CN210232190U - Automatic negative wire feeding and welding device for LED T8 lamp tube - Google Patents

Abstract

The application discloses LED T8 fluorescent tube negative line is automatic send line welding set, and it includes: the cutting device comprises a mounting seat, a transmission assembly, a cutting assembly and a welding assembly; the mounting seat is used for fixing a soldering tin wire, and one end of the soldering tin wire extends out of the mounting seat; the transmission component is arranged in front of the mounting seat, is sleeved and connected with one end of the soldering tin wire and is used for driving one end of the soldering tin wire to move forwards to the position below the welding component; the welding assembly is arranged in front of the transmission assembly and is used for welding the soldering tin wires transmitted by the transmission assembly; and the cutting assembly is arranged between the transmission assembly and the welding assembly and is used for cutting the soldering tin line which is welded. This application is through setting up drive assembly, cutting out subassembly, welding assembly, makes the welding negative line realize the full automatization, need not manual operation, reduction in production cost to, LED T8 fluorescent tube negative line is automatic send line welding set still to be provided with the wire assembly, and the wire assembly makes stable from mount pad one end transmission to welder one end of soldering tin line, makes the welding more accurate.

Description

Automatic negative wire feeding and welding device for LED T8 lamp tube

Technical Field

The utility model belongs to the technical field of lamps and lanterns production facility, especially, relate to a negative line automatic welder.

Background

The application of the LED technology in the lighting market at the present stage is deeply popularized, wherein the LED T8 lamp tube has the advantages of energy conservation, long service life, environmental protection, convenience in installation, healthier light rays for human bodies and the like, so that the demand of consumers on the LED T8 lamp tube is increasingly strong. However, at present, the welding of the LED T8 lamp tube mainly depends on manual assembly line assembly, so that manufacturers cannot effectively reduce the production cost, particularly the labor cost; in the current stage, the negative line is welded manually, so that the unification and standardization of the negative line welding are difficult to realize; for the production of large-batch orders, the efficiency of manual operation is far from high enough for the machine efficiency.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

In order to overcome the above insufficiency, the utility model aims to provide an automatic line welding set that send of LED T8 fluorescent tube burden line to it is not high to T8 fluorescent tube welding burden line automation degree now to solve, relies on manual work, leads to welding inefficiency, and manufacturing cost is higher, and burden line welding process is difficult to realize unification, standardized problem.

(II) technical scheme

In order to achieve the purpose, the technical scheme provided by the application is as follows:

the utility model provides an automatic wire feeding welding set that send of LED T8 fluorescent tube negative line, it includes:

the cutting device comprises a mounting seat, a transmission assembly, a cutting assembly and a welding assembly;

the mounting seat is used for fixing a soldering tin wire, and one end of the soldering tin wire extends out of the mounting seat;

the transmission component is arranged in front of the mounting seat, is sleeved and connected with one end of the soldering tin wire and is used for driving one end of the soldering tin wire to move forwards to the position below the welding component;

the welding assembly is arranged in front of the transmission assembly and is used for welding the soldering tin wires transmitted by the transmission assembly;

and the cutting assembly is arranged between the transmission assembly and the welding assembly and is used for cutting the soldering tin line which is welded.

Further, the welding assembly includes: and the welding gun driving device drives the welding gun to move downwards to be in contact with one end of the soldering tin wire.

Further, still include the fixation clamp that sets up below the welding subassembly, the fixation clamp is a toper structure, and the fixation clamp is driven to open or close with the tip of the soldering tin line of gripping transmission from the transmission subassembly.

Further, the transmission assembly includes: guide rail, slider and line ball subassembly, the guide rail is transversely set up to cutting out subassembly one side from mount pad one side, the slider setting on the guide rail and with guide rail sliding fit, set up the through-hole that supplies the soldering tin line to pass on the slider, the line ball subassembly is mutually supported with the slider for the one end forward movement of drive soldering tin line.

Further, the line ball subassembly includes: a first wire pressing member and a second wire pressing member;

the first wire pressing part is arranged on the sliding block and used for pressing the soldering tin wire penetrating out of the through hole, and when the sliding block is driven to move forwards, the sliding block drives the pressed soldering tin wire to move forwards;

the second wire pressing part is arranged in front of the first wire pressing part and used for pressing the solder wires moving forwards.

Further, the first wire pressing member includes: the first channel penetrates through the sliding block and is connected with the sliding block in a sleeved mode, the first channel is used for enabling a soldering tin wire to penetrate through, a first stopping portion of a plane structure is arranged at the front end portion of the first channel, the first pressing driving device is arranged on the sliding block, the shaft end of the first pressing driving device is opposite to the stopping portion, and when the soldering tin wire penetrates out of the front end of the first channel, the shaft end of the first pressing driving device moves towards the first stopping portion and abuts against the first stopping portion to press the soldering tin wire.

