CN215966882U - Device for bidirectionally welding pin wire on heating net piece - Google Patents

Abstract

The utility model discloses a device for bidirectionally welding pin wires on a heating net piece, which comprises laser welding equipment and two heating net piece stepping mechanisms, wherein each of the two heating net piece stepping mechanisms comprises a conveying platform, the feeding directions of the two conveying platforms are opposite, a welding station is arranged on each conveying platform, a peeling mechanism and a wire feeding mechanism are respectively arranged on two sides of each conveying platform, and each wire feeding mechanism is used for receiving the pin wires peeled by the peeling mechanism and conveying the pin wires to the welding station; an upper pressing mechanism and a lower pressing mechanism for attaching the heating net piece and the pin line are respectively arranged on the upper side and the lower side of the welding station; the laser welding equipment is used for welding the heating net piece and the pin wire of the welding station; the device for bidirectionally welding the pin lines of the heating net piece, disclosed by the utility model, realizes the automatic production of two welding pin lines of the heating net piece by the same laser welding machine, and improves the utilization rate of laser welding equipment.

Description

Device for bidirectionally welding pin wire on heating net piece

Technical Field

The application relates to the technical field of heating component processing of electronic cigarettes, in particular to a device for bidirectionally welding pin lines on a heating net.

Background

Note that the contents described in this section do not represent all the related art.

The electronic cigarette heats the tobacco tar through a heating wire arranged in the electronic cigarette to realize heating atomization, and the electronic cigarette heating net is generally manually welded or automatically welded in a single piece at present in the welding process; for manual welding, pins of a heating net are manually cut, the pins are placed on a welding die through a manual placing disc, then the top layer is covered with the heating net which is etched in advance, and then the die is clamped on a laser welding equipment platform for welding, the heating net which is manually welded has large and infirm welding points, the phenomenon of false welding of insufficient welding is easy to occur, the productivity is low, and a large amount of labor is wasted; for automatic single-strip welding, the four-station turntable automatically conveys nickel wires to welding stations, only one station can be conveyed each time, the efficiency is low, and the utilization rate of laser welding equipment cannot be improved.

Disclosure of Invention

The utility model mainly aims at the problems, provides the device for bidirectionally welding the pin wires of the heating net sheets, realizes the automatic production of two welding pin wires of the heating net sheets by the same laser welding machine, and improves the utilization rate of laser welding equipment.

In order to achieve the purpose, the utility model provides a device for bidirectionally welding pin wires on a heating net piece, which comprises laser welding equipment and two heating net piece stepping mechanisms, wherein each of the two heating net piece stepping mechanisms comprises a conveying platform, the feeding directions of the two conveying platforms are opposite, a welding station is arranged on each conveying platform, a peeling mechanism and a wire feeding mechanism are respectively arranged on two sides of each conveying platform, and each wire feeding mechanism is used for receiving the pin wires peeled by the peeling mechanism and conveying the pin wires to the welding station; an upper pressing mechanism and a lower pressing mechanism for attaching the heating net piece and the pin line are respectively arranged on the upper side and the lower side of the welding station; the laser welding equipment is used for welding the heating net piece and the pin wire of the welding station.

Further, the conveying platform is provided with a material belt groove for accommodating the heating net piece to be conveyed, a through opening is formed in the material belt groove, a positioning mechanism is arranged at the lower end of the opening and comprises a thimble capable of extending into the opening and the heating net piece through hole, and the thimble is connected with a thimble pushing cylinder.

Further, the peeling mechanism comprises a first pneumatic finger claw, a second pneumatic finger claw and a peeling cylinder for driving the first pneumatic finger claw or the second pneumatic finger claw to move, and peeling knife seats and peeling blades are arranged on the first pneumatic finger claw and the second pneumatic finger claw.

Further, the wire feeding mechanism comprises a wire feeding vertical plate, a wire feeding guide rail, a wire feeding motor and at least two sets of wire feeding rollers are arranged on the wire feeding vertical plate, wire feeding driving belts are arranged on the two sets of wire feeding rollers, and finger clamping cylinders for clamping pin wires are arranged on the wire feeding driving belts.

