KR101342653B1 - Tape feeding apparatus to seperate protection cover - Google Patents

Abstract

A tape feeding apparatus of the present invention comprises: tape feeding reel to which a tape feeding roll holding a material with a protection cover is combined to be able to rotate; one pair of side guide plates supporting the tape feeding reel to be able to rotate; a guide block provided between the one pair of side guide plates and the tape feeding reel to guide only the material to the outside by external feeding force; a first movable plate disposed over the guide block, supplied with the protection cover from the guide block, being moved back and forth with respect to the one pair of side guide plates by external feeding force applied to the material to strip the protection cover from the material; a second movable plate engaged with the first movable plate across the protection cover and moved left to right by being interlinked with the back-and-forth movement of the first movable plate to discharge the protection cover to the outside.

Description

Tape feeder with protective cover separated {TAPE FEEDING APPARATUS TO SEPERATE PROTECTION COVER}

The present invention relates to a tape supply apparatus, and more particularly, to a tape supply apparatus capable of supplying a material by separating a protective cover from a material tape to which a protective cover is coupled.

SMT devices are printed with a molten solder paste in a pattern on a printed circuit board, and various types of electronic devices are mounted on the printed pattern.

In the SMT equipment, solder paste is applied on the material forming the printed circuit board, and the subsequent process of supplying the material at the location is performed. At this time, the material is supplied to the upper surface in a protected state by the protective cover, and the protective cover is stripped during the supply.

A separate configuration including a motor is required for the strip operation of the protective cover, and a separate configuration for rewinding the stripped protective cover is additionally required. Accordingly, the proportion of the equipment for the strip of the protective cover in the entire SMT equipment is large, there is a problem that the manufacturing cost of the equipment is also increased.

An object of the present invention is to solve the above problems, to provide a tape supply device that can supply a material with a protective cover stripped to the SMT equipment in a simple configuration.

Another object of the present invention is to provide a tape supply device which can strip the protective cover in conjunction with the basic operation method of the SMT equipment without having a separate drive unit.

It is a further object of the present invention to provide a tape feeder which is driven to strip exactly as long as the target strip length.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

The object of the present invention can be achieved by a tape feeding device. The tape supply apparatus of the present invention includes a tape supply reel to which a tape supply roll on which a material with a protective cover is wound is rotatably coupled; A pair of side guide plates rotatably supporting said tape feed reel; A guide block provided between the pair of side guide plates and the tape supply reel to guide only the material to the outside by an external feeding force; Is disposed above the guide block, the protective cover is supplied from the guide block, and moved back and forth with respect to the pair of side guide plates by the external feeding force for the material and stripping the protective cover from the material A first moving plate; One end portion is engaged with the first moving plate with the protective cover therebetween, the second moving plate to move back and forth in conjunction with the forward and backward movement of the first moving plate and to discharge the protective cover to the outside, characterized in that it comprises a. .

According to one embodiment, further comprising a guide block cover which is interposed between the guide block and the first moving plate to guide the protective cover to the first moving plate.

According to one embodiment, rotatably coupled between the pair of side guide plate and the second moving plate is applied a friction force in a direction opposite to the movement of the second moving plate to increase the moving speed of the second moving plate It further comprises a friction force forming unit to be slower than the moving speed of the first moving plate.

According to one embodiment, the guide block, the guide block body; It is formed in the upper surface of the guide block body in a predetermined depth includes a material guide surface for guiding the material to the outside.

According to one embodiment, the guide block cover has a predetermined length of the cover flow hole for the protection cover guided from the guide block body flows into the plate surface.

According to one embodiment, the moving distance of the first moving plate is formed longer than the one moving distance of the material by the external feeding force, the length of the cover flow hole is formed longer than the moving distance of the first moving plate. .

