KR20090129549A - Apparatus for processing memory cards - Google Patents

Abstract

PURPOSE: An apparatus for processing a memory cards is provided to process a memory card by an accurate dimension and an exact form by uniformly arraying the memory card in a processing jig. CONSTITUTION: In a device, a processing jig(10) includes a plurality of inserting holes and clamp. A memory card(M) is inserted into the inserting hole. The clamp elastically supports the memory cards of each inserting hole. A jig holder(120) holds the processing jig erect. An alignment block(160) is installed at one side of the jig holder so that it towards the jig holder. The alignment block is transferred to one side of the jig holder. The alignment block pressurizes the memory cards inserted into the processing jig to the jig holder. The alignment block adheres closely memory cards to the side of the jig holder.

Description

Apparatus for Processing Memory Cards

The present invention relates to a processing apparatus for processing a memory card in a desired shape, and more particularly, in a memory card processing apparatus for processing such that the edge of the memory card has a desired outline, the memory cards are accurately aligned in the processing jig Memory card processing apparatus.

The memory card is a semiconductor package used as a data storage device of various digital electronic products such as a personal digital assistant (PDA), a digital camera, an mp3 player, and a portable multimedia player (PMP).

Typically, the memory card (M) does not have a typical rectangular or square shape, that is, the four sides of a rectangular shape consisting of a straight line, the concave groove or curved step is formed in the edge depending on the type of product to be applied, or the corner portion, etc. It is processed into a curved shape and has an outline in which a non-linear section is formed.

The external processing of the memory card may include a laser cut method, a water jet method, a grinding method, and the like.

The grinding method is a processing method in which the memory cards have a desired shape by inserting and fixing the memory cards into the insertion holes of the processing jig and then grinding the edges of the memory cards using the blades.

In the grinding-type memory card processing apparatus, the processing target jig is automatically inserted into each insertion hole of the processing jig by using a pusher while the processing jig is vertically upright, and then the processing jig is placed in a horizontal state. And the machining jig is moved onto the chuck table using a jig picker. Then, by using the blade to grind the memory cards mounted on the processing jig to have a desired outline.

1 of the accompanying drawings shows a state in which the processing target memory card M is mounted in the insertion hole 1a of the processing jig 1 and seated on the chuck table 2. The processing target memory cards M are inserted into the insertion holes 1a of the processing jig 1 in the loading area and then elastically fixed by the clamp 1b.

However, as shown in FIG. 1, when the memory card M is mounted in the processing jig 1 in the loading area of the conventional memory card processing apparatus, the memory card M is inserted at an angle and fixed, or (M) hits the bottom surface of a jig holder (not shown) for holding the processing jig 1 and bounces off, and a phenomenon in which the M is not fully inserted into the insertion hole 1a of the processing jig 1 occurs. In this state, when the memory cards are ground with the blade, the appearance of the memory card may not be processed to the correct dimensions and shapes, thereby causing a defect.

Therefore, conventionally, the memory of the jig holder (not shown) or the machining jig 1 on the chuck table 2 is used by using the bottom surface of the jig picker which conveys the machining jig 1 onto the chuck table 2 in the loading area. The card M is pressed to force the memory cards M to be drawn into the processing jig 1.

However, when the memory cards are pressed against the flat bottom surface of the jig picker, a memory card of large size (a slight difference occurs in the size of each memory card during singulation process of cutting the memory cards on the strip into individual units). The load is concentrated in the field, which causes a problem of damaging the memory card, and the small size of the memory card may not be pressurized at all, thereby preventing the position from being corrected.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to allow memory cards to be precisely aligned in the insertion hole of the processing jig without damaging the processing target memory cards so that the memory cards can be processed to the correct dimensions and shapes. To provide a memory card processing apparatus.

According to one aspect of the present invention for solving the above object, a plurality of insertion holes through which a processing target memory card is inserted and fixed are formed to pass therethrough, and have a clamp for elastically supporting the memory cards of each insertion hole. A jig for processing; A jig holder for fixing the processing jig in an upright state; One side of the jig holder is installed to reciprocate horizontally toward the jig holder, comprising an alignment block for aligning the memory cards inserted in the processing jig against the jig holder to align the memory cards in close contact with the surface of the jig holder A memory card processing apparatus is provided.

