CN201997851U - Jig tool for laser direct forming technology - Google Patents

Abstract

The utility model discloses a jig tool for laser direct forming technology, which is characterized by comprising a tooling stick for fixing a workpiece to be processed and a seat for locating the tooling stick. The seat is provided with a V-shaped groove in which the tooling stick is detachably arranged. After overturned at an angle, the tooling stick still can be placed in the V-shaped groove. The workpiece to be processed is disposed on the tooling stick and is suitable for laser either before overturn or after overturn of the tooling stick. The jig tool for the laser direct forming technology has simple structure, is easy to use, easier to locate when the tooling stick is placed in different V-shaped grooves, does not need to be dismounted many times, effectively avoids the surface of the workpiece being scratched due to the installation of the workpice to be processed, and increases pass rate by more than 20%. The jig tool for laser direct forming technology can process a plurality of workpieces to be process at a time, efficiency is high, and every device can produce 4500 workpieces per day. The tooling stick is easy to operate and can be used conveniently to clamp or dismount the workpiece to be processed.

Description

Laser direct forming technology tool

Technical field

The utility model relates to a kind of laser direct forming technology tool.

Background technology

The laser direct forming technology is called for short LDS, and it is mainly used is on the workpiece to be processed of moulding, utilizes laser to plate metal level on moulding.Workpiece to be processed is generally moulding.

The antenna for mobile phone that uses in the prior art utilizes the laser technology directly to plate metal level on the antenna holder surface and produces.

The antenna for mobile phone support that uses in the prior art generally all has a plurality of surfaces to need laser processing.Be illustrated in figure 1 as a kind of structural representation of antenna for mobile phone support 1, Fig. 2 is the structural representation after 180 ° of antenna for mobile phone support 1 upsets of Fig. 1.As shown in Figure 1 and Figure 2, it needs laser first area 11, second area 12 and the 3rd zone 13 at least, to plate metal in these three zones.First area 11, second area 12 and the 3rd zone 13 lay respectively on the different surfaces of antenna holder.In the prior art, when laser direct forming processing is positioned at the zone to be processed on a plurality of surfaces, often use a plurality of generating lasers and a plurality of tool.Each generating laser matches with a tool, and processing is positioned at the zone to be processed on a surface.If the zone on three surfaces needs processing, then use three generating lasers and three tools.After processing the zone to be processed on a surface on the tool, support pulled down be installed on another tool the zone to be processed that processing is positioned at second surface again, process successively until the zone to be processed that is positioned at a plurality of surfaces and all machine.Workpiece to be processed need be fixed on a plurality of processing stations, and each installation workpiece to be processed that all need overturn is easy to generate error.Repeatedly processing brings repeatedly accumulated tolerance, and is very big to the quality influence of final products.The multiple clamping workpiece to be processed is gone into tool, makes the radium-shine precision of product be difficult to guarantee to enter dimensional tolerance.Owing to have tolerance, also need constantly to adjust radium-shine laser parameter, complicated operation and difficulty.The workpiece to be processed multiple clamping is easy to scratch product surface, makes product appearance bad, causes product rejection.Repeatedly dismantle, change between different tools, also cause working (machining) efficiency not high, every complete equipment output only can reach 2000/day.

The problem that why influences production efficiency and need change between different tools is because the jig structure complexity of using in the prior art can't be adapted to the requirement of high efficiency production.

The utility model content

The purpose of this utility model is in order to overcome deficiency of the prior art, a kind of laser direct forming technology tool simple in structure, easy to use to be provided.

For achieving the above object, the utility model is achieved through the following technical solutions:

Laser direct forming technology tool is characterized in that, comprising: the mould rod that is used for fixing workpiece to be processed; Be used for the base with mould rod location, base is provided with the V-type groove; Described mould rod is removably disposed in the V-type groove, after angle of mould rod upset, still can be placed in the V-type groove; Workpiece to be processed is arranged on the mould rod, all is suitable for laser before the upset of mould rod and after overturning.

Preferably, described V-type groove has first side and second side, and the angle α between first side and second side is 30 °～150 °.

Preferably, described angle α is 90 °.First side and second lateral vertical make that the processing of V-type groove is easier.Correspondingly, the processing of mould rod is also easier.When the mould rod is placed in the V-type groove, also easier accurate location.

Preferably, described V-type groove number is more than two, is provided with at interval.

Preferably, be provided with the cylinder reference column in the described V-type groove.

Preferably, the first surface of mould rod and the 3rd surface all intersect vertically with second surface.

