part 406 stops working, the driving wheel 402 stops rotating, and corresponding work is conveniently carried out by all mechanisms. The chain 404 is uniformly provided with the fixed blocks 12, the fixed blocks 12 are provided with the first clamps 10, the first clamps 10 are used for clamping the copper wire lamp strips, the distance between the adjacent first clamps 10 is the same, and the lengths of the copper wire lamp strips rotated each time by the conveying mechanism 4 are the same.

The clamp I10 comprises a cylinder 1001, a push rod 1002 is arranged in the center of the cylinder 1001, a compression block II 1003 is arranged at the upper end of the push rod 1002, the compression block II 1003 is arranged on the upper end face of the cylinder 1001, a base 1004 is arranged at the lower end of the push rod 1002, the base 1004 is arranged below the cylinder 1001, an elastic piece II 1005 is arranged between the base 1004 and the lower end face of the cylinder 1001, the elastic piece II 1005 is arranged as a spring, the clamp I10 is in a clamping state in a natural state, namely, the lower end face of the compression block II 1003 is compressed on the upper end face of the cylinder 1001, and when the base 1004 is pushed upwards, the compression block II 1003 is separated from the upper end face of the cylinder 1001, and the clamp I10 is opened; when the base 1004 loses external force and stops pushing upwards, the first clamp 10 is reset under the action of the spring, and a copper wire lamp strip can be clamped between the lower end face of the second pressing block 1003 and the upper end face of the cylindrical body 1001.

As shown in fig. 1 to 4, a wire feeding and pulling mechanism 1 for feeding wires and pulling wires, a wire twisting mechanism 2 for twisting wires of the copper wire lamp strip, a stripping mechanism 5 for stripping the copper wire lamp strip from the first clamp and a collecting mechanism 6 for collecting the copper wire lamp are sequentially arranged on a rack 11.

As shown in fig. 1 to 8, the wire feeding and pulling mechanism 1 comprises a wire feeding part and a wire pulling part, the wire feeding part comprises a second bracket 112 arranged on the frame 11, a fourth cylinder 103 is arranged on the second bracket 112, a second slide rail 101 is arranged on the fourth cylinder 103, a second slide block 102 is arranged on the second slide rail 101, a push rod 104 is arranged on the second slide block 102, the fourth cylinder 103 can push the push rod 104 to move back and forth, the push rod 104 is arranged between the adjacent first clamps 10, the push rod 104 can push a copper wire lamp strip between the adjacent first clamps 10, a first limiting block 113 is arranged on the second bracket 112, the first limiting block 113 plays a limiting role and is used for determining the forward moving distance of the push rod 104, and the length of the push rod 104 for forward conveying the lamp strip can be determined. The wire feeding part and the wire pulling part are respectively arranged at two sides of the conveying mechanism 4. The stay wire component comprises a clamp III 106 and a bracket III 105 arranged on the frame 11, and the push rod 104 and the clamp III 106 are arranged in a staggered mode, so that the push rod 104 and the clamp III 106 can be prevented from being collided, and space arrangement is more reasonable. The bracket III 105 is provided with a cylinder III 108, the cylinder III 108 is provided with a sliding plate 111, the sliding plate 111 is provided with a clamp III 106 and a cylinder V107 for driving the clamp III 106 to clamp, the clamp III 106 is arranged between two adjacent clamps I10, the clamp III 106 clamps a copper wire lamp strip sent by a wire feeding part and pulls the copper wire lamp strip to the adjacent clamps I10 for clamping, the bracket III 105 is provided with a limiting block II 114, and the limiting block II 114 is used for limiting the sliding distance of the sliding plate 111, so that the front-back moving position of the clamp III 106 can be controlled, and the length of the lamp strip pulled by a wire pulling part can be controlled; the opening mechanism for opening the first clamp 10 is arranged below the wire feeding and pulling mechanism 1, the opening mechanism can open two adjacent first clamps 10 at one time, the opening mechanism comprises a cylinder seven 109 arranged on the frame 11, a top block 110 is arranged on a piston rod of the cylinder seven 109, the top block 110 is arranged below the first clamp 10 and opposite to the base 1004, the cylinder seven 109 works to enable the top block 110 to be pushed upwards, and the adjacent two bases 1004 can enable the ejector rods 1002 to drive the adjacent two second compression blocks 1003 to be pushed upwards to enable the first clamp 10 to be opened.