According to another aspect of the present invention, there is provided a processing jig in which a plurality of insertion holes through which a processing target memory card is inserted and formed are penetrated, and a jig picker for picking up the processing jig from a jig holder and transporting it to another process position. A memory card processing apparatus comprising: the jig picker includes: a press block mounted on an upper portion of the memory card processing apparatus so as to be movable up and down; A pickup block coupled to the lower side of the press block so as to be relatively movable up and down with respect to the press block, and having a fixing means for releasably fixing the processing jig placed on the jig holder; An elastic member elastically supporting the pickup block with respect to the press block; It is formed to extend downward in the press block, the memory card processing apparatus characterized in that it comprises a pressing portion for descending through the opening formed through the pickup block to press the memory card inserted into the processing jig downwards. do.

According to still another aspect of the present invention, there is provided a processing jig in which a plurality of insertion holes through which a processing target memory card is inserted is formed, and a jig picker for conveying the processing jig from one processing position to another processing position. A memory card processing apparatus comprising: a pressurizing portion which protrudes downward on a lower surface of the jig picker and contacts the upper ends of memory cards of a processing jig fixed to the jig picker to press the memory cards downward; There is provided a memory card processing apparatus comprising an elastic member for elastically supporting the pressing portion with respect to the jig picker.

According to still another aspect of the present invention, there is provided a processing jig, which is formed such that a plurality of insertion holes through which a processing target memory card is inserted and formed are passed through; A jig picker for conveying the processing jig from one process position to another process position; A pressing block installed on one side of the jig picker so as to be movable upward and downward, for pressing and aligning the memory card inserted in the processing jig to the lower side from the upper side of the processing jig; There is provided a memory card processing apparatus including lifting means for lifting and lowering the pressure block.

According to the first aspect of the present invention, all the memory cards are inserted into the processing jig, and the memory cards are pressed by the alignment block while the clamp is opened to align the memory cards. Therefore, since the memory cards are uniformly aligned in the processing jig, the memory cards can be processed to the correct dimensions and shapes when grinding the memory cards in the memory card processing area.

Further, according to other aspects of the present invention, when the jig picker picks up the processing jig or immediately before the jig picker picks up the processing jig, the memory cards mounted on the processing jig can be pushed downward to align it. .

Hereinafter, exemplary embodiments of a memory card processing apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

2 to 6 show a first embodiment of the memory card processing apparatus according to the present invention. 2 and 3, the memory card processing apparatus of the present invention and the base 110 is disposed in the area (hereinafter referred to as the "memory card loading area") for mounting the processing target memory card to the jig 10 for processing; , Jig holder 120, seat block 130, pusher 140, unit picker 170, and jig picker (not shown). Here, the unit picker 170 performs a function of picking up the memory card M to be processed from the outside of the memory card loading area and transporting it to the seat block 130. The jig picker (not shown) performs a function of picking up the processing jig 10 from the jig holder 120 and transporting it to the processing area of the memory card.

The processing jig 10 has a plurality of insertion holes 11 arranged in two rows in which the memory cards M are inserted in an upright state (see FIG. 1). Here, the insertion holes 11 are formed to penetrate up and down so that the upper and lower edges of the memory cards protrude upward and downward from the insertion holes 11 when the memory cards are inserted into the respective insertion holes 11. have. Then, both sides of the processing jig 10 is provided with a clamp 12 for elastically supporting the memory card (M) inserted into the insertion hole (11).

The jig holder 120 is rotated 90 degrees around the horizontal axis 126 to the lifting block 125 installed to move up and down on the base 110 to convert the processing jig 10 into a horizontal posture and an upright posture. It is configured to be. The elevating block 125 is moved up and down by a linear movement device consisting of a ball screw 127 and a motor 128 and the LM guide 129 configured at the rear end of the base 110. Although not shown in the drawings, the front surface of the jig holder 120 has a jig fixing means for detachably fixing the processing jig 10 is configured.