According to one embodiment, the pair of side guide plates, the first moving plate moving rail and the second moving plate moving rail is formed a predetermined length, respectively, the first moving plate, between the pair of side guide plates A first moving plate body interposed and having a cover inlet hole through which the protective cover flows from the cover flow hole at a front end thereof; First and second moving plate front and rear coupling protrusions protruding from both sides of the first moving plate body and inserted into the first moving plate moving rail;

It includes a first moving plate coupling head extending on both sides of the rear end of the first moving plate body to be engaged with the second moving plate.

According to an embodiment of the present invention, the second moving plate includes: a second moving plate main body having a cover discharge space for discharging the protective cover to the outside and engaging the first moving plate coupling head at an end thereof;

Protruding on both sides of the second moving plate body includes a second moving plate coupling protrusion inserted into the second moving plate moving rail.

According to one embodiment, a movable plate return spring is provided between the pair of side guide plates and the first movable plate body to elastically return the first movable plate to an initial state when the external feeding force is removed.

According to one embodiment, the friction force forming unit, and the friction plate disposed in contact with the second moving plate; And a friction roller rotatably coupled to the friction plate to form a frictional force by pressing between the pair of side guide plates.

The tape supply apparatus according to the present invention has a structure in which the protective cover is stripped by a difference in relative speed between the first and second moving plates, and thus the protective cover can be stripped from the material with a simple structure.

In addition, the tape supply apparatus of the present invention is driven by an external feeding force applied from the SMT equipment without a separate driving force. Therefore, the whole structure is simple and manufacturing cost can be low.

In addition, the tape supply apparatus of the present invention can secure the reliability of the device by preventing the protective cover from being stripped when the external feeding force is not applied.

1 is a perspective view showing the configuration of a tape supply apparatus according to the present invention,
2 is an exploded perspective view showing an exploded configuration of the tape supply device of FIG.
Figure 3 is a schematic diagram schematically showing the operation of the tape supply apparatus of the present invention.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

1 is a perspective view showing the configuration of the tape supply device 100 according to the present invention, Figure 2 is an exploded perspective view showing the decomposition of the configuration of the tape supply device 100.

As shown, the tape supply device 100 according to the present invention is a tape supply reel 110 and the tape supply reel 110 is coupled to the material tape (A), the first side guide plate 120 is rotatably coupled ) And the second side guide plate 130, the first movable plate 140 and the first movable plate which are movably coupled back and forth between the first side guide plate 120 and the second side guide plate 130. The second moving plate 150 coupled to the end of the 140 and moved back and forth between the first side guide plate 120 and the second side guide plate 130 in conjunction with the movement of the first moving plate 140 and A guide block 160 and a guide block 160 disposed below the first side guide plate 120 to discharge only the material B forward from the material tape A supplied from the tape supply reel 110. It is disposed on the upper portion of the material tape (A) includes a guide block cover 170 for supplying only the protective cover (C) to the first moving plate (140).

Here, the tape supply device 100 according to the present invention is used in combination with the SMT equipment (not shown). That is, the material B of the material tape A supplied from the tape supply reel 110 is supplied forward through the guide block 160 to be supplied to the SMT equipment (not shown). Since the SMT device (not shown) bites the tip of the material B, an external feeding force for the material B is applied to the tape supply device 100 by the driving operation of the SMT device (not shown).

By the external feeding force, the material tape A is released from the tape supply reel 110 and the tape supply device 100 is driven. By one application of the external feeding force, the material B is supplied by one movement distance, and the protective cover C is stripped by the set target strip amount.

However, the tape supply device 100 according to the present invention may be applied to a variety of equipment that can apply the external force to press the tip of the material (B) as well as SMT equipment.

Tape supply reel 110 is a material tape (A) is wound inside. Tape supply reel 110 is a tape support plate coupled to the first side guide plate 120 to be coupled to the reel main body 111 and the side of the reel main body 111 is rotatable main body 111 ( 115).

The reel unit 111 has a rotation shaft insertion hole 113 through which the rotation shaft 115a is inserted in the center region. Inside the reel unit 111, a winding surface 112 on which a material tape A is wound is formed.

