CN114425789B

CN114425789B - Automatic sectional cutting device for edge covering film of backlight product

Info

Publication number: CN114425789B
Application number: CN202111639856.XA
Authority: CN
Inventors: 马小飞; 曹安宁
Original assignee: Bengbu Gaohua Electronic Co ltd
Current assignee: Bengbu Gaohua Electronic Co ltd
Priority date: 2021-12-29
Filing date: 2021-12-29
Publication date: 2024-03-29
Anticipated expiration: 2041-12-29
Also published as: CN114425789A

Abstract

The invention discloses an automatic sectional cutting device for a backlight product edge covering film, and relates to the technical field of backlight product processing. In the invention, the following components are added: the side main mounting plate is provided with a group of pushing-in positioning mechanisms for limiting the pushing-in position of the backlight piece, the side main mounting plate is provided with a group of pushing-in clamping mechanisms for fixedly clamping the backlight piece, the side main mounting plate is provided with an edge film cutting mechanism for cutting an edge film on one side of the backlight piece, and the side main mounting plate is provided with a pushing-out mechanism for pushing out the backlight piece after the edge film is cut. According to the invention, the backlight piece is pushed in through the side pushing-in device, positioning induction is carried out through the pushing-in positioning mechanism on the side main mounting plate, positioning and clamping are carried out through the pushing-in clamping mechanism, irregular multi-section type edge film cutting of the edge film cutting mechanism and non-cutting interference pushing-out operation of the pushing-out mechanism are carried out, and edge film cutting of some irregular edges of the backlight piece is accurately and efficiently completed, so that film covering and lamination of the irregular edges of the backlight piece are facilitated.

Description

Automatic sectional cutting device for edge covering film of backlight product

Technical Field

The invention relates to the technical field of backlight product processing, in particular to an automatic sectional cutting device for a backlight product edging film.

Background

At present, the structure of part of backlight products is complex, and the sectional film pasting operation is needed when the edge films are pasted. The operation mode mostly uses a manual operation mode, the production efficiency only reaches 50 pcs/person/hour, a large amount of manual operation is needed, the speed is low, and the bad process is easy to cause.

The backlight edge covering machine in the existing market is used for carrying out edge covering operation on backlight in a semi-enclosed mode on the whole edge film, and equipment for sectionally cutting the backlight edge film does not appear in the market. In the manufacturing process, backlight products requiring segmented edge wrapping are generally subjected to integral edge wrapping by an edge wrapping machine, manually cut by a blade and then smoothed. The production efficiency of the method only reaches 200 pcs/person/hour, and the operation speed is low, so that a large amount of labor is required. Especially, some bordure position structures are irregular, and the manual handling is more loaded down with trivial details, and efficiency is lower.

In conclusion, customized cutting is performed on the edge covering film of the existing backlight product, and the problem to be solved in the backlight product processing process is solved.

Disclosure of Invention

The invention aims to solve the technical problem of providing an automatic sectional cutting device for the edge covering film of a backlight product, so that the edge covering film cutting of some irregular edges of a backlight piece is accurately and efficiently completed, and the film covering and bonding of the irregular edges of the backlight piece are facilitated.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention provides an automatic sectional cutting device for a binding film of a backlight product. One side of the transmission path is fixedly provided with a side pushing device, the side pushing device is in driving connection with a side pushing plate, the side pushing plate is embedded and configured with a photoelectric module, and the other side of the transmission path is fixedly provided with a side position main mounting plate aligned with the position of the side pushing device.

The side position main mounting plate is provided with a group of pushing-in positioning mechanisms for pushing and limiting backlight parts, each pushing-in positioning mechanism comprises a low-position rotating device which is embedded and mounted in the side position main mounting plate, the upper end of an output rotating shaft of each low-position rotating device is provided with a high-position telescopic device, the output side of each high-position telescopic device is provided with a positioning telescopic shaft rod, and a pressure module is positioned and mounted on the side of the rod end of each positioning telescopic shaft rod.

