CN216576350U - Regular welding set of electrically conductive pin counterpoint of electron cigarette heating screen - Google Patents

Abstract

The utility model discloses an electronic cigarette heating mesh conductive pin alignment and arrangement welding device, which comprises: a work platform provided with a positioning welding area; the clamping mechanism comprises a first clamping part, a second clamping part, a first power device and a second power device, wherein the first power device and the second power device are respectively used for driving the first clamping part and the second clamping part to oppositely clamp two sides of the conductive pin; the material ejecting mechanism is arranged below the positioning welding area; the material ejecting mechanism comprises a third power device, a supporting platform arranged at the power output end of the third power device, a fourth power device and an ejecting rod arranged at the power output end of the fourth power device, and the ejecting rod is provided with a propping part; when the first clamping part and the second clamping part clamp two sides of the conductive pin in an involutive way, the first clamping part and the second clamping part are provided with a position avoiding groove for allowing the abutting part to extend into the moving part; the first power device and the second power device are both arranged on the supporting platform. This device aims at improving the counterpoint precision of electrically conductive pin and waiting to weld the product, improves the product yields.

Description

Regular welding set of electrically conductive pin counterpoint of electron cigarette heating screen

Technical Field

The application relates to the technical field of electronic cigarette heating mesh processing devices, in particular to an aligning and regular welding device for conductive pins of an electronic cigarette heating mesh.

Background

Referring to fig. 12, a strip-shaped or long plate-shaped processed product body 12 is provided with a plurality of to-be-welded products 14 which are arranged at intervals and need to be welded with conductive pins 13; these products to be welded 14 are electronic cigarette heat-generating web elements.

If the product 14 to be welded on the product body 12 to be processed and the conductive pin 13 are not in the same relative position during welding, the relative position is irregular, the product is deviated, or the product and the conductive pin are not tightly attached, poor welding can be caused, and unqualified products can be produced.

At present, no equipment for aligning the electronic cigarette heating mesh with the conductive pins 13 is arranged in an electronic cigarette heating mesh processing welding machine, so that the welded product is low in yield, and the cost is wasted.

Disclosure of Invention

The utility model mainly aims at the problems and provides an aligning and regular welding device for conductive pins of a heating net piece of an electronic cigarette, aiming at improving the aligning precision of the conductive pins and products to be welded and improving the yield of the products.

In order to achieve the above object, the present invention provides an aligning and regular welding device for conductive pins of a heating mesh of an electronic cigarette, comprising:

the working platform is provided with a positioning welding area and is used for supporting a main body of a processed product;

the clamping mechanism comprises a first clamping part, a second clamping part, a first power device and a second power device, wherein the first power device and the second power device are used for driving the first clamping part and the second clamping part to oppositely clamp two sides of the conductive pin respectively;

the ejection mechanism is arranged below the positioning welding area; the material ejecting mechanism comprises a third power device, a supporting platform arranged at the power output end of the third power device, a fourth power device and an ejecting rod arranged at the power output end of the fourth power device, and the ejecting rod is provided with a supporting part; when the first power device and the second power device respectively drive the first clamping part and the second clamping part to oppositely clamp two sides of the conductive pin, the first clamping part and the second clamping part are provided with a position avoiding groove for allowing the abutting part to extend into the conductive pin;

the first power device and the second power device are both arranged on the supporting platform; and after the third power device drives the supporting platform to move so that the first clamping part and the second clamping part extend into the positioning welding area, the fourth power device drives the ejector rod to move towards the main body of the processed product so that the abutting part pushes the conductive pin to the welding position of the product to be welded along the avoiding groove.

The pressing mechanism comprises a fifth power device and a pressing block arranged at the power output end of the fifth power device; and the fifth power device is used for driving the pressing block to abut against and position the upper end surface of the product to be welded.

Further, including magnet, magnet is close to first clamping part, the setting of second clamping part, magnet is used for first clamping part, second clamping part stretch into behind the positioning weld area, adsorb the location by the processing product main part.

Furthermore, the device also comprises two oppositely arranged limit plates; a limiting gap for allowing the conductive pin to pass through is arranged between the two limiting plates; the limiting plate is arranged below the positioning welding area and adjacent to the positioning welding area.

