CN214294131U - Automatic terminal device is inserted to mould - Google Patents

Abstract

The application relates to an automatic in-mold terminal inserting device which comprises an installation block, a horizontal sliding block, a push rod, a material supporting block and a material conveying piece, wherein the installation block is vertically and slidably arranged on a rack; the horizontal sliding block is arranged on the rack in a sliding manner, and the sliding path of the horizontal sliding block is parallel to the direction of the notch of the terminal groove; the push rods are fixedly arranged on the horizontal sliding block, one end of each push rod is fixed on the horizontal sliding block, the other end of each push rod horizontally extends towards the direction close to the mounting block, the number of the push rods is two, and the two push rods and the two terminal grooves are respectively matched; the material supporting block is vertically arranged on the rack in a sliding manner, is positioned between the horizontal sliding block and the mounting block, and is provided with a material supporting notch for placing a terminal; the material transporting part is arranged on the rack and used for transporting the terminal to the material supporting notch. The present application has the effect of more efficiently inserting the terminals on the mounting block.

Description

Automatic terminal device is inserted to mould

Technical Field

The present application relates to the field of inserting terminal devices, and more particularly, to an automatic modular inserting terminal device.

Background

People can use the plug to charge often among the daily life, and the plug includes a plastic casing and terminal usually, and in the plug course of working, wherein have a process to fill in a mounting block with the terminal earlier, then be provided with the terminal groove that is used for placing the terminal on the mounting block, every terminal groove holds a terminal moreover, treat that the terminal firmly puts into after in the mounting block, send into the mounting block again and mould plastics, just make plastic casing and terminal fixed together at last.

Among the correlation technique, the terminal is the metal material and is the square block shape, then when the installation terminal, the staff can insert the terminal in the terminal groove of installation with the help of some handheld tool or direct hand, treat that the terminal inserts the terminal groove after firmly, just accomplished the process that the terminal was installed on the installation piece to make the installation piece can play the fixed action to the terminal, then in the process of moulding plastics in follow-up ground, the terminal can be together fixed with the plastics shell more steadily, and then make the plug quality of producing better.

In view of the above-mentioned related art, the inventor believes that there is a disadvantage that the method of manually inserting the terminal into the mounting block is time-consuming and labor-consuming, thereby being disadvantageous to the improvement of the production efficiency.

SUMMERY OF THE UTILITY MODEL

In order to improve the efficiency of inserting the terminal into the mounting block, the application provides an automatic in-mold terminal-inserting device.

The application provides an automatic terminal device is inserted to mould adopts following technical scheme:

an automatic in-mold terminal inserting device comprises an installation block, a horizontal sliding block, a push rod, a material supporting block and a material conveying piece, wherein the installation block is vertically and slidably arranged on a rack, and a terminal groove is formed in the vertical outer wall of one side of the installation block; the number of the terminal grooves is two, and the two terminal grooves are parallel to each other and are arranged at intervals; the horizontal sliding block is arranged on the rack in a sliding manner, and the sliding path of the horizontal sliding block is parallel to the direction of the notch of the terminal groove; the push rods are fixedly arranged on the horizontal sliding block, one end of each push rod is fixed on the surface of one side, close to the mounting block, of the horizontal sliding block, the other end of each push rod horizontally extends towards the direction close to the mounting block, the number of the push rods is two, and the two push rods and the two terminal grooves are respectively matched; the material supporting block is vertically arranged on the rack in a sliding mode, the material supporting block is located between the horizontal sliding block and the mounting block, and a material supporting notch used for placing a terminal is formed in the upper surface of the material supporting block; the material conveying piece is arranged on the rack and used for conveying the terminals to the material supporting notches; the vertical driving piece is arranged on the rack and used for driving the material supporting block to slide up and down.

Through adopting above-mentioned technical scheme, when will installing the terminal on the installation piece, put into the support material breach through fortune material spare earlier, start vertical driving piece after that, make support material piece rebound, treat that support material breach on the support material piece is relative with the push rod, then make horizontal sliding block to the direction slip that is close to the installation piece, and before this, the notch that needs to make the mounting groove is relative with the terminal on the support material breach, then at the in-process that the push rod promoted, the push rod just can push the terminal in the mounting groove, thereby reach the purpose of installing the terminal on the installation piece, the installation piece that the material loading is good at last is sent into again and is moulded plastics the process can, compare in inserting the mode on the installation piece through the manual work, this kind of design, can use manpower sparingly, thereby help promoting production efficiency, and can also reduce the cost of labor.

