CN116441769B - Laser welding equipment for electronic equipment components - Google Patents

Abstract

The invention relates to the technical field of welding processing of electronic equipment, and discloses mechanism welding equipment for electronic equipment components, which comprises a control console, wherein a welding device, an induction component, a positioning device, a clamping device, an adjusting device, a jacking device and a pressing device are respectively arranged on the control console; the precision of the connecting position of each connecting point is guaranteed to be accurate, and other welding points cannot be damaged when laser welding is carried out at different positions, so that the welding speed is high, the welding quality is high, the cost is low, and the efficiency is high.

Description

Laser welding equipment for electronic equipment components

Technical Field

The invention relates to the technical field of welding processing of electronic equipment, in particular to mechanism welding equipment for electronic equipment components.

Background

The electronic component is a component part of an electronic element and a small machine or instrument, is often composed of a plurality of parts, and can be commonly used in similar products; some parts of the industry such as electric appliances, radios, meters and the like are the general names of electronic devices such as capacitors, transistors, hairsprings, springs and the like; the electronic component includes: resistance, capacitance, inductance, potentiometer, electron tube, heat sink, electromechanical element, connector, semiconductor discrete device, electroacoustic device, laser device, etc.;

In the current life, in the process of continuously developing and updating the electric safety technology, a plurality of external large-scale electronic devices and even some indoor electronic devices can be subjected to equipotential connection treatment so as to reduce the potential difference between the electronic devices and the external environment to cause electric faults or potential safety hazards, the welding precision of each connecting point in the welding process of the component products is different, the connection position precision relation of each connecting point cannot be ensured, and the welded lead potential points can be damaged or influenced when other points are welded, so that welding failure or equipment damage is caused, high-quality potential welding is not facilitated, and the cost is high and the efficiency is low.

The prior art has defects and needs improvement.

Disclosure of Invention

In order to solve the technical problems, the invention provides a mechanism welding device for electronic equipment components.

The technical scheme provided by the invention is as follows: the utility model provides a mechanism welding equipment for electronic equipment components, includes the control cabinet, set up welding set, response subassembly, positioner, clamping device, adjusting device, jacking device and pushing device on the control cabinet respectively, adjusting device, positioning device and clamping device follow left to right parallel arrangement in proper order, the jacking device stiff end is located in the control cabinet, the jacking device output passes up the control cabinet is located between clamping device and the positioning device, adjusting device one side sets up welding device, welding device one side sets up pushing device, pushing device one side sets up response subassembly.

Preferably, the induction assembly comprises an induction seat, an induction frame and an inductor, wherein the induction seat is arranged on the control console, the bottom end of the induction frame is vertically arranged in the middle of the induction seat, and the inductor is arranged on the top end of the induction frame.

Preferably, the welding device comprises a plurality of lifting columns, a first welding cylinder, a second welding cylinder, a welding carrier plate, a welding frame, a welder and a welding head, wherein the bottom ends of the lifting columns are vertically arranged on the control console, the top ends of the lifting columns are vertically arranged in the lifting plate, the upper surface of the lifting plate is provided with the fixed end of the first welding cylinder, the output end of the first welding cylinder is provided with the fixed end of the second welding cylinder, the output end of the second welding cylinder is provided with the welding carrier plate, the welding carrier plate is provided with the bottom end of the welding frame, the welding frame is provided with the welder, the lower part of the output end of the welder is provided with the welding head, and one side of the welder is provided with a detector.

Preferably, the positioning device comprises a positioning seat, a positioning carrier, a positioning cylinder, a positioning frame, a positioning sliding rail, a positioning sliding plate, a positioning connecting plate and a positioning chuck, wherein the positioning seat and the positioning carrier are arranged in parallel and are all arranged on the control console, the jacking device is arranged below the positioning carrier, the pressing device is arranged above the positioning device, the positioning frame is arranged on the positioning seat, the positioning cylinder is arranged on one side of the positioning frame, the positioning sliding rail is arranged on the other side of the positioning frame, the inner surface of the positioning sliding plate is arranged on the positioning sliding rail through a positioning sliding block, the positioning chuck is arranged on the outer surface of the positioning sliding plate, the output end of the positioning cylinder is connected with one end of the positioning connecting plate, the other end of the positioning connecting plate is connected with one side of the positioning sliding plate, and the positioning sliding plate is driven to slide.