Furthermore, the pressing mechanism further comprises a mounting seat, a first linear guide rail arranged on the mounting seat, and a first sliding seat in sliding connection with the first linear guide rail, wherein one end of the first sliding seat is connected with the power output end of the fifth power device, and the other end of the first sliding seat is connected with the pressing block;

the mounting seat and the working platform are arranged in a relatively inclined mode, and the fifth power device is used for driving the first sliding seat to move relative to the positioning welding area along the inclined direction of the mounting seat.

Furthermore, the clamping mechanism further comprises a second linear guide rail arranged on the supporting platform, a second sliding seat connected with the second linear guide rail in a sliding manner, and a third sliding seat connected with the second linear guide rail in a sliding manner; the power output ends of the first power device and the second power device are respectively connected with the second sliding seat and the third sliding seat; the first clamping part and the second clamping part are respectively arranged on the second sliding seat and the third sliding seat.

Further, the material ejecting mechanism further comprises a third linear guide rail and a fourth sliding seat in sliding connection with the third linear guide rail; one end of the fourth sliding seat is connected with the power output end of the third power device, and the other end of the fourth sliding seat is connected with the supporting platform.

Further, the material ejecting mechanism further comprises a fourth linear guide rail and a fifth sliding seat in sliding connection with the fourth linear guide rail; the ejector rod is connected with the fifth sliding seat.

Furthermore, the working platform is provided with a guide groove for guiding the processed product and a guide cover plate for limiting the upper end surface of the processed product.

The device further comprises a supporting base, a first supporting frame, a second supporting frame, a third supporting frame and a connecting plate connected with the supporting platform; the first support frame, the second support frame and the third support frame are all arranged on the support base; the working platform is erected on the first support frame; the limiting plate is arranged on the second supporting frame; the third linear guide rail is arranged on the third support frame; the fourth linear guide rail is arranged on the connecting plate; the supporting platform is provided with limiting blocks which are arranged corresponding to the first power device and the second power device, and the limiting blocks are used for limiting the driving strokes of the first power device and the second power device; and one side of each limiting plate, which is adjacent to the limiting gap, is provided with a cutting edge.

Compared with the prior art, the alignment and arrangement welding device for the conductive pins of the heating net piece of the electronic cigarette, provided by the utility model, can convey the conductive pins to the welding position in an automatic and accurate manner through the clamping mechanism and the material ejecting mechanism, and the first clamping part, the second clamping part and the abutting part position three sides of the conductive pins, so that the upper sides of the conductive pins are well abutted and aligned with the lower end faces of products to be welded, the subsequent welding accuracy is improved, and the conductive pins are welded on the products to be welded on the main body of the processed product with high quality.

Drawings

Fig. 1 is the structural schematic diagram of the alignment and arrangement welding device for conductive pins of the heating mesh of the electronic cigarette.

Fig. 2 is the structural schematic diagram of the alignment and arrangement welding device for the conductive pins of the heating mesh of the electronic cigarette.

Fig. 3 is a schematic structural view of a clamping mechanism, a material ejecting mechanism and a supporting base of the aligning and arranging welding device for the conductive pins of the heating mesh of the electronic cigarette.

Fig. 4 is an enlarged view of fig. 3 at a.

Fig. 5 is an exploded view of the structure of the ejection mechanism of the aligning and welding device for the conductive pins of the heating mesh of the electronic cigarette.

Fig. 6 is a clamping mechanism structure schematic diagram of the electronic cigarette heating mesh conductive pin aligning and arranging welding device.

Fig. 7 is a schematic structural diagram of a first clamping portion, a second clamping portion, and a supporting portion of the alignment and arrangement welding device for conductive pins of an electronic cigarette heating mesh.

Fig. 8 is a top view of the electronic cigarette heating mesh conductive pin aligning and leveling welding device when the first clamping portion and the second clamping portion are oppositely arranged and clamp two sides of the conductive pin.

Fig. 9 is a schematic structural view of a working platform, a support base and a first support frame of the aligning and arranging welding device for conductive pins of a heating mesh of an electronic cigarette.

Fig. 10 is a limiting plate, second support frame, supporting base structural sketch of the electronic cigarette heating mesh conductive pin alignment regular welding device of the present application.

Fig. 11 is an enlarged view of fig. 10 at B.

Fig. 12 is a schematic structural diagram of a processed product body, a product to be welded on the processed product body, and a conductive pin.

