CN116493813B - High-efficiency linkage welding device for miniature high-voltage generator - Google Patents

Abstract

The invention discloses a high-efficiency linkage welding device of a miniature high-voltage generator, which comprises a workbench, at least 1 welding wire feeding mechanism arranged on the workbench, at least 1 welding wire shearing and peeling mechanism arranged on the workbench and positioned on a welding wire feeding path, a welding wire clamping and moving mechanism arranged on the workbench and positioned at the downstream of the welding wire shearing and peeling mechanism, and at least 1 welding mechanism arranged on the workbench, wherein the welding wire feeding mechanism comprises a welding wire disc, a feeding track arranged on one side of the welding wire disc, and a welding wire feeding power assembly arranged on one side of the feeding track, and the welding wire clamping and moving mechanism moves welding wires after shearing and peeling to the welding mechanism. The automatic control of feeding, wire cutting and peeling, moving and welding of the welding wires is realized, and the welding precision and the welding efficiency are improved.

Description

High-efficiency linkage welding device for miniature high-voltage generator

Technical Field

The invention relates to the technical field of high-voltage generator assembly devices, in particular to a high-efficiency linkage welding device for a miniature high-voltage generator.

Background

The high-voltage generator can perform high-voltage discharge and is widely applied to the fields of electric power, railways, chemical industry, scientific research and the like. With the rise of portable electronic devices, the demand for miniature high-voltage generators is increasing. Electronic devices such as ozone generators, ignition guns, and the like require miniature high voltage generators for high voltage discharge. The high-voltage generator is provided with the framework, the coil and the electrode are wound on the framework, the wire needs to be welded on the electrode, the manual wire cutting and peeling are adopted in the prior art, then the welding wire is taken for welding, the welding efficiency is low, quick and accurate welding is not possible, and especially the miniature high-voltage generator is small in size, and the manual welding is difficult to guarantee the welding precision. Therefore, a new solution is needed to solve at least one of the above technical problems.

Disclosure of Invention

The invention aims to provide a high-efficiency linkage welding device for a miniature high-voltage generator, which realizes automatic control on feeding, wire cutting and peeling, moving and welding of welding wires and improves welding precision and welding efficiency.

In order to achieve the technical purpose and meet the technical requirements, the invention adopts the technical scheme that: the utility model provides a miniature high-voltage generator high efficiency linkage welding set, its characterized in that, is in including workstation, at least 1 bonding wire feeding mechanism that sets up on the workstation, at least 1 setting are in on the workstation and lie in bonding wire feeding route bonding wire trimming peeling mechanism, set up on the workstation and lie in bonding wire trimming peeling mechanism low reaches bonding wire presss from both sides and gets moving mechanism, at least 1 setting and is in welding mechanism on the workstation, bonding wire feeding mechanism includes the bonding wire dish, sets up the feeding track of bonding wire dish one side, sets up in the bonding wire feeding power component of feeding track one side, bonding wire presss from both sides and gets moving mechanism and will cut the bonding wire after peeling and remove to welding mechanism.

As the preferable technical scheme, bonding wire pay-off power component is including setting up first fixed extension board, the rotatable initiative feed wheel that sets up on the first fixed extension board of feeding track one side, set up the second fixed extension board of first fixed extension board one side, set up the pay-off motor of second fixed extension board one side, slide the setting and be in remove the extension board on the second fixed extension board, rotatable setting is in the driven feed wheel on the removal extension board, the rotatable wearing of output shaft on the pay-off motor is in on second fixed extension board and the first fixed extension board, initiative feed wheel cover is established on the output shaft of pay-off motor.

As the preferable technical scheme, the bonding wire trimming peeling mechanism comprises a trimming air cylinder arranged on one side of the second fixing plate, an upper connecting frame connected with the first output end of the trimming air cylinder, a lower connecting frame connected with the second output end of the trimming air cylinder, an upper trimming cutter detachably arranged on the upper connecting frame, and a lower trimming cutter detachably arranged on the lower connecting frame, wherein the trimming air cylinder drives the upper connecting frame and the lower connecting frame to vertically move.