Further, the second wire pressing member includes: the fixing base, second passageway and second compress tightly drive arrangement, the fixing base sets up before the slider, be used for fixed second passageway, the second passageway is used for supplying the soldering tin line that wears out from first passageway to pass, the rear end tip of second passageway is provided with the second of a planar structure and keeps off the portion, the second compresses tightly drive arrangement's axle head and the relative setting of second fender portion, penetrate the second passageway and move forward from the second passageway rear end when the soldering tin line, the axle head that the second compressed tightly drive arrangement stops the portion direction to the second and removes and stop the portion with the second and offset, with compressing tightly the soldering tin line after moving forward.

Further, still include: the lead assembly comprises a strip-shaped support, a first lead assembly and a second lead assembly arranged in front of the first lead assembly, the support is arranged between the mounting seat and the transmission assembly, the first lead assembly is vertically arranged on the side wall of the support, the second lead assembly is arranged on the upper end surface of the support along the length direction of the support, and the first lead assembly and the second lead assembly are matched with each other and used for guiding the solder wire to move forwards.

Furthermore, first wire assembly includes that a plurality of upper and lower side by side interval set up the wire wheel on the support lateral wall, and a plurality of upper and lower side by side interval set up the wire wheel be used for preventing soldering tin line shake from top to bottom.

Further, the second wire assembly includes: a plurality of guide wheels which are arranged on the upper end surface of the bracket at intervals side by side at the left and right, and a plurality of guide wheels which are arranged at intervals side by side at the left and right are used for preventing the solder wires from shaking left and right

Borrow by above technical scheme, the beneficial effect of this application lies in: automatic line welding set that send of LED T8 fluorescent tube negative line is through setting up drive assembly, cutting out the subassembly, the welding subassembly, make the welding negative line realize the full automatization, need not manual operation, reduction in production cost, and, the automatic line welding set that send of LED T8 fluorescent tube negative line still is provided with the wire assembly, the wire assembly makes stable from mount pad one end transmission to welder one end of soldering tin line, avoids the shake in the soldering tin line transmission course, makes the welding not accurate.

Drawings

Fig. 1 is a schematic structural view of an automatic negative wire feeding and welding device for an LED T8 lamp tube of the present invention;

fig. 2 is a schematic structural diagram of a welding assembly of the automatic negative wire feeding and welding device for the LED T8 lamp tube of the present invention;

fig. 3 is a schematic structural diagram of a transmission assembly of the automatic negative line feeding and welding device for the LED T8 lamp tube of the present invention;

fig. 4 is a schematic structural view of the wire assembly of the present invention;

reference numerals:

1: a mounting seat; 2: soldering a tin wire; 3: welding the assembly; 4: a wire assembly; 5: a guide rail; 6: a slider; 7: a first channel; 8: a first stopper portion; 9: a first pressing drive device; 10: a fixed seat; 11: a second channel; 12: a second stopper portion; 13: a second pressing drive device; 14: a slider driving device; 15: a first wire assembly; 16: a second wire assembly; 17: a support; 18: a fixing clip; 19: a welding gun; 20: a welding gun driving device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Referring to fig. 1-3, the present invention provides an automatic negative line feeding and welding device for LED T8 lamp tube, which includes: the cutting device comprises a mounting seat 1, a transmission assembly, a cutting assembly and a welding assembly 3;

the mounting seat 1 is used for fixing a soldering tin wire 2, and one end of the soldering tin wire 2 extends out of the mounting seat 1;

the transmission assembly is arranged in front of the mounting seat 1, is sleeved and connected with one end of the soldering tin wire 2 and is used for driving one end of the soldering tin wire 2 to move forwards to the position below the welding assembly 3;

the welding assembly 3 is arranged in front of the transmission assembly and is used for welding the soldering tin wire 2 transmitted by the transmission assembly;

and the cutting assembly is arranged between the transmission assembly and the welding assembly 3 and is used for cutting the soldering tin wire 2 which is welded.

Referring to fig. 2, the welding assembly 3 includes: the welding gun 19 and the welding gun driving device 20 for driving the welding gun 19 to move downwards to contact with one end of the soldering tin wire 2, specifically, the welding gun driving device 20 is an air cylinder, and the air cylinder drives the welding gun 19 to move up and down to weld the soldering tin wire 2 on the light source plate. Preferably, the welding torch 19 is arranged obliquely on the support 17, and the obliquely arranged support 17 can be better inserted into the first end of the lamp tube.

