KR101893320B1 - Bobbin for press apparatus - Google Patents

Abstract

The objective of the present invention is to provide a bobbin for a press apparatus, fixing a film member by using a bobbin when the film member is laminated with a nickel-silver member so as to prevent shaking, thereby allowing precise lamination, and preventing an interval so that a product size is suitable. Moreover, the bobbin for a press apparatus comprises: a cylindrical bobbin main body installed in a position, in which a transfer direction of the film member transferred along a predetermined route can be converted, so as to guide the film member; and protrusion pins protruding from both sides of the outer circumference of the bobbin main body and inserted into loading holes formed on both lateral sides of the film member at predetermined intervals, thereby guiding the film member while fixing the film member to prevent the same from being shaken.

Description

[0001] The present invention relates to a bobbin for press apparatus,

The present invention relates to a bobbin for a press apparatus, and more particularly, to a bobbin for a press apparatus, and more particularly, to a bobbin for a press apparatus in which a film member is fixed by using a bobbin when a film member and a bi- To a bobbin for a press device capable of adapting product dimensions by eliminating clearance.

With the development of mobile communication technology, mobile devices are becoming smaller and more highly integrated, and the sizes of various devices integrated in mobile devices are also being refined to support the technological development of such mobile devices.

In the mobile device, various functions for supporting the internal algorithm of the mobile communication technology and the mobile device are integrated in a single device. Accordingly, the mutual interference between frequencies and currents generated for communication or algorithm processing in each functional unit There is a need for a technique for mutually isolating the respective functional parts from each other so that an abnormality caused by the functional parts can not be generated.

Presently, in order to isolate these various functional parts, a shield can which absorbs, reflects or blocks electromagnetic waves is used to protect the devices included in a specific function part.

Meanwhile, such a shield can also requires a process of making the mobile device more compact in addition to the miniaturization of the mobile device, and the shape of the shield can varies depending on the arrangement and size of the devices constituting the function unit.

In other words, the current mobile device is miniaturizing its thickness and width up to the maximum height of the device, so that the shield can also come into contact with the densely integrated device inside thereof. When the shield can contacts with the internal device, it may cause electric short-circuit or damage or malfunction due to the induction phenomenon. Therefore, it is necessary to prevent contact with the internal device as much as possible. And the like.

At present, a method currently used to mass-produce such shield can repeatedly and uniformly is a press method using a die.

That is, when a thin and long iron plate is rolled up and placed in a progressive metal mold and then fed into the mold by feeding the feeder, the press is vertically moved to fold the product in a predetermined shape and holes are drilled to complete the shape of the shield can . Then, a separate coating or coating process is performed to form a certain type of insulating layer in the shape of the shield can, and the insulation tape is attached to the component by hand or by using a machine equipped with a customized jig The final shield can is completed.

However, this method is not only troublesome to manufacture the insulating layer after press processing, but also lowers the yield and causes cost increase and failure.

In order to solve this problem, there has been an attempt to apply a pressing method in which a metal strip having an insulating layer formed thereon is rolled in a roll and transferred to the metal mold through a feeder. However, in the case of a shield can, Therefore, the insulating layer of the portion to be soldered should be removed in advance for each product formed at a predetermined pitch.

The removal of the insulating layer in advance to secure the soldering region naturally secures a metal layer for physical coupling, removes various electromagnetic noise generated from the electronic parts inside the shield can, and prevents internal electromagnetic interference (EMI / EMC) To the ground.

In this case, the metal strips with some insulating layers removed are fed at the same pitch by the feeders so that the metal molds can be worked with high precision so as to precisely puncture the positions where the soldering portions are formed. However, The tolerance is generated due to expansion and contraction due to temperature, and mechanical limitations, and the tolerance is accumulated as the length of the metal strip, from which the insulating layer is partially removed, accumulates. Therefore, the position where the insulating layer is removed in the progressive pressing process, The positions where these are performed do not exactly coincide with each other, so that the frequency of occurrence of defective products increases, making it impossible to actually produce them. In particular, metal sheets through rolls are continuously supplied in huge lengths ranging from a few hundred meters to several kilometers, leading to catastrophic losses if even a small margin of error accumulates.

On the other hand, there is a method of preventing the cumulative tolerance from occurring by replacing the unit sheet material based on the roll sheet supply, but in this case, manual work is required for replacing the sheet material, or large feeder equipment is required, It is difficult to apply it for mass production because of its low economic efficiency.

That is, in the field of electronic parts with precision, reliability, and mass production life, reliable mass production of shield can is required in which a film, coating, or plating does not constitute a whole electronic component but must be removed in a certain form from a certain portion New ways are being sought.