Further, the upper pressing mechanism comprises a belt pressing cylinder, a belt pressing slider connecting plate is arranged at the conveying end of the belt pressing cylinder, a belt pressing plate is arranged on the belt pressing slider connecting plate, and the belt pressing cylinder drives the belt pressing slider connecting plate and the belt pressing plate to move towards the welding station.

Furthermore, the lower pressing mechanism comprises a pressure welding cylinder and a structured clamping cylinder, a line pressing plate is arranged at the output end of the pressure welding cylinder, and the line pressing plate are arranged in an opposite mode; the output end of the regular clamping cylinder is provided with a clamping plate for arranging pin lines.

Compared with the prior art, the device for bidirectionally welding the pin wires on the heating net piece, provided by the utility model, has the advantages that the two heating net piece stepping mechanisms with opposite feeding directions are arranged, the OK pin wires are sent to a welding position after being peeled, the warp yarn arranging and pressing mechanism presses and attaches the pin wires with the heating net piece, the two sides are separated to act, the service time of welding equipment is staggered, the utilization rate of laser welding equipment is maximized, and further the production efficiency is improved and the production quality is ensured.

Drawings

Fig. 1 is a schematic structural view of two heating mesh welding lead wires with opposite feeding directions.

Fig. 2 is a schematic diagram of a partially enlarged structure of the heating mesh and the lead wires.

Fig. 3 is a three-dimensional structure of a device for bidirectionally welding lead wires on a heating mesh disclosed by the present application.

Fig. 4 is a schematic top view of a bidirectional welding lead line of a heat-generating mesh disclosed in the present application.

Fig. 5 is a schematic perspective view of peeling and transferring the OK lead wire to the welding station.

Fig. 6 is a schematic perspective view of the peeling mechanism and the wire feeding mechanism.

Fig. 7 is a schematic structural view of the upper pressing mechanism and the lower pressing mechanism.

Fig. 8 is a schematic perspective view of the positioning mechanism.

Reference numerals shown in the drawings:

100. laser welding equipment;

200. a heating mesh stepping mechanism; 20. a conveying platform; 201. a welding station; 202. a feed trough is arranged; 203. an opening;

300. a peeling mechanism; 30. a first pneumatic finger; 31. a second pneumatic finger; 32. a wire stripping cylinder; 33. a peeling knife holder; 34. a peeling blade;

400. a wire feeding mechanism; 40. a wire feeding vertical plate; 41. a wire feeding guide rail; 42. a wire feeding roller; 43. a wire feeding driving belt; 44. a finger clamping cylinder; 45. a wire feeding motor;

500. a positioning mechanism; 51. a thimble; 52. the thimble pushes the cylinder;

600. an upper pressing mechanism; 60. a belt pressing cylinder; 61. a press belt slider connecting plate; 62. a belt pressing plate;

700. a lower pressing mechanism; 70. a pressure welding cylinder; 71. a structured clamping cylinder; 72. a wire pressing plate; 73. a splint;

800. a heat generating mesh sheet; 801. a through hole; 900. and lead wires.

Detailed Description

The present invention will be described in detail below with reference to the attached drawings, and the technical solutions in the embodiments of the present invention will be clearly and completely described. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are 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 utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

According to the present disclosure, as shown in fig. 1 and fig. 2, the heating mesh sheet 800 and the lead wires 900 are welded by two welding lines with opposite feeding directions, wherein the heating mesh sheet 800 has a plurality of through holes 801 uniformly formed along the length direction.

The composition of the door frame will be described in detail with reference to specific examples.

Fig. 3-8 are schematic diagrams illustrating the structure of a device for bidirectionally welding pin lines on a heating mesh according to a specific example of the present disclosure. As shown in fig. 3 to 8, the laser welding device includes a laser welding apparatus 100 and two heat-generating mesh stepping mechanisms 200, each of the two heat-generating mesh stepping mechanisms 200 includes a conveying platform 20, the feeding directions of the two conveying platforms 20 are opposite, and the conveying platforms 20 are provided with welding stations 201, which are respectively used for conveying two heat-generating meshes 800 shown in fig. 1, and performing welding at the respective welding stations 201.