The copper wire lamp strip in the storage mechanism 3 is led out through the first guide wheel 308, and one end of the copper wire lamp strip is placed in the first clamp 10 to be clamped during initial processing, and then wire feeding can be automatically completed through the wire feeding component. The cylinder seven 109 drives the jacking block 110 to jack up, the jacking block 110 jacks up the base 1004 of the clamp one 10, the clamp one 10 is opened, the jacking block 110 can open two adjacent clamps one 10 at a time, a wire feeding part starts to feed wires, the cylinder four 103 drives the push rod 104 to move, the push rod 104 pushes a copper wire lamp strip between two adjacent opened clamps one 10, the cylinder four 103 drives the push rod 104 to reset, and the copper wire lamp strip between the two adjacent clamps one 10 is U-shaped; meanwhile, one of two adjacent clamps I corresponding to the wire pulling component is opened for clamping before the wire pulling component finishes the preliminary wire feeding, a cylinder III 108 in the wire pulling component works, a clamp III 106 in an opened state moves forwards, the U-shaped copper wire lamp strip is positioned in a clamping opening of the clamp III 106, a cylinder V107 drives the clamping opening of the clamp III 106 to clamp, and then the cylinder VI 108 drives the clamp III 106 to move backwards to further pull the U-shaped copper wire lamp strip for a certain distance, so that the lengths of the U-shaped copper wire lamp strips of each section are identical; after the wire feeding part and the wire pulling part finish wire feeding and wire pulling, the cylinder seven 109 drives the top block 110 to reset downwards, two sides of the U-shaped copper wire lamp strip finished with the preliminary wire feeding are clamped by two adjacent clamps one 10, two sides of the U-shaped copper wire lamp strip finished with the further wire pulling are clamped by two adjacent clamps one 10, the conveying mechanism rotates a station, the U-shaped copper wire lamp strip finished with the further wire pulling is transferred to the next processing station, the U-shaped copper wire lamp strip finished with the preliminary wire feeding is transferred to the wire pulling part to wait for processing, and the lamp beads of the copper wire lamp strip are positioned at the top end of the U-shaped.

As shown in fig. 1 to 4 and fig. 9 to 12, the wire twisting mechanism 2 includes a first slide rail 208 and a first cylinder fixing plate 210 which are disposed on the frame 11, a first slide block 209 is disposed on the first slide rail 208, a second bracket 201 is disposed on the first slide block 209, a first cylinder 211 which drives the first slide block 209 to slide is disposed on the first cylinder fixing plate 210, an elastic member 212 is disposed between the first cylinder fixing plate 210 and the first slide block 209, the elastic member 212 is disposed as a spring, the spring gives a pulling force for the first slide block 209 to move backward, a second bracket 201 is disposed on the second bracket 201 and a second driving member 205 which drives the second bracket to rotate, the second bracket includes a first main shaft 202, a clamp 203 is disposed at one end of the first main shaft 202, a first driving member 204 which drives the clamp 203 to clamp is disposed on the second bracket 201, the clamp 203 in an open state in a natural state, when the first cylinder piston rod of the first cylinder ejects the first bracket 202 to push the clamp 203, the clamp 203 can clamp, a synchronous pulley 206 is disposed on the driving shaft of the first bracket 205 and the first main shaft 202, a synchronous pulley 205 is disposed between the driving shaft 205 and the first main shaft 202, and the second bracket 205 is disposed as a synchronous pulley 205, and the second synchronous pulley 205 is disposed between the synchronous pulley 205 and the second driving member 205 can rotate, and the second driving member 203 can be driven to rotate accurately.