The side position main mounting plate is provided with a group of pushing-in clamping mechanisms for fixedly clamping the backlight part, the pushing-in clamping mechanisms comprise clamping devices, and the output side of each clamping device is in driving connection with a clamping end plate.

The side position main mounting plate is provided with an edge film cutting mechanism for cutting an edge film on one side of the backlight piece, the edge film cutting mechanism comprises a transverse mounting rod, two side ends of the transverse mounting rod are matched with each other to be provided with an edge side power rod, a plurality of positioning blocks are positioned and mounted on the transverse mounting rod, a cutting blade is arranged below the front side of each positioning block, each positioning block is provided with a positioning frame groove, each transverse mounting rod penetrates through each positioning frame groove of each positioning block, the front side surface of each positioning block is provided with a first positioning screw hole, the rear side surface of each positioning block is provided with a second positioning screw hole, each first positioning screw hole is provided with a first positioning bolt, and each second positioning screw hole is provided with a second positioning bolt.

The side position main mounting plate is provided with a pushing mechanism for pushing out the backlight piece after the edge covering film is cut, the pushing mechanism comprises a transverse moving square plate which is transversely adjusted and fixed on the upper side of the side position main mounting plate, a longitudinally adjusted and fixed pushing device is arranged above the transverse moving square plate, a pushing shaft rod is arranged on the output side of the pushing device, and a pushing rubber block is fixedly arranged on the side of the end of the pushing shaft rod.

As a preferable technical scheme of the automatic sectional cutting device for the edge covering film of the backlight product, the invention comprises the following steps: the output side of the side pushing device is provided with a side pushing shaft rod, the side end of the side pushing shaft rod is fixedly connected with a side pushing plate, and the initial position of the side pushing plate is located in the outer side area of the edge of the conveying path.

As a preferable technical scheme of the automatic sectional cutting device for the edge covering film of the backlight product, the invention comprises the following steps: the end side of the positioning telescopic shaft rod is provided with a first adjusting through groove, the pressure module is sleeved at the position of the first adjusting through groove, and the end side of the positioning telescopic shaft rod is provided with a bolt structure for fixing the position of the pressure module.

As a preferable technical scheme of the automatic sectional cutting device for the edge covering film of the backlight product, the invention comprises the following steps: the two pushing-in positioning mechanisms are symmetrically arranged on the side main mounting plate, the two pushing-in clamping mechanisms are symmetrically arranged on the side main mounting plate, and the pushing-in positioning mechanisms are positioned between the pushing-in clamping mechanisms and the edge film cutting mechanism.

As a preferable technical scheme of the automatic sectional cutting device for the edge covering film of the backlight product, the invention comprises the following steps: the output side of the clamping device is provided with a clamping driving shaft lever, and the side end of the clamping driving shaft lever is fixedly connected with the clamping end plate; the clamping device is fixedly provided with a first installation sideboard on two sides, a first horizontal hole is formed in the first installation sideboard, and a screw hole structure matched with the first horizontal hole is formed in the side position main installation board.

As a preferable technical scheme of the automatic sectional cutting device for the edge covering film of the backlight product, the invention comprises the following steps: the front end screw rod is arranged on the side of the side power rod, through hole structures for matching and installing the front end screw rod are arranged at the two side ends of the transverse installation rod, and reinforcing nuts are matched and installed on the front end screw rod of the side power rod.

As a preferable technical scheme of the automatic sectional cutting device for the edge covering film of the backlight product, the invention comprises the following steps: the positioning block comprises a low-level mounting block, and the cutting blade is mounted at the end side position of the low-level mounting block in a matched manner; the vertical height dimension of the opening of the positioning frame groove is matched with the vertical thickness dimension of the transverse installation rod.