Reference numerals shown in the drawings: 1. a working platform; 110. positioning the welding area; 120. a guide groove; 130. a material guiding cover plate; 2. a clamping mechanism; 210. a first clamping portion; 215. a position avoiding groove; 220. a second clamping portion; 230. a first power unit; 240. a second power unit; 250. a second linear guide; 260. a second slide carriage; 270. a third slide carriage; 3. a material ejecting mechanism; 310. a third power unit; 320. a support platform; 321. a limiting block; 330. a fourth power unit; 340. a lifter bar; 341. a holding portion; 350. a third linear guide rail; 360. a fourth slider; 370. a fourth linear guide; 380. a fifth slider; 381. a buffer block; 4. a material pressing mechanism; 410. a fifth power plant; 420. briquetting; 430. a mounting seat; 440. a first linear guide rail; 450. a first slider; 5. a magnet; 6. a limiting plate; 610. limiting the gap; 620. a blade; 7. a support base; 8. a first support frame; 9. a second support frame; 10. a third support frame; 11. a connecting plate; 12. a processed product main body; 13. a conductive pin; 14. the product is to be welded.

Detailed Description

Referring to fig. 1 to 12, the embodiment provides an aligning and soldering device for conductive pins of a heating mesh of an electronic cigarette, including: the device comprises a working platform 1, a clamping mechanism 2 and a material ejecting mechanism 3; the working platform 1 is provided with a positioning welding area 110, and the working platform 1 is used for supporting the processed product main body 12; the clamping mechanism 2 comprises a first clamping part 210, a second clamping part 220, a first power device 230 and a second power device 240, wherein the first clamping part 210 and the second clamping part 220 are respectively driven to oppositely clamp two sides of the conductive pin 13; the material ejecting mechanism 3 is arranged below the positioning welding area 110; the material ejecting mechanism 3 comprises a third power device 310, a supporting platform 320 arranged at the power output end of the third power device 310, a fourth power device 330, and an ejecting rod 340 arranged at the power output end of the fourth power device 330, wherein the ejecting rod 340 is provided with a butting part 341; when the first power device 230 and the second power device 240 respectively drive the first clamping portion 210 and the second clamping portion 220 to clamp two sides of the conductive pin 13 in an involution manner, the first clamping portion 210 and the second clamping portion 220 have the avoiding groove 215 for allowing the abutting portion 341 to extend into;

wherein, the first power device 230 and the second power device 240 are both mounted on the supporting platform 320; after the third power device 310 drives the supporting platform 320 to move so that the first clamping portion 210 and the second clamping portion 220 extend into the positioning welding region 110, the fourth power device 330 drives the ejector rod 340 to move toward the processed product main body 12, so that the abutting portion 341 abuts the conductive pin 13 to the welding position of the product 14 to be welded along the avoiding groove 215.

The raw material of the conductive pin 13 is conveyed to the position of the clamping mechanism 2 by a feeding device (not shown), the first power device 230 and the second power device 240 respectively drive the first clamping portion 210 and the second clamping portion 220 to clamp two sides of the conductive pin 13 in an involutory manner, then the third power device 310 of the liftout mechanism 3 drives the supporting platform 320 to move so that the first clamping portion 210 and the second clamping portion 220 rise and extend into the positioning welding area 110, after the upper end surfaces of the first clamping portion 210 and the second clamping portion 220 are approximately contacted with the lower end surface of the processed product main body 12, the third power device 310 stops driving the supporting platform 320 to move, the fourth power device 330 drives the liftout rod 340 to move towards the processed product main body 12 so that the to-be-clamped portion 341 pushes the conductive pin 13 to the welding position of the product 14 along the avoiding grooves 215 of the first clamping portion 210 and the second clamping portion 220, at this time, the left and right side surfaces of the conductive pin 13 are clamped by the first clamping portion 210 and the second clamping portion 220, the position is accurately limited, the abutting portion 341 abuts against the lower side surface of the conductive pin 13, so that the upper side surface of the conductive pin 13 is tightly abutted against the lower end surface of the product 14 to be welded on the processed product main body 12, the position where the conductive pin 13 is in contact with the product 14 to be welded is a welding position, and then the product 14 to be welded and the conductive pin 13 are welded and connected into a whole through a welder (not shown).

After welding, the fourth power device 330 drives the ejector beam 340 to move away from the welding position; the first power device 230 and the second power device 240 respectively drive the first clamping portion 210 and the second clamping portion 220 to be relatively far away from each other, so that clamping on two sides of the conductive pin 13 is cancelled; the third power device 310 drives the supporting platform 320 to move downward, so that the first clamping portion 210 and the second clamping portion 220 move out of the positioning welding area 110; the main body 12 of the product to be processed is transported and moved by a pulling device (not shown), so that the product on the main body 12 of the product to be processed, on which the conductive pins 13 are welded, is moved away from the welding position, and the product to be welded 14 is moved to the welding position.