As shown in fig. 1-4 and 9-14, the copper wire lamp strip needs to be shaped and positioned prior to twisting to determine the length and shape of the portion of the wire that needs to be twisted. A positioning mechanism 7 for determining the twisted wire length of the copper wire lamp strip and a shaping mechanism 8 for determining the shape of the bulb end of the copper wire lamp strip are arranged on the frame 11 opposite to the clamp 203 of the wire twisting mechanism 2; the positioning mechanism 7 comprises a second cylinder fixing plate 701 and a second cylinder 702, the second cylinder 702 is arranged on the second cylinder fixing plate 701, the second cylinder fixing plate 701 is arranged on the fifth bracket 401, a fixing plate 703 is arranged on a piston rod of the second cylinder 702, a positioning block 704 and a first compression block 705 are arranged on the fixing plate 703, the second cylinder 702 can drive the positioning block 704 and the first compression block 705 to move longitudinally synchronously during operation, a groove 706 is arranged at the opposite position of the fifth bracket 401 to the positioning block 704, and the positioning block 704 can extend into the groove 706 during downward movement, so that positioning is convenient and the positioning is used for determining the position of the base of the twisted wire part of the lamp strip. The first compression block 705 is arranged on the right side of the positioning block 704 and is used for compressing the copper wire lamp strip of which the right side is twisted, so that the copper wire lamp strip of which the right side is twisted is prevented from shifting during twisting; the shaping mechanism 8 comprises a cylinder fixing plate III 801 and a cylinder III 802, the cylinder fixing plate III 801 is arranged on the support V401, the cylinder III 802 is arranged on the cylinder fixing plate III 801, a shaping plate 803 is arranged on a piston rod of the cylinder III 802, the width of the lower end part of the shaping plate 803 is smaller than that of the upper part, the shaping plate 803 is driven to longitudinally move by the cylinder III 802 during operation, the clamp 203 is opposite to the positioning block 704 and the shaping plate 803, the shaping plate 803 can be inserted between U-shaped copper wire lamp strips, and therefore the twisting positions of the U-shaped copper wire lamp strips are located outside the shaping plate 803 during twisting, the lamp strips at the two sides of the shaping plate 803 are symmetrical, and the lamp strips after processing are attractive.

When the wire feeding and pulling mechanism 1 processes the wire to obtain a U-shaped copper wire lamp strip clamped on the adjacent clamp I10, the conveying mechanism 4 moves the copper wire lamp strip to the wire twisting mechanism 2, the shaping mechanism 8 works first, the cylinder III 802 drives the shaping block 803 to move downwards and insert the gap between the U-shaped copper wire lamp strips, so that the U-shaped copper wire lamp strip keeps a certain width and is symmetrical on both sides of the wire shape; then the positioning mechanism 7 works, the cylinder II 702 drives the positioning block 704 and the pressing block I705 to move downwards synchronously, the pressing block I705 presses the copper wire lamp strip on the right side, and the positioning block 704 is inserted into a gap of the U-shaped copper wire lamp strip and the groove 706 to determine the length of the wire to be twisted; finally, the wire twisting mechanism 2 works, the first cylinder 211 drives the clamp 203 to move forwards, the first elastic element 212 is lengthened, at the moment, the copper wire lamp strip enters the jaw of the clamp 203, the first driving element 204 pushes the first main shaft 202 to clamp the clamp 203, at the moment, the first cylinder 211 stops working and resets, the clamp 203 stops moving forwards, and the clamp 203 resets and moves backwards under the action of elastic retraction of the first elastic element 212. At this time, the second driving part 205 works to drive the clamp 203 to rotate, so that the U-shaped copper wire lamp strip is twisted; when the U-shaped copper wire lamp strip is twisted to the positioning block 704, the two lamp strip wires stop to be continuously wound forwards, so that the positioning block 704 can determine the length of the lamp strip twisted wires; the second driving member 205 is controlled by a servo motor, so that the number of turns of the driving clamp 203 for twisting can be determined, and when the lamp strips are wound, the length of the driving clamp 203 is gradually shortened, and at this time, the first elastic member 212 can be stretched by the driving clamp 203, so that the copper wire lamp strip can be prevented from twisting off due to the shortened length of the lamp strip in the process of twisting the wire.