Preferably, described the 3rd surface is provided with the anchor clamps that are used for fixing workpiece to be processed.

Preferably, described anchor clamps comprise the pressing plate pawl, and described pressing plate pawl is installed in rotation on the mould rod.

Preferably, described pressing plate pawl number is more than two, is disposed on the mould rod.

Preferably, described mould rod is provided with two pedestals, and two pedestals are provided with at interval; The upper surface of two pedestals is all parallel with the 3rd surface; Plural pressing plate pawl is disposed in the rotating shaft, and the rotating shaft two ends are arranged on respectively on the pedestal rotationally.

Preferably, also be provided with fixture on the described mould rod, described fixture is used for that the fixation clip pawl can't rotate it after the pressing plate pawl turns to the position that can push down workpiece to be processed.

Preferably, described fixture is a magnetic patch, and magnetic patch is positioned on the 3rd surface of workpiece to be processed placement location below; Described pressing plate pawl can be fixing by magnetic patch absorption.

Preferably, described the 3rd surface also is provided with the baffle plate that protrudes in the 3rd surface, and the 3rd surface detachably is provided with pressing article; Baffle plate, pressing article and pressing plate pawl are fixed on workpiece to be processed on the 3rd surface jointly.

Laser direct forming technology tool in the utility model, simple in structure, easy to use.When processing is positioned at the zone to be processed of different surfaces, need not workpiece to be processed is pulled down from the mould rod, can effectively reduce accumulated tolerance.And when the mould rod is positioned over different V-type grooves, easier location.Need not repeatedly to dismantle, install workpiece to be processed, can effectively avoid scratching surface of the work, qualification rate can improve more than 20%.Laser direct forming technology tool in the utility model, but a plurality of workpieces to be processed of time processing, the efficient height, every equipment can be produced 4500/day.The mould rod that uses in the utility model, easily operation, can be easily with the workpiece to be processed clamping or disassemble.

Description of drawings

Fig. 1 is an antenna for mobile phone supporting structure schematic diagram.

Fig. 2 is the structural representation after 180 ° of the antenna for mobile phone support upsets among Fig. 1.

Fig. 3 is a structural representation of the present utility model.

Fig. 4 is the understructure schematic diagram in the utility model.

Fig. 5 is the base schematic side view in the utility model.

Fig. 6 is the signal of mould bar structure and the first user mode schematic diagram in the utility model.

Fig. 7 is the mould bar structure schematic diagram and the second user mode schematic diagram in the utility model.

Fig. 8 is the structural representation that the mould rod in the utility model is observed from another angle.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described in detail:

As shown in Figure 3.Laser direct forming technology tool, it comprises base 2 and two mould rods 3, promptly 302, two mould bar structures of first mould rod 301 and second mould rod are identical.Mould rod 3 is used for fixing the workpiece to be processed (not shown).Mould rod 3 is placed on the base 2, and base 2 is used for positioning module rod 3, so that the workpiece to be processed that is fixed on the mould rod 3 can be radium-shine in zone to be processed by the generating laser emitted laser.First mould rod 301 among Fig. 3 is different with second mould rod, 302 use angles, and when being placed on the base 2 again after first mould rod 301 rotates 90 °, its angle is towards being shown in the second mould rod 302.Be fixed in workpiece and the workpiece that is fixed on the second mould rod 302 on the first mould rod 301, different by the surface that laser arrives, but with the zone to be processed on a plurality of different surfaces of this processing work.

As Fig. 4, shown in Figure 5, be arranged with first projection 21 and second projection 22 on the base 2 in parallel.Be arranged at intervals with three first V-type grooves 23 on first projection 21.Be provided with three second V-type grooves 24 on second projection 22 at interval.One first V-type groove 23 is corresponding with one second V-type groove 24 positions, locatees a mould rod jointly.The first V-type groove 23 is identical with the second V-type groove, 24 structures, and shape is identical.The first V-type groove 23 has first side 231 and second side 232.Angle α between first side 231 and second side 232 is 90 °.Be provided with cylinder reference column 25 in the second V-type groove 22.

