CN201010701Y - Side guide component used for electroplating machine - Google Patents

Abstract

The utility model relates to a side guide a component (100, 200, 300) used in an electroplating machine, and includes a main body (102, 204, 306), a pipeline (106, 202, 302) on a underlayer (120, 220) transporting liquid, and a plurality of guide plates (110, 208, 308) fixed on the main body (102, 204, 306), wherein, a plurality of rotatable idler wheels (112, 212, 312) are connected with every guide plate (110, 208, 308).

Description

The planer and thicknesser that is used for electroplating machine

Technical field

The utility model relates to a kind of planer and thicknesser that is used for electroplating machine, relates in particular to a kind of like this electroplating machine, and wherein many plate substrates are carried by the vertical transport system.

Background technology

In having the existing electroplating machine of vertical transport system, the long strip shape side guide is used at treatment chamber along the narrow path of delivery system with guide substrate (for example printed circuit board (PCB)) therein.Use such traditional arrangement, the electrolytic solution transfer lime can be oriented to very close to the substrate that passes through, and is increased by the chance that traditional side guide stumbles to avoid substrate.In addition, also need mobile side guide to cooperate different board sizes, this has increased production time and possible mistake.In addition,, must remove chemical preparations, therefore increase operating time and product cost from therapeutic room safeguarding or replacing under the situation of parts.

The utility model content

Therefore target of the present utility model provides a kind of planer and thicknesser that is used for electroplating machine, and wherein aforementioned disadvantages is alleviated, and known a kind of useful alternative that provides perhaps is provided.

According to the utility model, a kind of planer and thicknesser that is used for electroplating machine is provided, described planer and thicknesser comprises body element, be suitable for liquid is transported to by the pipeline on substrate there, with a plurality of joint elements that are fixed to described body element, it is characterized in that at least one rotatable roller engages with each described joint element.

The beneficial effects of the utility model are: all individual components can easily be removed to be used for replacement or to safeguard.All above advantages also are reflected in low-cost aspect.

Description of drawings

As just example, with reference to the accompanying drawings, now embodiment of the present utility model will be described, wherein:

Figure 1A is the frontview according to the planer and thicknesser of first embodiment of the present utility model;

Figure 1B is the right view of the planer and thicknesser shown in Figure 1A;

Fig. 1 C is the left view of the planer and thicknesser shown in Figure 1A;

Fig. 1 D is the top view of the planer and thicknesser shown in Figure 1A;

Fig. 2 is the skeleton view of the planer and thicknesser shown in Figure 1A;

Fig. 3 is the part enlargement decomposition of the part of the planer and thicknesser shown in Fig. 2;

Fig. 4 is that the many planer and thicknessers shown in Figure 1A in use are assembled in the skeleton view in the electroplating machine;

Fig. 5 is the top view of the part of the layout shown in Fig. 4;

Fig. 6 and 7 has shown the mode of the planer and thicknesser shown in assembling Figure 1A;

Fig. 8 A is the top view that the planer and thicknesser shown in Figure 1A is in first configuration;

Fig. 8 B is the top view that the planer and thicknesser shown in Figure 1A is in second configuration;

Fig. 9 A is the frontview according to the planer and thicknesser of second embodiment of the present utility model;

Fig. 9 B is the right view of the planer and thicknesser shown in Fig. 9 A;

Fig. 9 C is the left view of the planer and thicknesser shown in Fig. 9 A;

Fig. 9 D is the top view of the planer and thicknesser shown in Fig. 9 A;

Figure 10 is the skeleton view of the planer and thicknesser shown in Fig. 9 A;

Figure 11 is the enlarged view of the part of the planer and thicknesser shown in Figure 10;

Figure 12 has shown the structure of the part of the planer and thicknesser shown in Figure 11;

Figure 13 is that the many planer and thicknessers shown in Fig. 9 A in use are assembled in the skeleton view in the electroplating machine;

Figure 14 is the top view of the part of the layout shown in Figure 13;

Figure 15 is the frontview that is in first configuration according to the planer and thicknesser of the 3rd embodiment of the present utility model;

Figure 16 is the frontview that the planer and thicknesser shown in Figure 15 is in second configuration;

Figure 17 has shown the structure of the part of the planer and thicknesser shown in Figure 15;

Figure 18 is that the many planer and thicknessers shown in Fig. 9 A in use are assembled in the frontview in the electroplating machine;

Figure 19 is the side-view of the layout shown in Figure 18;

Figure 20 is the top view of the layout shown in Figure 18; With

Figure 21 is the front perspective view of the layout shown in Figure 18.