As the preferable technical scheme, the welding wire clamping and moving mechanism comprises a fixing frame arranged on the workbench in a sliding manner, a rotating motor arranged on the fixing frame, a curve motion connecting plate detachably arranged on the upper portion of the fixing frame, a transmission rod connected with an output shaft of the rotating motor, a linkage frame and at least 1 welding wire clamping assembly detachably arranged on the linkage frame, a curve sliding groove is formed in the curve motion connecting plate, a sliding shaft is arranged in the curve sliding groove and penetrates through the transmission rod, one end of the sliding shaft is connected with a transmission plate, the transmission plate is in sliding connection with the fixing frame, and the transmission plate is detachably connected with the linkage frame.

As the preferable technical scheme, the welding mechanism comprises a welding bracket detachably arranged on the workbench, a welding vertical moving cylinder detachably arranged on the welding bracket, a welding moving frame vertically arranged on the welding frame in a sliding manner, a first connecting block detachably arranged at the lower end of the welding moving frame, a first welder detachably arranged at the lower end of the connecting block, a first electrode needle detachably arranged on the first welder, and a coil mounting table slidably arranged on the workbench.

As an optimal technical scheme, a plurality of leveling wheels which are arranged in a staggered mode are rotatably arranged on the side face of the feeding track, and the welding wire passes through the space between the upper leveling wheels and the lower leveling wheels.

As the preferable technical scheme, 2 guide blocks are detachably arranged on the first fixed support plate, and the 2 guide blocks are respectively positioned on two sides of the driving feeding wheel.

As an optimal technical scheme, the guide block is provided with a guide pipe, and the guide block and the guide hole are coaxially arranged.

As the preferable technical scheme, the coil mount table comprises an I-shaped frame which is arranged on the workbench in a sliding manner, a second connecting block which is arranged at the upper end of the I-shaped frame, a second welding device which is arranged on the second connecting block in a detachable manner, a second electrode needle which is arranged on the second welding device in a detachable manner, and a mounting block which is arranged at the upper end of the second welding device in a detachable manner, wherein a mounting groove for mounting a coil is formed in the upper end of the mounting block, and a positioning clamp for guiding welding wires is arranged at the upper end of the mounting block in a detachable manner.

As a preferable technical scheme, the welding wire clamping assembly comprises a clamping cylinder and a clamping jaw arranged at the output end of the clamping cylinder.

The beneficial effects of the invention are as follows: high-efficient linkage welding set of miniature high-voltage generator compares with traditional structure:

1) The welding wire is fed through the welding wire feeding mechanism, the welding wire is sheared and peeled through the welding wire shearing and peeling mechanism, the welding wire is moved to the coil welding end by the welding wire clamping and moving mechanism, the welding mechanism welds the welding wire and the coil welding end, the welding efficiency is high, the welding accuracy is high, the labor intensity is low, and the automation degree is high;

2) Preferably, the welding wire is positioned between the driving feeding wheel and the driven feeding wheel, the feeding motor rotates the driving feeding wheel to feed, the feeding efficiency is high, and the damage to the welding wire is reduced due to rolling friction;

3) Preferably, the wire cutting cylinder drives the upper wire cutting tool and the lower wire cutting tool to move, so that the welding wires are cut off and peeled, and the production efficiency is improved;

4) Preferably, the rotating motor drives the transmission rod to rotate, so that the sliding shaft is driven to slide along the curved sliding groove, the transmission plate moves along with the sliding shaft, and the rotating motion is converted into linear motion, so that the welding wire clamp assembly conveys the welding wire to the welding end of the coil, the linkage effect is good, and the welding wire can be conveyed to an accurate position;

5) Preferably, the welding mechanism has high welding efficiency and accurate welding position;

6) Preferably, the leveling wheel levels the welding line, so as to prevent the uneven welding line from affecting the welding quality;

7) Preferably, the guide block guides the welding wire, the feeding guiding effect is good, the feeding is more stable, the welding wire deviation is prevented from influencing the welding quality, the guide pipe further limits the welding wire to move, and the feeding stability is improved;

8) Preferably, the locating clip can guide and locate the welding line, so that the welding is more accurate.

