CN205793658U - The equipment of Rotating fields, parts carrier and the electronic installation of manipulation continuous processing - Google Patents

Abstract

This utility model relates to a kind of in order to manufacture parts carrier, particularly in utilizing the electroplanting device on surface of plated with conductive material Rotating fields, and the equipment of Rotating fields, parts carrier and the electronic installation of manipulation continuous processing.This equipment includes flexure suppression unit (110), configure this flexure suppression unit (110), with at least one in additional first clamping element (101) and the second clamping element (102), with by Rotating fields at least some of is processed at the trailing edge (106) and the leading edge (107) of rear Rotating fields (104) of front Rotating fields (103) relative to each other between realize maintaining static temporarily, suppress the flexure of the Rotating fields of corresponding two continuous processings.In addition, this equipment includes lifting unit (120), configure this lifting unit (120), with to Rotating fields (103,104), after having carried out at least some of described process, at least one in the first clamping element (101) and the second clamping element (102) is removed.

Description

The equipment of Rotating fields, parts carrier and the electronic installation of manipulation continuous processing

Technical field

The present invention relates to a kind of equipment manipulating to manufacture parts carrier and revolting process continuously.Additionally, the present invention relates to And it is a kind of for processing the continuous method revolting the stage manufacturing parts carrier.

Background technology

The multi-layer part carrier of the most two-sided PCB includes Rotating fields layer and the conduction being positioned at least both sides of Rotating fields layer Structure, such as, conductive traces.The conductive structure electricity being positioned on the side (such as, upside) of Rotating fields layer by such as path or Other bindiny mechanisms of person are connected to the conductive structure being positioned on the opposite side (such as, downside) of Rotating fields layer.Therefore, exposure is being utilized Photoreduction process manufactures in parts carrier, it is desirable to form corresponding part on the both sides of the most accurately alignment of parts carrier so that this Lateral shift between a little parts is minimum.

By several manufacture process transfer layer structures, and hence along processing direction transfer layer structure.Such as, Rotating fields It it is the flat element utilizing roller to carry.Along with standardization is produced in batches, the thickness of Rotating fields is constantly reducing so that layer Structure has the thickness less than 50um, and its media layer damage is electroplate with the Copper Foil of 12um on both sides.In future, both sides have 2 Or in the case of 5um copper thickness, the thickness of Rotating fields can be reduced to the Rotating fields thickness of 30um.Therefore, in order to Production produces less stress to Rotating fields and requires special handling parameter.It is therefoie, for example, can be in order to drop in manufacturing process The flexure of infrastructure and reduce the transporting velocity in electroplating processes.But, so will reduce the performance of manufacture process.

Such as, when being manufactured by electroplating processes, transfer layer structure, the most such as utilize roller to drive Rotating fields. When by electroplating processes transporting thin Rotating fields, the leading edge at the edge of Rotating fields, particularly Rotating fields and trailing edge are because of transfer layer Structure by the solution mobilization force of electroplating solution and bend wide-angle.Solution mobilization force promotes the edge of Rotating fields so that connect Touch roller, and Rotating fields therefore may be caused congested, so cause destroying Rotating fields.

Summary of the invention

It is an object of the invention to reduce the flexure at the edge of Rotating fields to be manufactured.

Utilizing for manufacturing department's part carrier, the equipment of the Rotating fields of manipulation continuous processing and utilization are for manufacturing department's part load Body, the method for the manipulation Rotating fields of protection continuously realizes this purpose.

According to the first scheme of the present invention, a kind of in order to manufacture parts carrier, particularly utilizing plated with conductive material layer In the electroplanting device on the surface of structure, the equipment of the Rotating fields of manipulation continuous processing.This equipment includes: flexure suppression unit, joins Put this flexure suppression unit, with at least one in additional first clamping element and the second clamping element, with by layer is being tied At least some of process of structure realize between the trailing edge and the leading edge of rear Rotating fields of front Rotating fields relative to each other interim solid Fixed motionless, suppress the flexure of the Rotating fields of corresponding two continuous processings.Additionally, this equipment also includes lifting unit, configure this solution Except unit, with after Rotating fields has been carried out at least some of process, remove in the first clamping element and the second clamping element Described at least one, thus release between trailing edge and the leading edge of rear Rotating fields of front Rotating fields relative to each other interim fixing not Dynamic.

In accordance with yet a further aspect of the invention, it is provided that a kind of in order to manufacture parts carrier, particularly conduction material is being utilized In the electroplanting device on the surface of material electrodeposited coating structure, in particular with the Rotating fields according to above-mentioned equipment manipulation continuous processing Method.The method is included in processing Rotating fields at least some of, by front Rotating fields relative to each other trailing edge with Realize between the leading edge of rear Rotating fields maintaining static temporarily, suppress the step of the flexure of corresponding two continuous processing Rotating fields.Should Method is additionally included in after Rotating fields has been carried out at least some of process, releases the trailing edge of front Rotating fields relative to each other and rear layer The interim fixed step of the leading edge of structure.

In the linguistic context of the application, term " parts carrier " can refer in particular to any supporting structure, and this supporting structure can be right Accommodate one or more electronic unit on it and/or in it, thus not only provide mechanical support but also provide electrical connection.Parts carry Body can include the Rotating fields utilizing the said equipment to manufacture.At least one electric insulation layer structure and at least one conductive coating structure can To be fixed to this Rotating fields.

