KR102422147B1 - Apparatus for clamping carrier film - Google Patents

Abstract

The present invention discloses a carrier film clamp device and a method of operating the same. A carrier film clamp apparatus and an operating method thereof according to an embodiment of the present invention are combined with an inner ring for supporting a carrier film and an outer surface of the inner ring of the inner ring in a semiconductor device manufacturing apparatus to fix the carrier film. It includes a ring, the outer ring is provided with an elastic body to fix the carrier film in close contact with the inner ring, and the inner ring and the elastic body are each configured to form a symmetrical upper and lower portions with respect to a vertical cross section.

Description

Carrier Film Clamp Apparatus {APPARATUS FOR CLAMPING CARRIER FILM}

The present invention relates to a carrier film clamp device and an operating method thereof, and more particularly, to a carrier film clamp device having a structure that prevents damage to a carrier film and facilitates fixing and releasing, and an operating method thereof.

In recent years, the performance of various kinds of electronic products is greatly improved and the size of the electronic products is greatly reduced by the semiconductor chip manufactured by the semiconductor device manufacturing technology.

Among them, a multi-layer ceramic capacitor (a semiconductor device) is a type of capacitor (accumulator) used to accumulate electricity or stabilize current. It is widely used in portable electronic devices such as PMPs. In particular, more than 1,000 to 2,000 MLCCs are used per unit for smartphones, and the use of MLCCs is high enough that 10,000 to 20,000 MLCCs are used in increasingly smart cars.

Such a semiconductor device is completed by alternately stacking tens to hundreds of layers of ceramic sheets and internal metal electrodes and then connecting external electrodes, and the size of the semiconductor device varies from 1 mm or less to several mm, and is gradually being miniaturized. Ceramic sheets used for semiconductor devices are formed by firing a ceramic slurry uniformly applied on a support, and a biaxially oriented polyester film having excellent mechanical strength, dimensional stability, heat resistance, price competitiveness, etc. is used as a substrate, and the It is used in the form of a release film coated with a polymer silicone film on one side.

As an example of the manufacturing process of the semiconductor device, the carrier film after expansion and expansion in the carrier film expansion process used when handling the parts by dicing after wafer level manufacturing in the manufacture of semiconductors or electronic parts, or proceeding to the next process clamping is required.

BRIEF DESCRIPTION OF THE DRAWINGS It is a schematic diagram of the conventional clamp apparatus.

Referring to FIG. 1 , the carrier film 10 is supplied to the support ring 20 and the pressing ring 30 is descended from above to clamp the carrier film 10 .

However, in such a conventional clamping device, it is difficult to control the gap between the support ring 20 and the pressure ring 30 when the carrier film is clamped, so damage or cutting often occurs or the clamping is not performed properly, resulting in process efficiency and quality. is a problem that lowers

Republic of Korea Patent Application No. 10-1095512

An embodiment of the present invention is to overcome the problems of the prior art, clamping is performed without damage or cutting of the carrier film to improve process efficiency and to provide a carrier film clamp device and an operating method thereof.

According to an aspect of the present invention, in an apparatus for manufacturing a semiconductor device, an inner ring for supporting a carrier film and an outer ring coupled to an outer surface of the inner ring of the inner ring to fix the carrier film, wherein the outer ring has an elastic body is provided to fix the carrier film in close contact with the inner ring, and the inner ring and the elastic body may form a symmetrical shape in upper and lower portions with respect to a vertical cross-section, respectively.

The outer surface of the inner ring may have a shape corresponding to the shape of the elastic body, and concave portions may be formed at symmetrical positions on the outer surface of the inner ring.

A central portion of the outer surface of the inner ring may have a concave arc shape.

The outer ring may move from the upper side to the lower direction so that the elastic body provided on the outer ring and the outer surface of the inner ring are in close contact to fix the carrier film.

Protrusions may be respectively formed at symmetrical positions on the outer surface of the elastic body of the elastic body.

A plurality of the protrusions may be formed to be spaced apart.

A central portion between the protrusions may have a protruding arc shape.

The concave portion and the protrusion may be coupled to each other to fix the carrier film.

A plurality of the elastic body may be spaced apart from each other in a hemispherical shape.

A plurality of the elastic body may be formed to be spaced apart in a spherical shape.

The outer ring may be respectively formed with indentation grooves in which the elastic body is located.