Embodiment

At first, shown planer and thicknesser, be denoted as 100 usually according to first embodiment of the present utility model with reference to figure 1A-2.Planer and thicknesser 100 comprises the main body 102 that has C shape sleeve 104, and this sleeve is formed for receiving releasedly the elongation recess of shower 106.Shower 106 receives the liquid supplies, electrolytic solution for example, and it is used for many spray orifices 108 outputs of forming by the surface along shower 106, and wherein shower 106 forms the fluid connections relation with spray orifice 108.

Many guide plates 110 are fixing with it along the length of the main body 102 of side guide 100, and one on another.As can be seen, each guide plate 110 is formed roughly C shape plate 110a, and the rod 110b that itself and blade design fixedly is fixed together.

In Fig. 3, can more be clear that, on the upper and lower surface of each rod 110b, respectively be provided with two rollers 112.These rollers 112 remain to rod 110b being used for around their longitudinal axis separately rotating freely motion by bolt 114, and the described longitudinal axis is the longitudinal axis of parallel bodies 102 and the longitudinal axis of shower 106 also.Select as another, can provide electric drive system to be used for the rotation of driving rolls 112.

In use, shown in Figure 4 and 5, planer and thicknesser 100 is arranged along the both sides of narrow horizontal route, plate substrate 120, and for example printed circuit board (PCB) advances by described path, and in their major surfaces each is arranged in vertical plane.Planer and thicknesser 100 is arranged such that their spray orifice 108 roughly facing to the substrate 120 that passes through, thereby liquid (for example electrolytic solution) is transported on the major surfaces of substrate 120.

Can see that in Fig. 6 and 7 shower 106 can separate from the main body 102 of planer and thicknesser 100.In order to assemble the two, shower 106 is received within the C shape sleeve 104 of main body 102 up to the position shown in Fig. 2.Because shower 106 can be is easily separated and be inserted into wherein from main body 102, therefore is convenient to the maintenance and the replacement of parts.

Also can find out from Fig. 8 A and 8B, shower 106 can be around (for example 15 ° of the Y right rotations of himself, as shown in Fig. 8 A) and to anticlockwise (for example 15 °, as shown in Fig. 8 B), to allow easily to regulate the position between spray orifice 108 and the substrate 120.

Therefore as can be seen, because planer and thicknesser 100 is installed together with pipe 106 releasedly, therefore be convenient to install and replace.Blade is designed for the performance that rod 110b has promoted spray orifice 108.Along with the adding of roller 112, plate substrate 120 is significantly reduced by the possibility that planer and thicknesser 100 stumbles.All individual components can easily be removed to be used for replacement or to safeguard.All above advantages also are reflected in low-cost aspect.

In Fig. 9 A-12, shown planer and thicknesser, be denoted as 200 usually according to second embodiment of the present utility model.Planer and thicknesser 200 is included in and is used to receive the liquid supply in the right cylinder 204, for example the shower 202 of electrolytic solution.Described liquid is discharged by many spray orifices 206 then, and shower 202 is in the fluid connection relation with described spray orifice.

Many Δ shape side guide plates 208 are fixing with it along the length of main body 204, and one on another.Each side guide plate 208 has two rollers 212.Each roller 212 remains to each side guide plate 208 by bolt 214, to be used for around himself longitudinal axis rotation.

As shown in Figure 13 and 14, in use, planer and thicknesser 200 is arranged along the both sides of narrow horizontal route, plate substrate 220, and for example printed circuit board (PCB) advances by described path, and in their major surfaces each is arranged in vertical plane.Planer and thicknesser 200 is arranged such that their spray orifice 206 roughly facing to the substrate 220 that passes through, thereby will be transported on the major surfaces of substrate 220 from the liquid (for example electrolytic solution) that shower 202 receives.

As can be seen from Figure 14, compare with first embodiment shown in Figure 1A-8B, the spray orifice 206 of planer and thicknesser 200 can be oriented to more close substrate 220.

Because therefore shower 202, main body 204 and roller 212 be there is no need to install individually these assemblies by integrated well as the situation of traditional design.Adopt so new layout, spray orifice 206 can be oriented to very close to movable plate substrate 220, therefore increases electroplating velocity.

In Figure 15-16, shown planer and thicknesser, be denoted as 300 usually according to the 3rd embodiment of the present utility model.Planer and thicknesser 300 comprises and is used to receive the liquid supply, for example the shower 302 of electrolytic solution.Described liquid is discharged by many spray orifices 304 then, and shower 302 is in the fluid connection relation with described spray orifice.