Drawings

FIG. 1 is a three-dimensional view provided by one embodiment of the present invention;

FIG. 2 is a three-dimensional view of the other direction of FIG. 2;

fig. 3 is a block diagram of a wire feeding mechanism according to an embodiment of the present invention;

FIG. 4 is a block diagram of the other direction of FIG. 3;

FIG. 5 is a block diagram of a wire cutting and stripping mechanism according to one embodiment of the present invention;

FIG. 6 is a block diagram of a solder wire gripping and moving mechanism provided in one embodiment of the present invention;

FIG. 7 is a block diagram of a welding mechanism provided by one embodiment of the present invention;

fig. 8 is a partial block diagram of a welding mechanism according to an embodiment of the present invention.

In fig. 1-8, 1, a workbench; 2. a bonding wire feeding mechanism; 201. a wire bonding pad; 202. a feeding rail; 203. a wire feeding power assembly; 2031. a first fixed support plate; 2032. a driving feeding wheel; 2033. a second fixed support plate; 2034. a feeding motor; 2035. moving the support plate; 2036. a driven feed wheel; 204. a leveling wheel; 205. a guide block; 206. a guide tube; 3. a wire cutting and peeling mechanism for welding wires; 301. a thread cutting cylinder; 302. an upper connecting frame; 303. a lower connecting frame; 304. a thread cutting tool is arranged; 305. a lower thread cutting tool; 4. the welding wire clamping and moving mechanism; 401. a fixing frame; 402. a rotating electric machine; 403. a curved motion connecting plate; 4031. a curved chute; 404. a transmission rod; 405. a linkage frame; 406. a wire clip assembly; 4061. a clamping cylinder; 4062. a clamping jaw; 407. a sliding shaft; 408. a drive plate; 5. a welding mechanism; 501. welding a bracket; 502. welding a vertical moving cylinder; 503. welding a movable frame; 504. a first connection block; 505. a first welder; 506. a first electrode needle; 507. a coil mounting table; 5071. the I-shaped frame; 5072. a second connection block; 5073. a second welder; 5074. a second electrode needle; 5075. a mounting block; 50751. a mounting groove; 5076. and (5) positioning clips.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

The same or similar reference numbers in the drawings of embodiments of the invention correspond to the same or similar components; in the description of the present invention, it should be understood that, if the terms "top", "bottom", "left", "right", "front", "rear", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, it is merely for convenience in describing the present invention, and it is not indicated or implied that the devices or elements referred to must have specific orientations, be configured and operated in specific orientations, so that the terms describing the positional relationships in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1-8, an embodiment of the present invention provides a high-efficiency linkage welding device of a miniature high-voltage generator, which includes a workbench 1, at least 1 wire feeding mechanism 2 disposed on the workbench 1, at least 1 wire cutting and peeling mechanism 3 disposed on the workbench 1 and located on a wire feeding path, a wire gripping and moving mechanism 4 disposed on the workbench 1 and located downstream of the wire cutting and peeling mechanism 3, and at least 1 welding mechanism 5 disposed on the workbench 1, wherein the wire feeding mechanism 2 includes a wire coil 201, a feeding rail 202 disposed on one side of the wire coil 201, and a wire feeding power assembly 203 disposed on one side of the feeding rail 202, and the wire gripping and moving mechanism 4 moves the cut and peeled wire to the welding mechanism 5.