The inner ring may include a body and a low-friction portion made of a material having a coefficient of friction lower than that of the body on the upper and lower portions of the body, and the low-friction portion may have flat upper and lower surfaces.

The outer periphery of the upper surface and the lower surface of the low friction part may have a round shape.

The inner ring may include a body and a low-friction part made of a material having a coefficient of friction lower than that of the body on the upper and lower parts of the body, and the low-friction part may have curved upper and lower surfaces.

The inner ring includes a body and a low-friction part made of a material having a lower coefficient of friction than the body on the upper and lower parts of the body, and the low-friction part may form a curved surface from the center to the radial direction in the plane with the upper surface and the lower surface in a plane.

The coefficient of friction of the plane may be smaller than the coefficient of friction of the curved surface.

The inner ring includes a body and a low-friction part made of a material having a lower friction coefficient than the body on the upper and lower parts of the body, and the low-friction part has an upper surface and a lower surface composed of a plurality of different coefficients of friction to form a plane.

The plane may be annular in the radial direction from the center according to the coefficient of friction.

The plane may have a large coefficient of friction in a radial direction from the center.

The plane may have an increased surface area according to the coefficient of friction.

According to another aspect of the present invention, in an apparatus for manufacturing a semiconductor device, an inner ring for supporting a carrier film and an outer ring coupled to an outer surface of the inner ring of the inner ring to fix the carrier film, wherein the outer ring has an elastic body is provided to fix the carrier film in close contact with the inner ring, and the inner ring and the elastic body each form a symmetrical upper and lower part with respect to a vertical cross section, and the central portion of the outer surface of the inner ring and the outer surface of the elastic body of the elastic body The central portion may have a planar shape.

According to another aspect of the present invention, there is provided a method of operating a carrier film clamp device, the step of supplying a carrier film and supporting it with the inner ring, the step of moving the outer ring toward the inner ring, and the elastic body provided on the outer ring and fixing the carrier film in close contact with the inner ring.

In the fixing of the carrier film, the concave portion formed in the inner ring and the protrusion formed in the elastic body may be combined to closely fix the carrier film.

In the fixing of the carrier film, the carrier film may be closely fixed by a difference in frictional force due to different coefficients of friction between the body and the low-friction part.

In the fixing of the carrier film, the carrier film may be closely fixed with a difference in frictional force due to different coefficients of friction constituting the low-friction part.

According to one embodiment of the present invention, a carrier film clamping device and an operating method thereof may provide an effect of improving process efficiency and quality by performing clamping while preventing damage or cutting of a carrier film.

In addition, since the upper and lower portions of the carrier film clamp device have a symmetrical shape, defects caused by the upper and lower portions being changed can be prevented in advance, thereby improving process efficiency.

BRIEF DESCRIPTION OF THE DRAWINGS It is a schematic diagram of the conventional clamp apparatus.
2 is a schematic diagram of a carrier film clamp device according to an embodiment of the present invention.
3 is a schematic view of a carrier film clamp device according to another embodiment of the present invention.
4 is a schematic diagram of a carrier film clamp device according to another embodiment of the present invention.
5 is a schematic diagram of a carrier film clamp device according to another embodiment of the present invention.
6 is a schematic view of a carrier film clamp device according to another embodiment of the present invention.
7 is a flowchart of a method of operating a carrier film clamp device.

The embodiments described below are provided so that those skilled in the art can easily understand the technical spirit of the present invention, and the present invention is not limited thereto. In addition, the matters expressed in the accompanying drawings may be different from the forms actually implemented in the drawings schematically for easy explanation of the embodiments of the present invention.

When a component is referred to as being connected or connected to another component, it may be directly connected or connected to the other component, but it should be understood that another component may exist in between.

2 is a schematic diagram of a carrier film clamp device according to an embodiment of the present invention.

Referring to FIG. 2 , the carrier film clamp device 1000 according to an embodiment of the present invention includes an inner ring 100 supporting the carrier film 10 and an inner ring outer surface 110 of the inner ring 100 . and an outer ring 200 coupled to and fixing the carrier film 10 , and an elastic body 210 is provided on the outer ring 200 to adhere the carrier film 10 to the inner ring 100 . fixed, and the inner ring 100 and the elastic body 210 each have a symmetrical upper and lower portions with respect to the center lines C1 and C2 with respect to a vertical cross section.