The tape support plate 115 is vertically coupled to the side of the reel unit 111. The tape support plate 115 is formed such that the rotation shaft 115a protrudes from the center region. The rotary shaft 115a penetrates through the rotary shaft insertion hole 113 of the reel unit 111 and is coupled to the shaft insertion hole 123a of the first side guide plate 120. Accordingly, when the material B is pulled forward by the external force, the tape supply reel 110 is rotated about the rotation shaft 115a and the material tape A is supplied.

The first side guide plate 120 and the second side guide plate 130 are spaced apart from each other by a predetermined interval. The first side guide plate 120 supports the tape supply reel 110 to be rotatable, and the second side guide plate 130 is formed together with the first side guide plate 120 and the first moving plate 140 and the first side guide plate 120. 2 moving plate 150 supports to move back and forth.

The first side guide plate 120 is provided at a guide plate body 121 having a predetermined length, a connection arm 122 extending downward from the rear end of the guide plate body 121, and an end of the connection arm 122. And a reel coupling plate 123 rotatably supporting the tape supply reel 110.

The guide plate body 121 is provided with a length in which the lengths of the first moving plate 140 and the second moving plate 150 are added together. On the plate surface of the guide plate body 121, a spring coupling hole 124 to which the moving plate return spring 190 is coupled is formed at a predetermined length. At this time, a spring fixing protrusion 124a to which one end 191 of the moving plate return spring 190 is fixed is formed at the front end of the spring coupling hole 124.

In addition, the guide plate body 121 is formed to penetrate a predetermined length before and after each of the first moving plate moving rails 125a and 125b for supporting the first moving plate 140 to be movable. The first moving plate front coupling protrusion 143 of the first moving plate 140 is inserted into the front first moving plate moving rail 125a, and the first moving plate 140 is inserted into the front second moving plate moving rail 125b. First moving plate guide protrusion 145 of the () is inserted.

The lengths of the front first moving plate moving rail 125a and the rear first moving plate moving rail 125b are equal to each other, and the first moving plate 140 is formed once by the external feeding force of the material B. It is formed longer than the moving distance to be moved.

The front guide block cover coupling hole 126a and the rear guide block cover coupling hole 126b through which the guide block cover 170 is coupled are formed in front of the spring coupling hole 124. A front coupling protrusion 172 of the guide block cover 170 is inserted into the front guide block cover coupling hole 126a, and a rear coupling protrusion 174 of the guide block cover 170 is inserted into the rear guide block cover coupling hole 126b. Is combined.

At the rear of the guide plate body 121, a friction plate insertion hole 127 into which the friction plate 183 of the friction force forming unit 180 is inserted is formed to correspond to the length of the friction plate 183.

In front of the friction plate insertion hole 127, a second moving plate moving rail 128 through which the second moving plate coupling protrusion 155 of the second moving plate 150 is inserted is formed.

The second side guide plate 130 is formed in a shape corresponding to the first side guide plate 120, and the connection arm 122 and the reel coupling plate 123 are removed. The second side guide plate 130 may include both side surfaces of the guide block 160, the guide block cover 170, the first moving plate 140, and the second moving plate 150 together with the first side guide plate 120. Support so that the material tape (A) is supplied stably. Since the rest of the configuration of the second side guide plate 130 is the same as the first side guide plate 120, detailed description thereof will be omitted.

The first moving plate 140 is moved back and forth between the pair of side guide plates 120 and 130 according to the presence or absence of material feeding force applied from the SMT equipment (not shown). The protective cover C is stripped from the material tape A by the forward and backward movement of the first moving plate 140.