Therefore, the soldering area of the individual shield can is peeled while being continuously provided with the metal plate material having the insulating layer prepared by winding in the roll form, and even when the progressive pressing is performed according to the peeled area, It is possible to manufacture a shield can by using a press method so that the product yield and quality can be improved and the cost can be greatly reduced while eliminating the additional steps required for forming the insulating layer by mass- An apparatus, a method, and the like are disclosed.

Specifically, the fixture capable of producing the shield can by a pressing method is applied in a state in which the metal plate material, which is the material of the shield can, has a length of several tens of meters to several Km, A piercing process is performed on the metal plate through the piercing portion, a laser process is performed through the laser portion, and a press process is performed through the press portion. Thus, the shield can, which is the final workpiece, can be mass-produced from the continuously provided metal plate.

In this case, the piercing process, the laser process, and the press process may be sequentially performed in one process. However, when the laser peeling by the laser process and the progressive pressing by the press process are performed on the same line, The laser processing speed and the pressing speed may be different from each other inevitably.

On the other hand, the metal plate material supplied through the rolls is a metal plate having an insulating layer formed on one surface thereof. The insulating layer formed on the metal plate is generally formed by laminating an insulating film, bonding or pressing, applying an insulating material or coating, ≪ / RTI >

Particularly, in the case of manufacturing a shield can by a pressing process, a film member and a metal plate (a light-weight member) must be joined together. In the past, when a film member transported to the upper and lower portions is jointed with a fixing bar and a guide There is a problem in that the precision of the jointing due to the shaking of the film member is lowered, and further, there is a disadvantage that the product dimensions are not suitable due to the shaking.

Korean Patent Registration No. 10-1456034, punching method of plural shapes. Korean Patent Registration No. 10-1002738, and a method of manufacturing a shield can containing a fluororesin film.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a method of manufacturing a shield can using a bobbin And to provide a bobbin for a press apparatus capable of precisely lapping by preventing shaking and having no clearance, thereby making it possible to adapt product dimensions.

In order to accomplish the above object, the present invention is characterized in that a fluorine resin layer for a shield can is provided on one surface so as to join a film member to a strip-shaped bi-back member conveyed in a step of manufacturing a shield can by a pressing method, Shaped film member having a loading hole formed thereon is guided so as to be transported along a predetermined path so that the transport direction can be switched in the vertical direction in the horizontal direction or in the horizontal direction in the vertical direction, A cylindrical bobbin body disposed to be positioned at an end portion of the film member to guide the film member in the transport direction; And a bobbin body which is provided so as to protrude from the outer circumferences of both sides of the bobbin body and protrude at a predetermined distance from the bobbin body, And protruding fins for guiding the film member while fixing the film member so as not to be backlashed to prevent shaking of the film member being transported.

Wherein the bobbin body comprises: a bobbin body which is provided at an upper end of a transport path of the film member and guides the film material transported in a horizontal direction to be transported in a vertical direction, An upper bobbin body for guiding and guiding the film member to be fed from the upper side; The upper bobbin body is disposed to be spaced apart from a lower side of the upper bobbin body by a predetermined distance to guide the film member vertically conveyed by the upper bobbin body to be horizontally conveyed again. And a lower bobbin body having pins arranged at regular intervals to guide and guide the film member conveyed from the lower side, wherein a film member guided while being turned while passing through the upper bobbin body and the lower bobbin body, So as to be guided to be conveyed while being fixed without shaking.

The diameter of the upper bobbin body may be larger than the diameter of the lower bobbin body.

According to another aspect of the present invention, there is provided an image forming apparatus including: a cylindrical bobbin body provided at a position for switching a transport direction of a film material transported along a predetermined path to guide a film member; And protruding fins protruding from both sides of the outer circumference of the bobbin body and inserted into loading holes formed at both sides of the film member at regular intervals to guide and guide the film member so as not to be shaken.

Wherein the protruding fins are provided to be inserted into a central portion of the bobbin body so as to protrude from the outer circumference of the bobbin body, A fixing part to be inserted; And a guiding portion formed to be tapered to have a smaller diameter from the fixing portion to the outer end portion and to guide the fixing portion to be inserted into the loading hole.

Preferably, the fixing portion is provided so as to protrude by a length corresponding to the thickness of the film member.