Optionally, a fixing clip 18 is arranged below the welding gun 19, the fixing clip 18 is of a conical structure, a conical tip portion of the fixing clip 18 faces one side of the welding gun 19, and the fixing clip 18 is driven to open or close so as to clamp the end portion of the soldering tin wire 2 transmitted from the transmission assembly, so that the welding gun 19 can stably weld the soldering tin wire 2 to the light source board.

Referring to fig. 3, the transmission assembly includes: guide rail 5, slider 6 and line ball subassembly, guide rail 5 sets up to cutting out subassembly one side direction along mount pad 1, and the line ball subassembly includes: first line ball part and second line ball part, first line ball part sets up on slider 6, second line ball part sets up before first line ball part, slider 6 sets up on guide rail 5, slider drive arrangement 14 drive slider 6 makes a round trip to slide on guide rail 5, slide when slider 6 slides, first line ball part and slider 6 mutually support for the one end forward movement of drive soldering tin line 2, second line ball part is used for compressing tightly soldering tin line 2 after will moving forward.

Referring to fig. 3, in particular, the first wire pressing member includes: the soldering tin wire pressing device comprises a first channel 7 and a first pressing driving device 9, the first channel 7 penetrates through the sliding block 6 and is connected with the sliding block 6 in a sleeved mode, the first channel 7 is used for enabling the soldering tin wire 2 to penetrate through, a first stopping portion 8 of a plane structure is arranged at the front end portion of the first channel 7, the first pressing driving device 9 is arranged on the sliding block 6, the shaft end of the first pressing driving device 9 is opposite to the first stopping portion 8, and when the soldering tin wire 2 penetrates out of the front end of the first channel 7, the shaft end of the first pressing driving device 9 moves towards the first stopping portion 8 and abuts against the first stopping portion 8 to press the soldering tin wire 2.

The second wire pressing member includes: fixing base 10, second passageway 11 and second compress tightly drive arrangement 13, fixing base 10 sets up before guide rail 5, be used for fixed second passageway 11, second passageway 11 transversely overlaps and locates on fixing base 10, the rear end tip of second passageway 11 is provided with a planar structure's second and keeps off portion 12, the axle head that second compressed tightly drive arrangement 13 and second keep off portion 12 relative setting, penetrate second passageway 11 and move forward from second passageway 11 rear end when soldering tin line 2, the axle head that second compressed tightly drive arrangement 13 moves and offsets with second fender portion 12 to second fender portion 12 direction, with compressing tightly soldering tin line 2 after moving forward.

So the circulation process that relapse between first line ball subassembly, second line ball subassembly and the slider 6 will weld tin line 2 and stimulate 19 below welding gun from one side of fixing base 10, avoid the pulling of staff to the bonding wire, improve welded efficiency.

Referring to fig. 4, in an alternative embodiment, the automatic negative line feeding and welding device for the LED T8 lamp tube is further provided with a wire assembly 4, the wire assembly 4 includes a strip-shaped bracket 17, a first wire assembly 15, and a second wire assembly 16 disposed in front of the first wire assembly 15, the bracket 17 is disposed between the mounting base 1 and the transmission assembly, the first wire assembly 15 is vertically disposed on a side wall of the bracket 17, the second wire assembly 16 is disposed on an upper end surface of the bracket 17 along a length direction of the bracket 17, and the first wire assembly 15 and the second wire assembly 16 are matched with each other to guide the welding tin line 2 to move forward, so as to prevent the welding gun 19 from being inaccurate when the welding tin line 2 shakes up and down or left and right.

Specifically, first wire assembly 15 includes a plurality of wire wheels that a plurality of upper and lower parallel intervals set up on the lateral wall of support 17, the wire wheel that upper and lower parallel intervals set up is used for preventing to weld tin line 2 and shakes from top to bottom, second wire assembly 16 sets up a plurality of wire wheels at support 17 plane up end including controlling parallel intervals, a plurality of wire wheels that control parallel intervals and set up are used for preventing to weld tin line 2 and control the shake, through setting up first wire assembly 15 and second wire assembly 16, make that the welding line can be stable move to welder 19 directions, welding process is more accurate.

