CN103042560A - Substrate module transfer method and magnetic board applying to same - Google Patents

Abstract

The invention provides a substrate module transfer method which utilizes the magnetic board to enable a plurality of substrate modules cut by a cutting machine to be transferred to the external portion of the cutting machine, thereby being capable of effectively reducing transfer time of operation personnel and operation complexity, further lowering idle time of the cutting machine, increasing utilization rate, reducing derivative additional equipment cost, and reaching the purpose of improvement of process yield and production performance. In addition, the magnetic board applying to the substrate module transfer method is further disclosed. The substrate module transfer method can utilize the magnetic board rapidly, safely and conveniently to enable the plurality of substrate modules cut by the cutting machine to be transferred to the external portion of the cutting machine, reduces the transfer time of the operation personnel and the operation complexity, further lowers the idle time of the cutting machine, increases utilization rate, reduces the derivative additional equipment cost, and reaches the purpose of improvement of the process yield and the production performance.

Description

Substrate module method for shifting and be applied to the magnetic sheet of the method

Technical field

The present invention in more detail, is the substrate module transfer technology of utilizing magnetic sheet about a kind of about a kind of substrate module transfer technology.

Background technology

Flourish along with communication industry in recent years, grow with each passing day for the demand of wireless communications products in market, and the competitive pressure of simultaneous related industry rises rapidly.For the market demand and the competitive pressure in response to this continuous rising, wireless communications products manufacturer is devoted to the lifting of exploitation, process rate and the production efficiency of new product invariably.

Wireless communications products is of a great variety, and common is that a wireless communication module is all contained in inside.Wireless communication module (Wireless Communication Module) (this wireless communication module can such as being the wireless communication modules such as WiFi, bluetooth, 3G) is divided into embedded and circumscribed usually, wherein, Embedded communication module generally presents take the form of a substrate module (Substrate Module) (substrate module that this substrate module can for example consist of as multi-chip module), and the communication module of circumscribed is then presented by the form of substrate module integrating exterior system, shell, electric connection interface.

The method for making of common substrate module adopts in batches processing procedure, namely at system's processing procedures such as the enterprising line of a substrate film road printing of distinguishing a plurality of unit, pieces, with each unit cutting and separating, and make the substrate module of a plurality of respective amount finally by cutting process (claim again cut one way order).The aforementioned cutting process substrate film location that whole piece is to be cut is positioned in the cutting machine (this cutting machine system is in order to be cut into this substrate film the machinery equipment of a plurality of substrate modules) and cuts, after cutting is finished, take out one by one the cutting machine outside with the substrate module that manually respectively all is separated each other again, after treating all to take out, just can reappose next substrate film to be cut and carry out cutting process.Hence one can see that, and the substrate module quantity after cutting is more, and then the work of pickup is carried out more time-consumingly one by one, and also has the hidden danger of quality such as damaged in collision (striker), real part to be improved in time-consuming pickup process.In addition, because time-consuming pickup process causes the free time of cutting machine long, utilization rate is low, and deriving increases the extras cost to satisfy the significant drawback of production capacity.

Therefore, how to overcome the defective that exists in the aforementioned prior art, rapidly safety or be easy to the substrate module that transfer is finished through cutting promotes the service efficiency of cutting machine, real technical problem of desiring most ardently solution for present this area.

Summary of the invention

For solving the shortcoming of above-mentioned prior art, the object of the present invention is to provide a kind of substrate module method for shifting and be applied to the magnetic sheet of the method, can effectively reduce operating personnel's transfer time and the operational complexity of reduction through the substrate module of cutting to be easy to fast transfer, and then reach the free time of reducing cutting machine, increase utilization rate and the effect that reduces the extras cost of deriving, reach the purpose that process rate and production capacity promote.

For reaching above-mentioned and other relevant purpose, the invention provides a kind of substrate module method for shifting, it is applied to a plurality of substrate modules of being cut into by a substrate film in the transfer cutting machine, and respectively this substrate module all contains magnetic conductive metal, and this substrate module method for shifting comprises: with a magnetic sheet that is enough to cover this substrate film cover and absorption respectively this contains the substrate module of magnetic conductive metal; And, with absorption respectively the magnetic sheet of this substrate module to move to this cutting machine outside, and this magnetic sheet removal this substrate module respectively certainly.