According to the bobbin for a press apparatus according to the present invention, the film member is fixed by using the bobbin when the film member and the bi-back member are joined together in the process of manufacturing the shield can by a pressing method, There is no clearance and the product dimension can be adapted.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a feeding path of a film member by a bobbin for a press apparatus according to the present invention,
2 is a view showing a film member transported by a bobbin for a press apparatus according to the present invention,
3 is a perspective view of an upper bobbin body provided in a bobbin for a press apparatus according to the present invention,
Figure 4 is a side view of the upper bobbin body of Figure 3,
Fig. 5 is a cross-sectional view showing the structure of the upper bobbin body shown in Fig. 3,
6 is a perspective view of a lower bobbin body of a bobbin for a press apparatus according to the present invention,
Fig. 7 is a side view of the lower bobbin body shown in Fig. 6,
8 is a cross-sectional view showing the structure of the upper bobbin body shown in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Prior to the description of the present invention, the following specific structure or functional description is merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms , And should not be construed as limited to the embodiments described herein.

In addition, embodiments according to the concept of the present invention can make various changes and have various forms, so that specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention. 3 is a perspective view of an upper bobbin body provided on a bobbin for a press apparatus according to the present invention, FIG. 4 is a side view of the upper bobbin body of FIG. 3, and FIG. 5 is a cross- 6 is a perspective view of a lower bobbin body provided on a bobbin for a press apparatus according to the present invention, FIG. 7 is a side view of the lower bobbin body shown in FIG. 6, and FIG. 8 is a cross- Fig.

As shown in these figures, the present invention is applied to a process of laminating a film member and a nickel-plated member in a process of manufacturing a shield can by a pressing method. The film member 10 is provided so as to be able to guide the film member 10 transported along a predetermined path so that the film member 10 can be stuck to the strip-shaped white member 20 transported from one side to the other side, .

Here, it is preferable that the film member 10 is formed in a strip shape, and a fluorine resin layer for a shield can be provided on one surface thereof, and a loading hole 12 is formed on both sides thereof at regular intervals.

For example, it is more preferable to use commercially available Black Pi + Nitto 5600.

As shown in the drawing, the present invention preferably includes a bobbin body 110 for guiding the transfer of the film member 10 and projecting fins 120 installed on the outer circumference of the bobbin body 110 Do.

The bobbin body 110 has a cylindrical shape and is installed so as to be located at an end portion where the transport direction can be switched in the vertical direction in the horizontal direction or in the horizontal direction in the vertical direction, So as to guide the film member to be switched in the conveying direction.

The protruding fins 120 may protrude from the outer circumference of the bobbin body 110 at regular intervals.

The projecting pins 120 are provided to correspond to the intervals of the loading holes 12 formed on both sides of the film member 10 so that the projecting pins 120 are inserted into the loading holes 12, The film member can be guided while fixing the film member so that the film member is not backlashed.

The projecting pin 120 is installed to be inserted into the center of the bobbin body 110 so as to protrude from the outer circumference of the bobbin body 110, It is preferable that the fixing part 122 is inserted into the loading hole so that the film member 10 can be guided while being fixed by the portion protruding to the outer circumference of the bobbin body 110.

Preferably, the guiding portion 124 is formed to be tapered to have a smaller diameter from the fixing portion 122 to the outer end thereof, and to guide the fixing portion 122 to be inserted into the loading hole.

At this time, it is preferable that the fixing portion 122 is installed to protrude by a length corresponding to the thickness of the film member 10.

The projecting pin 120 configured as described above is inserted into the loading hole 12 formed in the film member 10 to guide the conveyance of the film member so as to prevent shaking of the conveyed film member, The conveyance can be guided while fixing the conveying belt 10.

As shown in the figure, the bobbin body 110 of the present invention may include an upper bobbin body 112 installed at an upper portion and a lower bobbin body 114 installed at a lower portion.

The upper bobbin body 112 is installed at the upper end of the transport path of the film member 10 to guide the film member 10 transported in the horizontal direction to be transported in the vertical direction and the upper bobbin body 112 The protruding pins 120 are provided at regular intervals so as to correspond to the intervals of the loading holes 12 on both sides of the outer circumference of the outer circumferential surface of the outer circumferential surface.

The lower bobbin body 114 is spaced apart from the upper bobbin body 112 by a predetermined distance so that the film member vertically transported by the upper bobbin body 112 can be transported in the horizontal direction And protruding fins 120 are provided at predetermined intervals on both sides of the outer circumference of the lower bobbin body 114 so as to correspond to the intervals of the loading holes 12 to guide and guide the film members conveyed from the lower side .