As shown in fig. 1 to 3, 10, 18 and 19, a detecting part 901 for counting and a bending mechanism 9 for bending the copper wire lamp strip are arranged between the twisting mechanism 2 and the stripping mechanism 5, the detecting part 901 and the bending mechanism 9 are arranged above the conveying mechanism 4, and the detecting part 901 counts the copper wire lamp strip after twisting is completed. The press bending mechanism 9 comprises a cylinder nine 902, a cylinder fixing plate four 903 is arranged on a bracket five 601, the cylinder nine 902 is arranged on the cylinder fixing plate four 903, a pressing plate 904 is arranged on a piston rod of the cylinder nine 902, the cylinder nine 902 drives the pressing plate 904 to longitudinally move, the pressing plate 904 is L-shaped, and the L-shaped pressing plate 904 can be matched with the bracket five 401, so that press bending of a copper wire lamp strip after wire twisting is completed is facilitated; after the copper wire lamp strip is twisted, the copper wire lamp strip is counted by the detecting part 901, when the set quantity is reached, if the copper wire lamp strip which is twisted reaches 100 bundles, the air cylinder nine 902 drives the pressing plate 904 to move downwards, the copper wire lamp strip is bent once, the twisting quantity of the copper wire lamp is conveniently confirmed, and statistics collection is conveniently carried out on the copper wire lamp strip.

As shown in fig. 1, 4, 20 and 21, the stripping mechanism 5 comprises a sixth support 501 arranged on the frame 11 and a fixed seat 504 arranged below the outlet end of the conveying mechanism 4, wherein an inclined extrusion block 505 is arranged on the fixed seat 504, when a base 1004 of a first movable clamp 10 fixed on a chain 404 moves above the extrusion block 505, the base 1004 moves upwards, and the first clamp 10 is gradually opened;

an air cylinder eight 502 is obliquely arranged on the bracket six 501, a first top plate 503 is arranged on a piston rod of the air cylinder eight 502, the first top plate 503 is arranged at the outlet end of the conveying mechanism 4, and the first top plate 503 is transversely arranged; when the air cylinder eight 502 works, the top plate one 503 can be obliquely upwards pushed, at the moment, the top plate one 503 moves forwards and upwards, and the copper wire lamp belt which is loosened and twisted on the clamp one 10 can be moved backwards and upwards, so that the copper wire lamp belt is separated from the clamp one 10, and the stripping effect is finished. In order to prevent the individual lamp strips from being clamped by the first clamp 10 and not being separated, the utility model can further arrange the second top plate 507 on the piston rod of the air cylinder eight 502, the second top plate 507 is obliquely arranged, and when the piston rod of the air cylinder eight 502 moves forwards and upwards, the second top plate 507 enters the lower part of the lamp strips and pushes upwards, so that the copper wire lamp strips can be completely separated from the first clamp 10, the stripping effect can be further improved, and the copper wire lamp strips are prevented from being clamped by the first clamp 10 and not being separated. The guide wheel II 506 is arranged above the outlet end of the conveying mechanism 4, the driving piece IV 406 can drive the guide wheel II 506 to rotate while driving the conveying mechanism 4 to work, and the copper wire lamp strip after stripping is guided by the guide wheel II 506, so that the material is conveniently collected in the next process.

As shown in fig. 1 to 4, the material receiving mechanism 6 comprises a sixth bracket 601 arranged on the frame 11, a material receiving disc 602 and a fifth driving member 603 for driving the material receiving disc 602 to rotate are arranged on the sixth bracket 601, a third driving mechanism for driving the sixth bracket 601 to move back and forth is arranged below the material receiving disc 602, the third driving mechanism comprises a fourth sliding rail 604 arranged on the frame 11 and a fourth sliding block 605 arranged on the fourth sliding rail 604, the sixth bracket 601 is arranged on the fourth sliding block 605, a screw rod 606 parallel to the fourth sliding rail 604 is arranged on the frame 11, a screw rod nut of the screw rod 606 is connected with the fourth sliding block 605, a sixth driving member 607 for driving the screw rod 606 to rotate is also arranged on the frame 11, and the fifth driving member 603 and the sixth driving member 607 are both arranged as servo motors; the driving part five 603 drives the material receiving disc 602 to rotate, so that the copper wire lamp strip is wound on the material receiving disc 602, and the driving part six 607 drives the sliding block four 605 to move forwards and backwards at a constant speed while the driving part five 603 works, so that the copper wire lamp strip can be uniformly wound on the material receiving disc 602.