Preferably, the clamping device comprises a clamping frame, a clamping cylinder, a clamping chuck and a clamping rotating shaft, the clamping chuck is arranged on the control console, the fixed end of the clamping cylinder is arranged in the clamping frame, the output end of the clamping cylinder is provided with the clamping rotating shaft, the clamping chuck is arranged on the clamping rotating shaft, and a plurality of circular adjusting holes are formed in the clamping chuck.

Preferably, the adjusting device comprises an adjusting underframe, a first adjusting cylinder, a second adjusting cylinder, a first adjusting joint, a second adjusting joint, a first adjusting rod, a second adjusting rod, a first adjusting head, a second adjusting head and an adjuster, wherein the adjusting underframe is arranged on the control console, fixed ends of the first adjusting cylinder and the second adjusting cylinder are respectively arranged on the adjusting underframe in parallel, output ends of the first adjusting cylinder and the second adjusting cylinder are respectively connected with the first adjusting joint and the second adjusting joint, the first adjusting joint and the second adjusting joint respectively penetrate through the adjusting underframe to be arranged, and are respectively connected with one ends of the adjuster and the second adjusting rod, the adjuster is connected with one end of the first adjusting rod, and the other ends of the first adjusting rod and the second adjusting rod are respectively connected with the first adjusting head and the second adjusting head.

Preferably, the pressing device comprises a pressing frame, a pressing motor, a pressing sliding rail, a pressing sliding frame, a pressing cylinder, a rotary shaft and an anti-pressing frame, the pressing frame is arranged on the control console, the top end of the pressing frame is provided with a fixed end of the pressing motor, the pressing motor is conveyed downwards and connected with the top end of the pressing sliding frame, the inner surface of the pressing sliding frame is arranged on the pressing sliding rail through a pressing sliding block, the pressing sliding rail is arranged in the pressing sliding frame, the fixed end of the pressing cylinder is arranged on the outer surface of the pressing sliding frame, the output end of the pressing cylinder is connected with the rotary shaft, the rotary shaft is vertically arranged in the pressing sliding frame, the bottom end of the pressing sliding frame is provided with the rotary cylinder, one side surface of the pressing sliding frame is provided with the anti-pressing frame, and the anti-pressing device is arranged on the anti-pressing frame.

Preferably, the jacking device comprises a lifting cylinder, a lifting frame, a lifting side plate, a jacking cylinder, a jacking switching shaft and a jacking head, wherein the fixed end of the lifting cylinder is arranged in the control console, the output end of the lifting cylinder is downwards arranged and connected with the lifting frame, one side of the lifting frame is provided with the lifting side plate, the lifting side plate is provided with the jacking cylinder, the output end of the jacking cylinder is upwards arranged and is provided with a jacking rotator, the jacking rotator is provided with the jacking switching shaft, the jacking switching shaft is provided with the jacking head, and the top end of the jacking head is upwards vertically arranged and is arranged in the positioning carrier.

Preferably, a smoke exhaust frame is arranged on the console, a smoke exhaust pipeline is arranged on the smoke exhaust frame, one end of the smoke exhaust pipeline is arranged above the positioning device and is positioned on one side of the welding position of the welding device.

Compared with the prior art, the invention provides the sensing assembly capable of sensing the quality of the product, the positioning device for positioning the product, the clamping device for clamping and adjusting the product and the adjusting device, and meanwhile, the automatic laser welding device is arranged, the pressing device ensures the fixity of the product, the jacking device ensures the ejection integrity of the product after welding, the precision of the connection position of each connection point is ensured to be accurate, and other welding points cannot be damaged when the laser is used for welding different positions, so that the welding speed is high, the welding quality is high, the cost is low, and the efficiency is high.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a sensing assembly according to the present invention;

FIG. 3 is a schematic diagram of a welding device according to the present invention;

FIG. 4 is a schematic view of a positioning device according to the present invention;

FIG. 5 is a schematic view of a clamping device according to the present invention;

FIG. 6 is a schematic view of the structure of the adjusting device of the present invention;

FIG. 7 is a schematic view of a pressing device according to the present invention;

Fig. 8 is a schematic structural view of a jacking device according to the present invention.