The first moving plate 140 is formed of a plate material having a predetermined length. The first moving plate 140 passes through the first moving plate body 141 which is moved back and forth, and the cover insertion hole receives the protective cover C from the guide block cover 170 by passing through the front of the first moving plate body 141. 142 and the front of the first moving plate protruding to both sides in front of the first moving plate body 141 is inserted into the front first moving plate moving rails (125a, 135a) of the pair of side guide plates (120, 130) The first protrusion inserted into the rear first movable plate moving rails 125b and 135b of the pair of side guide plates 120 and 130 is formed to protrude to both sides at the rear of the coupling protrusion 143 and the first movable plate body 141. The plate guide protrusion 145 and the first moving plate coupling head 146 formed to be stepped at the rear end of the first moving plate body 141 and coupled to the second moving plate 150, and the first moving plate body 141. Protruding on one side of the () includes a spring engaging projection 147 coupled to the other end 193 of the movable plate return spring 190.

The first movable plate body 141 is supported between the pair of side guide plates 120 and 130. In the first moving plate body 141, the first moving plate front coupling protrusion 143 and the first moving plate guide protrusion 145 are the front first moving plate moving rails 125a and 135a and the rear first moving plate moving rail, respectively. Inserted into (125b, 135b), and moves back and forth in accordance with the external material feeding force.

The cover insertion hole 142 is formed through the front of the first moving plate body 141 to a predetermined size to receive the protective cover C from the guide block cover 170. The size of the cover insertion hole 142 is formed to be a certain size larger than the cross section of the protective cover (C) so that the protective cover (C) is smoothly supplied.

The first moving plate coupling head 146 is formed to be longer than the width of the first moving plate body 141 by a predetermined length to be stepped with the first moving plate body 141. The first moving plate coupling head 146 is inserted into and engaged between the first moving plate coupling legs 1152 of the second moving plate 150. As a result, the second moving plate 150 is moved back and forth in association with the movement of the first moving plate 140.

The spring coupling protrusion 147 is fixed to the other end 193 of the moving plate return spring 190. As a result, when the external material feeding force is removed, the first moving plate 140 is returned to the initial position by the elastic force of the moving plate return spring 190.

The second moving plate 150 is moved back and forth in conjunction with the first moving plate 140 and discharges the protective cover C to the outside. The second moving plate 150 is moved back and forth at a slower speed than the first moving plate 140 by the friction force forming unit 180 coupled to the rear end, and presses the protective cover C to thereby protect the protective cover C. Allow to be discharged to the outside.

The second moving plate 150 is formed by extending a predetermined length at the tip of the second moving plate body 151 and the second moving plate body 151 having a predetermined length and is engaged with the first moving plate 140. And a cover discharge space 153 formed inside the pair of first moving plate coupling legs 152 and the pair of first moving plate coupling legs 152 to discharge the protective cover C to the outside.

The second moving plate coupled to the left and right sides of the second moving plate body 151 is inserted into the second moving plate moving rail 128 of the pair of side guide plates 120 and 130 to support the second moving plate body 151 to move. The protrusion 155 is protruded.

The first movable plate coupling leg 152 is fixed with a first movable plate coupling head 146 inserted therein, and the cover discharge space 153 penetrates into an area where the first movable plate coupling head 146 is inserted. do. The cover discharge space 153 is formed to be shorter than the one-time moving distance of the first moving plate 140 so that the distance when the first moving plate 140 moves.

That is, when the first moving plate 140 and the second moving plate 150 are not moved to the rear, the cover discharge space 153 is wide, so that the protective cover C is freely disposed inside the cover discharge space 153. When the first moving plate 140 and the second moving plate 150 are moved to the rear, the cover discharge space 153 is narrowed due to the difference in relative speed, and the protective cover C is made of the first moving plate 140. It is constrained between the rear end and the tip of the second moving plate 150. When the cover C is moved together with the first moving plate 140 and the second moving plate 150 in a constrained state, and the cover discharge space 153 is widened again, the first moving plate 140 moves. It will be discharged to the outside by distance.

The guide block 160 is disposed in the lower region between the first side guide plate 120 and the second side guide plate 130 to guide only the material B from the material tape A to the outside. The guide block 160 includes a guide block body 161 disposed under the first moving plate 140 and a tape guide surface 163 formed on the guide block body 161.