Preferably, the material conveying piece comprises a material conveying block and a vibrating disc, the material conveying block is fixedly arranged on the rack, one end of the material conveying block is close to one side surface of the material supporting block, which is far away from the mounting block, a conveying through groove is formed in the upper surface of the material conveying block, and one end of the conveying through groove is communicated with the material supporting notch; the vibration disc is fixedly arranged on the rack, and the output end of the vibration disc is communicated with one end, far away from the material supporting block, of the conveying through groove.

Through adopting above-mentioned technical scheme, before material loading to holding in the palm the material piece with the terminal, need start vertical driving piece, make and hold in the palm the material breach and carry logical groove and be linked together, and during the material loading, can start the vibration dish, then the terminal of putting into in the vibration dish just can flow into from the vibration dish gradually and carry logical groove, flow to holding in the palm the material breach from carrying the logical groove again on, thereby just reach and transport the terminal to the purpose of holding in the palm the material breach, treat that the terminal gets into after holding in the palm the material breach, only need close the vibration dish, alright get into in the plug terminal process on next step.

Preferably, a baffle is arranged on the surface of one side, away from the material conveying block, of the material supporting block, and when the material supporting notch is communicated with the conveying through groove, the baffle and a terminal on the material supporting notch form a separation baffle.

Through adopting above-mentioned technical scheme, because of the setting of baffle, make the vibration dish can be in the open mode always, then after the terminal gets into the support material breach, the terminal on the support material breach is difficult to be moved by the terminal top of fortune material piece, thereby make the terminal on the support material breach be difficult for dropping from the support material piece, the vertical driving piece of restart at last, make the support material piece rebound, thereby prepare for subsequent plug terminal process, compare in the mode of closing the vibration dish repeatedly in order to prevent that the terminal from dropping from the support material piece, this kind of design, can promote the beat of two adjacent terminal material loadings to the support material piece, help promoting work efficiency, and can also avoid opening and close the vibration dish repeatedly, thereby make the vibration dish difficult emergence damage.

Preferably, the bottom of the conveying through groove is provided with two guide grooves, the length directions of the guide grooves are parallel to the length direction of the conveying through groove, and the two guide grooves are respectively communicated with the two material supporting notches.

Through adopting above-mentioned technical scheme, because of the setting of guiding groove for two hold in the palm the material breach and can the material loading alone, then be difficult for piling up more and appearing two circumstances that hold in the palm material breach material loading time is asynchronous because of the terminal in carrying logical inslot, thereby make two hold in the palm the difficult interact when the material loading, and then the terminal can be smoothly material loading to holding in the palm on the material breach, help promoting the stability of material loading.

Preferably, the fixed surface of the upper surface of the material supporting block is provided with a sealing block, a side surface of the sealing block, which is close to the material supporting block, is provided with a material sealing notch, the material sealing notch and the material supporting notch are correspondingly arranged, and a material discharging hole for placing a terminal is formed between the material sealing notch and the material supporting notch.

Through adopting above-mentioned technical scheme, because of the setting of sealed piece for the terminal on the support material breach can receive sheltering from of sealed piece, so after the twinkling of an eye that holds in the palm the material piece rebound and stop, the terminal is difficult for appearing jump by a wide margin because of inertia, thereby makes the terminal be difficult for dropping out from holding in the palm the material piece.

Preferably, the inner wall of the discharging hole is arc-shaped.

Through adopting above-mentioned technical scheme, because of the push rod is promoting the terminal and inserting the in-process in the terminal groove from the blowing hole, the week side surface of push rod has the condition of colliding with the inner wall in blowing hole, so the inner wall in blowing hole is the camber, can be so that when the push rod collides with blowing hole, the inner wall in blowing hole is difficult for taking place wearing and tearing to can promote the life who inserts the terminal device.

