CN215852072U - Electronic component material loading belt packaging mechanism - Google Patents

Abstract

The utility model discloses a material loading belt packaging mechanism of an electronic element, which relates to the technical field of semiconductor crystal oscillators.A first moving component and a second moving component are respectively arranged at two ends of a first material belt transition plate, a heat sealing plate is connected at the telescopic end of a packaging cylinder, a film material tray and a film roller mounting plate are respectively arranged at two ends of the top of a first fixed plate, a material belt limiting frame is arranged at the bottom of a second fixed plate, a winding motor is arranged at one end of a third fixed plate, the power driving end of the winding motor is connected with a material belt winding roller, when in use, the material loading of the material belt is realized under the action of a material belt conveying chuck, the packaging cylinder is started, the heat sealing plate can be driven to lift, so that the covered film can be packaged on the material belt, the winding motor is started, the material collection can be finished, the device has compact structure, the occupied area is reduced, and the material loading belt, the film covering, the packaging and the winding are integrated, the continuity of product processing is further guaranteed, the processing efficiency is improved, and the labor cost is reduced.

Description

Electronic component material loading belt packaging mechanism

Technical Field

The utility model relates to the technical field of semiconductor crystal oscillators, in particular to a packaging mechanism for a feeding belt of an electronic element.

Background

At present electronic component finishes the screening back, need assemble it on the material area to carry out the tectorial membrane heat-seal to the surface in material area, in order to play the effect of protection, and the interval between current material area material loading, tectorial membrane and the heat-seal machine construct is great, can't realize the continuity operation, thereby reduced machining efficiency, simultaneously after the encapsulation, still can't carry out automatic receipts material, for this reason, the staff in the field has proposed an electronic component material loading area packaging mechanism.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides an electronic element feeding belt packaging mechanism, which solves the problems that the distance between the feeding, laminating and heat sealing mechanisms of the conventional feeding belt is large, continuous operation cannot be realized, the processing efficiency is reduced, and automatic material collection cannot be carried out after packaging.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a packaging mechanism for an electronic element feeding belt comprises a first fixing plate, wherein a packaging cylinder, a first feeding belt transition plate and a second feeding belt transition plate are respectively installed on the front side of the first fixing plate from top to bottom, a first moving assembly and a second moving assembly are respectively installed at two ends of the first feeding belt transition plate, a heat sealing plate is connected to the telescopic end of the packaging cylinder, a film material tray and a film roller mounting plate are respectively installed at two ends of the top of the first fixing plate, a second fixing plate and a third fixing plate are respectively installed at one end of the bottom of the first fixing plate, a feeding belt limiting frame is installed at the bottom of the second fixing plate, a winding motor is installed at one end of the third fixing plate, and a power driving end of the winding motor is connected with a feeding belt winding roller;

the first moving assembly comprises a first rotating wheel seat and a first stepping motor, a first shaft rod penetrates through the first rotating wheel seat, a first rotating wheel is sleeved outside the first shaft rod, and a plurality of groups of equidistant material belt conveying chucks are arranged on the outer surface of the first rotating wheel;

the second moving assembly comprises a second runner seat and a second stepping motor, a second shaft rod penetrates through the second runner seat, a connecting arm is mounted at the top of the second shaft rod, a second runner is sleeved outside the second shaft rod, and an extrusion wheel is sleeved outside the connecting arm and right above the second runner.

As a further technical solution of the present invention, the power driving end of the first stepping motor forms a driving structure with the first shaft through the first pulley, and the power driving end of the second stepping motor forms a driving structure with the second shaft through the second pulley.

As a further technical scheme, a first roller, a second roller, a third roller, a fourth roller and a fifth roller are respectively arranged on the front side of the film roller mounting plate, the first roller, the second roller, the third roller and the fourth roller form a V-shaped structure together, and the fifth roller is positioned below the fourth roller.