Through the above, the automatic negative wire feeding device has the following advantages:

the negative wire is automatically welded on the light source plate, so that the negative wire is prevented from being manually welded, the labor cost is saved, the soldering tin wire 2 can be stably pushed forward by arranging the wire guide mechanism, and the soldering tin wire 2 is prevented from swinging left and right or up and down to cause inaccurate welding; through mechanized welding, the negative line welding is unified and standardized, and defective products caused by manual misoperation in welding are reduced.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. The utility model provides an automatic welding set that send of LED T8 fluorescent tube negative line which characterized in that includes: the cutting device comprises a mounting seat, a transmission assembly, a cutting assembly and a welding assembly;

the mounting seat is used for fixing a soldering tin wire, and one end of the soldering tin wire extends out of the mounting seat;

the transmission assembly is arranged in front of the mounting seat, is sleeved and connected with one end of the soldering tin wire and is used for driving one end of the soldering tin wire to move forwards below the welding assembly;

the welding assembly is arranged in front of the transmission assembly and is used for welding the soldering tin wire transmitted by the transmission assembly;

and the cutting assembly is arranged between the transmission assembly and the welding assembly and used for cutting the soldering tin wire after welding.

2. The automatic wire feeding and welding device for the negative wire of the LED T8 lamp tube of claim 1, wherein the welding assembly comprises: and the welding gun driving device drives the welding gun to move downwards to be in contact with one end of the soldering tin wire.

3. The automatic negative wire feeding and welding device for the LED T8 lamp tube of claim 2, further comprising a fixing clip disposed below the welding assembly, wherein the fixing clip has a tapered structure and is driven to open or close to clamp the end of the solder wire transmitted from the transmission assembly.

4. The automatic negative wire feeding and welding device for the LED T8 lamp tube of claim 1, wherein the transmission assembly comprises: the guide rail is transversely arranged from one side of the mounting seat to one side of the cutting assembly, the sliding block is arranged on the guide rail and is in sliding fit with the guide rail, a through hole for the soldering tin wire to pass through is formed in the sliding block, and the wire pressing assembly is matched with the sliding block and is used for driving one end of the soldering tin wire to move forwards.

5. The automatic negative wire feeding and welding device for the LED T8 lamp tube of claim 4, wherein the wire pressing assembly comprises: a first wire pressing member and a second wire pressing member;

the first wire pressing part is arranged on the sliding block and used for pressing the soldering tin wire penetrating out of the through hole, and when the sliding block is driven to move forwards, the sliding block drives the pressed soldering tin wire to move forwards;

the second wire pressing part is arranged in front of the first wire pressing part and used for pressing the solder wires which move forwards.

6. The automatic negative wire feeding and welding device for the LED T8 lamp tube of claim 5, wherein the first wire pressing member comprises: the first channel penetrates through the sliding block and is connected with the sliding block in a sleeved mode, the first channel is used for enabling the soldering tin wire to penetrate through, a first stopping portion of a plane structure is arranged at the front end portion of the first channel, the first pressing driving device is arranged on the sliding block, the shaft end of the first pressing driving device is opposite to the stopping portion, and when the soldering tin wire penetrates out of the front end of the first channel, the shaft end of the first pressing driving device moves towards the first stopping portion and abuts against the first stopping portion to press the soldering tin wire.

7. The automatic negative wire feeding and welding device for the LED T8 lamp tube of claim 6, wherein the second wire pressing member comprises: the fixing seat is arranged in front of the sliding block and used for fixing the second channel, the second channel is used for allowing the solder wire penetrating out of the first channel to pass through, a second blocking part of a planar structure is arranged at the end part of the rear end of the second channel, the shaft end of the second pressing driving device is opposite to the second blocking part, when the solder wire penetrates into the second channel from the rear end of the second channel and moves forwards, the shaft end of the second pressing driving device moves towards the second blocking part and abuts against the second blocking part to press the solder wire moving forwards.

8. The automatic wire feeding and welding device for the negative wire of the LED T8 lamp tube as claimed in any one of claims 1-7, further comprising: the lead assembly comprises a strip-shaped support, a first lead assembly and a second lead assembly arranged in front of the first lead assembly, the support is arranged between the mounting seat and the transmission assembly, the first lead assembly is vertically arranged on the side wall of the support, the second lead assembly is arranged on the upper end face of the support along the length direction of the support, and the first lead assembly and the second lead assembly are matched with each other and used for guiding the solder wire to move forwards.

9. The automatic negative wire feeding and welding device for the LED T8 lamp tube of claim 8, wherein the first wire guiding assembly comprises a plurality of wire guiding wheels spaced side by side up and down on the side wall of the bracket, and the plurality of wire guiding wheels spaced side by side up and down are used for preventing the solder wire from shaking up and down.

10. The automatic negative wire feeding and welding device for the LED T8 lamp tube of claim 9, wherein the second wire assembly comprises: the guide wheels are arranged on the upper end face of the bracket at intervals in a left-right side-by-side mode and used for preventing the solder wires from shaking left and right.

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