In one specific example, the inner ring outer surface 110 has a shape corresponding to the shape of the elastic body 210, and the inner ring outer surface 110 has concave portions 112 formed at symmetrical positions, respectively, The inner ring central portion 116 of the inner ring outer surface 110 has a concave arc shape.

In addition, protrusions 212 are respectively formed at symmetrical positions on the outer surface 211 of the elastic body 210 of the elastic body 210, and a plurality of the protrusions 212 are spaced apart from each other, and the central portion of the elastic body between the protrusions 212 ( 216) has a protruding arc shape.

In this structure, the outer ring 200 moves from the top to the bottom so that the elastic body 210 provided in the outer ring 200 and the outer surface 110 of the inner ring are in close contact with the carrier film 10 . However, the concave portion 112 and the protrusion 212 are coupled to fix the carrier film 10 .

In one specific example, a concave portion 112 is formed on the inner ring outer surface 110 of the inner ring 100 , wherein the inner ring outer surface 110 corresponds to the outer shape of the elastic body 210 . It is preferable to have a shape that becomes

According to the present invention, a plurality of protrusions 212 are formed to be spaced apart from each other on the outer surface 211 of the elastic body 210 of the elastic body 210, and the protrusions 212 may have a semicircular, elliptical or polygonal shape.

As a result of this structure, the concave portion 112 and the protruding portion 212 are coupled to each other in a shape corresponding to each other, and the carrier film 10 is closely fixed. In this case, the concave portion 112 and the protrusion 212 are preferably formed in plurality, respectively, and preferably formed continuously.

The inner ring 100 includes a body 102 and low friction parts 104 and 104-1 made of a material having a lower coefficient of friction than the body 102 on upper and lower portions of the body 102, respectively. And, the friction coefficient μ ₁ of the low friction parts 104 and 104 - 1 is preferably smaller than the friction coefficient μ ₂ of the body 102 .

Here, the low-friction parts 104 and 104-1 are symmetrical shapes of the same material, and when the upper surface 106 of the low-friction part 104 is described, the low-friction part 104 has a flat top surface 106 ( 107), and the outer peripheral portion 109 of the upper surface 106 is configured in a round shape.

3 is a schematic diagram of a carrier film clamp device according to another embodiment of the present invention.

Referring to FIG. 3 , the carrier film clamp device 1010 according to an embodiment of the present invention includes an inner ring 100 supporting the carrier film 10 and an inner ring outer surface 110 of the inner ring 100 . and an outer ring 200 coupled to and fixing the carrier film 10 , wherein the inner ring 100 has a lower friction than the body 102 between the body 102 and the upper and lower portions of the body 102 . Each of the low-friction parts 104 and 104-1 made of a modulus material is included, and the low-friction part 104 has an upper surface 106 of a curved surface.

In one specific example, the inner ring outer surface 110 has a shape corresponding to the shape of the elastic body 210, and the inner ring outer surface 110 has concave portions 112 formed at symmetrical positions, respectively, The inner ring central portion 116 of the inner ring outer surface 110 has a concave arc shape.

In addition, protrusions 212 are respectively formed at symmetrical positions on the outer surface 211 of the elastic body 210 of the elastic body 210, and a plurality of the protrusions 212 are spaced apart from each other, and the central portion of the elastic body between the protrusions 212 ( 216) has a protruding arc shape, and descriptions of other identical structures will be omitted.

4 is a schematic diagram of a carrier film clamp device according to another embodiment of the present invention.

Referring to FIG. 4 , the carrier film clamp device 1020 according to another embodiment is combined with the inner ring 100 supporting the carrier film 10 and the inner ring outer surface 110 of the inner ring 100 , and an outer ring 200 for fixing the carrier film 10, wherein the inner ring 100 has a lower friction coefficient than that of the body 102 on the body 102 and the upper and lower portions of the body 102. It is configured to include, respectively, low friction portions 104 and 104-1 made of Consists of. In this structure, the friction coefficient μ ₃ of the flat surface 107 is preferably smaller than the friction coefficient μ ₄ of the curved surface 108 .

According to the present invention, an elastic body 210 is provided on the outer ring outer surface 201 of the outer ring 200 to closely fix the carrier film 10 to the inner ring 100 .

Here, the elastic body 210 is a plurality of hemispherical shapes are spaced apart, and the concave portion 112 formed in the inner ring 100 composed of the body 102 and the low friction portion 104 and each will be combined.