Rotating fields can form the core being made up of such as mylar and/or FR4 material.Such as, Rotating fields forms plate Linear element (such as, flat board) and there is plate-like shape.Rotating fields can include at least one of which.This layer can be insulating barrier, also It can be conductive layer.But, Rotating fields can also include multiple (such as, insulate and/or conduct electricity) layer.The electric insulation of Rotating fields Layer includes by least one in the group constituted as follows: resin, particularly bismaleimide-triazine resin；Cyanate；Glass, Particularly glass fibre；Pre-preg material；Polyimides；Liquid crystal polymer；Epoxy resin-matrix builtup film；FR4 material；Pottery Porcelain；And metal-oxide.Although mylar or FR4 are typically preferably, but can also use other materials.Layer knot At least one conductive layer of structure includes by least one in the group constituted as follows: copper, al and ni.Although copper is typically preferably , but can also be other materials.

The such as Rotating fields of processing component carrier in electroplating processes, with additional conductive material in electroplanting device or non- Conductive material.Rotating fields is thin and be flexible so that when by electroplanting device transporting thin Rotating fields, particularly when inverse bag Include the electroplating solution stream conveying of high solution mobility, then leading edge and the trailing edge of Rotating fields bends because of the most straight power.Layer knot Flexure at structure edge increases Rotating fields edge and clashes into the risk of such as other structures of Rotating fields guider and conveyer device respectively. In electroplating processes, arrange multiple Rotating fields one by one, the most such as, because electroplating, so drawing along conveying direction Lead a line Rotating fields.Therefore, Rotating fields before the Rotating fields upstream of conveying direction is referred to as, and by the conveying relative to front Rotating fields The Rotating fields downstream in direction is referred to as rear Rotating fields.Therefore, the rear surface of the front Rotating fields leading edge to corresponding rear Rotating fields.

In order to prevent Rotating fields edge from bending, it is provided that according to the equipment of the present invention.Configure the flexure suppression unit of this equipment, To add the first clamping element and the second clamping element, this first clamping element and the second clamping element by such as front Rotating fields The leading edge of corresponding trailing edge and rear Rotating fields is clipped together.Especially it is possible to clamping element is installed in corresponding front Rotating fields and after On the opposite side of Rotating fields, to suppress the flexure of corresponding two Rotating fields.

In order to add corresponding first clamping element and the second clamping element, flexure suppression unit can include for manipulating phase Answer the first clamping element and the machine tool of the second clamping element.Such as, flexure suppression unit includes feed unit (such as, the One arrangement apparatus and the second arrangement apparatus, that is done as follows further describes), this feed unit by corresponding first clamping element and Second clamping element conveyer belt extra segment.At extra segment, flexure suppression unit can include that the first arrangement apparatus and second is arranged Device, is used for manipulating corresponding first clamping element and the second clamping element.Arrangement apparatus can include such as placement unit, configuration This placement unit, to capture corresponding clamping element and corresponding clamping element be attached to the corresponding edge of equivalent layer structure.Additionally, Arrangement apparatus can include pump unit, and this pump unit can include the suction element of such as vacuum cup, configures this suction Element, to aspirate clamping element and therefore clamping element to be temporarily anchored to control device.

Selecting as one, that is done as follows further describes, and arrangement apparatus can include corresponding feeding hopper.Each material Bucket can include multiple clamping element.Feeding hopper can include the opening of the carrying path near Rotating fields element.If The trailing edge of front Rotating fields and the leading edge of the rear Rotating fields opening by feeding hopper, then discharge corresponding clamping element, and by phase Clamping element is answered to be attached to the corresponding edge by Rotating fields, so that corresponding edge is applied clamping force.

Furthermore, it is possible to make a line Rotating fields sequentially or continuously move along conveying direction.

Therefore, it can be formed in the same manner lifting unit.In order to remove corresponding first clamping element and the second clamping unit Part, lifting unit can include machine tool, is used for removing corresponding first clamping element and the second clamping element.Such as, release Unit can include for removing corresponding first clamping element and the machine tool of the second clamping element.Such as, lifting unit bag Include the first apparatus for removing and the second apparatus for removing, will be further described below, when Rotating fields is by the predetermined section of removing, first Apparatus for removing and the second apparatus for removing leave equivalent layer structure edge and carry corresponding first clamping element and the second clamping element.Remove Device can include such as corresponding placement unit, configures this placement unit, to capture the phase of the corresponding edge leaving equivalent layer structure Answer clamping element.Additionally, apparatus for removing can include pump unit, this pump unit includes the suction unit of such as vacuum cup Part, configures this suction element, to aspirate clamping element and therefore clamping element temporarily anchors to corresponding apparatus for removing.At quilt After lifting unit removes, clamping element can be reused.

Therefore, clamping element links the edge of pantostrat structure so that prevent Rotating fields from bending.Such as passing through electroplating processes During conveying, the less flexure of Rotating fields reduces and destroys Rotating fields and the congested risk of such as Rotating fields when conveying.Additionally, because of For reducing flexure, so the Rotating fields in electroplating processes keeps smooth so that such as Rotating fields is relative to the distance of galvanic anode Deviation reduces, and so produces the distribution of preferable copper.

According to the exemplary embodiment of the present invention, configuration flexure suppression unit, to be attached to front layer by the first clamping element The upside of structure and the upside of rear Rotating fields and the second clamping element is attached to another of front Rotating fields and rear Rotating fields Opposed downside, before the trailing edge of Rotating fields before clamping between the first clamping element and the second clamping element and rear Rotating fields Edge.

According to another exemplary embodiment, the first clamping element is the first magnetics and the second clamping element is Two magneticss so that provide and act on the magnetic pull between the first magnetics and the second magnetics, to produce at front layer Interim fixed clamping force is realized between trailing edge and the leading edge of rear Rotating fields of structure.

Such as, magnetics can be permanent magnet, it is also possible to be electric drive electromagnet.