Marking: console 1, welding device 2, induction assembly 3, positioning device 4, clamping device 5, adjusting device 6, jacking device 7, pressing device 8, induction stand 31, induction stand 32, inductor 33, plurality of lifting columns 21, first welding cylinder 22, second welding cylinder 23, welding carrier plate 24, welding carriage 25, welder 26, welding head 27, detector 28, positioning stand 41, positioning carrier 42, positioning cylinder 43, positioning stand 44, positioning slide rail 45, positioning slide plate 46, positioning connection plate 47, clamping frame 51, clamping cylinder 52, clamping chuck 53, clamping rotation shaft 54, adjusting chassis 61, first adjusting cylinder 62, second adjusting cylinder 63, first adjusting joint 64, second adjusting joint 65, first adjusting rod 66, second adjusting rod 67, first adjusting head 68, second adjusting head 69, adjuster 610, pressing down frame 81, pressing down motor 82, pressing down slide rail 83, pressing down carriage 84, pressing down cylinder 85, rotating cylinder 86, rotation shaft 87, pressing prevention frame 88, lifting/lowering frame 71, lifting/lowering frame 73, jacking cylinder 74, jacking cylinder 77, and adapter shaft 76.

Detailed Description

The above-described features are continuously combined with each other to form various embodiments not listed above, and are regarded as the scope of the present invention described in the specification; and, it will be apparent to those skilled in the art from this disclosure that modifications and variations can be made without departing from the scope of the invention defined in the appended claims.

In order that the invention may be readily understood, a more particular description thereof will be rendered by reference to specific embodiments that are illustrated in the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

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

An embodiment as shown in fig. 1-8: the utility model provides a mechanism welding equipment for electronic equipment components, includes control cabinet 1, set up welding set 2, induction assembly 3, positioner 4, clamping device 5, adjusting device 6, jacking device 7 and push down device 8 on the control cabinet 1 respectively, adjusting device 6, positioner 4 and clamping device 5 are from left to right parallel arrangement in proper order, jacking device 7 stiff end is located in the control cabinet 1, jacking device 7 output upwards passes control cabinet 1 locates between clamping device 5 and the positioning device 4, adjusting device 6 one side sets up welding set 2, welding set 2 one side sets up push down device 8, push down device 8 one side sets up induction assembly 3.

It should be noted that, firstly, the workpiece is put into the carrier to be processed, then the clamping device 5 and the positioning device 4 slide relatively to clamp and position the workpiece, secondly, the adjusting device 6 passes through the clamping device 5 to adjust the angle position of the workpiece clamped in the clamping device, thirdly, the pressing device 8 presses the workpiece to wait for the welding of the welding device 2, fourthly, the laser welding performs the welding processing on the product with fixed angle and height, and thirdly, the welding qualification and the accuracy of angle, height and direction of the product are ensured along with the induction of the induction component 3, and thirdly, the jacking device 7 works to jack the welded product out of the carrier to be processed, waiting for the clamping of the manipulator or the automatic clamping jaw.

One embodiment is shown in fig. 2: the induction assembly 3 comprises an induction seat 31, an induction frame 32 and an inductor 33, wherein the induction seat 31 is arranged on the console 1, the bottom end of the induction frame 32 is vertically arranged in the middle of the induction seat 31, and the inductor 33 is arranged on the top end of the induction frame 32.

The inductor 33 is used for sensing whether the welding of the welding workpiece pressed down below the pressing device 8 is qualified, whether the angle, direction and height of the welded product are correct, and whether damage is caused to other parts of the product.