As a further technical scheme of the present invention, a sixth roller, a seventh roller and an eighth roller are respectively installed on the front side of the second fixing plate and above the material belt limiting frame, and the eighth roller and the second material belt transition plate are located on the same horizontal line.

As a further technical solution of the present invention, a ninth roller is disposed on the front side of the first fixing plate and between the first moving assembly and the second material belt transition plate, and a tenth roller is disposed on the front side of the first fixing plate and directly above the second fixing plate.

As a further technical scheme of the present invention, the tenth roller, the second rotating wheel and the first material tape transition plate are all located on the same horizontal line, a lifting groove is formed in the front side of the first fixing plate and above the first material tape transition plate, and the rear side of the heat sealing plate is slidably connected inside the lifting groove.

Advantageous effects

The utility model provides a packaging mechanism for an electronic element feeding belt. Compared with the prior art, the method has the following beneficial effects:

1. the utility model provides an electronic component material loading area packaging mechanism, through starting first removal subassembly and second removal subassembly, under the effect of material area transport chuck, realized the material loading in material area, and start the encapsulation cylinder, can drive the heat-seal plate and go up and down, thereby can encapsulate the film that covers on the material area, start the roll-up motor at last, can accomplish and receive the material, this equipment structure is compact, the area occupied has been reduced, and the area material loading that gathers materials, the tectorial membrane, encapsulation and roll-up are as an organic whole, the continuity of product processing has further been ensured, the machining efficiency is improved, labor cost is reduced.

2. The utility model provides an electronic component material loading area packaging mechanism, is provided with the extrusion wheel through the top at the second runner, during the use, not only can reach the effect of carrying the material area, but also can roll-in the back film of encapsulation, increase and the laminating degree between the material area, prevent to produce the bubble, further improved the quality and the quality of product.

Drawings

Fig. 1 is a schematic structural view of a packaging mechanism for an electronic component carrier tape;

fig. 2 is a schematic structural view of a first moving assembly of a tape loading and packaging mechanism for electronic components;

fig. 3 is a schematic structural diagram of a second moving assembly of a tape loading and packaging mechanism for electronic components.

In the figure: 1. a first fixing plate; 2. packaging the cylinder; 3. a first material belt transition plate; 4. a second material belt transition plate; 5. a first moving assembly; 51. a first wheel seat; 52. a first stepper motor; 53. a first pulley; 54. a first shaft lever; 55. a first runner; 56. a material belt conveying chuck; 6. a second moving assembly; 61. a second runner base; 62. a second stepping motor; 63. a second shaft lever; 64. a second runner; 65. a connecting arm; 66. an extrusion wheel; 67. a second pulley; 7. heat-sealing the board; 8. a film tray; 9. a film roller mounting plate; 10. a first roller; 11. a second roller; 12. a third roller; 13. a fourth roller; 14. a fifth roller; 15. a second fixing plate; 16. a material belt limiting frame; 17. a sixth roller; 18. a seventh roller; 19. an eighth roller; 20. a ninth roller; 21. a third fixing plate; 22. a winding motor; 23. a material belt winding roller; 24. a tenth roller; 25. a lifting groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution of a packaging mechanism for an electronic component feeding tape: a material loading belt packaging mechanism for electronic elements comprises a first fixing plate 1, a packaging cylinder 2, a first material belt transition plate 3 and a second material belt transition plate 4 are respectively installed on the front side of the first fixing plate 1 from top to bottom, a first moving assembly 5 and a second moving assembly 6 are respectively installed on two ends of the first material belt transition plate 3, a heat sealing plate 7 is connected on the telescopic end of the packaging cylinder 2, a film tray 8 and a film roller mounting plate 9 are respectively installed on two ends of the top of the first fixing plate 1, a first roller 10, a second roller 11, a third roller 12, a fourth roller 13 and a fifth roller 14 are respectively installed on the front side of the film roller mounting plate 9, the first roller 10, the second roller 11, the third roller 12 and the fourth roller 13 jointly form a V-shaped structure, the fifth roller 14 is located below the fourth roller 13, a second fixing plate 15 and a third fixing plate 21 are respectively installed on one end of the bottom of the first fixing plate 1, a sixth roller 17, a seventh roller 18 and an eighth roller 19 are respectively installed on the front side of the second fixing plate 15 and above the material belt limiting frame 16, the eighth roller 19 and the second material belt transition plate 4 are located on the same horizontal line, the material belt limiting frame 16 is installed at the bottom of the second fixing plate 15, a furling motor 22 is installed at one end of a third fixing plate 21, a material belt furling roller 23 is connected to the power driving end of the furling motor 22, a ninth roller 20 is arranged on the front side of the first fixing plate 1 and between the first moving assembly 5 and the second material belt transition plate 4, a tenth roller 24 is arranged on the front side of the first fixing plate 1 and right above the second fixing plate 15, the tenth roller 24, the second rotating wheel 64 and the first material belt transition plate 3 are all located on the same horizontal line, a lifting groove 25 is formed on the front side of the first fixing plate 1 and above the first material belt transition plate 3, the rear side sliding connection of sealing plate 7 is in the inside of lift groove 25, through the setting of a plurality of gyro wheels, when using, can reach the effect of guiding the material loading to material area and film, and roll-up motor 22 drive material area roll-up roller 23 is rotatory, can reach the effect of receiving the material, this equipment structure is compact, occupation area has been reduced, and the area material loading that gathers materials, tectorial membrane, encapsulation and roll-up are as an organic whole, the continuity of product processing has further been ensured, and the machining efficiency is improved, and the labor cost is reduced.