As a preferable technical scheme of the automatic sectional cutting device for the edge covering film of the backlight product, the invention comprises the following steps: two parallel main board transverse guide grooves are formed in the side position main mounting plate, and square board side holes matched with the main board transverse guide grooves are formed in the corner positions of the transverse moving square boards.

As a preferable technical scheme of the automatic sectional cutting device for the edge covering film of the backlight product, the invention comprises the following steps: two groups of positioning columns are fixedly arranged on the upper side of the transverse moving square plate, and a third positioning screw hole is formed in each positioning column; the two sides of the pushing device are fixedly provided with second installation side plates, and the second installation side plates are provided with second straight holes matched with the third positioning screw holes; the push-out shaft is located in the lower region of the transverse mounting bar.

As a preferable technical scheme of the automatic sectional cutting device for the edge covering film of the backlight product, the invention comprises the following steps: the photoelectric module, the clamping end plate, the pressure module, the cutting blade and the pushing-out rubber block of the side push plate are positioned at the same horizontal position.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the backlight piece is pushed in through the side pushing-in device, positioning induction is carried out through the pushing-in positioning mechanism on the side main mounting plate, positioning and clamping are carried out through the pushing-in clamping mechanism, irregular multi-section type edge film cutting of the edge film cutting mechanism and non-cutting interference pushing-out operation of the pushing-out mechanism are carried out, and edge film cutting of some irregular edges of the backlight piece is accurately and efficiently completed, so that film covering and lamination of the irregular edges of the backlight piece are facilitated.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a segment cutting device for a backlight product wrapping film;

FIG. 2 is a schematic diagram of the structural configuration of a side main mounting plate according to the present invention;

FIG. 3 is a schematic view of the pushing-in positioning mechanism and pushing-in clamping mechanism according to the present invention;

FIG. 4 is a schematic diagram of a cutting mechanism and a pushing mechanism for edge film according to the present invention;

FIG. 5 is a schematic diagram of the matching structure of the positioning block and the positioning bolt in the invention;

FIG. 6 is a schematic view of the structure of the positioning block in the present invention;

FIG. 7 is a schematic view of the ejector mechanism of the present invention;

FIG. 8 is a schematic view of a traversing square plate according to the present invention;

wherein: 1-a transmission path; 2-backlight, 201-edge-covering film; 3-side pushing device; 4-side pushing the shaft rod; 5-side push plate; 6-a photovoltaic module; 7-side main mounting plates, 701-main plate transverse guide grooves; 8-pushing-in positioning mechanism, 801-low-position rotating device, 802-high-position telescopic device, 803-positioning telescopic shaft rod, 804-pressure module, 805-first regulating through groove; 9-pushing in clamping mechanism, 901-clamping device, 902-clamping driving shaft, 903-clamping end plate, 904-first mounting sideboard, 905-first straight hole; 10-edge film cutting mechanism, 1001-transverse installation rod, 1002-edge side power rod, 1003-front end screw rod, 1004-positioning block, 1005-low position installation block, 1006-cutting blade, 1007-positioning frame groove, 1008-first positioning screw hole, 1009-second positioning screw hole, 1010-first positioning bolt, 1011-second positioning bolt; 11-pushing out mechanism, 1101-traversing square plate, 1102-square plate side hole, 1103-positioning column, 1104-third positioning screw hole, 1105-pushing out device, 1106-second installation side plate, 1107-second straight hole, 1108-pushing out shaft rod and 1109-pushing out rubber block.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Example 1

Referring to fig. 1, 2 and 3, in the present invention, the backlight 2 moves forward along the conveying path 1, and when the backlight 2 is conveyed to the position of the side pushing plate 5, the photoelectric module 6 on the side pushing plate 5 senses that the backlight 2 reaches the designated position, the conveying belt on the conveying path 1 stops advancing, the side pushing device 3 is started, and the side pushing plate 5 is pushed to push the backlight 2 at the current position into the area of the side main mounting plate 7.