Preferably, the rack is vertically and slidably provided with a vertical mounting plate, and the vertical mounting plate is positioned on one side of the horizontal sliding block, which is close to the mounting block; the installation piece is fixed to be set up on one side surface that vertical mounting panel is close to horizontal sliding block to the installation piece is provided with the polylith, and the polylith mounting panel evenly sets up along vertical mounting panel's slip direction.

Through adopting above-mentioned technical scheme, can insert the terminal at an installation piece after, make vertical mounting panel vertical slip for next installation piece slides to plug terminals's position, thereby just can carry out plug terminals's process for next installation piece, compare in an installation piece after having pegged graft the terminal, transport the mode that an installation piece came from other places again, make two adjacent installation pieces can link up more smoothly, thereby help promoting work efficiency.

Preferably, a gap exists between the peripheral side surface of the push rod and the discharge hole; the axis of the push rod is offset from the center line of the discharge hole, and the axis of the push rod is located below the center line of the discharge hole.

Through adopting above-mentioned technical scheme, when placing downthehole because of the terminal, the terminal can be in the position of unloading in the hole, so there is the skew between the axis of push rod and the axis in unloading hole, can make the push rod keep away from horizontal sliding block one end and the area of contact between the terminal is bigger, then at the in-process that the push rod promoted the terminal, the push rod can promote the terminal removal more steadily to make the terminal can insert stably in the terminal groove and insert in the terminal groove.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the mounting block, the horizontal sliding block, the push rod, the material supporting block and the material conveying piece, compared with a mode that the terminal is inserted into the mounting block manually, the design mode can save labor, is beneficial to improving the production efficiency and can also reduce the labor cost;

2. through the arrangement of the baffle, the beat of feeding two adjacent terminals onto the material supporting block can be promoted, the work efficiency is promoted, and the vibration disc can be prevented from being opened and closed repeatedly, so that the vibration disc is not easy to damage;

3. through the setting of guiding groove for two hold in the palm the material breach and can carry the material alone, then be difficult for piling up more and appearing two circumstances that hold in the palm material breach material loading time is asynchronous because of the terminal in carrying logical inslot, thereby the terminal can be smooth material loading to holding in the palm on the material breach.

Drawings

Fig. 1 is a perspective view of a terminal insertion device in an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a material supporting block in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of the vertical mounting plate in the embodiment of the present application.

Description of reference numerals: 1. a frame; 11. placing a platform; 12. a horizontal sliding table; 2. mounting blocks; 21. a terminal groove; 22. a terminal; 3. a horizontal slider; 31. assembling blocks; 4. a push rod; 5. a material supporting block; 51. a material supporting notch; 6. conveying the material; 61. a material conveying block; 611. a conveying through groove; 612. a guide groove; 62. a vibrating pan; 7. a vertical drive; 71. a support block; 8. a baffle plate; 9. a sealing block; 91. sealing a material gap; 10. a discharge hole; 101. and (6) a vertical mounting plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a terminal device is inserted in automatic mould. Referring to fig. 1 and 2, the automatic terminal inserting device in the mold comprises a material conveying part 6 fixedly arranged on a machine frame 1, the machine frame 1 comprises a placing platform 11, the material conveying part 6 is arranged on the placing platform 11, specifically, the material conveying part 6 comprises a vibration disc 62, the vibration disc 62 is fixed on the upper surface of the placing platform 11 through a bolt, and a terminal 22 is arranged in the vibration disc 62, in the embodiment, the terminal 22 is in a cuboid shape, and before the terminal 22 is inserted, the terminal 22 needs to be firstly placed in the vibration disc 62, so that the preparation work in the previous period is completed.

Referring to fig. 1 and 2, the material conveying part 6 further includes a material conveying block 61, the material conveying block 61 is horizontally fixed on the placing platform 11, one end of the material conveying block 61 is adjacent to a discharge port of the vibration disk 62, a conveying through groove 611 is formed in the upper surface of the material conveying block 61, the length direction of the conveying through groove 611 is parallel to the length direction of the material conveying block 61, one end of the conveying through groove 611 is communicated with the discharge port of the vibration disk 62, and when the vibration disk 62 is started, the vibration disk 62 can convey the terminal 22 to the material conveying block 61.