In one specific example, the inner ring outer surface 110 has a shape corresponding to the shape of the elastic body 210, and the inner ring outer surface 110 has concave portions 112 formed at symmetrical positions, respectively, The inner ring central portion 116 of the inner ring outer surface 110 has a concave arc shape.

In addition, protrusions 212 are respectively formed at symmetrical positions on the outer surface 211 of the elastic body 210 of the elastic body 210, and a plurality of the protrusions 212 are spaced apart from each other, and the central portion of the elastic body between the protrusions 212 ( 216) has a protruding arc shape, and descriptions of other identical structures will be omitted.

5 is a schematic diagram of a carrier film clamp device according to another embodiment of the present invention.

Referring to FIG. 5 , the carrier film clamp device 1030 according to another embodiment is coupled to the inner ring 100 supporting the carrier film 10 and the inner ring outer surface 110 of the inner ring 100 , and an outer ring 200 for fixing the carrier film 10, wherein the inner ring 100 has a lower friction coefficient than that of the body 102 on the body 102 and the upper and lower portions of the body 102. It is configured to include, respectively, low friction portions 104 and 104-1 made of , 107-3), and the lower surface 106-1 of the low-friction part 104 is similarly configured with a plurality of different coefficients of friction to form the planes 107-4, 17-5, 107-6. ) is configured to achieve

In one specific example, the planes 107-1, 17-2, 107-3 form an annular shape radially from the center according to each friction coefficient (μ ₅ , μ ₆ , μ ₇ ). Preferably, the size is in the order of μ ₅ < μ ₆ < μ ₇ and gradually increases from the center to the radial direction from the center, and the surface area is preferably configured to increase with the increasing coefficient of friction. Meanwhile, the outer peripheral portion 109 of the upper surface 106 is configured in a round shape, and the outer peripheral portion 109-1 of the lower surface 106-1 is also configured in a round shape.

According to the present invention, the outer ring 200 is provided with an elastic body 210 to closely fix the carrier film 10 to the inner ring 100 .

Here, indentation grooves 202 in which the elastic body 210 is located are respectively formed on the outer ring outer surface 201 of the outer ring 200, and a plurality of spherical elastic bodies 210 are formed in the indentation grooves 202. ) are spaced apart from each other.

In addition, protrusions 212 are respectively formed in symmetrical positions on the outer ring outer surface 201 of the outer ring 200 , and a plurality of protrusions 212 are spaced apart from each other, and the elastic body between the protrusions 212 . The central portion 216 has a protruding arc shape.

The inner ring outer surface 110 has a shape corresponding to the shape of the elastic body 210, and the inner ring outer surface 110 has concave portions 112 formed at symmetrical positions, respectively, and the inner ring outer surface The inner ring central portion 116 of 110 has a concave arc shape.

Accordingly, the elastic body 210 is coupled to the concave portion 112 formed on the inner ring outer surface 110 of the inner ring 100, respectively, and a description of the other same structure will be omitted.

6 is a schematic diagram of a carrier film clamp device according to another embodiment of the present invention.

Referring to FIG. 6 , the carrier film clamp device 1040 according to another embodiment is combined with the inner ring 100 supporting the carrier film 10 and the inner ring outer surface 110 of the inner ring 100 , and an outer ring 200 for fixing the carrier film 10, and an elastic body 210 is provided on the outer ring 200 to closely fix the carrier film 10 to the inner ring 100, The inner ring 100 and the elastic body 210 each have a symmetrical upper and lower portions with respect to a vertical cross section.

In one specific example, the inner ring outer surface 110 has a shape corresponding to the shape of the elastic body 210, and the inner ring outer surface 110 has concave portions 112 formed at symmetrical positions, respectively, The inner ring central portion 118 of the inner ring outer surface 110 forms a flat surface.

The inner ring 100 includes a body 102 and low friction portions 104 and 104-1 made of a material having a lower coefficient of friction than the body 102 on upper and lower portions of the body 102, respectively. Here, the low friction parts 104 and 104-1 are symmetrical shapes of the same material, and when the upper surface 106 of the low friction part 104 is described, the low friction part 104 is the upper surface 106 It is a flat surface 107, and the outer peripheral portion 109 of the upper surface 106 is configured in a round shape.