The guide block body 161 is fixed by the plurality of fastening members 164 between the first side guide plate 120 and the second side guide plate 130. The tape guide surface 163 is formed to open front and rear on the upper surface of the guide block body 161. The tape guide surface 163 is formed to be recessed to a certain depth so that the material tape A supplied from the tape supply reel 110 is seated and guided. The material tape A is supported between both side walls of the guide block body 161 by an external feeding force applied from the SMT device, and is supplied to the outside.

Here, a plurality of tape guide rollers 165 are provided on a path between the tape supply reel 110 and the guide block body 161 to guide the transfer of the material tape A.

The guide block cover 170 covers the upper surface of the guide block 160 and guides the protective cover C to the first moving plate 140. The guide block cover 170 is formed to protrude to both sides of the cover body 171 and the cover body 171, the front cover coupling is fixed to the first side guide plate 120 and the second side guide plate 130 The protrusion 172 and the cover rear coupling protrusion 175 formed to protrude to both sides at the rear of the cover body 171 is fixed to the first side guide plate 120 and the second side guide plate 130.

The guide block cover 170 is fixed between the first side guide plate 120 and the second side guide plate 130 so that only the protective cover C stably moves when the external feeding force is applied. 140). The cover body 171 is formed to correspond to the length of the guide block 160. In front of the cover body 171, the cover flow hole 173 is formed through a predetermined length.

Here, the one moving distance of the first moving plate 140 is set than the material moving distance in which the material is moved once by the external feeding force, and the cover moves longer than the one moving distance of the first moving plate 140. The length of the flow hole 173 is formed. With this design value, if the protective cover C is stripped by the target strip amount in one movement of the material, the strip of the protective cover is no longer generated even after the repeated strip operation.

The overall length of the cover flow hole 173 is formed in such a manner that the length d1 of the strip space 173a and the length d2 of the free space 173b, which are shown in different shades in FIG. 3, are combined.

In the strip space d1, the material B is transferred forward by an external feeding force, whereby the first and second moving plates 140 and 150 are moved, and the protective cover C is actually stripped. Space. The free space d2 is a free space in which the protective cover C is no longer stripped but moved only even when the first moving plate 140 and the second moving plate 150 are moved. The protective cover C is added even when the first moving plate 140 and the second moving plate 150 are moved when the external feeding force is not applied together with the transfer of the material B by the free space d2. Stripping is prevented.

The cover front coupling protrusion 172 and the cover rear coupling protrusion 175 are respectively formed in the guide block cover coupling holes 126a, 126b, 136a, and 136b of the first side guide plate 120 and the second side guide plate 130, respectively. Each is inserted and fixed in position.

The friction force forming unit 180 is disposed on the upper surface of the second moving plate 150 to form a friction force in a direction opposite to the moving direction of the second moving plate 150, so that the moving speed of the second moving plate 150 is zero. 1 is slower than the moving speed of the moving plate 140.

The friction force forming unit 180 includes a friction plate 183 in close contact with the upper surface of the second moving plate 150, and a friction roller 181 rotating in contact with the upper surface of the friction plate 183. The friction plate 183 and the friction roller 181 are compressed and disposed between the first side guide plate 120 and the second side guide plate 130, so that the friction plate 183 and the friction roller 181 are interlocked with the movement of the first moving plate 140. When the 150 is moved to form a frictional resistance in the opposite direction.

The moving plate return spring 190 returns the first moving plate 140 and the second moving plate 150 to an initial state when the external feeding force for the material B disappears. The moving plate return spring 190 has one end 191 fixed to the spring fixing protrusions 124a and 134a of the first side guide plate 120 and the second side guide plate 130, and the other end 193 is It is fixed to the spring engaging projection 147 of the first moving plate 140.