Referring to fig. 2, the first moving assembly 5 includes a first rotating wheel seat 51 and a first stepping motor 52, a first shaft 54 penetrates through the first rotating wheel seat 51, a first rotating wheel 55 is sleeved outside the first shaft 54, a plurality of groups of material belt conveying chucks 56 are disposed on the outer surface of the first rotating wheel 55, a driving structure is formed by the first belt pulley 53 and the first shaft 54 at the power driving end of the first stepping motor 52, the first belt pulley 53 is driven by the first stepping motor 52, the first shaft 54 and the first rotating wheel 55 can be driven to rotate, and the material belt can be fed under the action of the material belt conveying chucks 56.

Referring to fig. 3, the second moving assembly 6 includes a second rotating wheel seat 61 and a second stepping motor 62, a second shaft rod 63 penetrates through the second rotating wheel seat 61, a connecting arm 65 is installed at the top of the second rotating wheel seat, a second rotating wheel 64 is sleeved on the outside of the second shaft rod 63, an extruding wheel 66 is sleeved on the outside of the connecting arm 65 and located right above the second rotating wheel 64, a driving structure is formed by the power driving end of the second stepping motor 62 and the second shaft rod 63 through a second belt pulley 67, and the extruding wheel 66 is arranged above the second rotating wheel 64.

The working principle of the utility model is as follows: in use, the initial end of the tape passes through the tape limiting frame 16, then sequentially passes around the sixth roller 17, the seventh roller 18 and the eighth roller 19, is pulled out of the second tape transition plate 4, and finally passes around the ninth roller 20, and the hole on one side of the tape is engaged with one of the tape conveying chucks 56, at this time, the first stepping motor 52, the second stepping motor 62 and the take-up motor 22 can be sequentially started, and the first shaft 54, the first rotating wheel 55 and the tape conveying chuck 56 can be driven to synchronously rotate under the action of the first belt pulley 53 with the start of the first stepping motor 52, so that the tape can be fed into the first tape transition plate 3.