The present invention also provides a kind of magnetic sheet that is applied to aforesaid substrate module method for shifting, Bao Kuo ︰ one body, and its size is enough to cover this substrate film, and has relative first surface and second surface; And a magnetisable material is arranged on the first surface of this body, is used for respectively this substrate module of absorption.

In one embodiment of this invention, this substrate module is wireless communication module.

In another embodiment of the present invention, this magnetisable material is soft magnet or solenoid.

In sum, utilize substrate module method for shifting of the present invention, can be fast, safety, utilize magnetic sheet that cutting machine is cut a plurality of substrate modules of finishing easily to transfer load to the cutting machine outside, not only reduce operating personnel's transfer time and reduction Operating Complexity, and then reach the free time of reducing cutting machine, increase utilization rate and the effect that reduces the extras cost of deriving, reach the purpose that process rate and production capacity promote.

Description of drawings

Fig. 1 is the schematic perspective view of magnetic sheet of the present invention;

Fig. 2 A utilizes magnetic sheet that substrate module is adsorbed on embodiment schematic diagram on the first surface that magnetic sheet has magnetic adsorptive power;

Fig. 2 B is that Fig. 2 A is along the profile of A-A line segment cutting;

Fig. 3 A is for utilizing the rapidly example embodiment of transfer substrate module of magnetic sheet;

Fig. 3 B is for utilizing the rapidly example embodiment of transfer substrate module of magnetic sheet;

Fig. 4 is the flow chart of substrate module method for shifting of the present invention.

Among the figure:

2, substrate module;

2 ', substrate module;

2 ' ', substrate module;

10, magnetic sheet;

10 ', magnetic sheet;

11, body;

111, first surface;

12, the grip part;

112, second surface;

14, magnetisable material;

15, the antistatic adhesive tape;

30, cutting machine;

31, automatic mechanical arm;

32, groove;

33, tool station;

34, interrupter;

35, interrupter;

A-A, line segment;

S401, S402, step.

The specific embodiment

Below by specific implementation form technology contents of the present invention is described, the personage who is familiar with this skill can understand other advantages of the present invention and effect easily by content disclosed in the present specification.The present invention also can be implemented or be used by other different implementation forms, and the every details in this specification also can based on different viewpoints and application, be carried out various modifications and change under not departing from the present invention's spirit.

Fig. 1 is the schematic perspective view of magnetic sheet 10 of the present invention.Fig. 2 A utilizes magnetic sheet shown in Figure 1 10 that substrate module 2 is adsorbed on embodiment schematic diagram on the first surface 111 that this magnetic sheet 10 has magnetic adsorptive power.Fig. 2 B is that Fig. 2 A is along the profile of A-A line segment cutting.

Shown in Fig. 1, Fig. 2 A, Fig. 2 B, magnetic sheet 10 of the present invention is in order to draw the substrate module 2 of finishing through cutting machine (being shown among Fig. 3 A, Fig. 3 B) cutting.In the present embodiment, this substrate module 2 is wireless communication module, and respectively this substrate module 2 all contains magnetic conductive metal, wherein, this magnetic conductive metal is that (this electro-magnetic wave shield is in order to shield electromagnetic wave for the electro-magnetic wave shield (Shielding Case) that is installed in these substrate module 2 surfaces, prevent that thus substrate module 2 is subject to the impact of external electromagnetic field) or radiator, directly adsorb for this magnetic sheet 10, and magnetic sheet of the present invention 10 is used for and will transfers load to the cutting machine outside through the substrate module 2 of cutting.At this palpus lay special stress on, this electro-magnetic wave shield is made of metal material, can reach electromagnetic interference (Electromagnetic interference; Abbreviation EMI) effect of shielding also makes simultaneously this magnetic sheet 10 be able to magnetic adsorptive power and draws this substrate module 2.In addition, the mentioned substrate module of other embodiment of the present invention all can be has similar above-mentioned electro-magnetic wave shield or other structures that is made of metal material, for implementing substrate module method for shifting of the present invention.

Shown in Fig. 1, Fig. 2 A, Fig. 2 B, magnetic sheet 10 of the present invention mainly is made of a body 11, a magnetisable material 14 (can for example embed in this body 11) and a grip part 12.The size of this body 11 is enough to cover a substrate film, and has relative first surface 111 and second surface 112; This magnetisable material 14 is arranged at for example embedded mode on the first surface 111 of this body 11, and this magnetisable material 14 can be soft magnet or solenoid, with the substrate module 2 that utilizes magnetic adsorptive power absorption to finish through cutting.This body 11 also can further comprise coating the antistatic adhesive tape 15 of this magnetisable material 14.