When the first moving plate 140 moves, the moving plate return spring 190 extends in length, and when the external feeding force disappears, the moving plate return spring 190 acts as an elastic force to return to the initial length to return the first moving plate 140 to the initial position. Let's do it.

An operation process of the tape supply device 100 according to the present invention having such a configuration will be described with reference to FIGS. 1 to 3.

The worker arranges the tape supply reel 110 between the first side guide plate 120 and the second side guide plate 130. Then, the tip of the tape supply reel 110 is supplied to the SMT equipment (not shown) via the guide block 160. The protective cover C is stripped from the material B and introduced into the cover insertion hole 142 of the first moving plate 140 through the cover discharge space 153 of the guide block cover 170. The protective cover (C) is moved along the upper surface of the first moving plate 140 and is discharged backward through the cover discharge space 153 between the first moving plate 140 and the second moving plate 150. Is moved.

SMT equipment (not shown) provides an external feeding force for the material supply to the tape supply device 100 according to the manufacturing process. The external feeding force is applied for each cycle, and by one application of the external feeding force, the material is transferred by the material movement distance.

3 is a schematic diagram schematically illustrating a process of stripping the protective cover C of the tape supply device 100. (a) is a schematic diagram showing an initial state in which no external feeding force is applied. As shown in the drawing, when the external feeding force is not applied, the first moving plate 140 and the second moving plate 150 are not moved. At this time, the cover discharge space 153 between the first moving plate 140 and the second moving plate 150 maintains a predetermined distance (L1).

As shown in (b), when the external feeding force for the material B is applied, the first moving plate 140 is moved rearward, and the second moving plate 150 is also moved together. At this time, the cover discharge space 153 is narrowed because the moving speed of the second moving plate 150 is slower than the first moving plate 140 by the frictional force of the frictional force forming unit 180.

As shown in (c), when the material B is supplied to the front, the first moving plate 140 is pulled backward and moved, and the rear end and the second moving plate 150 of the first moving plate 140 are moved. ) Will come into contact. Therefore, the protective cover C is pinched between the rear end of the first moving plate 140 and the front end of the second moving plate 150, and the second moving plate 150 is stripped by an amount that is moved backward.

As shown in (d), once the supply of the material B is completed and the external feeding force disappears, the first moving plate 140 is returned to the initial state by the elastic force of the moving plate return spring 190. The second moving plate 150 is returned to the initial state more slowly than the first moving plate 140 by the friction force of the friction force forming unit 180. As a result, the space between the cover discharge spaces 153 is widened again, and the protective cover C, which is pulled backward by the strip amount, is moved to the outside due to its own weight.

Here, after the material (B) is supplied once, even if the first moving plate 140 is repeatedly moved by one or more times by an external force, the first moving plate 140 may cover the cover flow hole of the guide block cover 170 ( It does not move longer than the length of 173). That is, only the reciprocating movement is performed within the free space 173b of the cover flow hole 173.

Therefore, the strip amount of the protective cover (C) does not increase more than the target strip amount corresponding to one movement distance of the material (B).

As described above, the tape supply apparatus according to the present invention has a structure in which the protective cover is stripped due to a difference in relative speed between the first and second moving plates, and thus the protective cover can be stripped from the material with a simple structure.

In addition, the tape supply apparatus of the present invention is driven by an external feeding force applied from the SMT equipment without a separate driving force. Therefore, the whole structure is simple and manufacturing cost can be low.

In addition, the tape supply apparatus of the present invention can secure the reliability of the device by preventing the protective cover from being stripped when the external feeding force is not applied.