Include respectively according at least one in another exemplary embodiment, the first magnetics and the second magnetics Magnetic portion or multiple magnetic portion.Magnetics can be formed by the support of supporting magnetic portion.Therefore, only magnetics master A part for body can be magnetic.Therefore, support can form large contact, enabling smooth engagement and clamping Equivalent layer structure.If additionally, support is relatively big, then can easily bridge the trailing edge of front Rotating fields and the leading edge of rear Rotating fields Between gap.But, such as, in order to reduce weight, the smaller part of the magnetics selected only can be formed by magnetic portion.

Include surrounding according at least one in another exemplary embodiment, the first magnetics and the second magnetics The housing of magnetic portion.Housing can be formed by nonmagnetic substance, this housings close magnetic portion and therefore protect magnetic portion.Example As, housing can be molded of plastic material.Housing can be formed by polypropylene (pp), and therefore, it can, as slider, use Isolate with solution in making such as magnetic portion in electroplating processes.Additionally, above-mentioned support can form housing and surround completely And close magnetic portion.

Magnetic is included according at least one in another exemplary embodiment, the first magnetics and the second magnetics Coating.Additionally, or select, by making magnetisable coating be coated in such as support as a kind of of the magnetic portion in magnetics On, gravitation can be produced.Housing can surround this coating, to prevent from being affected by environment.

According to another exemplary embodiment, this equipment includes multiple first clamping element, along trailing edge and leading edge one Then one arranges multiple first clamping elements.Selecting additionally or as one, this equipment also includes multiple second clamping unit Part, arranges multiple second clamping element one by one along trailing edge and leading edge.

First clamping element and the second clamping element can be formed along corresponding leading edge and the trailing edge of equivalent layer structure Rectangular-shaped piece, oval-shaped piece or the circular piece arranged one by one.Upper surface (or following table along such as corresponding edge Face) the corresponding clamping element that arranges can contact with each other, it is also possible to separated from each other arrangement.Therefore, corresponding clamping element can have Have close to 20mm to 50mm, particularly close to the length of 30mm, and can have close to 5mm to 8mm, particularly close to 6mm Width.The thickness of clamping element can be close to 2mm to 4mm, particularly close to 3mm.

According to another exemplary embodiment, the first clamping element forms banding clamping element, forms the clamping of this banding first Part, to cover at least the 3/4 of the total length of leading edge and trailing edge.Therefore, if using banding clamping element, then clamping element is manipulated Being easier, because providing clamping force to need small number of clamping element, rather than less multiple clampings described above are first Part.Such as, in order to provide clamping force, a banding can be used respectively on the upper surface of corresponding edge and the lower surface of corresponding edge Clamping element.Therefore, it can form banding clamping element in banding strip mode so that clamping element covers the whole overall length of edge Degree or at least its 3/4.Such as, if the width of Rotating fields (and therefore, leading edge and the length of trailing edge) it is such as 600mm, Then the length of banding clamping element can be such as 500mm.The width of banding clamping element is sufficiently large, it is possible to bridge joint front layer knot Gap between trailing edge and the leading edge of rear Rotating fields of structure.Additionally, the width of banding clamping element is sufficiently large, it is possible to before corresponding Sufficiently large clamping area is provided in the respective upper surfaces of Rotating fields or afterwards Rotating fields or lower surface.The width of banding clamping element Degree can be such as close to 20mm to 40mm, particularly close to 30mm.

At least one is included according to another exemplary embodiment, the first clamping element and/or described second clamping element Individual groove.Such as, this groove can be through hole.Particularly, this groove is formed at the stage casing of corresponding clamping element so that edge is the most also And the sufficiently large clamping section of corresponding clamping element still surrounds this groove.Therefore, by forming groove in corresponding clamping element, can To reduce the weight of corresponding clamping element, and not appreciable impact robustness.

According to another exemplary embodiment, flexure suppression unit includes the first arrangement apparatus, for by the first clamping unit Part is attached to upside and the upside of rear Rotating fields of front Rotating fields, and wherein flexure suppression unit also includes the second arrangement apparatus, uses In the second clamping element is attached to front Rotating fields downside and the downside of rear Rotating fields so that with the second opposed row of clamping element Row the second clamping element.

Therefore, the first arrangement apparatus and the second arrangement apparatus arrange opposite one another so that its therebetween transfer layer knot Structure.Can design arrangement device as mentioned above.Particularly, the first arrangement apparatus and the second arrangement apparatus can form first respectively Hopper and the second hopper, wherein the first clamping magnetics is arranged in the first hopper, and the second clamping magnetics arrangement In the second hopper.Each hopper can move up to Rotating fields with the side leaving Rotating fields.Form corresponding hopper, make If obtaining the first hopper and the second hopper having little predetermined attaching distance from each other, then opposed first magnetic faced one another The gravitation of element and the second magnetics is sufficiently high so that the first magnetics and the second magnetics leave its corresponding hopper also And move towards mutually, until respective magnetic element arrangements is in the opposed faces of equivalent layer structure.Control material by this way Bucket and the motion of equivalent layer structure, i.e. the corresponding trailing edge of current layer structure and the corresponding leading edge of rear Rotating fields are just arranged in two Predetermined attaching distance time between individual hopper, between regulation hopper so that corresponding first magnetics and the second magnetics are firm Arrange along corresponding edge well.

According to another exemplary embodiment, flexure lifting unit includes the first apparatus for removing, for Rotating fields in the past and The upside of rear Rotating fields removes the first clamping element.Flexure lifting unit also includes the second apparatus for removing, for Rotating fields in the past Downside and the downside of rear Rotating fields remove the second clamping element.