As Fig. 6, shown in Figure 7, the 3rd surface 33 is provided with first pedestal 331 and second pedestal 332.The upper surface 333 of first pedestal 331 and the upper surface 334 of second pedestal 332 are collectively referred to as the 4th surface.The 4th surface is parallel with the 3rd surface 33.First pedestal 331 and second pedestal 332 are provided with at interval.Rotating shaft 34 two ends are arranged on respectively on first pedestal 331 and second pedestal 332 rotationally.Be arranged at intervals with 8 pressing plate pawls 35 in the rotating shaft 34.During use, rotating shaft 34 makes pressing plate pawl 35 be positioned at state shown in Figure 6, and antenna holder 1 is placed on the 3rd surface 33, and rotating shaft 34 again, make pressing plate pawl 35 turn to state shown in Figure 7, to push down antenna holder 1.Mould rod 3 is provided with the magnetic patch (not shown), and magnetic patch is positioned at antenna holder 1 below, and adsorbable pressing plate pawl 35 is so that the pressing plate pawl 35 fastening antenna holders 1 of pushing down.The 3rd surface 33 also is provided with the baffle plate 37 that protrudes in the 3rd surface 33.After antenna holder 1 was placed on the 3rd plane, pressing plate pawl 35 was placed on antenna holder 1 one sides.Pressing plate pawl 35, pressing article 36 and the baffle plate 37 common positions that antenna holder 1 are fixed on requirement.

As shown in Figure 8, mould rod 3 has first surface 31 and the second surface 32 that intersects vertically.The 3rd surface 33 intersects vertically with second surface 32.

As shown in Figure 3, when the first mould rod 301 was placed in the first V-type groove 23 shown in Figure 5, first surface 31 contacted with first side 231; Second surface 32 contacts with second side 232.The second mould rod 302 is the states that are placed on again after 90 ° of first mould rod, 301 upsets in the first V-type groove, and second surface 32 contact with first side 231, and the parallel with the 3rd surperficial 33 the 4th surperficially contacts with second side 232.

Tool in the utility model, before mould rod 3 does not overturn and turn over turn 90 degrees after, radium-shine processing promptly can be carried out for machining area to three illustrated in figures 1 and 2 in the position that need not to adjust generating laser.

Embodiment in the utility model only is used for the utility model is described, and does not constitute the restriction to the claim scope, and other substituting of being equal in fact that those skilled in that art can expect are all in the utility model protection domain.

Claims (13)

1. laser direct forming technology tool is characterized in that, comprising:

The mould rod that is used for fixing workpiece to be processed;

Be used for the base with mould rod location, base is provided with the V-type groove;

Described mould rod is removably disposed in the V-type groove, after angle of mould rod upset, still can be placed in the V-type groove; Workpiece to be processed is arranged on the mould rod, all is suitable for laser before the upset of mould rod and after overturning.

2. laser direct forming technology tool according to claim 1 is characterized in that described V-type groove has first side and second side, and the angle α between first side and second side is 30 °～150 °.

3. laser direct forming technology tool according to claim 2 is characterized in that described angle α is 90 °.

4. laser direct forming technology tool according to claim 1 is characterized in that, described V-type groove number is more than two, is provided with at interval.

5. laser direct forming technology tool according to claim 1 is characterized in that, is provided with the cylinder reference column in the described V-type groove.

6. laser direct forming technology tool according to claim 1 is characterized in that, the first surface of mould rod and the 3rd surface all intersect vertically with second surface.

7. laser direct forming technology tool according to claim 6 is characterized in that described the 3rd surface is provided with the anchor clamps that are used for fixing workpiece to be processed.

8. laser direct forming technology tool according to claim 7 is characterized in that described anchor clamps comprise the pressing plate pawl, and described pressing plate pawl is installed in rotation on the mould rod.

9. laser direct forming technology tool according to claim 8 is characterized in that, described pressing plate pawl number is more than two, is disposed on the mould rod.

10. laser direct forming technology tool according to claim 9 is characterized in that described mould rod is provided with two pedestals, and two pedestals are provided with at interval; The upper surface of two pedestals is all parallel with the 3rd surface; Plural pressing plate pawl is disposed in the rotating shaft, and the rotating shaft two ends are arranged on respectively on the pedestal rotationally.

11. laser direct forming technology tool according to claim 10, it is characterized in that, also be provided with fixture on the described mould rod, described fixture is used for that the fixation clip pawl can't rotate it after the pressing plate pawl turns to the position that can push down workpiece to be processed.

12. laser direct forming technology tool according to claim 11 is characterized in that described fixture is a magnetic patch, magnetic patch is positioned on the 3rd surface of workpiece to be processed placement location below; Described pressing plate pawl can be fixing by magnetic patch absorption.

13. laser direct forming technology tool according to claim 10 is characterized in that described the 3rd surface also is provided with the baffle plate that protrudes in the 3rd surface, the 3rd surface detachably is provided with pressing article; Baffle plate, pressing article and pressing plate pawl are fixed on workpiece to be processed on the 3rd surface jointly.

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