The raw material of the conductive pin 13 is conveyed to the position of the clamping mechanism 2 by the feeding device, the first power device 230 and the second power device 240 respectively drive the first clamping portion 210 and the second clamping portion 220 to oppositely clamp two sides of the conductive pin 13, and the above process is repeated subsequently, and the steps are repeated in a reciprocating cycle manner.

The conducting pin 13 is conveyed to a welding position through the automatic and accurate regular land preparation of the clamping mechanism 2 and the material ejecting mechanism 3, the first clamping part 210, the second clamping part 220 and the abutting part 341 position three side faces of the conducting pin 13, so that the upper side face of the conducting pin 13 is well abutted and aligned with the lower end face of a product 14 to be welded, the welding accuracy is improved, and the conducting pin 13 is welded on the product 14 to be welded on the processed product main body 12 at high quality.

Preferably, the involution part of the first clamping part 210 and the second clamping part 220 is a spaced tooth structure; spacing grooves are formed between adjacent toothed plates, and the abutting part 341 is in a structure of a spacing toothed plate corresponding to the spacing grooves; the welding device is a laser type welding device; the first power device 230, the second power device 240, the third power device 310 and the fourth power device 330 are all cylinders; the positioning welding area 110 is a clearance through groove arranged on the working platform 1.

Because the utility model focuses on how to regularly convey the conductive pins 13 to the welding position, the upper side surfaces of the conductive pins 13 are well attached to and aligned with the lower end surfaces of products 14 to be welded, and further the subsequent welding has high precision; the welder, the feeding device and the pulling device are not the innovative focus of the utility model, and are not further described here.

Referring to fig. 1 and fig. 2, the pressing device 4 further includes a fifth power device 410, and a pressing block 420 installed at an output end of the fifth power device 410; the fifth power device 410 is used for driving the pressing block 420 to abut against and position the upper end surface of the product to be welded.

Since the third power device 310 of the ejector mechanism 3 is lifted up to drive the supporting platform 320, the upper end surfaces of the first clamping portion 210 and the second clamping portion 220 are approximately abutted against the lower end surface of the processed product main body 12, the fourth power device 330 drives the ejector rod 340, the abutting portion 341 moves along the avoiding groove 215 to push the conductive pin 13 to the welding position of the product to be welded 14, and also generates an abutting force on the product to be welded 14, before the conductive pin 13 is loaded to the welding position by the ejector mechanism 3, the press block 420 is driven by the fifth power device 410 to abut against and position the upper end surface of the product to be welded on the processed product main body 12 positioned on the positioning 110, so as to provide support, and prevent the first clamping portion 210, the second clamping portion 220, and the abutting portion 341 from abutting against the processed product main body 12 and the product to be welded 14, which causes the processed product main body 12 and the product to be welded 14 to move and/or deform, affecting the accuracy of subsequent welds.

Referring to fig. 3 and 4, the positioning device includes a magnet 5, the magnet 5 is disposed adjacent to the first clamping portion 210 and the second clamping portion 220, and the magnet 5 is used for attracting and positioning the processed product main body 12 after the first clamping portion 210 and the second clamping portion 220 extend into the positioning welding region 110.

The magnet 5 is substantially disposed in the first clamping portion 210 and the second clamping portion 220, and when the third power unit 310 is lifted on the drive support platform 320, the magnet 5 also approaches the lower end surface of the workpiece main body 12 positioned in the positioning welding region 110 as the first clamping portion 210 and the second clamping portion 220 approach the lower end surface of the workpiece main body 12, and finally attracts the lower end surface of the workpiece main body 12.

After the conductive pin 13 is pushed to the welding position of the product to be welded 14 by the abutting portion 341 of the ejector rod 340, the fifth power device 410 is used for driving the press block 420 to move, canceling the abutting positioning of the upper end surface of the product to be welded, and avoiding the position to prevent the press block 420 from shielding the upper part of the product to be welded 14 and shielding the welding position, so that a welder arranged right above the welding position cannot weld the conductive pin 13 and the product to be welded into a whole. After the pressing block 420 cancels the abutting of the upper end face of the processed product main body 12, the magnet 5 can better continue to provide the force which is opposite to the abutting of the first clamping part 210, the second clamping part 220 and the abutting part 341 against the processed product main body 12 and the product 14 to be welded, the processed product main body 12 is sucked and pulled, and the force in the two opposite directions enables the conductive pin 13 to be more tightly abutted against the product 14 to be welded and the subsequent welding to be more firm.