When the backlight 2 enters the area of the side main mounting plate 7, one side of the backlight 2 is limited by the push-in positioning mechanism 8, after the two pressure modules 804 sense that the pushing pressure of the backlight 2 is detected, the backlight 2 is in place, then the low-position rotating device 801 starts to start to drive the high-position telescoping device 802 to rotate [ the rotation angle is smaller, and only 5 degrees are needed to rotate ], the high-position telescoping device 802 drives the positioning telescoping shaft 803 to retract, the pressure modules 804 are retracted for a certain distance, and stroke collision with the cutting blade 1006 is avoided.

The pressure module 804 is configured to rotate and retract first to avoid friction, pulling, etc. on the wrapping film 201 when moving directly along the wrapping film 201 of the backlight 2.

Before the pressure module 804 rotates away from the side of the backlight 2, the two clamping devices 901 drive the clamping end plates 903 to clamp and fix the two sides of the backlight 2.

After the pressure module 804 completes the rotation and retraction actions, the side power rod 1002 pushes the transverse installation rod 1001 to move, and the cutting blade 1006 at the front lower end of the positioning block 1004 at each position on the transverse installation rod 1001 corresponds to the position of the wrapping film 201 to be cut by the backlight 2, for example, in fig. 1 and 3, a multi-section zigzag structure exists in one side of the backlight 2, and when the transverse installation rod 1001 pushes a plurality of cutting blades 1006 by adjusting the initial positions of the cutting blades 1006 at the corresponding positions in advance, a plurality of key positions of the wrapping film 201 are cut synchronously, so that the method is simple and effective.

After the cutting is completed, the lateral power rod 1002 drives the transverse mounting rod 1001 to retract to the initial position, the pushing-out device 1105 drives the pushing-out shaft rod 1108, the pushing-out rubber block 1109 moves forward, the cut backlight 2 is pushed out towards the direction of the conveying path 1, meanwhile, the clamping device 901 retracts to the clamping end plate 903, and the low-position rotating device 801 and the high-position telescoping device 802 drive the pressure module 804 to return to the initial limit sensing position of the pressure module 804.

The side pushing device 3 may retract the side pushing plate 5 when both pressure modules 804 sense the side position of the backlight 2, or the side pushing device 3 may retract the side pushing plate 5 after the clamping device 901 drives the clamping end plate 903 to clamp the backlight 2 from both sides, or retract the side pushing plate 5 when the cutting blade 1006 completes cutting.

After the backlight 2 is cut, the cut edge covering film is returned to the transport path 1 again, and the cut edge covering film is smoothed directly by a smoothing step.

Example two

Referring to fig. 1 to 4, in the present invention, the high-level telescopic device 802, the rotation area thereof, and the side main mounting plate of the clamping device 901 are all of a sinking structure. The lateral mounting bar 1001 and the side power bar 1002 are located in the upper region of the side main mounting plate 7, and the push-out shaft 1108 is located in the lower region of the lateral mounting bar 1001. The area of the side main mounting plate 7 where the traverse square plate 1101 and the pushing-out device 1105 are located is also a sinking structure. Due to the partially submerged structural design, when the clamping, pushing, cutting and other structures are arranged on the side main mounting plate 7, the side main mounting plate can be positioned at the same horizontal position, and the processes of positioning, clamping, cutting and the like of the backlight 2 can be completed smoothly.

Example III

Referring to fig. 4, 5 and 6, in the present invention, when the positioning block 1004 is mounted, the lateral mounting bar 1001 is first removed from the lateral power bar 1002, the positioning block 1004 is sleeved on the lateral mounting bar 1001, the positioning block 1004 is adjusted to a specified position of the lateral mounting bar 1001, then the first positioning bolt 1010 is mounted on the first positioning screw hole 1008, the second positioning bolt 1011 is mounted on the second positioning screw hole 1009, and the cutting blade 1006 at the front lower end of the positioning block 1004 is adjusted to a corresponding cutting [ depth ] position by the cooperation adjustment of the first positioning bolt 1010 and the second positioning bolt 1011.