Referring to fig. 1 and 2, the placing platform 11 is fixed with the vertical driving member 7, the vertical driving member 7 is located at one end of the material conveying block 61 far away from the vibration disk 62, and the vertical driving member 7 is disposed adjacent to the material conveying block 61, in this embodiment, the vertical driving member 7 is a hydraulic cylinder, a support block 71 is fixedly sleeved on a piston rod of the vertical driving member 7, the support block 71 is horizontally disposed, and end surfaces of the support block 71 and one end of the material conveying block 61 close to the vertical driving member 7 are parallel to each other.

Referring to fig. 1 and 2, a material supporting block 5 is fixed on a surface of one side of the support block 71 far away from the vertical driving member 7 through a bolt, the material supporting block 5 is also parallel to an end surface of the material conveying block 61 near one end of the vertical driving member 7, specifically, two material supporting notches 51 are formed in the upper surface of the material supporting block 5, the two material supporting notches 51 are arranged at intervals, and one terminal 22 can be placed on one material supporting notch 51.

Referring to fig. 1 and 2, in the embodiment, when the vertical driving member 7 is started, the vertical driving member 7 pushes the material supporting block 5 to move upward, so the material supporting notch 51 is separated from the conveying through groove 611, at this time, a side surface of the material supporting block 5 close to the material conveying block 61 forms a barrier for the terminal 22 on the material conveying block 61, when the vibration tray 62 is in an open state, the terminal 22 is not easy to fall onto the rack 1 from a gap between the material conveying block 61 and the material supporting block 5, so that waste of the terminal 22 in a material loading process can be reduced, and resource saving is facilitated.

Referring to fig. 1 and 2, two guide grooves 612 are formed at the bottom of the conveying through groove 611, the length direction of the guide grooves 612 is parallel to the length direction of the conveying through groove 611, one end of each guide groove 612 is communicated with the discharge hole of the vibration disc 62, the other end of each guide groove 612 is communicated with the material supporting notch 51, and the two guide grooves 612 are respectively matched with the two material supporting notches 51, so that when the vibration disc 62 is started, the terminal 22 can move into the guide grooves 612 from the vibration disc 62 and then move onto the material supporting notches 51 from the guide grooves 612, and at this time, the purpose of feeding the terminal 22 onto the material supporting block 5 is achieved, and in the process, the two material supporting notches 51 are not easily influenced by each other during feeding, thereby being beneficial to improving the feeding stability.

Referring to fig. 1 and 2, in the present embodiment, the guide groove 612 only allows one terminal 22 to pass through in the width direction, and in the process of conveying the terminal 22 from the guide groove 612 to the material holding notch 51, a situation that a plurality of terminals 22 are stuck on the inner wall of the guide groove 612 is not easy to occur in the guide groove 612, so that the material conveying member 6 can convey the terminal 22 to the material holding block 5 more smoothly.

Referring to fig. 1 and 2, a baffle 8 is further fixed on the placing platform 11, the baffle 8 is located on a side surface of the material supporting block 5 away from the material conveying block 61, and the baffle 8 abuts against the material supporting block 5, so that when the vertical driving element 7 is started to move the material supporting block 5 downwards, the material supporting gap 51 is communicated with the guide groove 612, at this time, the baffle 8 blocks one end of the material supporting gap 51 away from the material conveying block 61, so that the terminal 22 on the material supporting gap 51 is not easily extruded out of the material supporting block 5 by the terminal 22 of the material conveying block 61 when the vibrating disk 62 works, and the material loading operation can be normally performed.

Referring to fig. 1 and 2, when the vertical driving member 7 drives the material supporting block 5 to move upward, one end of the material supporting notch 51 away from the material conveying block 61 is separated from the baffle 8, so that the material supporting notch 51 is exposed to prepare for the subsequent insertion of the terminal 22.

Referring to fig. 1 and 2, the frame 1 further includes a horizontal sliding table 12, a horizontal sliding block 3 is disposed on the horizontal sliding table 12 through a sliding rail, and a sliding direction of the horizontal sliding block 3 is parallel to a length direction of the material conveying block 61, and in this embodiment, a hydraulic cylinder is further fixed on the frame 1 and is used for driving the horizontal sliding block 3 to slide.