As it has been described above, the first apparatus for removing and the second apparatus for removing can include such as machine tool, it is used for removing accordingly First clamping element and the second clamping element.Such as, when Rotating fields is by the predetermined section of removing, the first apparatus for removing and second Apparatus for removing leaves equivalent layer structure edge and carries corresponding first clamping element and the second clamping element.First and second apparatus for removings Corresponding placement unit can be included, configure corresponding placement unit, to capture the corresponding clamping of the corresponding edge leaving equivalent layer structure Element.Additionally, the first and second apparatus for removings can include pump unit, this pump unit includes the suction of such as vacuum cup Element, configures this suction element, to aspirate clamping element and therefore clamping element temporarily anchors to corresponding first and second Apparatus for removing.

Selecting as one, corresponding first apparatus for removing and the second apparatus for removing can include accommodating the clamping removed The corresponding hopper of element.In corresponding hopper, grasping element can be installed, be used for capturing clamping element.Furthermore, it is possible to will such as The magnet of electromagnet is arranged in corresponding hopper so that if clamping magnetics is by the section of removing accordingly, then apply magnetic force, should Magnetic force is more than the magnetic pull between the first magnetics and the second magnetics so that can remove respective magnetic element and make phase Magnetropism element arrangements is in corresponding hopper.

According to another exemplary embodiment, configuration flexure suppression unit, with at least one other the first clamping unit additional Part and at least one other second clamping element, for suppressing the flexure of other two continuous processing Rotating fields pair corresponding so that This equipment is suitable for simultaneously along processing streamline continuous processing and clamping at least three Rotating fields.

According to another exemplary embodiment, at least one other first clamping element and at least one other second clamping Element can by first arrangement apparatus identical with at least one first clamping element and at least one the second clamping element and Second arrangement apparatus and/or the first apparatus for removing and the second apparatus for removing operate.

According to another exemplary embodiment, at least one other first clamping element and at least one other second clamping Element can by other first arrangement apparatus and other second arrangement apparatus and/or other the first apparatus for removings and other second Apparatus for removing operates.

Utilize above-described embodiment, draw to be characterized by and utilize corresponding first clamping element and the second clamping element to clamp Multiple continuously arranged Rotating fields, for suppressing the Rotating fields of corresponding two continuous processings to bend.Therefore, it is possible to along production line The multiple Rotating fields of continuous processing.The production line of continuous processing Rotating fields can have the length close to 50 meters.Therefore, at production line In can carry and process the Rotating fields close to 100 length can with 0.5 meter or plate.In each pantostrat structure Between, arrange corresponding first clamping element and the second clamping element, for the flexure of inhibition layer structure.

In accordance with yet a further aspect of the invention, describing a kind of parts carrier, this parts carrier includes utilizing as mentioned above The Rotating fields of device fabrication.This parts carrier also includes at least one electric insulation layer structure and at least one conductive coating structure. At least one electric insulation layer structure and at least one conductive coating structure are fixed to Rotating fields.

Additionally, describe a kind of electronic unit with electric terminal, it is upper that this electronic unit includes that electronic unit is coupled to State parts carrier.From by the group constituted as follows select electronic unit: active electronic component, passive electrical components, electronic chip, Memory device, wave filter, integrated circuit, Signal Processing Element, power management component, optic electric interface element, electric pressure converter, close Code parts, transmitter and/or receiver, electromechanical transducer, sensor, driver, MEMS, microprocessor, electric capacity Device, resistor, inducer, battery, switch, video camera, antenna and logic chip.Such as, magnetics can act as the ministry of electronics industry Part.This Email can be permanent magnet component (such as ferromagnetic element, antiferromagnetic element, such as, FERRITE CORE), it is also possible to It it is paramagnetic element.However, it is possible to by other electronic units, particularly produce and launch electromagnetic radiation and to from environmental dissemination In the electronic unit embedding electronic installation of the electromagnetic radiation sensitivity of electronic unit.

According to another exemplary embodiment, at least one electric insulation (layer) structure include by the group constituted as follows extremely Few one: resin, particularly bismaleimide-triazine resin；Cyanate；Glass, particularly glass fibre；Preimpregnation material；Poly- Acid imide；Liquid crystal polymer；Epoxy resin-matrix builtup film；FR4 material；Pottery；And metal-oxide.Although mylar or Person FR4 is typically preferably, but can also use other materials.

In an embodiment, at least one conduction (layer) structure include by least one in the group constituted as follows: copper, aluminum and Nickel.Although copper is typically preferably, but can also be other materials.

In an embodiment, parts carrier can be formed as plate.So contribute to the Miniaturization Design of electronic installation, wherein While it is true, but parts carrier provides for the big basis at electronic unit installed above.Additionally, particularly, as embedding Enter the bare chip of the preferred example of formula electronic unit because its thickness is little it is possible to be conveniently embedded such as printed circuit board (PCB) In thin plate.

In an embodiment, parts carrier is configured to by the group constituted as follows: printed circuit board (PCB) and substrate.

In the linguistic context of the application, term " printed circuit board (PCB) " (PCB) can refer in particular to plate-shaped member carrier, if by needing To apply pressure with supply external energy, to make several conductive coating structure and several electric insulation layer structure stackings, form this plate Shape parts carrier.As the preferred material of PCB technology, conductive coating structure is made of copper, and electric insulation layer structure can include tree Fat and/or glass fibre, so-called mylar or FR4 material.By such as by laser drill or machine drilling warp Cross duplexer and form through hole, and utilize conductive material (particularly copper) to fill this through hole, thus form path, as through hole even Connect, various conductive coating structure can be made to interconnect.Except one or more ministry of electronics industry in printed circuit board (PCB) can be embedded Part, generally configures printed circuit board (PCB), to accommodate one or many in one or two opposed faces of tabular printed circuit board (PCB) Individual electronic unit.By welding, corresponding interarea can be connected to.

In the linguistic context of the application, term " substrate " can refer in particular to and to have substantially by electronic unit mounted thereto The widget carrier of same size.