In addition, the jig holder 120 has a concave alignment groove 121 is formed at a position corresponding to the insertion hole 11 of the processing jig 10 of the front surface thereof. The alignment groove 121 further increases the insertion depth when the memory cards M are inserted into the insertion hole 11 by the pusher 140, and further aligns the memory cards in the processing jig 10. It will work to make it smooth.

On both sides of the rear surface of the jig holder 120, the clamp actuating pins 122 which are inserted into the holes 13 formed in the clamp 12 of the processing jig 10 and open the clamp 12 to the left and right sides of the jig holder 120 It is installed to be movable to, the lifting block 125 is composed of pneumatic cylinders 123 for moving the clamping operation pins 122 to the left and right. Therefore, when pneumatic pressure is applied to the pneumatic cylinders 123 and the piston rod of the pneumatic cylinder 123 is extended, the clamp operation pins 122 on both sides move to the left and right, and thus the clamp of the processing jig 10. (12) are spread to the left and right, so that the memory card (M) in the insertion hole 11 can be freely entered without being disturbed. On the contrary, when the air pressure is released to the pneumatic cylinder 123, the clamp 12 is elastically pressed to support the memory card M inserted in the insertion hole 11 while being restored by the elastic force of the spring (not shown). Done.

The seat block 130 and the pusher 140 are installed on the movable block 150 which is configured to be moved back and forth on the base 110. The movable block 150 has a forward and backward guide rail 155 which is installed to extend in the front-rear direction (X-axis direction) on the upper surface of the base 110 by a linear motion device such as a ball screw and a motor (not shown). Move horizontally accordingly.

On the upper surface of the seat block 130, a plurality of loading seats 131 on which the processing target memory card M to be inserted into the processing jig 10 is seated, and a processed memory card drawn out from the processing jig 10; A plurality of unloading seating portions 132 to be seated are formed concave. The loading seat 131 and the unloading seat 132 are provided with vacuum holes for vacuum suction of the memory cards seated thereon. In addition, the seat block 130 is laterally (Y-axis direction) by a linear movement device consisting of a ball screw 152, a motor 153, a Y-axis LM guide 154 in the rear of the movable block 150 It is configured to move horizontally.

The pusher 140 is configured to move forward and backward horizontally in front of the seat block 130. In this embodiment, the pusher 140 is configured to advance back and forth by a linear motion device consisting of a pair of pulleys 141, belts 142, motor 143, in addition to the application of various known linear motion devices Of course, the pusher 140 can be moved back and forth.

Meanwhile, the alignment block 160 pressurizes the memory cards M inserted into the processing jig 10 to the rear surface of the seat block 130 to align with the inner surface of the alignment groove 121 of the jig holder 120. Is fixed.

The alignment block 160 may be mounted on the entire rear surface of the seat block 130, but may be mounted only on a part of the rear surface of the seat block 130, in which case the alignment block 160 is used for unloading. It is preferable that the mounting portion 132 is biased and fixed to a portion where the seating portion 132 is formed. This is because the loading operation of inserting the memory card M into the processing jig 10 requires more precision than the unloading operation of drawing out the processed memory card M from the processing jig 10. When processing the 130, the loading seat 131 may be processed to protrude slightly more rearward than the unloading seat 132, in this case, the alignment block 160 to the loading seat ( If the 131 is fixed to the position, the distance between the loading seating portion 131 and the jig 10 for processing due to the thickness of the alignment block 160 is likely to decrease the accuracy during the loading operation.

In addition, in order to minimize the impact on the memory cards M when the alignment block 160 comes into contact with the memory cards M of the processing jig 10, the entire alignment block 160 or at least a memory card ( It is preferable that the part contacting M) is made of a flexible material such as rubber or silicone.

The operation of the memory card processing apparatus according to the first embodiment will be described below.

As shown in FIG. 1, the movable block 150 moves backward toward the jig holder 120 in a state in which the processing jig 10 is fixed upright to the jig holder 120 to seat the seat block 130 for loading. The portion 131 is aligned close to the front of the lowermost insertion hole 11 of the processing jig 10.

Subsequently, the unit picker 170 picks up the memory card M to be processed from the outside of the loading area and mounts it on the loading seat 131 of the seat block 130.