Referring to fig. 1 and 2, it assembles piece 31 still to be fixed with through the bolt on horizontal sliding block 3, it is located the one end that horizontal sliding block 3 is close to support material piece 5 to it is close to still to be fixed with push rod 4 on the surface of support material piece 5 one side to assemble piece 31, and is concrete, push rod 4 is provided with two, two push rods 4 are parallel to each other and the interval sets up, push rod 4 one end is fixed and is being close to support material piece 5 side on the surface to assemble piece 31, the other end extends to keeping away from the direction level of assembling piece 31, and two push rods 4 set up with two support material breach 51 cooperations.

Referring to fig. 1 and 2, an integrated body is fixed with sealed piece 9 on the upper surface of material support piece 5, and sealed piece 9 is the cuboid shape to sealed piece 9 has seted up on being close to one side surface of material support piece 5 and has sealed material breach 91, and sealed material breach 91 is provided with two, and two sealed material breach 91 correspond the setting respectively with two material support breachs 51, can form the cross-section moreover between sealed material breach 91 and the material support breach 51 and become circular shape blowing hole 10.

Referring to fig. 1 and 2, when the horizontal sliding block 3 slides to make the push rod 4 extend into the discharging hole 10, a gap exists between the circumferential side surface of the push rod 4 and the inner wall of the discharging hole 10, and an offset exists between the axis of the push rod 4 and the center line of the discharging hole 10, and the axis of the push rod 4 is located below the center line of the discharging hole 10, so that when the push rod 4 pushes the terminal 22, the contact area between the end of the push rod 4 extending into the discharging hole 10 and the terminal 22 is larger, so that the push rod 4 can push the terminal 22 more stably.

Referring to fig. 1 and 3, a vertical mounting plate 101 is vertically slidably disposed on the rack 1, and a plurality of mounting blocks 2 are fixed on a surface of one side of the vertical mounting plate 101 close to the horizontal sliding block 3, and the mounting blocks 2 are uniformly disposed along the sliding direction of the vertical mounting plate 101.

Referring to fig. 2 and 3, a terminal groove 21 is formed on a surface of one side of the mounting block 2 close to the horizontal sliding block 3, two terminal grooves 21 are formed in the terminal grooves 21, and the two terminal grooves 21 and the two discharging holes 10 are respectively and correspondingly arranged, so that when the vertical driving member 7 pushes the material supporting block 5 upwards to make the discharging holes 10 opposite to the push rod 4, the vertical mounting plate 101 can be moved to make the terminal grooves 21 on the mounting block 2 opposite to the discharging holes 10, and then the horizontal sliding block 3 is made to slide, so that the push rod 4 can extend into the discharging holes 10, and then the push rod 4 can push the terminals 22, so that the terminals 22 enter the terminal grooves 21, thereby completing the process of inserting the terminals 22.

Referring to fig. 2 and 3, in the present embodiment, after one mounting block 2 completes the process of inserting the terminal 22, the vertical mounting plate 101 slides downward, so that the terminal groove 21 on the next mounting block 2 is opposite to the push rod 4, and thus the terminal 22 is ready for the next mounting block 2.

In addition, in the embodiment, when the mounting blocks 2 on the vertical mounting plate 101 are all inserted into the terminals 22, the vertical mounting plate 101 moves horizontally away from the push rod 4, so that the mounting blocks 2 enter the next injection molding process, and the plastic housing and the terminals 22 are fixed together.