In an embodiment, parts carrier is stacked parts carrier.In this embodiment, if parts carrier is by needing The complex of multiple Rotating fields applying pressure with heating and stack and link together.

According to another exemplary embodiment, electronic installation includes the electronic unit with electric terminal and encapsulates this ministry of electronics industry The above-mentioned parts carrier of part.

The such scheme of the example present invention according to the embodiments described below and other schemes will be it is clear that and will join These examples examining embodiment explain such scheme and other schemes of the present invention.

Example below with reference to embodiment is described in more detail the present invention, but the invention is not limited in this.

Accompanying drawing explanation

Fig. 1 illustrates that the exemplary embodiment according to the present invention includes the signal of the equipment of flexure suppression unit and lifting unit Figure.

Fig. 2 illustrates the signal enlarged drawing of equipment shown in Fig. 1.

Fig. 3 illustrates the schematic diagram of the Rotating fields of contact roller units.

Fig. 4 illustrates the diagrammatic top view of two the adjacent layer structures using clamping element according to exemplary embodiment.

Fig. 5 illustrates the diagrammatic top view of the magnetics according to exemplary embodiment.

Fig. 6 illustrates the diagrammatic side view of magnetics shown in Fig. 5.

Fig. 7 illustrates the diagrammatic top view of two the adjacent layer structures using belt clamping element.

Fig. 8 illustrates the diagrammatic top view of the banding magnetics according to exemplary embodiment.

Fig. 9 illustrates the diagrammatic side view of banding magnetics shown in Fig. 8.

Figure 10 illustrates the schematic diagram of the exemplary electrical plating of the equivalent layer structure according to exemplary embodiment.

Diagram in accompanying drawing is schematic diagram.In different drawings, identical ginseng is provided to similar or like element Examine numbering.

Reference marks:

101: the first clamping elements

102: the second clamping elements

103: front Rotating fields

104: rear Rotating fields

105: process direction

106: trailing edge

107: leading edge

108: upside

109: downside

110: flexure suppression unit

111: the first arrangement apparatus

112: the second arrangement apparatus

113: moving direction

120: lifting unit

121: the first apparatus for removings

122: the second apparatus for removings

130: roller units

401: laterally edge

402: laterally clamping element

501: magnetic portion

601: housing, encapsulation

801: magnetisable coating

802: groove

1001: extra segment

1002: pickling section

1003: plating section

1004: rinsing section

1005: the section of removing

Fa: magnetic pull

Detailed description of the invention

Fig. 1 and Fig. 2 illustrates for manufacturing department's part carrier, particularly at the electricity on the surface utilizing plated with conductive material Rotating fields In plating appts (shown in Figure 10), the equipment of manipulation continuous processing Rotating fields 103,104.This equipment includes flexure suppression unit 110, configure this flexure suppression unit 110, with at least one in additional first clamping element 101 and the second clamping element 102, With in Rotating fields at least some of is processed, by the trailing edge 106 of front Rotating fields 103 relative to each other and rear Rotating fields Realize maintaining static between the leading edge 107 of 104 temporarily, suppress the flexure of corresponding two continuous processing Rotating fields.Additionally, this equipment Including lifting unit 120, configure this lifting unit 120, with after Rotating fields 103,104 has been carried out at least some of process, Remove at least one in the first clamping element 101 and the second clamping element 102, thus release front Rotating fields relative to each other Temporarily maintaining static of the trailing edge 106 of 103 and the leading edge 107 of rear Rotating fields 104.

Such as, the Rotating fields 103,104 of processing component carrier in electroplating processes, as shown in Figure 10, with at electroplanting device Middle additional conductive material or non-conducting material.Rotating fields 103,104 is thin and be flexible so that when defeated by electroplanting device When sending laminate structure 103,104, particularly when the inverse electroplating solution stream conveying including high solution mobility, then Rotating fields 103, Leading edge 106 and the trailing edge 107 of 104 bend because of the most straight power.In electroplating processes, arrange multiple layer one by one Structure 103,104, the most such as, because plating, so guide a line Rotating fields 103,104 along transport process direction 105.Cause This, Rotating fields 103 before the Rotating fields upstream of conveying direction 105 is referred to as, and by the conveying direction relative to front Rotating fields 103 The Rotating fields downstream of 105 is referred to as rear Rotating fields 104.Therefore, the trailing edge 106 of front Rotating fields is before corresponding rear Rotating fields 104 Edge 107.

Configure the flexure suppression unit 110 of this equipment, with additional first and second clamping elements 101,102, this first He The corresponding trailing edge 106 of front Rotating fields 103 and the leading edge 107 of rear Rotating fields 104 are such as clipped in one by the second clamping element 101,102 Rise.Especially it is possible to clamping element 101,102 is installed on the opposite side of corresponding front Rotating fields and rear Rotating fields 103,104, To suppress the flexure of corresponding two Rotating fields 103,104.

In order to add corresponding first clamping element 101 and the second clamping element 102, flexure suppression unit 110 can include For manipulating corresponding first clamping element 101 and the machine tool of the second clamping element 102.In the exemplary enforcement shown in Fig. 1 In example, flexure suppression unit 110 includes the first arrangement apparatus 111, for the first clamping element 101 is attached to front Rotating fields The upside 108 of 103 and the upside 108 ' of rear Rotating fields 104.Flexure suppression unit 110 also includes the second arrangement apparatus 112, is used for Second clamping element 102 is attached to the downside 109 of front Rotating fields 103 and rear Rotating fields 104 so that with the second clamping element 102 opposed layout the first clamping elements 101.

Flexure lifting unit 120 includes the first apparatus for removing 121, in the past Rotating fields 103 and rear Rotating fields 104 Side 108,108 ' removes the first clamping element 101.Flexure lifting unit 120 also includes that second removes unit 122, for from front layer The downside 109 of structure 103 and the downside 109 ' of rear Rotating fields 104 remove the second clamping element 102.