At this time, the film in the film tray 8 is pulled out and wound around the first roller 10, the second roller 11, the fourth roller 13, the fifth roller 14 and the third roller 12 to cover the material belt, when the material belt moves to be right below the heat sealing plate 7, the packaging cylinder 2 is started, the power driving end can drive the heat sealing plate 7 to lift along the direction of the lifting groove 25, thereby completing the packaging of the material belt, when the packaged material belt moves to the second rotating wheel 64, the power driving end of the second stepping motor 62 can drive the second shaft 63 and the second rotating wheel 64 to rotate under the action of the second belt pulley 67, at this time, the extrusion wheel 66 can roll the surface of the film, the fit degree between the film and the material belt can be increased, the generation of bubbles can be prevented, the rolled material belt can be finally wound onto a material belt winding roller 23 through a tenth roller 24, so as to complete material collection.

Claims (6)

1. The utility model provides an electronic component material loading belt packaging mechanism, includes first fixed plate (1), its characterized in that, encapsulation cylinder (2), first material area cross cab apron (3) and second material area cross cab apron (4) are installed respectively to the front side top-down of first fixed plate (1), first material area is installed respectively at the both ends of cab apron (3) and is first removed subassembly (5) and second and remove subassembly (6), the flexible end of encapsulation cylinder (2) is connected with heat-sealing plate (7), film charging tray (8) and film gyro wheel mounting panel (9) are installed respectively to the top both ends of first fixed plate (1), second fixed plate (15) and third fixed plate (21) are installed respectively to the bottom one end of first fixed plate (1), spacing frame (16) are installed to the bottom of second fixed plate (15), roll-up motor (22) is installed to the one end of third fixed plate (21), the power driving end of the furling motor (22) is connected with a material belt furling roller (23);

the first moving assembly (5) comprises a first rotating wheel seat (51) and a first stepping motor (52), a first shaft rod (54) penetrates through the first rotating wheel seat (51), a first rotating wheel (55) is sleeved outside the first shaft rod (54), and a plurality of groups of material belt conveying chucks (56) with equal distances are arranged on the outer surface of the first rotating wheel (55);

the second moving assembly (6) comprises a second rotating wheel seat (61) and a second stepping motor (62), a second shaft rod (63) penetrates through the inside of the second rotating wheel seat (61), a connecting arm (65) is installed at the top of the second rotating wheel seat, a second rotating wheel (64) is sleeved on the outside of the second shaft rod (63), and an extrusion wheel (66) is sleeved on the outside of the connecting arm (65) and right above the second rotating wheel (64).

2. An electronic component tape loading and packaging mechanism according to claim 1, wherein the power driving end of the first stepping motor (52) forms a driving structure with the first shaft (54) through the first pulley (53), and the power driving end of the second stepping motor (62) forms a driving structure with the second shaft (63) through the second pulley (67).

3. The electronic component feeding tape packaging mechanism according to claim 1, wherein a first roller (10), a second roller (11), a third roller (12), a fourth roller (13) and a fifth roller (14) are respectively mounted on the front side of the film roller mounting plate (9), the first roller (10), the second roller (11), the third roller (12) and the fourth roller (13) jointly form a "V" shaped structure, and the fifth roller (14) is located below the fourth roller (13).

4. The electronic component feeding tape packaging mechanism according to claim 1, wherein a sixth roller (17), a seventh roller (18) and an eighth roller (19) are respectively installed on the front side of the second fixing plate (15) and above the feeding tape limiting frame (16), and the eighth roller (19) and the second feeding tape transition plate (4) are located on the same horizontal line.

5. The electronic component feeding tape packaging mechanism according to claim 1, wherein a ninth roller (20) is disposed on the front side of the first fixing plate (1) and between the first moving assembly (5) and the second feeding tape transition plate (4), and a tenth roller (24) is disposed on the front side of the first fixing plate (1) and directly above the second fixing plate (15).

6. The electronic component feeding tape packaging mechanism according to claim 5, wherein the tenth roller (24), the second rotating wheel (64) and the first feeding tape transition plate (3) are all located on the same horizontal line, a lifting groove (25) is formed in a front side of the first fixing plate (1) and above the first feeding tape transition plate (3), and a rear side of the heat sealing plate (7) is slidably connected inside the lifting groove (25).

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