One embodiment is shown in fig. 3: the welding device 2 comprises a plurality of lifting columns 21, a first welding cylinder 22, a second welding cylinder 23, a welding carrier plate 24, a welding moving frame 25, a welding device 26 and a welding head 27, wherein the bottom ends of the lifting columns 21 are vertically arranged on the control console 1, the top ends of the lifting columns 21 are vertically arranged in the lifting plates, the upper surface of the lifting plates is provided with a fixed end of the first welding cylinder 22, the output end of the first welding cylinder 22 is provided with a fixed end of the second welding cylinder 23, the output end of the second welding cylinder 23 is provided with the welding carrier plate 24, the welding carrier plate 24 is provided with the bottom end of the welding moving frame 25, the welding device 26 is arranged on the welding moving frame 25, the lower part of the output end of the welding device 26 is provided with the welding head 27, and one side of the welding device 26 is provided with a detector 28.

It should be noted that, the lifting columns 21 are capable of lifting and adjusting, and are used for adjusting the welding height of the whole welding device 2, the first welding machine cylinder transversely moves, and drives the second welding cylinder 23 to move while moving, the second welding cylinder 23 moves back and forth, and drives the welding carrier plate 24 to move back and forth while moving, the welding carrier plate 24 drives the welding moving frame 25 to move, the welding moving frame 25 drives the welder 26 to move, the welder 26 moves and performs laser welding on products pressed down by a welding head 27 at a fixed angle, height and direction, and the detector 28 is used for detecting whether products pressed down below are products, and whether angle and direction adjustment is correct.

One embodiment is shown in fig. 4: the positioning device 4 comprises a positioning seat 41, a positioning carrier 42, a positioning air cylinder 43, a positioning frame 44, a positioning sliding rail 45, a positioning sliding plate 46, a positioning connecting plate 47 and a positioning chuck, wherein the positioning seat 41 and the positioning carrier 42 are arranged in parallel and are all arranged on the control console 1, the jacking device 7 is arranged below the positioning carrier 42, the pressing device 8 is arranged above the positioning device 4, the positioning frame 44 is arranged on the positioning seat 41, the positioning air cylinder 43 is arranged on one side of the positioning frame 44, the positioning sliding rail 45 is arranged on the other side of the positioning frame 44, the inner surface of the positioning sliding plate 46 is arranged on the positioning sliding rail 45 through a positioning sliding block, the positioning chuck is arranged on the outer surface of the positioning sliding plate 46, the output end of the positioning air cylinder 43 is connected with one end of the positioning connecting plate 47, the other end of the positioning connecting plate 47 is connected with one side of the positioning sliding plate 46, and the positioning sliding plate 46 is driven to slide.

It should be noted that, the positioning carrier 42 is used for carrying a product to be processed, the positioning cylinder 43 drives the positioning connection plate 47 to move up and down, the positioning connection plate 47 drives the positioning slide plate 46 to slide up and down on the positioning slide rail 45, and the positioning chuck is driven to clamp and move the product on the positioning carrier 42 while sliding, and the angle, direction and height of the product are adjusted by matching with the clamping of the clamping device 5 and the adjusting device 6 arranged on one side.

Wherein a circular hole is provided in the middle of the positioning slide 46.

One embodiment is shown in fig. 5: the clamping device 5 comprises a clamping frame 51, a clamping air cylinder 52, a clamping chuck 53 and a clamping rotating shaft 8754, the clamping chuck is arranged on the console 1, the fixed end of the clamping air cylinder 52 is arranged in the clamping frame 51, the output end of the clamping air cylinder 52 is provided with the clamping rotating shaft 8754, the clamping rotating shaft 8754 is provided with the clamping chuck 53, and the clamping chuck 53 is provided with a plurality of circular adjusting holes.

It should be noted that, the clamping cylinder 52 drives the chuck rotating shaft 87 to rotate, and the clamping rotating shaft 8754 drives the clamping chuck 53 to clamp the product positioned on the positioning device 4, so as to cooperate with the adjusting device 6 to adjust the product.

Wherein the clamping rotation shaft 8754 can be rotated by 360 °.