Because no automatic welding device for the high-voltage generator exists in the market, the inventor designs a welding device to realize automatic welding of the high-voltage generator, the welding wire is wound on the welding wire tray 201, the welding wire is driven by the welding wire feeding group meter to feed, the welding wire is sheared and peeled through the welding wire shearing and peeling mechanism 3, the welding wire is pulled out of the welding wire shearing and peeling mechanism 3 by the welding wire clamping and moving mechanism 4 to finish peeling, and then the welding wire is moved to the welding mechanism 5 by the welding wire clamping and moving mechanism 4 to weld, so that feeding, shearing and peeling, clamping movement and welding of the welding wire are realized, the welding efficiency is greatly improved, the welding accuracy is improved, the automatic production level is improved, and the labor intensity is reduced.

As shown in fig. 1-8, in some other embodiments, the wire feeding power assembly 203 includes a first fixed support plate 2031 disposed on one side of the feeding track 202, a driving feed roller 2032 rotatably disposed on the first fixed support plate 2031, a second fixed support plate 2033 disposed on one side of the first fixed support plate 2031, a feeding motor 2034 disposed on one side of the second fixed support plate 2033, a movable support plate 2035 for sliding the wire on the second fixed support plate 2033, a driven feed roller 2036 rotatably disposed on the movable support plate 2035, an output shaft on the feeding motor 2034 rotatably penetrates through the second fixed support plate 2033 and the first fixed support plate 2031, the driving feed roller 2032 is sleeved on an output shaft of the feeding motor 2034, the feeding motor 2034 drives the driving feed roller 2032 to rotate, passes between the driving feed roller 2032 and the driven feed roller 2036, and is attached to the driving feed roller 2032 and the driven feed roller 2036, and is fed to the wire cutting mechanism 3.

As shown in fig. 1-8, in some other embodiments, the bonding wire cutting peeling mechanism 3 includes a cutting cylinder 301 disposed on one side of the second fixing plate, an upper connecting frame 302 connected to a first output end of the cutting cylinder 301, a lower connecting frame 303 connected to a second output end of the cutting cylinder 301, an upper cutting tool 304 detachably disposed on the upper connecting frame 302, and a lower cutting tool 305 detachably disposed on the lower connecting frame 303, the cutting cylinder 301 drives the upper connecting frame 302 and the lower connecting frame 303 to move vertically, the upper connecting frame 302 drives the upper cutting tool 304 to move vertically, the lower connecting frame 303 drives the lower cutting tool 305 to move vertically, and the bonding wire is automatically cut, so that the production efficiency is high.

As shown in fig. 1 to 8, in some other embodiments, the wire gripping and moving mechanism 4 includes a fixing frame 401 slidably disposed on the working table 1, a rotating motor 402 disposed on the fixing frame 401, a curved moving connecting plate 403 detachably disposed on an upper portion of the fixing frame 401, a driving rod 404 connected to an output shaft of the rotating motor 402, a linkage frame 405, at least 1 wire gripping assembly 406 detachably disposed on the linkage frame 405, a curved chute 4031 is disposed on the curved moving connecting plate 403, a sliding shaft 407 is disposed in the curved chute 4031, the sliding shaft 407 penetrates through the driving rod 404, one end of the sliding shaft 407 is connected with a driving plate 408, the driving plate 408 is slidably connected with the fixing frame 401, the driving plate 408 is detachably connected with the linkage frame 405, the rotating motor 402 rotates the driving rod 404, the sliding shaft 407 rotates with the driving rod 404, the sliding shaft 407 drives the driving plate 408 to move, the driving plate 405 to drive the wire gripping assembly 406 to move, the fixing frame 401 laterally slides to move the wire gripping assembly 406 to a feeding position, the wire gripping assembly 401 laterally moves, and then the rotating motor 402 rotates to move the wire gripping assembly 406 to a coil end to a high efficiency, and the welding coil end is precisely moved.