The implementation principle of the automatic in-mold terminal inserting device in the embodiment of the application is as follows: before inserting the terminal 22, the vibration disc 62 is started firstly, so that the terminal 22 moves from the vibration disc 62 to the material conveying block 61, then the terminal 22 moves from the material conveying block 61 to the discharging hole 10, at the moment, the material feeding is finished, then the vertical driving piece 7 is started, so that the material supporting block 5 moves upwards, when the discharging hole 10 is opposite to the push rod 4, the vertical mounting plate 101 needs to be moved independently, so that the terminal groove 21 on the mounting block 2 is opposite to the push rod 4, and finally the horizontal sliding block 3 can slide, so that the push rod 4 pushes the terminal 22 in the discharging hole 10 into the terminal groove 21, and the purpose of inserting the terminal 22 into the mounting block 2 is completed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An automatic terminal device is inserted to mould which characterized in that: the device comprises an installation block (2), a horizontal sliding block (3), a push rod (4), a material supporting block (5) and a material conveying piece (6), wherein the installation block (2) is vertically and slidably arranged on a rack (1), and a terminal groove (21) is formed in the vertical outer wall of one side of the installation block (2); two terminal grooves (21) are arranged, and the two terminal grooves (21) are parallel to each other and are arranged at intervals; the horizontal sliding block (3) is arranged on the rack (1) in a sliding mode, and the sliding path of the horizontal sliding block (3) is parallel to the direction of the notch of the terminal groove (21); the push rods (4) are fixedly arranged on the horizontal sliding block (3), one end of each push rod (4) is fixed on the surface of one side, close to the mounting block (2), of the horizontal sliding block (3), the other end of each push rod (4) horizontally extends towards the direction close to the mounting block (2), the number of the push rods (4) is two, and the two push rods (4) and the two terminal grooves (21) are respectively matched; the material supporting block (5) is vertically arranged on the rack (1) in a sliding mode, the material supporting block (5) is located between the horizontal sliding block (3) and the mounting block (2), and a material supporting notch (51) for placing the terminal (22) is formed in the upper surface of the material supporting block (5); the material conveying part (6) is arranged on the rack (1), and the material conveying part (6) is used for conveying the terminal (22) to the material supporting notch (51); the vertical driving piece (7) is arranged on the rack (1), and the vertical driving piece (7) is used for driving the material supporting block (5) to slide up and down.

2. The automatic modular interposer terminal device of claim 1, wherein: the material conveying piece (6) comprises a material conveying block (61) and a vibrating disc (62), the material conveying block (61) is fixedly arranged on the rack (1), one end of the material conveying block (61) is close to the surface of one side, far away from the mounting block (2), of the material supporting block (5), a conveying through groove (611) is formed in the upper surface of the material conveying block (61), and one end of the conveying through groove (611) is communicated with the material supporting notch (51); the vibrating plate (62) is fixedly arranged on the rack (1), and the output end of the vibrating plate (62) is communicated with one end, far away from the material supporting block (5), of the conveying through groove (611).

3. The automatic modular interposer terminal device of claim 2, wherein: the baffle (8) is arranged on the surface of one side, away from the material conveying block (61), of the material supporting block (5), and when the material supporting notch (51) is communicated with the conveying through groove (611), the baffle (8) and the terminal (22) on the material supporting notch (51) form a blocking barrier.

4. The automatic modular interposer terminal device of claim 2, wherein: two guide grooves (612) are arranged on the groove bottom of the conveying through groove (611), the length direction of the guide grooves (612) is parallel to that of the conveying through groove (611), and the two guide grooves (612) are respectively communicated with the two material supporting notches (51).

5. The automatic modular interposer terminal device of claim 1, wherein: the fixed surface of the upper surface of the material supporting block (5) is provided with a sealing block (9), one side surface of the sealing block (9) close to the material supporting block (5) is provided with a material sealing notch (91), the material sealing notch (91) corresponds to the material supporting notch (51), and a material discharging hole (10) for placing a terminal (22) is formed between the material sealing notch (91) and the material supporting notch (51).

6. The automatic modular interposer terminal device of claim 5, wherein: the inner wall of the discharging hole (10) is arc-shaped.

7. The automatic modular interposer terminal device of claim 1, wherein: a vertical mounting plate (101) is vertically and slidably arranged on the rack (1), and the vertical mounting plate (101) is positioned on one side, close to the mounting block (2), of the horizontal sliding block (3); the installation block (2) is fixedly arranged on one side surface of the vertical installation plate (101) close to the horizontal sliding block (3), the installation block (2) is provided with a plurality of blocks, and the plurality of installation blocks (2) are uniformly arranged along the sliding direction of the vertical installation plate (101).

8. The automatic modular interposer terminal device of claim 6, wherein: gaps are formed between the peripheral side surfaces of the push rods (4) and the discharging holes (10); the axis of the push rod (4) is offset from the central line of the discharging hole (10), and the axis of the push rod (4) is positioned below the central line of the discharging hole (10).

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