One embodiment is shown in fig. 6: the adjusting device 6 comprises an adjusting underframe 61, a first adjusting cylinder 62, a second adjusting cylinder 63, a first adjusting joint 64, a second adjusting joint 65, a first adjusting rod 66, a second adjusting rod 67, a first adjusting head 68, a second adjusting head 69 and an adjuster 610, wherein the adjusting underframe 61 is arranged on the console 1, fixed ends of the first adjusting cylinder 62 and the second adjusting cylinder 63 are all arranged on the adjusting underframe 61 in parallel, output ends of the first adjusting cylinder 62 and the second adjusting cylinder 63 are respectively connected with the first adjusting joint 64 and the second adjusting joint 65, the first adjusting joint 64 and the second adjusting joint 65 are all arranged through the adjusting underframe 61 and are respectively connected with one ends of the adjuster 610 and the second adjusting head 67, the adjuster 610 is connected with one end of the first adjusting rod 66, and the other ends of the first adjusting rod 66 and the second adjusting rod 67 are respectively connected with the first adjusting head 68 and the second adjusting head 69.

It should be noted that, the first adjusting cylinder 62 and the second adjusting cylinder 63 work simultaneously, respectively drive the first adjusting joint 64 and the second adjusting joint 65 to rotate, the first adjusting joint 64 and the second adjusting joint 65 respectively drive the adjuster 610 and the second adjusting rod 67 to work, the adjuster 610 then drives the first adjusting rod 66 to extend and retract, and the first adjusting rod 66 and the second adjusting rod 67 respectively drive the first adjusting head 68 and the second adjusting head 69 to adjust the height, the direction and the position of the positioned and clamped product, thereby ensuring the correct welding of the product and high production quality.

One embodiment is shown in fig. 7: the pressing device 8 comprises a pressing frame 81, a pressing motor 82, a pressing sliding rail 83, a pressing sliding frame 84, a pressing cylinder 85, a rotary cylinder 86, a rotary shaft 87 and an anti-pressing frame 88, the pressing frame 81 is arranged on the control console 1, the top end of the pressing frame 81 is provided with a fixed end of the pressing motor 82, the conveying of the pressing motor 82 is arranged downwards and connected with the top end of the pressing sliding frame 84, the inner surface of the pressing sliding frame 84 is arranged on the pressing sliding rail 83 through a pressing sliding block, the pressing sliding rail 83 is arranged in the pressing sliding frame 84, the fixed end of the pressing cylinder 85 is arranged on the outer surface of the pressing sliding frame 84, the output end of the pressing cylinder 85 is connected with the rotary shaft 87, the rotary shaft 87 is vertically arranged in the pressing sliding frame 84, the bottom end of the pressing sliding frame 84 is provided with the rotary cylinder 86, the output end of the rotary cylinder 86 is provided with a rotary gear, one side surface of the pressing sliding frame 84 is provided with the anti-pressing frame 88, and the anti-pressing device is arranged on the anti-pressing frame 88.

It should be noted that, the pushing motor 82 drives the pushing carriage 84 to slide up and down on the pushing sliding rail 83, the pushing carriage 84 drives the pushing cylinder 85 to slide while the pushing cylinder 85 drives the rotating shaft 87 to rotate, the middle part of the rotating shaft 87 is hollow, so that the welding device 2 is convenient to weld the welding head 27, and the rotating cylinder 86 drives the rotating gear to push down and position the product below, so as to match the welding of the upper part from the laser irradiation in the rotating shaft 87.

Wherein, prevent that the pressure ware lower extreme sets up prevents pressing the post, cooperates the pushing down of preventing the pressure ware, prevent that the pressure ware is adjustable, prevent the pressure ware with prevent pressing the post when offing, push down device 8 stops pushing down, prevents that the product from causing the damage because the pressure is too big.

One embodiment is shown in fig. 8: the jacking device 7 comprises a lifting cylinder 71, a lifting frame 72, a lifting side plate 73, a lifting cylinder 74, a jacking transfer shaft 75 and a jacking head 76, wherein the fixed end of the lifting cylinder 71 is arranged in the control console 1, the output end of the lifting cylinder 71 is downwards arranged and connected with the lifting frame 72, one side of the lifting frame 72 is provided with the lifting side plate 73, the lifting cylinder 74 is installed on the lifting side plate 73, the output end of the jacking cylinder 74 is upwards arranged and is provided with a jacking rotator 77, the jacking transfer shaft 75 is installed on the jacking rotator 77, the jacking transfer shaft 75 is provided with the jacking head 76, and the top end of the jacking head 76 is upwards and vertically arranged and is arranged in the positioning carrier 42.