The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the embodiments described above, and it will be apparent to those skilled in the art that various modifications and improvements can be made therein without departing from the scope of the utility model.

Claims (16)

1. The automatic wire twisting machine for the copper wire lamp comprises a frame (11), wherein a storage mechanism (3) is arranged on one side of the frame (11), and is characterized in that a conveying mechanism (4) for conveying a copper wire lamp strip is arranged on the frame (11), a fixed block (12) is arranged on the conveying mechanism (4), and a first clamp (10) is arranged on the fixed block (12); the machine frame (11) on set gradually be used for sending the line and the line mechanism (1) of acting as go-between, be used for twisting wire mechanism (2) of copper line lamp area twisted wire, be used for taking off material mechanism (5) and receiving mechanism (6) that are used for collecting the copper line lamp of taking copper line lamp area from anchor clamps one (10).

2. The automatic copper wire twisting machine according to claim 1, wherein a first bracket (201) is arranged on the frame (11), the wire twisting mechanism (2) comprises a second clamp arranged on the first bracket (201), a second driving mechanism for driving the second clamp to rotate and a first driving mechanism for driving the second clamp to move back and forth, the second clamp comprises a first main shaft (202), a clamp (203) is arranged at one end of the first main shaft (202), and a first driving member (204) for driving the clamp (203) to clamp is arranged on the first bracket (201).

3. The automatic copper wire twisting machine according to claim 2, wherein the first driving mechanism comprises a first sliding rail (208) arranged on the frame (11), a first sliding block (209) is arranged on the first sliding rail (208), the first bracket (201) is arranged on the first sliding block (209), a first cylinder fixing plate (210) is arranged on the frame (11), a first cylinder (211) for driving the first sliding block (209) to slide is arranged on the first cylinder fixing plate (210), and an elastic piece (212) is arranged between the first cylinder fixing plate (210) and the first sliding block (209).

4. The automatic copper wire twisting machine according to claim 3, wherein the second driving mechanism comprises a second driving member (205) arranged on the first bracket (201), synchronous pulleys (206) are arranged on a driving shaft of the second driving member (205) and the first main shaft (202), and synchronous belts (207) are arranged between the synchronous pulleys (206).

5. The automatic copper wire twisting machine according to claim 4, wherein the frame (11) is provided with a positioning mechanism (7) for determining the length of a twisted wire of a copper wire lamp strip, the positioning mechanism (7) comprises a second cylinder fixing plate (701) and a second cylinder (702), the second cylinder (702) is fixed on the second cylinder fixing plate (701), a piston rod of the second cylinder (702) is provided with a fixing plate (703), and the fixing plate (703) is provided with a positioning block (704) and a first compression block (705).

6. The automatic copper wire twisting machine according to claim 4, wherein the frame (11) is provided with a shaping mechanism (8) for determining the shape of the bulb end of the copper wire lamp strip; the shaping mechanism (8) comprises a third air cylinder fixing plate (801) and a third air cylinder (802), the third air cylinder (802) is fixed on the third air cylinder fixing plate (801), a shaping plate (803) is arranged on a piston rod of the third air cylinder (802), and the width of the lower end part of the shaping plate (803) is smaller than that of the upper part.

7. The automatic wire twisting machine for the copper wire lamp according to claim 1, wherein the wire feeding and pulling mechanism (1) comprises a wire feeding part and a pulling part; the wire feeding component comprises a second bracket (112) arranged on the frame (11), a fourth cylinder (103) is arranged on the second bracket (112), a second sliding rail (101) is arranged on the fourth cylinder (103), a second sliding block (102) is arranged on the second sliding rail (101), and a push rod (104) is arranged on the second sliding block (102); the stay wire component comprises a clamp III (106) and a bracket III (105) arranged on the frame (11), a cylinder six (108) is arranged on the bracket III (105), a sliding plate (111) is arranged on the cylinder six (108), and the clamp III (106) and a cylinder five (107) for driving the clamp III (106) to clamp are arranged on the sliding plate (111); the wire feeding and pulling mechanism is characterized in that an opening mechanism for opening the first clamp (10) is arranged below the wire feeding and pulling mechanism (1), the opening mechanism comprises a cylinder seven (109) arranged on the frame (11), a top block (110) is arranged on a piston rod of the cylinder seven (109), and the top block (110) is arranged below the first clamp (10).