Example IV

Referring to fig. 2, 4, 7 and 8, in the present invention, the lateral moving square plate 1101 can be adjusted according to the actual lateral position requirement, and a plurality of square plate side holes 1102 on the lateral moving square plate 1101 are matched with the lateral guide grooves 701 of the main plate and are fixed by bolts and nuts [ the nuts are mounted on the lower side of the side main mounting plate 7 ]. The pushing device 1105 may also perform adjustment of the longitudinal position according to the pushing position requirement [ the structure of the cutting edge of the backlight plate ] [ the bolt is mounted in the third positioning screw hole 1104 of the positioning column 1103 at the position of the second straight hole 1107 ].

In addition, the position of the pushing shaft 1108 does not conflict with the position of the positioning blocks 1004, and the pushing shaft 1108 is located in the area between the adjacent positioning blocks 1004 [ the adjustment of the traverse square can be completed ].

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims

1. Automatic segmentation cutting device of product bordure membrane in a poor light, transmission back light (2) on transmission path (1), back light (2) side pastes and covers and have bordure membrane (201), its characterized in that:

a side pushing device (3) is fixedly arranged on one side of the transmission path (1), the side pushing device (3) is in driving connection with a side pushing plate (5), a photoelectric module (6) is embedded and configured in the side pushing plate (5), and a side position main mounting plate (7) aligned with the side pushing device (3) is fixedly arranged on the other side of the transmission path (1);

the side main mounting plate (7) is provided with a group of pushing-in positioning mechanisms (8) for limiting pushing-in of the backlight component (2), the pushing-in positioning mechanisms (8) comprise low-position rotating devices (801) which are embedded and mounted in the side main mounting plate (7), high-position telescopic devices (802) are mounted at the upper ends of output rotating shafts of the low-position rotating devices (801), positioning telescopic shafts (803) are arranged at the output sides of the high-position telescopic devices (802), and pressure modules (804) are mounted at the end sides of the positioning telescopic shafts (803) in a positioning mode;

when the backlight (2) enters the area of the side main mounting plate (7): one side of the backlight (2) is limited by the push-in positioning mechanism (8), when the two pressure modules (804) sense that the push-in pressure of the backlight (2) is detected, the backlight (2) is in place, the low-position rotating device (801) starts to start to drive the high-position telescoping device (802) to rotate, and the high-position telescoping device (802) drives the positioning telescoping shaft lever (803) to retract;

the side main mounting plate (7) is provided with a group of pushing-in clamping mechanisms (9) for fixedly clamping the backlight (2), the pushing-in clamping mechanisms (9) comprise clamping devices (901), and the output side of the clamping devices (901) is in driving connection with clamping end plates (903);

the side position main mounting plate (7) is provided with a side film cutting mechanism (10) for cutting a side wrapping film (201) of the backlight (2), the side film cutting mechanism (10) comprises a transverse mounting rod (1001), two side ends of the transverse mounting rod (1001) are matched with each other to be provided with a side power rod (1002), a plurality of positioning blocks (1004) are positioned and mounted on the transverse mounting rod (1001), a cutting blade (1006) is arranged below the front side of the positioning blocks (1004), the positioning blocks (1004) are provided with positioning frame grooves (1007), the transverse mounting rod (1001) penetrates through the positioning frame grooves (1007) of the positioning blocks (1004), the front side of the positioning blocks (1004) is provided with first positioning screw holes (1008), the rear side of each positioning block (1004) is provided with second positioning screw holes (1009), the positions of the first positioning screw holes (1010) are provided with second positioning screw holes (1011);

the side position main mounting plate (7) is provided with a pushing mechanism (11) for pushing out the backlight (2) after cutting the edge covering film (201), the pushing mechanism (11) comprises a transverse moving square plate (1101) which is transversely adjusted and fixed at the upper side of the side position main mounting plate (7), a longitudinally adjusted and fixed pushing-out device (1105) is arranged above the transverse moving square plate (1101), a pushing-out shaft rod (1108) is arranged at the output side of the pushing-out device (1105), and a pushing-out rubber block (1109) is fixedly arranged at the end side of the pushing-out shaft rod (1108).