In some embodiments, the fifth power device 410 is a rotary pressing cylinder, the rotary pressing cylinder drives the pressing block 420 to abut against and position the upper end surface of the product to be welded, and the rotary pressing cylinder drives the pressing block 420 to cancel the abutting against and position the upper end surface of the product to be welded before the welding device is used to weld the conductive pin 13 and the product to be welded, so as to perform the avoiding.

Referring to fig. 10 and 11, the device further includes two opposite limiting plates 6; a limiting gap 610 for allowing the conductive pin 13 to pass through is arranged between the two limiting plates 6; the position restriction plate 6 is disposed adjacent to and below the positioning land 110.

In some embodiments, the raw material of the conductive pin 13 is made of an OK wire (insulation covered wire) stripped of insulation, the outer diameter of the conductive pin 13 without insulation stripping is thicker than the conductive pin 13 stripped of insulation stripping, the conductive pin 13 without insulation stripping obviously cannot be welded with a product to be welded into a whole, the raw material of the conductive pin 13 is conveyed to the clamping mechanism 2 through the limiting gap 610 by the feeding device, the first power device 230 and the second power device 240 respectively drive the first clamping portion 210 and the second clamping portion 220 to clamp two sides of the conductive pin 13 conveyed from the limiting gap 610 in an involution manner, and the feeding of the conductive pin 13 without insulation stripping to the welding position is prevented through the limiting gap 610 between the two limiting plates 6.

Referring to fig. 1 and fig. 2, the swaging mechanism 4 further includes a mounting base 430, a first linear guide rail 440 disposed on the mounting base 430, and a first sliding seat 450 slidably connected to the first linear guide rail 440, wherein one end of the first sliding seat 450 is connected to a power output end of the fifth power device 410, and the other end is connected to the pressing block 420; the mounting base 430 is disposed to be inclined relative to the working platform 1, and the fifth power device 410 is configured to drive the first sliding base 450 to move relative to the positioning welding area 110 along the inclined direction of the mounting base 430.

The mounting base 430 is obliquely mounted on the working platform 1, when the fifth power device 410 selects an air cylinder, an oblique pull air cylinder mechanism is formed, a power output end of the air cylinder is connected with one end of the first sliding base 450, the pressing block 420 is indirectly connected with the power output end of the air cylinder through the first sliding base 450, because the first linear guide rail 440 is arranged on the mounting base 430, the first linear guide rail 440 and the first sliding base 450 are also oblique, when a piston rod of the air cylinder serving as the fifth power device 410 extends out, the first sliding base 450 moves towards the oblique upper side along the first linear guide rail 440, the pressing block 420 also moves along the first sliding base 450, the upper end face of a product to be welded is cancelled to be positioned in a supporting mode, and the welding work of the welding device is avoided. The first slide seat 450 is slidably connected with the first linear guide rail 440, so that the pressing block 420 moves relative to the main body 12 of the product to be processed, and the product to be welded 14 is accurately abutted to provide directional guidance, thereby improving the processing quality.

Referring to fig. 2 and 6, the clamping mechanism 2 further includes a second linear guide 250 mounted on the supporting platform 320, a second slide 260 slidably connected to the second linear guide 250, and a third slide 270 slidably connected to the second linear guide 250; the power output ends of the first power device 230 and the second power device 240 are respectively connected with the second sliding seat 260 and the third sliding seat 270; the first clamping portion 210 and the second clamping portion 220 are respectively disposed on the second slider 260 and the third slider 270.

The first clamping portion 210 and the second clamping portion 220 are indirectly connected to the power output ends of the first power device 230 and the second power device 240 through the second slide carriage 260 and the third slide carriage 270, respectively.

The second slide carriage 260, the third slide carriage 270 and the second linear guide 250 are connected in a sliding manner, so that the first clamping part 210 and the second clamping part 220 move relatively to clamp two sides of the conductive pin 13, direction guidance is provided for accurate clamping, and the processing quality is improved; and the second slide 260 and the third slide 270 share the second linear guide rail 250 to slide, so that the material cost is saved, and the design is ingenious and reasonable.