Pipeline 302 is received within roughly in the C shape main body 306 and can moves with respect to it.Especially, main body 306 can promptly axially move with respect to pipeline 302 along the length of pipe 302.As can be seen, main body 306 is in lower position with respect to pipeline 302 in Figure 15; And in Figure 16, main body 306 is in the higher position with respect to pipeline 302.

Many inclined side guide plates 308 are fixing with it along the length of main body 306, one on another, be used for along with main body 306 is moved simultaneously.Each side guide plate 308 has two rollers 312.Each roller 312 remains to each side guide plate 308 by bolt 314, to be used for around himself longitudinal axis rotation.

Near the upper end and the relative roughly C shape hook 316 that provides with the side of spray orifice 304 of main body 306, this C shape hook 316 is fixed to main body 306 and moves simultaneously being used for.Near the lower end of main body 306 and be provided with essentially rectangular bottom backplate 318 on the same side of spray orifice 304, this bottom backplate is by such as the such electrically insulating material manufacturing of plastics.Bottom backplate 318 also is fixed together with main body 306 and moves simultaneously being used for.

As can be seen, main body 306 can move axially between the higher position shown in the lower position shown in Figure 15 and Figure 16 with respect to pipeline 302 with side guide plate 308, roller 312, hook 316 and bottom backplate 318 in Figure 15 and 16.By such layout, the vertical position of bottom backplate 318 can be conditioned to be fit to the substrate of different size.

As shown in Figure 18-21, many such planer and thicknessers 300 can be installed in the electroplating machine, wherein planer and thicknesser 300 is arranged along the opposite flank of narrow path, the plate lining, printed circuit board (PCB) for example, can advance by described path, and the spray orifice 304 that faces with each other is used for the liquid that receives from shower main tank 330, for example electrolytic solution is transported on the major surfaces of substrate of process.

Cross bar 332 is received within the recess of each hook 316 of the planer and thicknesser 300 on each side of mobile route of substrate.Each bar 332 engages with two lift arms 334 respectively, and described lift arm can make progress and vertical shifting.

By such layout, the motion up and down of lift arm 334 will raise or reduce bar 332, make the main body 306 of planer and thicknesser 300 together to move up or down (depending on the circumstances) with respect to pipeline 302, thereby change the vertical position of roller 312 and bottom backplate 318, to adapt to the substrate of different size.

Should be understood that, only exemplified the example that the utility model can be realized above, can make various improvement and/or variation to this and do not break away from spirit of the present invention.

Should be understood that also some feature of this utility model (for clear, being described) can be provided with single embodiment combination in the context of independent embodiment.On the contrary, various features of the present utility model (for for simplicity, being described in the context of single embodiment) also can be provided independently or with suitable branch combination.

Claims (12)

1. planer and thicknesser that is used for electroplating machine, described planer and thicknesser comprises body element, be suitable for liquid be transported to by way of substrate on pipeline, with a plurality of joint elements that are fixed to described body element, it is characterized in that at least one rotatable roller engages with each described joint element.

2. according to the planer and thicknesser of claim 1, it is further characterized in that described pipe is received in the elongation recess of described body element separably.

3. according to the planer and thicknesser of claim 1, it is further characterized in that along the surface of described pipeline and is provided with a plurality of openings to be used to carry described liquid.

4. according to the planer and thicknesser of claim 1, it is further characterized in that described roller can rotate freely.

5. according to the planer and thicknesser of claim 4, it is further characterized in that described roller all rotates freely around the axis of approximate vertical.

6. according to the planer and thicknesser of claim 1, it is further characterized in that described liquid is electrolytic solution.

7. according to the planer and thicknesser of claim 1, it is further characterized in that a plurality of rotatable rollers engage with each of described joint element.

8. according to the planer and thicknesser of claim 1, it is further characterized in that described body element can move with respect to described pipeline.

9. planer and thicknesser according to Claim 8, it is further characterized in that described pipeline can move with respect to described joint element rotatably around its longitudinal axis.

10. planer and thicknesser according to Claim 8, its be further characterized in that described body element can with respect to described pipeline axial move.

11. planer and thicknesser according to Claim 8, its be further characterized in that described a plurality of joint element can with respect to described pipeline axial move.

12. according to the planer and thicknesser of claim 1, it is further characterized in that described body element engages regularly with the bottom backplate.

Images