8. The automatic copper wire twisting machine according to claim 1, wherein the storage mechanism (3) comprises a bracket four (301), the bracket four (301) is provided with a storage disc (302) and a driving part three (303) for driving the storage disc (302) to rotate, the driving part three (303) is arranged as a servo motor, a fixed pulley (304) is arranged above the storage disc (302), a movable pulley (305) is arranged between the storage disc (302) and the fixed pulley (304), a sliding rail three (306) is longitudinally arranged on the bracket four (301), a sliding block three (307) is arranged on the sliding rail three (306), and 4 sensing parts are longitudinally arranged on the bracket four (301).

9. The automatic copper wire twisting machine according to claim 8, wherein the fixed pulley (304) is provided with first grooves for winding the copper wire lamp strip, and the first grooves are 4-6; the movable pulley (305) is provided with a second groove body used for winding a copper wire lamp strip, and the second groove body is provided with 3-5 grooves.

10. The automatic copper wire twisting machine according to claim 1, wherein the conveying mechanism (4) comprises a fifth bracket (401), a driving wheel (402) and a driven wheel (403) are arranged on the fifth bracket (401), a driving piece four (406) is connected to the driving wheel (402), the driving wheel (402) and the driving piece four (406) are connected through a second main shaft, a chain (404) is arranged on the driving wheel (402) and the driven wheel (403), an index plate (405) is arranged on the second main shaft, an inductor (407) is arranged on the frame (11), the inductor (407) is arranged corresponding to the index plate (405), and the fixed blocks (12) are uniformly arranged on the chain (404).

11. The automatic copper wire twisting machine according to claim 1, wherein the first clamp (10) comprises a cylindrical body (1001), a push rod is arranged in the center of the cylindrical body (1001), a second compression block (1003) is arranged at the upper end of the push rod (1002), a base (1004) is arranged at the lower end of the push rod (1002), the base (1004) is arranged below the cylindrical body (1001), and an elastic piece II (1005) is arranged between the base (1004) and the lower end face of the cylindrical body (1001).

12. The automatic copper wire twisting machine according to claim 1, wherein the stripping mechanism (5) comprises a support six (501) arranged on a frame (11), an air cylinder eight (502) is arranged on the support six (501), a top plate one (503) is arranged on a piston rod of the air cylinder eight (502), the top plate one (503) is arranged at an outlet end of the conveying mechanism (4), a fixing seat (504) is arranged below the outlet end of the conveying mechanism (4), an inclined extrusion block (505) is arranged on the fixing seat (504), and a guide wheel two (506) is arranged above the outlet end of the conveying mechanism (4).

13. The automatic copper wire twisting machine according to claim 12, wherein a second top plate (507) is further arranged on a piston rod of the eighth cylinder (502), and the second top plate (507) is longitudinally arranged.

14. The automatic copper wire twisting machine according to claim 1, wherein the material receiving mechanism (6) comprises a bracket seven (601) arranged on the frame (11), the bracket seven (601) is provided with a material receiving disc (602) and a driving piece five (603) for driving the material receiving disc (602) to rotate, and a driving mechanism three for driving the bracket seven (601) to horizontally move is arranged below the material receiving disc (602).

15. An automatic twisting machine for copper wire lamps according to any one of claims 1 to 14, wherein a detecting member (901) for counting is provided on the frame.

16. The automatic copper wire twisting machine according to claim 15, wherein a bending mechanism (9) for bending a copper wire lamp strip is arranged on the frame, the bending mechanism (9) is arranged above the conveying mechanism (4), the bending mechanism (9) comprises a cylinder fixing plate four (903) arranged on the frame (11), a cylinder nine (902) is arranged on the cylinder fixing plate four (903), a pressing plate (904) is arranged on a piston rod of the cylinder nine (902), and the pressing plate (904) is in an L shape.