Referring to fig. 2, fig. 3 and fig. 5, the material ejecting mechanism 3 further includes a third linear guide 350 and a fourth slide 360 slidably connected to the third linear guide 350; one end of the fourth sliding seat 360 is connected with the power output end of the third power device 310, and the other end is connected with the supporting platform 320.

The supporting platform 320 is indirectly connected with the power output end of the third power device 310 through the fourth sliding seat 360, and the fourth sliding seat 360 and the third linear guide 350 provide direction guidance for the third power device 310 to drive the supporting platform 320 to lift in a sliding connection manner, so that the first clamping part 210 and the second clamping part 220 of the clamping mechanism 2 arranged on the supporting platform 320 are prevented from carrying the conductive pins 13 to the positioning welding area 110 and deflecting, and the processing quality is improved.

Referring to fig. 2, fig. 3 and fig. 5, the ejector mechanism 3 further includes a fourth linear guide 370, and a fifth slider 380 slidably connected to the fourth linear guide 370; the ejector pin 340 is connected to a fifth slider 380.

The ejector rod 340 is connected with the fifth sliding seat 380, and the guide relationship of the sliding connection of the fifth sliding seat 380 and the fourth linear guide rail 370 can be utilized, so that the fourth power device 330 drives the ejector rod 340 to prevent the abutting portion 341 from abutting the conductive pin 13 to the welding position of the product 14 to be welded to be inclined along the avoiding grooves 215 of the first clamping portion 210 and the second clamping portion 220, and the processing quality is improved.

Referring to fig. 1, 2 and 9, the work platform 1 is provided with a guide groove 120 for guiding the main body 12 of the processed product, and a material guiding cover plate 130 for limiting the upper end surface of the main body 12 of the processed product.

Guide groove 120 is spacing to two sides by processing product main part 12, and guide apron 130 is spacing to the up end of by processing product main part 12, and it is more accurate to further make by processing product main part 12 feeding, makes by processing product main part 12 on treat that welded product 14 can more accurate arrival welding, by conductive pin 13 paste, more accurate during follow-up welding.

Referring to fig. 1-3, 4, 5, 9 and 10, the present invention includes a supporting base 7, a first supporting frame 8, a second supporting frame 9, a third supporting frame 10, and a connecting plate 11 connected to a supporting platform 320; the first support frame 8, the second support frame 9 and the third support frame 10 are all arranged on the support base 7; the working platform 1 is erected on the first support frame 8; the limiting plate 6 is arranged on the second support frame 9; the third linear guide 350 is mounted on the third support frame 10; the fourth linear guide 370 is mounted on the connection plate 11; the supporting platform 320 is provided with a limiting block 321 corresponding to the first power device 230 and the second power device 240, and the limiting block 321 is used for limiting the driving stroke of the first power device 230 and the second power device 240; and one side of each of the two limit plates 6 adjacent to the limit gap 610 is provided with a blade 620.

The limiting block 321 is used for limiting the driving stroke of the first power device 230 and the second power device 240, and preventing the conductive pins 13 from being damaged due to the excessive involution of the first clamping portion 210 and the second clamping portion 220 when the power output of the first power device 230 and the second power device 240 is unstable.

The limiting gap 610 blocks the insulation skin stripped off by the OK wire, and the blade 620 on the limiting plate 6 strips and scrapes the excess insulation skin of the conductive pin 13 with insufficient insulation skin stripping, so that the insulation skin stripped off by the OK wire is prevented from entering the positioning welding area 110 through the limiting gap 610, and the unqualified conductive pin 13 is loaded to the welding position.

Preferably, the connecting plate 11 is also provided with a limit block 321 for limiting the moving stroke of the fifth slider 380. The fifth slider 380 is further provided with a buffer block 381 corresponding to the stopper 321 to prevent rigid collision.