2. The automated segment cutting device for edge covering films of backlight products according to claim 1, wherein:

the output side of the side pushing device (3) is provided with a side pushing shaft lever (4), the side end of the side pushing shaft lever (4) is fixedly connected with a side pushing plate (5), and the initial position of the side pushing plate (5) is located in the outer side area of the edge of the transmission path (1).

3. The automated segment cutting device for edge covering films of backlight products according to claim 1, wherein:

the end side of the positioning telescopic shaft rod (803) is provided with a first adjusting through groove (805), the pressure module (804) is sleeved at the position of the first adjusting through groove (805), and the end side of the positioning telescopic shaft rod (803) is provided with a bolt structure for fixing the position of the pressure module (804).

4. The automated segment cutting device for edge covering films of backlight products according to claim 1, wherein:

the two pushing positioning mechanisms (8) are symmetrically arranged on the side main mounting plate (7), the two pushing clamping mechanisms (9) are symmetrically arranged on the side main mounting plate (7), and the pushing positioning mechanisms (8) are positioned between the pushing clamping mechanisms (9) and the edge film cutting mechanism (10).

5. The automated segment cutting device for edge covering films of backlight products according to claim 1, wherein:

the output side of the clamping device (901) is provided with a clamping driving shaft lever (902), and the side end of the clamping driving shaft lever (902) is fixedly connected with a clamping end plate (903);

the clamping device is characterized in that first installation side plates (904) are fixedly arranged on two sides of the clamping device (901), first straight holes (905) are formed in the first installation side plates (904), and screw hole structures matched with the first straight holes (905) are formed in the side position main installation plates (7).

6. The automated segment cutting device for edge covering films of backlight products according to claim 1, wherein:

the front end screw (1003) is arranged at the end side of the side power rod (1002), through hole structures for being matched with and installed on the front end screw (1003) are formed at the two side ends of the transverse installation rod (1001), and reinforcing nuts are matched and installed on the front end screw (1003) of the side power rod (1002).

7. The automated segment cutting device for edge covering films of backlight products according to claim 1, wherein:

the positioning block (1004) comprises a low-level mounting block (1005), and the cutting blade (1006) is mounted at the end side position of the low-level mounting block (1005) in a matching way;

the vertical height dimension of the opening of the positioning frame groove (1007) is matched with the vertical thickness dimension of the transverse installation rod (1001).

8. The automated segment cutting device for edge covering films of backlight products according to claim 1, wherein:

two parallel main board transverse guide grooves (701) are formed in the side position main mounting plate (7), and square board side holes (1102) matched with the main board transverse guide grooves (701) are formed in the corner positions of the transverse moving square boards (1101).

9. The automated segment cutting device for edge covering films of backlight products according to claim 1, wherein:

two groups of positioning columns (1103) are fixedly arranged on the upper side of the transverse moving square plate (1101), and a third positioning screw hole (1104) is formed in each positioning column (1103);

the two sides of the pushing device (1105) are fixedly provided with second installation side plates (1106), and the second installation side plates (1106) are provided with second straight holes (1107) matched with the third positioning screw holes (1104);

the push-out shaft (1108) is located in the lower region of the transverse mounting bar (1001).

10. The automated segment cutting device for edge covering films of backlight products according to claim 1, wherein:

the photoelectric module (6), the clamping end plate (903), the pressure module (804), the cutting blade (1006) and the pushing-out rubber block (1109) of the side pushing plate are positioned at the same horizontal position.