This grip part 12 is arranged on the second surface 112 with respect to the first surface 111 of this body 11, grips for operating personnel.The shape and the position that are noted that the grip part 12 shown in the figure only are used for explanation, but are not limited only to this shape and this position.

In the present invention, can utilize this magnetic sheet 10 to draw these substrate modules 2 by manually mode or automation mode, and then will transfer load to the cutting machine outside through the substrate module 2 that cutting is finished.

Next will consult Fig. 3 A and Fig. 3 B, for utilizing the rapidly example embodiment of transfer substrate module 2 ' of magnetic sheet 10 ' of the present invention.

As shown in Figure 3A, cutting machine 30 successfully is cut into a plurality of substrate modules 2 ' with substrate film, these a plurality of substrate modules 2 ' are placed in corresponding a plurality of the grooves 32, and this cutting machine 30 has interrupter 34, wherein, impurity or the dust of this interrupter 34 in order to isolate external environment, by with the improving product yield, so operating personnel's wish will these a plurality of substrate modules 2 ' certainly remove one by one in these a plurality of grooves 32 quite time-consuming.Therefore, based on the present invention, operating personnel can grip this magnetic sheet 10 ' (in other embodiments by the grip part take for example transfer mechanism as automatic mechanical arm 31, also mode is for it manually), this magnetic sheet 10 ' is had the substrate module 2 ' of surface (being in the present embodiment the lower surface of this magnetic sheet 10 ') in the face of finishing through cutting on the cutting machine 30 of magnetic adsorptive power, will be somebody's turn to do the substrate module 2 ' of finishing through cutting by magnetic adsorptive power and be adsorbed in its lower surface (shown in Fig. 3 B).For example, this automatic mechanical arm 31 can be followed a plurality of the substrate modules 2 ' that promptly this magnetic sheet 10 ' adsorbed together with this magnetic sheet 10 ' and transfer load to the tool station 33 with interrupter 35, to carry out further fabrication process step.At the same time, another substrate film can be placed on this cutting machine 30, this cutting machine 30 just can promptly be followed another substrate film is cut, a plurality of substrate modules 2 of finishing through cutting to produce next group ".That is to say, in order to reach the purpose that improves production capacity or substrate module cutting efficiency, for example for this transfer mechanism of automatic mechanical arm 31 can transfer load to this magnetic sheet 10 ' together with this substrate module 2 ' of finishing through cutting can be in order to the tool station 33 that carries out further fabrication steps, so that this cutting machine 30 does not remove the substrate module 2 ' of finishing through cutting when reason costs and increases its free time.In addition, operating personnel can by such as the magnetic adsorptive power of controlling this magnetic sheet 10 ' (such as: the magnetic force etc. of control solenoid) or in mode manually, with certainly this magnetic sheet 10 ' upper removal or the disengaging of this substrate module 2 ' of finishing through cutting, reach with this substrate module 2 ' of finishing through cutting certainly this cutting machine 30 transfer load to the purpose of this tool station 33.Thus, this tool station 33 can carry out further fabrication process to this substrate module 2 ' of finishing through cutting, and this cutting machine 30 also can be processed or be cut another substrate film to be cut, to produce the substrate module 2 of finishing through cutting "; so that these cutting machine 30 unlikely substrate modules 2 ' because of finishing through cutting slowly do not remove and cause cutting machine 30 leaving unused own on it, so that other similar relevant tool stations can drop into rapidly the processing procedure of next stage or process the next group substrate module after substrate module removes.In addition, this magnetic sheet 10 ' can be installed on the transfer mechanism of this cutting machine 30, after this substrate film is cut into a plurality of substrate modules 2 ', by this transfer mechanism these substrate modules 2 ' is transferred load to tool station 33.Hence one can see that, and substrate module method for shifting provided by the present invention also can reach the effect that improves cutting machine utilization rate (reduction vacancy rate) except the transfer time and the operational complexity of reduction that can effectively reduce operating personnel.

See also Fig. 4, be the flow chart of substrate module method for shifting of the present invention, wherein, this substrate module method for shifting is applied to a plurality of substrate modules of being cut into by a substrate film in the transfer cutting machine, and respectively this substrate module all contains magnetic conductive metal.