When the film member 10 is guided while the film member 10 passes through the upper bobbin body 112 and the lower bobbin body 114 while the film is guided while the film member 10 is being diverted, And can be guided to be transported while being fixed. That is, the projecting pin 120 guides the film member, which is guided along the outer circumference of the bobbin body 110, to the outer circumference of the bobbin body without slipping, thereby enabling accurate guidance.

In addition, when the bobbin body 110 is installed at the upper portion and the lower portion, the upper bobbin body 112 may be formed to have a larger diameter than the lower bobbin body 114.

As an embodiment of the present invention, a cylindrical bobbin body 110 installed at a position to switch the transport direction of the film member 10 transported along a predetermined path and to guide the film member 10, And protruding pins 120 protruding from both sides of the outer circumference of the body 110 and inserted into the loading holes 12 formed at both sides of the film member at regular intervals to guide the film members while preventing the film members from being shaken .

That is, the outer end of the projecting pin 120 is tapered to have a smaller diameter toward the end, so that the projecting pin 120 can be easily inserted into the loading hole 12 .

According to the present invention, there is an advantage that the film member 10 and the white member 20 can be precisely lapped by using the bobbin having the protruding fins 120 provided at regular intervals on both outer circumferences. That is, the film member 10 is fixed by the projecting pin provided on the outer periphery of the bobbin, thereby improving the dimension nonconformity.

Particularly, according to the present invention, by fixing the upper and lower film members 10 at the upper and lower portions, it is possible to prevent the film member from shaking due to slippage or the like and to precisely laminate the film member. .

Although the present invention has been fully described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be understood that the present invention is not limited thereto. It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10 - Film member 12 - Loading hole
110 - bobbin body 112 - upper bobbin body
114 - Lower bobbin body 120 - Extruding pin
122 - fixing part 124 - guide part

Claims (6)

In which a fluorine resin layer for a shield can is provided on one surface and a loading hole is formed on both sides of the fluorine resin layer on both sides so that the film member can be joined to the strip-like white member conveyed in the step of manufacturing the shield can by the press- Guiding the film member of the film member to be transported along a predetermined path,
A cylindrical bobbin provided so as to be positioned at an end portion of the path through which the film member is fed so that the feeding direction can be switched in the vertical direction from the horizontal direction or in the horizontal direction from the vertical direction, Body; And
Wherein the film member is provided so as to protrude from the outer periphery of both sides of the bobbin body so as to protrude at a predetermined distance from the outer circumference of the bobbin body, And protruding fins for guiding the film member while fixing the film member so as to prevent the film member from being shaken,
The protruding pins include:
A fixing unit installed to be inserted into a central portion of the bobbin body so as to protrude from the outer circumference of the bobbin body and inserted into the loading hole so as to guide the film member while fixing the protruding portion to the outer circumference of the bobbin body; And
And a guiding part formed to be tapered to have a smaller diameter from the fixing part to the outer end, and to guide the fixing part to be inserted into the loading hole.
The method according to claim 1,
The bobbin body includes:
Wherein the projecting pins are provided at regular intervals so as to correspond to the intervals of the loading holes on both sides of the outer periphery, the film members being installed at the upper end of the transporting path of the film member and guiding the film members to be transported in the horizontal direction to be transported in the vertical direction, An upper bobbin body for guiding and guiding the film member transferred from the upper bobbin body; And
The upper bobbin body is provided with a lower bobbin body spaced apart from the upper bobbin body by a predetermined distance so as to guide the film material vertically conveyed by the upper bobbin body to be horizontally conveyed again. And a lower bobbin body installed at predetermined intervals to guide and guide the film member conveyed from the lower side,
Wherein the bobbin for guiding the bobbin is guided to be transferred while being guided by the upper bobbin body and the lower bobbin body while being guided while being guided by the projecting pin.
3. The method of claim 2,
Wherein a diameter of the upper bobbin body is larger than a diameter of the lower bobbin body.
A cylindrical bobbin body provided at a position for switching the transport direction of the film member transported along a predetermined path to guide the film member; And
And protruding fins protruding from both sides of the outer circumference of the bobbin body and guiding the film members while being fixed to the loading holes formed at predetermined intervals on both sides of the film member,
The protruding pins include:
A fixing unit installed to be inserted into a central portion of the bobbin body so as to protrude from the outer circumference of the bobbin body and inserted into the loading hole so as to guide the film member while fixing the protruding portion to the outer circumference of the bobbin body; And
And a guiding part formed to be tapered to have a smaller diameter from the fixing part to the outer end, and to guide the fixing part to be inserted into the loading hole.
delete The method according to claim 1 or 4,
Wherein:
Wherein the bobbin is provided so as to protrude by a length corresponding to the thickness of the film member.

Images