Claims (10)

1. The utility model provides a regular welding set of electron cigarette heating mesh piece conductive pin counterpoint which characterized in that includes:

the working platform is provided with a positioning welding area and is used for supporting a main body of a processed product;

the clamping mechanism comprises a first clamping part, a second clamping part, a first power device and a second power device, wherein the first power device and the second power device are used for driving the first clamping part and the second clamping part to oppositely clamp two sides of the conductive pin respectively;

the ejection mechanism is arranged below the positioning welding area; the material ejecting mechanism comprises a third power device, a supporting platform arranged at the power output end of the third power device, a fourth power device and an ejecting rod arranged at the power output end of the fourth power device, and the ejecting rod is provided with a supporting part; when the first power device and the second power device respectively drive the first clamping part and the second clamping part to oppositely clamp two sides of the conductive pin, the first clamping part and the second clamping part are provided with an avoiding groove for allowing the abutting part to extend into the moving part;

the first power device and the second power device are both arranged on the supporting platform; and after the third power device drives the supporting platform to move so that the first clamping part and the second clamping part extend into the positioning welding area, the fourth power device drives the ejector rod to move towards the main body of the processed product so that the abutting part pushes the conductive pin to the welding position of the product to be welded along the avoiding groove.

2. The aligning and regular welding device for the conductive pins of the heating mesh sheet of the electronic cigarette according to claim 1, further comprising a pressing mechanism, wherein the pressing mechanism comprises a fifth power device and a pressing block mounted at a power output end of the fifth power device; and the fifth power device is used for driving the pressing block to abut against and position the upper end surface of the product to be welded.

3. The electronic cigarette heating mesh piece conductive pin aligning and arranging welding device as claimed in claim 1, comprising magnets, wherein the magnets are disposed adjacent to the first clamping portion and the second clamping portion, and the magnets are used for adsorbing and positioning the processed product main body after the first clamping portion and the second clamping portion extend into the positioning welding area.

4. The electronic cigarette heating mesh piece conductive pin alignment regulation welding device according to claim 1, further comprising two oppositely arranged limiting plates; a limiting gap for allowing the conductive pin to pass through is arranged between the two limiting plates; the limiting plate is arranged below the positioning welding area and adjacent to the positioning welding area.

5. The aligning and regular welding device for the conductive pins of the heating mesh sheet of the electronic cigarette as claimed in claim 2, wherein the pressing mechanism further comprises a mounting base, a first linear guide rail arranged on the mounting base, and a first sliding seat slidably connected with the first linear guide rail, one end of the first sliding seat is connected with the power output end of the fifth power device, and the other end of the first sliding seat is connected with the pressing block;

the mounting seat and the working platform are arranged in a relatively inclined mode, and the fifth power device is used for driving the first sliding seat to move relative to the positioning welding area along the inclined direction of the mounting seat.

6. The aligning and orderly welding device for the conductive pins of the heating screen of the electronic cigarette as recited in claim 1, wherein the clamping mechanism further comprises a second linear guide rail mounted on the supporting platform, a second slide carriage slidably connected with the second linear guide rail, and a third slide carriage slidably connected with the second linear guide rail; the power output ends of the first power device and the second power device are respectively connected with the second sliding seat and the third sliding seat; the first clamping part and the second clamping part are respectively arranged on the second sliding seat and the third sliding seat.

7. The alignment and regulation welding device for the conductive pins of the heating mesh sheet of the electronic cigarette as recited in claim 4, wherein the material ejecting mechanism further comprises a third linear guide rail and a fourth slide carriage slidably connected with the third linear guide rail; one end of the fourth sliding seat is connected with the power output end of the third power device, and the other end of the fourth sliding seat is connected with the supporting platform.

8. The aligning and regulating welding device for the conductive pins of the heating mesh sheet of the electronic cigarette according to claim 7, wherein the material ejecting mechanism further comprises a fourth linear guide rail and a fifth slide carriage slidably connected with the fourth linear guide rail; the ejector rod is connected with the fifth sliding seat.

9. The aligning and regular welding device for the conductive pins of the heating mesh sheet of the electronic cigarette as claimed in claim 1, wherein the working platform is provided with a guide groove for guiding the processed product and a guide cover plate for limiting the upper end surface of the processed product.

10. The electronic cigarette heating mesh piece conductive pin aligning and arranging welding device of claim 8, comprising a support base, a first support frame, a second support frame, a third support frame, and a connecting plate connected with the support platform; the first support frame, the second support frame and the third support frame are all arranged on the support base; the working platform is erected on the first support frame; the limiting plate is arranged on the second supporting frame; the third linear guide rail is arranged on the third support frame; the fourth linear guide rail is arranged on the connecting plate; the supporting platform is provided with limiting blocks which are arranged corresponding to the first power device and the second power device, and the limiting blocks are used for limiting the driving strokes of the first power device and the second power device; and one side of each limiting plate, which is adjacent to the limiting gap, is provided with a cutting edge.

Images