At this time, as shown in FIG. 2, pneumatic pressure is applied to the pneumatic cylinder 123 of the jig holder 120 so that the clamp operation pin 122 opens the clamp 12 of the processing jig 10 to the left and right sides. The memory card M can freely enter the hole 11.

Then, as shown in FIG. 3, the pusher 140 moves backward to push the memory card M on the seat block 130 to be inserted into the insertion hole 11 of the processing jig 10. When the memory card is inserted into the processing jig 10, the lifting block 125 is lowered by one pitch so that the next insertion hole 11 is aligned with the loading seat 131 of the seat block 130. In addition, as described above, the unit picker 170 again mounts new processing target memory cards M on the loading seat 131 of the seat block 130, and the pusher 140 seats the seat block 130. The upper memory card M is inserted into the processing jig 10.

When all of the memory cards are inserted into the insertion hole 11 of the processing jig 10 through this process, as shown in FIG. 5, the movable block 150 moves slightly forward.

Then, as shown in FIG. 6, the movable block 150 again moves toward the processing jig 10 so that the alignment block 160 contacts and presses the memory cards M inserted into the processing jig 10. As a result, the memory cards M are aligned at the same time while being pushed into the alignment groove 121 of the jig holder 120.

Subsequently, while the air pressure of the pneumatic cylinder 123 spreading the clamp 12 of the processing jig 10 is released, the clamp 12 is returned to its original position by the elastic force of the spring (not shown), and the memory card M ) Is fixed by pressing elastically.

Thereafter, the movable block 150 is advanced to an initial position as shown in FIG. 2 so that the movable block 150 does not interfere with the rotation of the jig holder 120. Then, the jig holder 120 is rotated 90 degrees around the horizontal axis 126 to switch the processing jig 10 to the horizontal position, the jig picker (not shown) is lowered from the upper side to the processing jig on the jig holder 120. (10) is picked up and returned to the processing area of the memory card.

As described above, the memory card processing apparatus of the present invention inserts all of the memory card (M) in the processing jig 10, and presses the memory card (M) with the alignment block 160 in the state where the clamp 12 is opened. The memory cards M are aligned at the same time based on the outer surface of the alignment block 160. Therefore, when grinding the memory cards in the memory card processing area, the memory cards can be processed to the correct dimensions and shapes.

Next, a second embodiment of the memory card processing apparatus according to the present invention will be described with reference to Figs.

The memory card processing apparatus of this second embodiment improves the structure of the jig picker 200 which performs a function of picking up and transporting the jig 10 for processing, so that the jig picker 200 processes the jig 10 on the jig holder 120. When picking up) is characterized in that the memory card (M) mounted on the processing jig 10 is aligned while being pressed.

Specifically, the jig picker 200 is a press block 220 is installed on the upper portion of the memory card processing apparatus so as to move horizontally and vertically, and the press block 220 below the press block 220. It comprises a pickup block 210 is coupled to be movable relative to the up and down relative to the spring, and a spring 230 for elastically supporting the pickup block 210 with respect to the press block 220.

The pickup block 210 is a component that performs a function of vacuum suction of the processing jig 10 placed horizontally on the jig holder 120, although not shown in the drawing, each corner portion of the pickup block 210 A suction nozzle (not shown) capable of vacuum suction of each corner portion of the processing jig 10 is configured. In addition, a plurality of through holes 212 is formed in the middle portion of the pickup block 210.

The press block 220 is a part fixed to the head of the jig picker 200, the stop protrusion 221 on both sides of the press block 220 to limit the falling position of the press block 220 with respect to the pickup block 210. ) Is formed to protrude downward.

In addition, pressure is applied to the lower surface of the press block 220 to lower the pickup block 210 through the through hole 212 of the pickup block 210 to press the memory cards M of the processing jig 10. The portion 222 is formed to extend downward.

The lower portion of the pressing unit 222 is preferably provided with a buffer pad 225 of a flexible material for minimizing the impact on the memory card when the contact with the memory card (M). Of course, in this embodiment, the buffer pad 225 is inserted into the lower end of the pressing portion 222, but the pressing portion 222 as a whole is made of a flexible material to press the memory unit (222) when pressing the memory card (M) ) Itself can also be used as a buffer.