The two sides of the two conveying platforms 20 are respectively provided with a peeling mechanism 300 and a wire feeding mechanism 400, and the wire feeding mechanism 400 is used for receiving the pin wire 900 peeled by the peeling mechanism 300 and conveying the pin wire to the welding station 201; an upper pressing mechanism 600 and a lower pressing mechanism 700 for attaching the heating net piece 800 and the lead wire 900 are respectively arranged on the upper side and the lower side of the welding station 201; after the arrangement, the two sides of the laser welding equipment 100 are separated to weld, and the service time of the welding equipment is staggered, so that the utilization rate of the laser welding equipment 100 is the highest.

As shown in fig. 8, the conveying platform 20 is provided with a material belt groove 202 for conveying the heating mesh sheet 800, the material belt groove 202 is provided with a through waist-shaped opening 203, the lower end of the waist-shaped opening 203 is provided with a positioning mechanism 500, and the positioning mechanism 500 is used for fixing the heating mesh sheet 800 and the lead wires 900 on the welding station 201 during laser welding, so as to prevent the false welding or the false welding; specifically, the positioning mechanism 500 includes a thimble 51 capable of extending into the opening 203 and the through hole 801 of the heating mesh sheet 800, the thimble 51 is connected to a thimble pushing cylinder 52, and the thimble 51 is driven by the thimble pushing cylinder 52 to extend into the through hole 801 of the heating mesh sheet 800.

In the soldering pretreatment, i.e., the lead wire 900 is in the process of being transported, peeling and cutting operations are required for the lead. Specifically, as shown in fig. 5 and 6, the peeling mechanism 300 in the above embodiment includes a first pneumatic finger 30 and a second pneumatic finger 31, and a peeling cylinder 32 for driving the first pneumatic finger 30 or the second pneumatic finger 31 to move, and both the first pneumatic finger 30 and the second pneumatic finger 31 are provided with a peeling tool seat 33 and a peeling blade 34, it can be understood that the peeling cylinder 32 drives one set of pneumatic fingers to move, and the other set of pneumatic fingers is ensured to be stationary to fix the lead wire 900, so as to realize the peeling process and the cutting process of the lead wire 900.

In the welding pretreatment, the peeled pin is also required to be conveyed. Specifically, as shown in fig. 5 and 6, the wire feeding mechanism 400 includes a wire feeding vertical plate 40, a wire feeding guide rail 41, a wire feeding motor 45 and at least two sets of wire feeding rollers 42 are arranged on the wire feeding vertical plate 40, a wire feeding driving belt 43 is arranged on the two sets of wire feeding rollers 42, a finger clamping cylinder 44 for clamping the lead wire 900 is arranged on the wire feeding driving belt 43, when the lead wire 900 is fed, the wire feeding motor 45 drives the wire feeding roller 42 to rotate to drive the wire feeding driving belt 43 to move, the finger clamping cylinder 44 is pressed on the wire feeding driving belt 43 and moves towards the welding station 201 under the action of the wire feeding driving belt 43, and the finger clamping cylinder 44 is used for clamping the lead wire 900 and feeding the lead wire 900 to the welding position, and then the lead wire 900 and the heating mesh sheet 800 are tightly attached through pressing by a pressing mechanism.

In the bonding process, as shown in fig. 7, the upper pressing mechanism 600 includes a pressing cylinder 60, a pressing slider connecting plate 61 is provided at a feeding end of the pressing cylinder 60, a pressing plate 62 is provided on the pressing slider connecting plate 61, and the pressing cylinder 60 drives the pressing slider connecting plate 61 and the pressing plate 62 to move toward the welding station 201 and press the upper end of the heat-generating mesh sheet 800.