The embodiment of the tape supply apparatus of the present invention described above is merely exemplary, and it is well understood that various modifications and equivalent other embodiments are possible to those skilled in the art to which the present invention pertains. Could be. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

100: tape supply device 110: tape supply reel
111: reel unit 112: winding surface
113: rotation shaft insertion hole 115: tape support plate
115a: rotating shaft 120: first side guide plate
121: guide plate body 122: connecting arm
123: reel coupling plate 123a: shaft insertion hole
124: spring coupling hole 124a: spring fixing protrusion
125a: front first moving plate moving rail 125b: rear first moving plate moving rail
126a, 126b: guide block cover coupling hole
127: friction plate insertion hole 128: the second moving plate moving rail
130: second side guide plate 140: first moving plate
141: moving plate body 142: cover insertion hole
143: first moving plate front coupling protrusion 145: first moving plate guide protrusion
146: first moving plate coupling head 147: spring coupling protrusion
150: second moving plate 151: second moving plate main body
152: first moving plate coupling leg 153: cover discharge space
155: second moving plate coupling protrusion 160: guide block
161: guide block body 163: tape guide surface
164: fastening member 165: tape guide roller
170: guide block cover 171: cover body
172: cover front engaging projection 173: cover flow hole
173a: Strip space 173b: Free space
175: cover rear coupling protrusion 180: frictional force forming portion
181: friction roller 183: friction plate
190: moving plate return spring

Claims (10)

In a tape feeder,
A tape feed reel to which the tape feed roll on which the protective cover is attached is rotatably coupled;
A pair of side guide plates rotatably supporting said tape feed reel;
A guide block provided between the pair of side guide plates and the tape supply reel to guide only the material to the outside by an external feeding force;
Is disposed above the guide block, the protective cover is supplied from the guide block, and moved rearward from the initial state relative to the pair of side guide plates by the external feeding force for the material and the protective cover A first moving plate for stripping from the material;
A second moving plate having one end engaged with the first moving plate with the protective cover interposed therebetween and moving back and forth in association with the forward and backward movement of the first moving plate and discharging the protective cover to the outside;
Rotatably coupled between the pair of side guide plates and the second movable plate to apply a friction force in a direction opposite to the movement of the second movable plate, such that the moving speed of the second movable plate is increased. Tape supply device comprising a friction force forming portion to be slower than the moving speed.
The method of claim 1,
And a guide block cover interposed between the guide block and the first moving plate to guide the protective cover to the first moving plate.
delete 3. The method of claim 2,
In the guide block,
A guide block body;
Tapered supply device, characterized in that formed in the upper surface of the guide block body is formed in a predetermined depth to guide the material to the outside.
5. The method of claim 4,
The guide block cover is a tape supply device, characterized in that the cover flow hole in which the protective cover guided from the guide block body flows into the plate surface is formed a predetermined length.
The method of claim 5,
The moving distance of the first moving plate is formed longer than the one moving distance of the material by the external feeding force, and the length of the cover flow hole is formed longer than the moving distance of the first moving plate Device.
The method according to claim 6,
The pair of side guide plates are each formed with a predetermined length of the first moving plate moving rail and the second moving plate moving rail,
The first moving plate,
A first moving plate body interposed between the pair of side guide plates and having a cover inlet hole through which the protective cover flows from the cover flow hole at a front end thereof;
First and second moving plate front and rear coupling protrusions protruding from both sides of the first moving plate body and inserted into the first moving plate moving rail;
Tape supply apparatus, characterized in that it comprises a first moving plate coupling head which extends to both sides at the rear end of the first moving plate body to be engaged with the second moving plate.
The method of claim 7, wherein
The second moving plate,
A second moving plate body having a cover discharge space for discharging the protective cover to the outside and engaging the first moving plate coupling head at an end thereof;
Tape feeding device comprising a second moving plate engaging projection formed on both sides of the second moving plate body is inserted into the second moving plate moving rail.
9. The method of claim 8,
Tape feeding device, characterized in that between the pair of side guide plate and the first moving plate body is provided with a moving plate return spring for elastically returning the first moving plate to the initial state when the external feeding force disappears.
10. The method of claim 9,
The friction force forming unit,
A friction plate disposed on and in contact with the second moving plate;
And a friction roller which is rotatably coupled to the friction plate to form a friction force and is pressed between the pair of side guide plates.

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