As shown in fig. 1-8, in some other embodiments, the welding mechanism 5 includes a welding frame 501 detachably disposed on the workbench 1, a welding vertical moving cylinder 502 detachably disposed on the welding frame 501, a welding moving frame 503 vertically slidably disposed on the welding frame, a first connecting block 504 detachably disposed at a lower end of the welding moving frame 503, a first welder 505 detachably disposed at a lower end of the connecting block, a first electrode pin 506 detachably disposed on the first welder 505, a coil mounting table 507 slidably disposed on the workbench 1, further, the coil mounting table 507 includes a second connecting block 5072 slidably disposed on the workbench 1, a second welder 5073 detachably disposed on the second connecting block 5071, a second electrode pin 5074 detachably disposed on the second welder 5073, a mounting block 5075 detachably disposed at an upper end of the second welder 5073, a mounting groove 50751 for mounting a coil on an upper end of the mounting block 5075, the mounting block being detachably disposed at a position of the first electrode pin 5073 and the second welder 5073, the first electrode pin 5073 being electrically aligned with the second welder being electrically aligned with the welding pin 5073, and the second welder being capable of precisely aligned with the welding pin 5073.

As shown in fig. 1-8, in other embodiments, a plurality of leveling wheels 204 are rotatably disposed on the side of the feeding rail 202, and the bonding wires pass between the upper leveling wheels 204 and the lower leveling wheels 204, so that the leveling wheels 204 level the bonding wires, and the welding quality is prevented from being affected by uneven bonding wires.

As shown in fig. 1-8, in other embodiments, the first fixing support plate 2031 is detachably provided with 2 guide blocks 205,2, and the guide blocks 205 are respectively located at two sides of the active feeding wheel 2032, further, the guide blocks 205 are provided with guide pipes 206, the guide blocks 205 are coaxially arranged with the guide holes, the guide blocks 205 guide welding lines, the feeding guiding effect is good, the feeding is more stable, the welding quality is prevented from being influenced by welding line deviation, and further, the guide pipes 206 further limit welding line movement, and the feeding stability is improved.

As shown in fig. 1-8, in other embodiments, the wire clamping assembly 406 includes a clamping cylinder 4061, and a clamping jaw 4062 disposed at an output end of the clamping cylinder 4061, where the clamping jaw 4062 is comb-shaped, and has a good clamping effect.

As shown in fig. 1-8, in other embodiments, the number of the wire feeding mechanism 2, the wire cutting and peeling mechanism 3 and the welding mechanism 5 is 2, the number of the wire clamping assemblies 406 is 2, and the wire feeding mechanism 2, the wire cutting and peeling mechanism 3 and the welding mechanism 5 are respectively arranged at two sides of the wire clamping and moving mechanism 4, so that the production efficiency is further improved.

The above examples are provided for the purpose of clearly illustrating the invention and are not to be construed as limiting the invention, and other variants and modifications of the various forms may be made by those skilled in the art based on the description, which are not intended to be exhaustive of all embodiments, and obvious variants or modifications of the invention may be found within the scope of the invention.

Claims (8)

1. The utility model provides a miniature high-voltage generator high efficiency linkage welding set, its characterized in that includes workstation (1), at least 1 setting is in bonding wire feeding mechanism (2) on workstation (1), at least 1 setting is in on workstation (1) and be located bonding wire cutting wire peeling mechanism (3) on the bonding wire feeding route, set up on workstation (1) and be located bonding wire clamping moving mechanism (4) of bonding wire cutting wire peeling mechanism (3) low reaches, at least 1 setting is in welding mechanism (5) on workstation (1), bonding wire feeding mechanism (2) are including bonding wire dish (201), set up in feeding track (202) of bonding wire dish (201) one side, set up in feeding power component (203) of feeding track (202) one side, clamping moving mechanism (4) will cut the wire after peeling remove to welding mechanism (5);

the welding mechanism (5) comprises a welding bracket (501) detachably arranged on the workbench (1), a welding vertical moving cylinder (502) detachably arranged on the welding bracket (501), a welding moving frame (503) vertically arranged on the welding bracket (501) in a sliding manner, a first connecting block (504) detachably arranged at the lower end of the welding moving frame (503), a first welder (505) detachably arranged at the lower end of the connecting block, a first electrode needle (506) detachably arranged on the first welder (505) and a coil mounting table (507) slidably arranged on the workbench (1);

coil mount table (507) are in including sliding setting I-shaped frame (5071) on workstation (1), set up second connecting block (5072) of I-shaped frame (5071) upper end, can dismantle second welder (5073) on second connecting block (5072), can dismantle second electrode needle (5074) that set up on second welder (5073), can dismantle setting up installation piece (5075) of second welder (5073) upper end, installation piece (5075) upper end is equipped with mounting groove (50751) that are used for installing the coil, installation piece (5075) upper end can dismantle and be provided with locating clip (5076) that are used for the bonding wire direction.