In addition, the pressing unit 222 may be formed in a block shape of an elongated rectangular parallelepiped, and may simultaneously press a plurality of memory cards M inserted into the processing jig 10, but differently, individual pin structures It may be configured so that each can individually press the memory card (M) of the processing jig (10).

In addition, the upper surface of the pickup block 210 is formed so that the guide shaft 215 for guiding the relative movement between the pickup block 210 and the press block 220 when the press block 220 is lowered to extend upwards The guide block 225 through which the guide shaft 215 penetrates is formed in the press block 220. Inside the guide hole 225, a bushing 226 for supporting the guide shaft 215 to be movable is installed.

The jig picker 200 configured as described above operates as follows.

As shown in FIG. 7, when all of the memory cards M are mounted in the processing jig 10 fixed on the jig holder 120, and the jig holder 120 is rotated to switch to a horizontal posture, the jig picker After 200 is aligned on the upper side of the jig 10 for processing, it descends.

As shown in FIG. 8, when the jig picker 200 descends and the lower surface of the pickup block 210 contacts the upper surface of the processing jig 10, the pickup block 210 stops at that position. Subsequently, when the jig picker 200 continues to descend, the press block 220 of the jig picker 200 descends with respect to the pickup block 210 while being guided by the guide shaft 215. Accordingly, the pressing portion 222 formed in the lower portion of the press block 220 is lowered through the through hole 212 of the pickup block 210, the buffer pad 225 of the lower portion of the pressing portion 222 is jig for processing. The memory card M is pressed downward while contacting the upper end of the memory card M of (10).

The memory card M pressed downward by the pressing unit 222 is pushed into the alignment groove 121 of the jig holder 120 while being aligned at the same time based on the lower surface of the pressing unit 222.

The downward movement of the press block 220 proceeds until the stop protrusions 221 on both sides of the press block 220 touch the upper surface of the pickup block 210.

In the memory card processing apparatus according to the second embodiment, when the jig picker 200 picks up the processing jig 10 on the jig holder 120, the memory cards M of the processing jig 10 are press block 220. Since the alignment is pressed by the lower pressing portion 222, the processing can be made in the correct shape and size when processing the memory card.

Next, a third embodiment of the memory card processing apparatus according to the present invention will be described with reference to Figs. 9A to 9C and Fig. 10.

The memory card processing apparatus of this third embodiment also improves the structure of the jig picker 250 similarly to the second embodiment so that when the jig picker 250 picks up the processing jig 10, the memory card M of the processing jig 10 ) Or press the memory card M of the processing jig 10 when the jig picker 250 mounts the processing jig 10 on a chuck table (not shown) located in the processing area of the memory card. To sort it.

In the jig picker 250 according to the third embodiment, an elastic member 255 such as rubber is embedded in the lower surface, and protrudes outward from the lower surface of the jig picker 250 on the lower side of the elastic member 255. A plurality of alignment pins 256 for individually pressing each memory card M of 10 are configured to be movable up and down. Here, the elastic member 255 may use an elastic body such as rubber, but may alternatively use a leaf spring or a compressed coil spring. The elastic force of the elastic member 255 is determined to be large enough to push the memory card M downward without damaging the memory card M when the memory card M is pressed.

In the memory card processing apparatus configured as described above, as shown in FIGS. 9A to 9C, when the jig picker 250 picks up the processing jig 10 placed on the jig holder 120, the alignment pin 256 may be used. ) Are individually contacted with the upper end of each of the memory card (M) to press the memory card (M) downward.

Therefore, the memory cards M mounted on the processing jig 10 are pressed by the alignment pins 256 to be in close contact with the upper surface of the jig holder 120, and aligned based on this surface.

Reference numeral 251 denotes an adsorption nozzle which is configured at each corner of the jig picker 250 and vacuum-adsorbs each corner of the processing jig 10.

Meanwhile, in this embodiment, the alignment pin 256 is formed at the bottom of the jig picker 250 to individually press the memory cards M of the processing jig 10. However, unlike the jig picker 250, The alignment pin block may be configured in the form of an elongated rectangular parallelepiped block at the bottom so that one alignment pin block may simultaneously press a plurality of memory cards at one time.