It should be noted that, the lifting cylinder 71 drives the lifting frame 72 to move up and down in the console 1, the lifting frame 72 drives the lifting side plate 73 to slide up and down, the lifting side plate 73 drives the lifting cylinder 74 to slide up and down, the lifting cylinder 74 drives the lifting rotator 77 to rotate, the lifting rotator 77 drives the lifting switching shaft 75 to operate, and the lifting switching shaft 75 drives the lifting head 76 to eject the welded product in the positioning carrier 42.

Preferably, a smoke exhaust frame is arranged on the console 1, a smoke exhaust pipeline is arranged on the smoke exhaust frame, and one end of the smoke exhaust pipeline is arranged above the positioning device 4 and is positioned on one side of the welding position of the welding device 2.

The smoke exhaust pipe is used for exhausting smoke generated in the process of welding the product by laser.

The above-described features are continuously combined with each other to form various embodiments not listed above, and are regarded as the scope of the present invention described in the specification; and, it will be apparent to those skilled in the art from this disclosure that modifications and variations can be made without departing from the scope of the invention defined in the appended claims.

Claims (5)

1. The mechanism welding equipment for the electronic equipment components is characterized by comprising a control console (1), wherein a welding device (2), an induction component (3), a positioning device (4), a clamping device (5), an adjusting device (6), a jacking device (7) and a pressing device (8) are respectively arranged on the control console (1), the adjusting device (6), the positioning device (4) and the clamping device (5) are sequentially arranged in parallel from left to right, the fixed end of the jacking device (7) is arranged in the control console (1), the output end of the jacking device (7) upwards passes through the control console (1) and is arranged between the clamping device (5) and the positioning device (4), one side of the adjusting device (6) is provided with the welding device (2), one side of the welding device (2) is provided with the pressing device (8), and one side of the pressing device (8) is provided with the induction component;

The positioning device (4) comprises a positioning seat (41), a positioning carrier (42), a positioning air cylinder (43), a positioning frame (44), a positioning sliding rail (45), a positioning sliding plate (46), a positioning connecting plate (47) and a positioning chuck, wherein the positioning seat (41) and the positioning carrier (42) are arranged in parallel and are arranged on the control console (1), the jacking device (7) is arranged below the positioning carrier (42), the pressing device (8) is arranged above the positioning device (4), the positioning frame (44) is arranged on the positioning seat (41), the positioning air cylinder (43) is arranged on one side of the positioning frame (44), the positioning sliding rail (45) is arranged on the other side of the positioning frame (44), the inner surface of the positioning sliding plate (46) is arranged on the positioning sliding rail (45) through a positioning sliding block, the positioning chuck is arranged on the outer surface of the positioning sliding plate (46), the output end of the positioning air cylinder (43) is connected with one end of the positioning connecting plate (47), and the other end of the positioning sliding plate (47) is connected with one side of the positioning sliding plate (46);

The clamping device (5) comprises a clamping frame (51), a clamping cylinder (52), a clamping chuck (53) and a clamping rotating shaft (54), the clamping frame is arranged on the control console (1), the fixed end of the clamping cylinder (52) is arranged in the clamping frame (51), the output end of the clamping cylinder (52) is provided with the clamping rotating shaft (54), the clamping chuck (53) is arranged on the clamping rotating shaft (54), and a plurality of circular adjusting holes are formed in the clamping chuck (53);