As shown in Figure 4, at first carry out step S401, with a magnetic sheet that is enough to cover this substrate film cover and absorption respectively this contains the substrate module of magnetic conductive metal, then proceed to step S402.In one embodiment, this magnetic sheet system is for example for having the magnetisable material of magnetic adsorptive power, and wherein, this magnetisable material can be soft magnet or solenoid.In another embodiment, this magnetic conductive metal is electro-magnetic wave shield or the radiator that is installed in this substrate module surface, directly adsorbs for this magnetic sheet.

In step S402, with absorption respectively the magnetic sheet of this substrate module to move to this cutting machine outside, and this magnetic sheet removal this substrate module respectively certainly.

In addition, in one embodiment, this magnetic sheet is installed in a transfer mechanism of this cutting machine, after cutting into a plurality of substrate modules, carries out transfer by this transfer mechanism.

In sum, substrate module method for shifting of the present invention and the magnetic sheet that is applied to the method help rapidly transfer substrate module, not only can effectively reduce operating personnel's transfer time and the operational complexity of reduction, and then reach the free time of reducing cutting machine, increase utilization rate and the effect that reduces the extras cost of deriving, reach the purpose that process rate and production capacity promote.

Above-mentioned only in order to illustrate substrate module method for shifting of the present invention and the example that is applied to the magnetic sheet of the method, non-in order to limit the scope of essence technology contents of the present invention.Its essence technology contents system of substrate module method for shifting of the present invention and the magnetic sheet that is applied to the method broadly is defined in the following claim, any technology entity or method that other people finish, if identical with the following definien of claim institute, or be the change of equivalence, all will be regarded as containing among this claim.

Claims (11)

1. substrate module method for shifting is characterized in that: it is applied to a plurality of substrate modules of being cut into by a substrate film in the transfer cutting machine, and respectively this substrate module all contains magnetic conductive metal, and this substrate module method for shifting comprises:

With a magnetic sheet that is enough to cover this substrate film cover and absorption respectively this contains the substrate module of magnetic conductive metal; And

With absorption respectively this magnetic sheet of this substrate module to move to this cutting machine outside, and this magnetic sheet removal this substrate module respectively certainly.

2. according to dark substrate module method for shifting claimed in claim 1, it is characterized in that: wherein, this substrate module is wireless communication module.

3. according to dark substrate module method for shifting claimed in claim 1, it is characterized in that: wherein, this magnetic sheet has magnetisable material, and this magnetisable material is soft magnet or solenoid.

4. according to dark substrate module method for shifting claimed in claim 1, it is characterized in that: wherein, this magnetic conductive metal is electro-magnetic wave shield (Shielding Case) or the radiator that is installed in this substrate module surface, directly adsorbs for this magnetic sheet.

5. according to dark substrate module method for shifting claimed in claim 1, it is characterized in that: wherein, this magnetic sheet is installed in a transfer mechanism of this cutting machine, after cutting into these a plurality of substrate modules, carries out transfer by this transfer mechanism.

6. magnetic sheet that is applied to substrate module method for shifting according to claim 1, it is characterized in that: its bag is drawn together ︰

One body, its size is enough to cover this substrate film, and has relative first surface and second surface; And

One magnetisable material is arranged at the first surface of this body, is used for respectively this substrate module of absorption.

7. the magnetic sheet that is applied to the substrate module method for shifting according to claim 6 is characterized in that: also comprise the grip part of being located at this second surface, use for gripping.

8. the magnetic sheet that is applied to the substrate module method for shifting according to claim 6, it is characterized in that: wherein, this magnetisable material is soft magnet or solenoid.

9. the magnetic sheet that is applied to the substrate module method for shifting according to claim 6, it is characterized in that: wherein, this body also comprises coating the antistatic adhesive tape of this magnetisable material.

10. the magnetic sheet that is applied to the substrate module method for shifting according to claim 6, it is characterized in that: wherein, this substrate module is wireless communication module.

11. the magnetic sheet that is applied to the substrate module method for shifting according to claim 6, it is characterized in that: wherein, this magnetic conductive metal is electro-magnetic wave shield (Shielding Case) or the radiator that is installed in this substrate module surface, directly adsorbs for this magnetic sheet.

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