In addition, in the above-described embodiment, the jig picker 250 picks up the processing jig 10 on the jig holder 120 while pressing and aligning the memory cards. Alternatively, when the jig picker 250 conveys the processing jig 10 onto a chuck table (not shown) in the memory card processing area or puts it down on the chuck table (not shown), the jig picker The alignment pins 256 of 250 may press and align the memory cards of the processing jig 10 on the chuck table.

11 to 13 show a fourth embodiment of the memory card processing apparatus according to the present invention, in which the memory card processing apparatus of the fourth embodiment has a memory card M on the processing jig 10 on one side of the jig picker 200. And a pneumatic cylinder 310 as a lifting means for lifting and lowering the pressure block 320 up and down, and the jig picker 200 is a jig for processing ( Before picking up 10), it is possible to press and align the memory card M of the processing jig 10 with the pressing block 320.

Alignment groove for further increasing the insertion depth of the memory card (M) in a position corresponding to the memory card (M) of the processing jig 10 of the upper surface of the jig holder 120, the processing jig 10 is placed ( 121) is the same as the above-described embodiments.

The memory card processing apparatus according to the fourth embodiment will be described in more detail. As shown in FIG. 11, the jig holder 120 is switched to a horizontal state after all of the memory cards are mounted in the processing jig 10. Then, the jig picker 200 moves to the upper side of the processing jig 10, and the pressing block 320 is aligned so as to be located immediately above the first row of the memory card (M) of the processing jig (10).

Subsequently, when air pressure is applied to the pneumatic cylinder 310 so that the pressure block 320 descends downward, the memory cards of the first row of the processing jig 10 are pressed downward to be in close contact with the upper surface of the jig holder 120. Sorted in unison

When the alignment of the memory cards M of the first row of the processing jig 10 is completed, as shown in FIG. 12, the jig picker 200 is moved laterally by a predetermined distance so that the pressing block 320 is processed. Align with the second row of jig 10.

Then, when the pneumatic cylinder 310 is again applied with pneumatic pressure, the pressure block 320 is lowered, and the memory card (M) of the second row of the processing jig 10 is pressed downward to be in close contact with the upper surface of the jig holder 120. To be aligned.

When all the memory cards M of the processing jig 10 are aligned by the pressing block 320, as shown in FIG. 13, the jig picker 200 moves laterally by a predetermined distance, and then the jig holder is lowered. The processing jig 10 on the 120 is picked up and conveyed to the memory card processing area.

On the other hand, it is preferable that the entirety of the pressing block 320 or the lower portion of the pressing block 320 is made of a flexible material in order to minimize the impact applied to the memory card when the pressing block 320 presses the memory card (M). .

1 is a cross-sectional view illustrating main parts of a conventional memory card processing apparatus in which a processing jig is seated on a chuck table located in a memory card processing area;

2 is a longitudinal sectional view showing main parts of a first embodiment of a memory card processing apparatus according to the present invention;

3 is a cross-sectional view of the memory card processing apparatus of FIG.

4 to 6 are principal part longitudinal sectional views sequentially showing operations of the memory card processing apparatus of FIG.

7 and 8 are principal part longitudinal sectional views showing the second embodiment of the memory card processing apparatus according to the present invention;

9A to 9C are main part longitudinal sectional views of the front view showing the third embodiment of the memory card processing apparatus according to the present invention;

10 is a longitudinal sectional view of the main portion seen from the side of the memory card processing apparatus of FIG. 9A;

11 to 13 are principal part longitudinal sectional views showing the fourth embodiment of the memory card processing apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

10 processing jig 12 clamp

110: base 120: jig holder

121: alignment groove 122: clamp operating pin

123: pneumatic cylinder 125: lifting block

130: seat block 140: pusher

150: movable block 160: alignment block

170: unit picker M: memory card

Claims (17)