As it has been described above, the first apparatus for removing 110 and the second apparatus for removing 120 can include such as machine tool, it is used for moving Except corresponding first clamping element 101 and the second clamping element 102.Such as, when Rotating fields 103,104 is by the predetermined section of removing, First apparatus for removing 121 and the second apparatus for removing 122 leave equivalent layer structure edge 106,107 and carry corresponding first clamping element 101 and second clamping element 102.

Arrangement apparatus and apparatus for removing 111,112,121,122 include feeding hopper and remove hopper.Each hopper can To include multiple clamping element.Feeding hopper can include the conveyer belt near Rotating fields element 103,104 or conveying roller 130 Opening.If the opening that the leading edge 107 of the trailing edge 106 of front Rotating fields 103 and rear Rotating fields 104 is by feeding hopper, then release Put corresponding clamping element 101,102, and corresponding clamping element 101,102 is attached to by Rotating fields 103,104 corresponding Edge 106,107, to apply clamping force to corresponding edge 106,107.

In order to add and remove corresponding clamping element 101,102, a line Rotating fields 103,104 can be made along conveying direction 105 sequentially or continuously move.

In order to remove corresponding first clamping element 101 and the second clamping element 102, lifting unit 120 can include machinery Instrument, is used for removing corresponding first clamping element 101 and the second clamping element 102.Lifting unit 120 includes the first apparatus for removing 121 and second apparatus for removing 122, when Rotating fields 103,104 is by the predetermined section of removing, the first apparatus for removing 121 and second moves Corresponding first clamping element 101 and the second clamping element 102 is carried except device 122 leaves equivalent layer structure edge 106,107.

From Fig. 1 and Fig. 2 it can be seen that clamping element 101,102 links the edge 106,107 of pantostrat structure 103,104, make Must prevent Rotating fields 103,104 from bending.

First clamping element 101 is the such as first magnetics, and the second clamping element 102 is the such as second magnetic unit Part so that attract magnetic force Fa to act between the first magnetics and the second magnetics, be used for producing clamping force, thus front Realize maintaining static between trailing edge 106 and the leading edge 107 of rear Rotating fields 104 of Rotating fields 103 temporarily.

Therefore, the first arrangement apparatus 111 and the second arrangement apparatus 112 arrange opposite one another so that the most defeated at it Send Rotating fields 103,104.First arrangement apparatus 111 and the second arrangement apparatus 112 include the first hopper and the second hopper, Qi Zhong One clamping magnetics 101 is arranged in the first hopper, and the second clamping magnetics 102 is arranged in the second hopper.Often Individual hopper can to Rotating fields 103,104 and leave Rotating fields 103,104 direction 113 on move.Form corresponding hopper, If making the first hopper and the second hopper have little predetermined attaching distance from each other, then opposed first magnetic faced one another The gravitation Fa of property element and the second magnetics is sufficiently high so that the first magnetics and the second magnetics leave it and expect accordingly Struggle against and move towards mutually, until respective magnetic element arrangements is in the opposed faces of equivalent layer structure 103,104.With such Mode controls hopper and the motion of equivalent layer structure 103,104, i.e. the trailing edge 106 of current layer structure 103 and rear Rotating fields 104 The leading edge 107 predetermined attaching distance when being just arranged between two hoppers, between regulation hopper so that corresponding first magnetic Clamping element 101 and the second magnetic clamping element 102 just arrange along corresponding edge 106,107.

Selecting as one, corresponding first apparatus for removing 121 and the second apparatus for removing 122 can include accommodating and remove The corresponding hopper of clamping element 101,102.In corresponding hopper, grasping element can be installed, be used for capturing clamping element 101、102.Furthermore, it is possible to the magnet of such as electromagnet is arranged in corresponding hopper so that if clamping magnetics accordingly 101,102 by the section of removing, then apply magnetic force, and this magnetic force is more than the magnetic pull between the first magnetics and the second magnetics Fa so that respective magnetic element can be removed and make respective magnetic element arrangements in corresponding hopper.

Fig. 3 illustrates the exemplary layer construction 103,104 with flexure edge 106,107.It can be seen that edge 106,107 contact Conveying roller 130 so that cause damage risk and produce congested.The arrangement utilizing the present invention makes such as defeated by electroplating processes Rotating fields 103,104 causes when sending less flexure reduce destruction Rotating fields 103,104 and such as Rotating fields when conveying gather around The risk of plug.Additionally, because reducing flexure, so the Rotating fields 103,104 in electroplating processes keeps smooth so that such as layer knot Structure 103,104 reduces relative to the range deviation of galvanic anode, so produces the distribution of preferable copper.

Fig. 4 illustrates two the adjacent layer structures 103,104 using multiple clamping elements 101,102 according to exemplary embodiment Diagrammatic top view.The first shown clamping element 101 is arranged one by one along trailing edge 106 and leading edge 107.Additionally, This equipment also includes the second clamping element 102 (not shown) arranged one by one along trailing edge 106 and leading edge 107.

In the exemplary embodiment, the first clamping element 101 and the second clamping element 102 can be formed along accordingly The oval-shaped piece that the trailing edge 106 of Rotating fields 103,104 and leading edge 107 arrange one by one.Along such as corresponding edge 106, The corresponding clamping element 101,102 that the upper surface 108 (with lower surface 109) of 107 arranges is separated from each other.

Furthermore, it is possible to it is first to arrange respective transversal clamping on both sides 108,109 along the horizontal edge 401 of Rotating fields 103,104 Part 402, to suppress the flexure of corresponding edge 401.