The lower pressing mechanism 700 comprises a pressure welding cylinder 70 and a regulating and clamping cylinder 71, a line pressing plate 72 is arranged at the output end of the pressure welding cylinder 70, the line pressing plate 72 is arranged opposite to the line pressing plate 62, the line pressing plate 72 is driven by the pressure welding cylinder 70 to move towards the welding station 201 and is pressed at the lower ends of the heating net piece 800 and the lead wires 900, and the laser welding equipment 100 can be kept in a fixed state when welding the lead wires 900 and the heating net piece 800 through the matching of the upper pressing mechanism 600 and the lower pressing mechanism 700, so that the phenomenon of insufficient welding and missing welding is avoided; in addition, the output end of the alignment clamp cylinder 71 is provided with a clamp plate 73 for aligning the OK wire 900 to the welding position.

From a reading of the foregoing detailed description, it will be appreciated by those skilled in the art that the utility model can be readily implemented. It should be understood, however, that the intention is not to limit the utility model to the particular embodiments described. On the basis of the embodiments disclosed, a person skilled in the art can combine different features at will, so as to implement different solutions, and can combine different forms of additional functions to form other solutions. The scope of protection of the application is therefore only limited by the scope of the appended claims.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the utility model and are not intended to be limiting. For a person skilled in the art to which the utility model pertains, several simple deductions, modifications or substitutions may be made according to the idea of the utility model.

Claims (6)

1. The device for bidirectionally welding the pin wires on the heating net is characterized by comprising laser welding equipment and two heating net piece stepping mechanisms, wherein each heating net piece stepping mechanism comprises a conveying platform, the feeding directions of the two conveying platforms are opposite, a welding station is arranged on each conveying platform, a peeling mechanism and a wire feeding mechanism are respectively arranged on two sides of each conveying platform, and each wire feeding mechanism is used for receiving the pin wires peeled by the peeling mechanism and conveying the pin wires to the welding station; an upper pressing mechanism and a lower pressing mechanism for attaching the heating net piece and the pin line are respectively arranged on the upper side and the lower side of the welding station; the laser welding equipment is used for welding the heating net piece and the pin wire of the welding station.

2. The device for bidirectionally welding the lead wires for the heating mesh sheets according to claim 1, wherein the conveying platform is provided with a material belt groove for conveying the heating mesh sheets, the material belt groove is provided with a through opening, the lower end of the opening is provided with a positioning mechanism, the positioning mechanism comprises a thimble capable of extending into the opening and the through hole of the heating mesh sheet, and the thimble is connected with a thimble pushing cylinder.

3. The device for bidirectionally welding the lead wires of the heating net piece according to claim 1, wherein the peeling mechanism comprises a first pneumatic finger claw and a second pneumatic finger claw and a peeling cylinder for driving the first pneumatic finger claw or the second pneumatic finger claw to move, and a peeling knife holder and a peeling blade are arranged on each of the first pneumatic finger claw and the second pneumatic finger claw.

4. The device for bidirectionally welding the lead wires of the heating net piece according to claim 1, wherein the wire feeding mechanism comprises a wire feeding vertical plate, the wire feeding vertical plate is provided with a wire feeding guide rail, a wire feeding motor and at least two groups of wire feeding rollers, the two groups of wire feeding rollers are provided with wire feeding driving belts, and the wire feeding driving belts are provided with finger clamping cylinders for clamping the lead wires.

5. The apparatus of claim 1, wherein the upper pressing mechanism comprises a belt pressing cylinder, a belt pressing slider connecting plate is disposed at a conveying end of the belt pressing cylinder, a belt pressing plate is disposed on the belt pressing slider connecting plate, and the belt pressing cylinder drives the belt pressing slider connecting plate and the belt pressing plate to move toward the welding station.

6. The device for bidirectionally welding the lead wires of the heating mesh piece according to claim 5, wherein the lower pressing mechanism comprises a pressure welding cylinder and a regular clamping cylinder, the output end of the pressure welding cylinder is provided with a wire pressing plate, and the wire pressing plate is arranged in right alignment with the wire pressing plate; the output end of the regular clamping cylinder is provided with a clamping plate for arranging pin lines.

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