2. The miniature high-voltage generator high-efficiency linkage welding device according to claim 1, wherein: the welding wire feeding power assembly (203) comprises a first fixed support plate (2031) arranged on one side of the feeding track (202), a driving feeding wheel (2032) rotatably arranged on the first fixed support plate (2031), a second fixed support plate (2033) arranged on one side of the first fixed support plate (2031), a feeding motor (2034) arranged on one side of the second fixed support plate (2033), a movable support plate (2035) slidably arranged on the second fixed support plate (2033), a driven feeding wheel (2036) rotatably arranged on the movable support plate (2035), and an output shaft on the feeding motor (2034) rotatably penetrates through the second fixed support plate (2033) and the first fixed support plate (2031), wherein the driving feeding wheel (2032) is sleeved on the output shaft of the feeding motor (2034).

3. The miniature high-voltage generator high-efficiency linkage welding device according to claim 2, wherein: the bonding wire trimming peeling mechanism (3) comprises a trimming air cylinder (301) arranged on one side of a second fixing support plate (2033), an upper connecting frame (302) connected with a first output end of the trimming air cylinder (301), a lower connecting frame (303) connected with a second output end of the trimming air cylinder (301), an upper trimming cutter (304) detachably arranged on the upper connecting frame (302), a lower trimming cutter (305) detachably arranged on the lower connecting frame (303), and the trimming air cylinder (301) drives the upper connecting frame (302) and the lower connecting frame (303) to vertically move.

4. The miniature high-voltage generator high-efficiency linkage welding device according to claim 1, wherein: the welding wire clamping and moving mechanism (4) comprises a fixing frame (401) arranged on the workbench (1) in a sliding manner, a rotating motor (402) arranged on the fixing frame (401), a curve motion connecting plate (403) detachably arranged on the upper portion of the fixing frame (401), a transmission rod (404) connected with an output shaft of the rotating motor (402), a linkage frame (405) and at least 1 welding wire clamping assembly (406) detachably arranged on the linkage frame (405), a curve sliding groove (4031) is formed in the curve sliding groove (403), a sliding shaft (407) is arranged in the curve sliding groove (4031), the sliding shaft (407) penetrates through the transmission rod (404), one end of the sliding shaft (407) is connected with a transmission plate (408), the transmission plate (408) is in sliding connection with the fixing frame (401), and the transmission plate (408) is detachably connected with the linkage frame (405).

5. The miniature high-voltage generator high-efficiency linkage welding device according to claim 1, wherein: and a plurality of leveling wheels (204) which are arranged in a staggered manner are rotatably arranged on the side surface of the feeding track (202), and the welding wires pass through the upper leveling wheels (204) and the lower leveling wheels (204).

6. The miniature high-voltage generator high-efficiency linkage welding device according to claim 2, wherein: the first fixed support plate (2031) is detachably provided with 2 guide blocks (205), and the 2 guide blocks (205) are respectively located on two sides of the driving feeding wheel (2032).

7. The miniature high-voltage generator high-efficiency linkage welding device according to claim 6, wherein: the guide block (205) is provided with a guide pipe (206), and the guide block (205) and the guide pipe (206) are coaxially arranged.

8. The miniature high-voltage generator high-efficiency linkage welding device according to claim 4, wherein: the wire clamping assembly (406) comprises a clamping cylinder (4061) and a clamping jaw (4062) arranged at the output end of the clamping cylinder (4061).