Fig. 5 illustrates the diagrammatic top view of the magnetic clamping element 101,102 according to exemplary embodiment.Magnetic clamping element 101,102 include magnetic portion 501.Magnetic clamping element 101,102 can be formed by the support of supporting magnetic portion 501.Therefore, Only a part for magnetic clamping element 101,102 main body can be magnetic.Therefore, support can form bigger contact Face, enabling smooth engagement and clamping equivalent layer structure 103,104.Trailing edge 106 and the rear Rotating fields 104 of front Rotating fields 103 Leading edge 107 between gap by magnetic clamping element 101,102 bridge.

Fig. 6 illustrates the diagrammatic side view of magnetics shown in Fig. 5.Magnetic clamping element 101,102 includes surrounding magnetic portion The housing 601 of 501.Housing 601 can be formed by nonmagnetic substance, and this housing 601 is closed magnetic portion 501 and therefore protects magnetic Property portion 501.Above-mentioned support can form housing 601 and outer ring surrounds and encapsulating magnetic portion 501.

Fig. 7 illustrates the diagrammatic top view of two the adjacent layer structures 103,105 using belt clamping element 101,102.Magnetic Property clamping element 101,102 formed banding clamping element 101,102, form this banding clamping element 101,102, for cover before At least the 3/4 of the total length of edge 106 and trailing edge 107.Such as, respectively the upper surface of corresponding edge 106,107 and corresponding edge 106, On the lower surface 108 ' of 107, a banding clamping element 101,102 can be used, be used for providing clamping force.Therefore, it can with Banding strip mode forms banding clamping element 101,102 so that clamping element 101,102 cover edge 106,107 whole always Length or at least its 3/4.

Fig. 8 illustrates the diagrammatic top view of the banding magnetics according to exemplary embodiment.Magnetic clamping element 101 includes Such as magnetisable coating 801.Additionally, or select, by making magnetic be coated with as a kind of of the magnetic portion 501 in clamping element 101 Layer 801 is coated on such as support, can produce gravitation.

Clamping element 101,102 includes at least one groove 802.Such as, groove 802 is through hole.Particularly, groove 801 It is formed at the stage casing of corresponding clamping element 101,102 so that edge is still and the sufficiently large clamping section of corresponding clamping element 101,102 Still surround groove 802.Magnetic portion 501 can still be arranged in the side of groove 802.

Fig. 9 illustrates the diagrammatic side view of banding magnetics shown in Fig. 8 101,102.Illustrate that corresponding magnetic pull Fa acts on Between first clamping element 101 and the respective magnetic portion 501 of the second clamping element 102 of corresponding opposed layout so that before preventing Flexure between edge 107 and trailing edge 106.Therefore, by clamping corresponding edge 106,107, make corresponding edge 106,107 maintain static, Make to prevent from relative motion and flexure from each other.

Figure 10 illustrates the schematic diagram of the exemplary electrical plating of the equivalent layer structure 103,104 according to exemplary embodiment. First, Rotating fields 103,104 enters extra segment 1001 along processing direction 105.In extra segment 1001, dress is arranged in arrangement accordingly Put 111,112, with by corresponding clamping element 101,100 extra segment equivalent layer structure 103,104.Rotating fields 103,104 is by arranging Above and below roller units 130 in Rotating fields 103,104 carries and drives.When leaving extra segment 1001, press from both sides accordingly Tight element 101,102 makes the trailing edge 106 of front Rotating fields 103 and the leading edge 107 of rear Rotating fields 104 maintain static temporarily.In order to Plating equivalent layer structure 103,104 and before entering the plating section 1003 being positioned at downstream, Rotating fields 103,104 enters at extra segment The pickling section 1002 in the downstream of 1001.The electroless coating device section of the upstream and downstream being positioned at plating section 1003 has upper roller 130, should Upper roller 130 is used as guider, to shift Rotating fields onto tram 103,104 times.In plating section 1003, do not use in upside In the roller guided.So-called paper tinsel guider can be used.Magnetic clamping element 101,102 makes corresponding edge 106,107 be maintained at electricity Appropriate location in plating section 1003.

After leaving plating section 1003, before the entrance section of removing 1005, equivalent layer structure 103,104 enters rinsing section 1004.In the section of removing 1005, the corresponding apparatus for removing 121,122 of lifting unit 120 is installed.Therefore, clamping element is removed 101,102, the interim of leading edge 107 of trailing edge 106 and rear Rotating fields 104 to release front Rotating fields 103 relative to each other is fixed Motionless.

Additionally, also disclose as follows:

A kind of in order to manufacture parts carrier, particularly at the electroplanting device on the surface utilizing plated with conductive material Rotating fields In, the side of the Rotating fields 103,104 of continuous processing is manipulated in particular with the equipment according in claim 1 to 11 Method, wherein the method includes:

In Rotating fields at least some of is processed, by front Rotating fields 103 relative to each other trailing edge 106 with after Realize maintaining static between the leading edge 107 of Rotating fields 104 temporarily, suppress the flexure of corresponding two continuous processing Rotating fields；And

After Rotating fields 103,104 has been carried out at least some of process, after releasing front Rotating fields 103 relative to each other Temporarily maintaining static of the leading edge 107 of edge 106 and rear Rotating fields 104.

It should be noted that, term " includes " being not excluded for other elements or step, and " one " or " one " are not excluded for many Individual.Furthermore, it is possible to the element combining different embodiment description is combined.Should also be noted that, it is impossible to by claim Reference marks be not understood as the restriction of the scope to claim.The enforcement of the present invention is not limited to shown in the drawings and upper The preferred embodiment that face describes.On the contrary, even for substantially different embodiment, use shown solution and according to this The principle of invention, still has been able to multiple modification.