The adjusting device (6) comprises an adjusting underframe (61), a first adjusting cylinder (62), a second adjusting cylinder (63), a first adjusting joint (64), a second adjusting joint (65), a first adjusting rod (66), a second adjusting rod (67), a first adjusting head (68), a second adjusting head (69) and an adjuster (610), wherein the adjusting underframe (61) is arranged on the control console (1), fixed ends of the first adjusting cylinder (62) and the second adjusting cylinder (63) are arranged on the adjusting underframe (61) in parallel, output ends of the first adjusting cylinder (62) and the second adjusting cylinder (63) are respectively connected with the first adjusting joint (64) and the second adjusting joint (65), the first adjusting joint (64) and the second adjusting joint (65) are respectively arranged through the adjusting underframe (61) and are respectively connected with one ends of the adjuster (610) and the second adjusting rod (67), the adjuster (610) is connected with one end of the first adjusting rod (66), and the other end of the first adjusting rod (66) is respectively connected with the second adjusting head (69);

The lifting device (7) comprises a lifting cylinder (71), a lifting frame (72), a lifting side plate (73), a lifting cylinder (74), a lifting switching shaft (75) and a lifting head (76), wherein the fixed end of the lifting cylinder (71) is arranged in the control console (1), the output end of the lifting cylinder (71) is downwards arranged and connected with the lifting frame (72), one side of the lifting frame (72) is provided with the lifting side plate (73), the lifting cylinder (74) is arranged on the lifting side plate (73), the output end of the lifting cylinder (74) is upwards arranged and is provided with a lifting rotator (77), the lifting switching shaft (75) is arranged on the lifting rotator (77), the top end of the lifting head (76) is upwards and vertically arranged and is arranged in the positioning carrier (42).

2. The mechanical welding device for electronic device components according to claim 1, wherein the induction assembly (3) comprises an induction seat (31), an induction frame (32) and an inductor (33), the induction seat (31) is arranged on the console (1), the bottom end of the induction frame (32) is vertically arranged in the middle of the induction seat (31), and the inductor (33) is arranged on the top end of the induction frame (32).

3. The mechanical welding equipment for electronic equipment components according to claim 1, wherein the welding device (2) comprises a plurality of lifting columns (21), a first welding cylinder (22), a second welding cylinder (23), a welding carrier plate (24), a welding frame (25), a welding device (26) and a welding head (27), the bottom ends of the lifting columns (21) are vertically arranged on the console (1), the top ends of the lifting columns (21) are vertically arranged in a lifting bottom plate, the upper surface of the lifting bottom plate is provided with the fixed end of the first welding cylinder (22), the output end of the first welding cylinder (22) is provided with the fixed end of the second welding cylinder (23), the output end of the second welding cylinder (23) is provided with the welding carrier plate (24), the welding carrier plate (24) is provided with the bottom end of the welding frame (25), the welding device (26) is arranged on the welding frame (25), the output end of the welding device (26) is arranged below, and the welding head (27) is arranged at one side of the welding device (28).

4. The welding equipment for the mechanism of the electronic equipment component according to claim 1, wherein the pressing device (8) comprises a pressing frame (81), a pressing motor (82), a pressing sliding rail (83), a pressing sliding frame (84), a pressing cylinder (85), a rotating cylinder (86), a rotating shaft (87) and an anti-pressing frame (88), the pressing frame (81) is arranged on the control console (1), the top end of the pressing frame (81) is provided with a fixed end of the pressing motor (82), the conveying end of the pressing motor (82) is downwards arranged and connected with the top end of the pressing sliding frame (84), the inner surface of the pressing sliding frame (84) is arranged on the pressing sliding rail (83) through a pressing sliding block, the pressing sliding rail (83) is arranged in the pressing sliding frame (84), the outer surface of the pressing sliding frame (84) is provided with a fixed end of the pressing cylinder (85), the output end of the pressing cylinder (85) is connected with the rotating shaft (87), the conveying end of the pressing sliding frame (86) is downwards arranged on the pressing sliding frame (84), the rotating sliding frame (84) is arranged on one side of the rotating sliding frame (84), the pressure-proof frame (88) is provided with a pressure-proof device.

5. The mechanical welding equipment for electronic equipment components according to claim 1, wherein a fume exhaust frame is arranged on the console (1), a fume exhaust pipeline is arranged on the fume exhaust frame, and one end of the fume exhaust pipeline is arranged above the positioning device (4) and is positioned on one side of a welding position of the welding device (2).