In addition, protrusions 212 are respectively formed at symmetrical positions on the outer surface 211 of the elastic body 210 of the elastic body 210, and a plurality of the protrusions 212 are spaced apart from each other, and the central portion of the elastic body between the protrusions 212 ( 218) has a protruding arc shape, and descriptions of other identical structures will be omitted.

7 is a flowchart of a method of operating a carrier film clamp device.

Referring to FIG. 7 together with other drawings, the operating relationship and operating method of the carrier film clamp device according to an embodiment of the present invention is provided by supplying the carrier film 10 to the inner ring 100 to the inner ring 100 . to be supported by the upper surface of the inner ring and the outer surface 110 of the inner ring (S110), and the outer ring 200 is moved toward the inner ring 100 (S120).

Then, the elastic body 210 and the inner ring 100 provided in the outer ring 200 are in close contact with each other to fix the carrier film 10 (S130).

Here, when the carrier film 10 is fixed, the concave portion 112 formed in the inner ring 100 and the protrusion 212 formed in the elastic body 210 are coupled to each other to form the inner ring 100 . and the coupling accuracy of the outer ring 200 is improved and the carrier film 10 is tightly fixed.

In more detail, in the fixing of the carrier film 10 , the carrier film 10 may be closely fixed by a difference in frictional force due to different coefficients of friction between the body 102 and the low-friction part 104 .

In addition to this, in the fixing of the carrier film 10 , the carrier film 10 may be closely fixed with a difference in frictional force due to different coefficients of friction constituting the low-friction part 104 .

Even when the outer ring 200 does not move to the correct position on the inner ring 100 , it is adjusted to the correct position by the elastic body 210 to maintain the holding force of the carrier film 10 .

According to this operation method, between the carrier film 10, the low friction part 104 and the inner ring 100 consisting of the body 102 and the carrier film 10 and the outer ring 200 The holding time and holding force of the carrier film 10 are changed by the frictional force acting, and the carrier film clamp device and its operating method according to the present invention prevent damage or cut of the carrier film, and the upper and lower portions have a symmetrical shape Therefore, the clamping of the carrier film is made at an accurate position, and the upper and lower portions of the carrier film clamp device are symmetrical to prevent defects caused by the upper and lower portions being changed, thereby providing an effect of improving process efficiency and quality.

Those of ordinary skill in the art to which the present invention pertains will understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential features thereof. Therefore, the embodiments described above are only presented by selecting and presenting the most preferred embodiments to help those skilled in the art from among various possible embodiments, and the technical spirit of the present invention is not necessarily limited or limited only by the presented embodiments. No, it is revealed that various changes, additions, and changes are possible within the scope without departing from the technical spirit of the present invention, as well as other equivalent embodiments are possible.

10: carrier film 20: support ring
30: pressure ring 100: inner ring
102: body 104, 104-1: low friction part
106: upper surface 106-1: lower surface
107, 107-1, 17-2, 107-3, 107-4, 17-5, 107-6: flat
108: curved surface 109, 109-1: outer periphery
110: inner ring outer surface 112: concave
113: upper release concave portion 114: lower release concave portion
116, 118: inner ring center part
200: outer ring 201: outer ring outer surface
202: indented groove 210: elastic body
211: elastic body outer surface 212: protrusion
213: upper release protrusion 214: lower release protrusion
216, 218: elastic body central part
1000, 1010, 1020, 1030, 1040: carrier film clamp device

Claims (12)

delete delete delete delete delete delete In the carrier film clamp device of the semiconductor device manufacturing process,
an inner ring for supporting the carrier film; and
an outer ring coupled to an outer surface of the inner ring of the inner ring to fix the carrier film;
including,
The outer ring is provided with an elastic body to fix the carrier film in close contact with the inner ring, and the inner ring and the elastic body each form a symmetrical upper and lower part with respect to a vertical cross section,
The inner ring central part of the outer surface of the inner ring and the elastic body central part of the elastic body outer surface of the elastic body are planar,
The inner ring includes a body and a low-friction part made of a material having a lower friction coefficient than the body on the upper and lower parts of the body, and the low-friction part has an upper surface and a lower surface composed of a plurality of different coefficients of friction to form a plane,
The plane has a greater coefficient of friction in a radial direction from the center, and the surface area of the plane increases or equals according to the coefficient of friction. delete delete delete delete delete

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