A processing jig having a plurality of insertion holes through which the processing target memory card is inserted and fixed, and having a clamp for elastically supporting the memory cards of each insertion hole; A jig holder for fixing the processing jig in an upright state; One side of the jig holder is installed to reciprocate horizontally toward the jig holder, comprising an alignment block for aligning the memory cards inserted in the processing jig against the jig holder to align the memory cards in close contact with the surface of the jig holder Memory card processing equipment. The seat block according to claim 1, wherein the seat block is provided on one side of the jig holder so as to be horizontally moved back and forth toward the jig holder and has a seating portion on which a memory card is seated on an upper surface thereof, and is installed on one side of the seat block. And a pusher for pushing the seated memory card into the processing jig; The alignment block is fixed to one surface of the seat block facing the jig for processing, characterized in that the memory card processing apparatus moving with the seat block. 3. The seat block according to claim 2, wherein the seat block is configured to reciprocate horizontally laterally; A loading seat for seating the processing target memory card to be inserted into the processing jig and an unloading seat for seating the processed memory card drawn out from the processing jig, respectively, are formed on an upper surface of the seat block; The alignment block is a memory card processing apparatus, characterized in that fixed to the portion of the unloading seating portion formed on one surface of the seat block. The memory card processing apparatus of claim 1, wherein the alignment block is made of a flexible material as a whole or in contact with the memory card. The memory card processing apparatus according to claim 1 or 2, wherein the alignment block presses and aligns the memory cards in a state in which the clamp of the processing jig does not fix the memory cards in the insertion hole. The memory card processing apparatus according to claim 1 or 2, wherein a concave alignment groove is formed at a position corresponding to the memory cards among one surface of the jig holder to which the processing jig is fixed. In the memory card processing apparatus comprising a jig for processing is formed so that a plurality of insertion holes through which the processing target memory card is inserted, and a jig picker for picking up the processing jig from the jig holder and conveyed to another process position, , The jig picker, A press block installed on the upper portion of the memory card processing apparatus so as to be movable upward and downward; A pickup block coupled to the lower side of the press block so as to be movable up and down with respect to the press block, and having a fixing means for releasably fixing the processing jig placed on the jig holder; An elastic member elastically supporting the pickup block with respect to the press block; And a pressurizing portion which is formed to extend downwardly in the press block and pushes the memory card inserted into the processing jig downward through the opening formed through the pick-up block. The memory card processing apparatus as claimed in claim 7, wherein the pressing unit is configured to contact and press the plurality of memory cards inserted into the processing jig. The memory card processing apparatus as claimed in claim 7, wherein the pressing unit is configured to individually press and press the memory cards inserted into the processing jig. 8. The memory card processing apparatus according to claim 7, wherein the entire pressing portion or the lower portion of the pressing portion in contact with the memory card is made of a flexible material. The memory card processing apparatus according to claim 7, wherein a concave alignment groove is formed at a position corresponding to the memory cards in one surface of the jig holder on which the processing jig is placed. A memory card processing apparatus comprising a jig for processing in which a plurality of insertion holes through which a processing target memory card is inserted and formed are penetrated, and a jig picker for transferring the processing jig from one processing position to another processing position, A pressing part which protrudes downward on the lower surface of the jig picker and contacts the upper ends of the memory cards of the processing jig fixed to the jig picker to press the memory cards downward; And an elastic member for elastically supporting the pressing portion with respect to the jig picker. The memory card processing apparatus of claim 12, wherein the pressing unit is configured to contact and press the plurality of memory cards inserted into the processing jig. The memory card processing apparatus of claim 12, wherein the pressing unit is configured to individually contact and press the memory cards inserted in the processing jig. 13. The memory card processing apparatus according to claim 12, wherein the entire pressing portion or the lower portion of the pressing portion in contact with the memory card is made of a flexible material. A processing jig formed with a plurality of insertion holes through which a processing target memory card is inserted and fixed; A jig picker for conveying the processing jig from one process position to another process position; A pressing block installed on one side of the jig picker so as to be movable upward and downward, for pressing and aligning the memory card inserted in the processing jig to the lower side from the upper side of the processing jig; And a lifting means for lifting and lowering the pressing block up and down. The memory card processing apparatus of claim 16, wherein the entirety of the pressing block or the lower end of the pressing block is made of a flexible material.

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