Claims (17)

1. in order to manufacture a parts carrier, particularly at the electroplanting device on the surface utilizing Rotating fields described in plated with conductive material In, the equipment of the Rotating fields (103,104) of manipulation continuous processing, wherein said equipment includes:

Flexure suppression unit (110), configures described flexure suppression unit (110), with additional first clamping element (101) and second At least one in clamping element (102), to pass through at least some of process to Rotating fields at front layer relative to each other Realize maintaining static between trailing edge (106) and the leading edge (107) of rear Rotating fields (104) of structure (103) temporarily, suppress corresponding two The flexure of the Rotating fields of individual continuous processing；

Lifting unit (120), configures described lifting unit (120), so that described Rotating fields (103,104) is being carried out at least one After part processes, remove at least one in the first clamping element (101) and the second clamping element (102), thus release mutually Temporarily maintaining static between trailing edge (106) and the leading edge (107) of rear Rotating fields (104) of relative front Rotating fields (103).

Equipment the most according to claim 1,

Wherein configure described flexure suppression unit (110), so that described first clamping element (101) is attached to described front Rotating fields (103) upside (108) and the upside (108) of described rear Rotating fields (104) and described second clamping element (102) is added To another opposed downside (109) and the downside (109) of described rear Rotating fields (104) of described front Rotating fields (103), with in institute State the described trailing edge clamping described front Rotating fields (103) between the first clamping element (101) and described second clamping element (102) And the described leading edge (107) of described rear Rotating fields (104) (106).

3. according to the equipment described in claims 1 or 2,

Wherein said first clamping element (101) is the first magnetics and described second clamping element (102) is the second magnetic Property element so that magnetic pull (Fa) acts on described first magnetics and makes between the second magnetics, with produce described Realize interim solid between described trailing edge (106) and the described leading edge (107) of described rear Rotating fields (104) of front Rotating fields (103) Fixed motionless clamping force.

Equipment the most according to claim 3,

At least one in wherein said first magnetics and described second magnetics includes magnetic portion (501).

Equipment the most according to claim 4,

At least one in wherein said first magnetics and the second magnetics includes the shell surrounding described magnetic portion (501) Body (601).

Equipment the most according to claim 3,

At least one in wherein said first magnetics and the second magnetics includes magnetisable coating (801).

Equipment the most according to claim 1, also includes:

Multiple first clamping elements (101), arrange institute one by one along described trailing edge (106) and described leading edge (107) State multiple first clamping element (101), and/or

Multiple second clamping elements (102), arrange institute one by one along described trailing edge (106) and described leading edge (107) State multiple second clamping element (102).

Equipment the most according to claim 1,

Wherein said first clamping element (101) and/or described second clamping element (102) form banding clamping element, shape Become described banding clamping element, to cover at least the 3/4 of the total length of described leading edge (107) and described trailing edge (106).

Equipment the most according to claim 1,

Wherein said first clamping element (101) and/or described second clamping element (102) include at least one groove (802)。

Equipment the most according to claim 2,

Wherein said flexure suppression unit (110) includes the first arrangement apparatus (111), for by described first clamping element (101) upside (108) of described front Rotating fields (103) and the upside (108) of described rear Rotating fields (104) it are attached to,

Wherein said flexure suppression unit (110) also includes the second arrangement apparatus (112), for by described second clamping element (102) downside (109) of described front Rotating fields (103) and the downside (109) of described rear Rotating fields (104) it are attached to so that with Described first clamping element of the opposed arrangement of described second clamping element (102) (101).

11. equipment according to claim 10,

Wherein configure described flexure suppression unit (110), with at least one other first clamping element (101) and at least one additional Other second clamping elements (102) individual, for suppressing the flexure of other two continuous processing Rotating fields pair corresponding so that described in set Standby applicable simultaneously along processing streamline continuous processing and clamping at least three Rotating fields.

12. equipment according to claim 11,

At least one other first clamping element (101) wherein said and at least one other second clamping element (102) described Can be operated by identical the first arrangement apparatus (111) and the second arrangement apparatus (112).

13. equipment according to claim 11,

Wherein said flexure lifting unit (120) includes the first apparatus for removing (121), for the upside of Rotating fields (103) in the past (108) and the upside (108) of rear Rotating fields (104) removes described first clamping element (101),

Wherein said flexure lifting unit (120) also includes the second apparatus for removing (122), for from described front Rotating fields (103) Downside (109) and the downside (109) of described rear Rotating fields (104) remove described second clamping element (102)；And

At least one other first clamping element (101) described and at least one other second clamping element (102) described are permissible By first shifting identical with at least one first clamping element (101) described and at least one second clamping element (102) described Except device (121) and the second apparatus for removing (122) operate.

14. equipment according to claim 11,

At least one other first clamping element (101) wherein said and at least one other second clamping element (102) described Can be by other first arrangement apparatus (111) and other the second arrangement apparatus (112) and/or other the first apparatus for removings (121) operate with other second apparatus for removings (122).

15. 1 kinds of parts carriers, including:

Rotating fields, described Rotating fields by according to a described device fabrication in claim 1 to 14,

At least one electric insulation layer structure, and

At least one conductive coating structure,

At least one electric insulation layer structure wherein said and at least one conductive coating structure described are fixed to described Rotating fields.

16. 1 kinds of electronic installations, described electronic installation includes:

There is the electronic unit of electric terminal,

Parts carrier according to claim 15, described electronic unit is coupled to described parts carrier.

17. electronic installations according to claim 16,

Wherein from by the group constituted as follows selects described electronic unit: active electronic component, passive electrical components, electronics core Sheet, memory device, wave filter, integrated circuit, Signal Processing Element, power management component, optic electric interface element, voltage are changed Device, password part, transmitter and/or receiver, electromechanical transducer, sensor, driver, MEMS, microprocessor, Capacitor, resistor, inducer, battery, switch, video camera, antenna, magnetics and logic chip.