CN220765804U

CN220765804U - Novel material taking and pressing mechanism for OCA optical cement

Info

Publication number: CN220765804U
Application number: CN202322235915.8U
Authority: CN
Inventors: 胡尚伟; 李照辉; 谌鹏; 党留洋
Original assignee: Ganzhou Tongxingda Technology Co Ltd
Current assignee: Ganzhou Tongxingda Technology Co Ltd
Priority date: 2023-08-18
Filing date: 2023-08-18
Publication date: 2024-04-12
Anticipated expiration: 2033-08-18

Abstract

The utility model relates to the technical field of feeding and discharging equipment, in particular to a novel material taking and pressing mechanism for OCA optical cement. Compared with the prior art, the novel OCA optical adhesive taking and pressing mechanism increases the contact area with the OCA optical adhesive, can effectively avoid the condition that marks are left on the OCA optical adhesive after long-time absorption, can effectively reduce bubbles generated at the joint during the joint, and improves the product yield.

Description

Novel material taking and pressing mechanism for OCA optical cement

[ field of technology ]

The utility model relates to the technical field of feeding and discharging equipment, in particular to a novel OCA optical cement taking and pressing mechanism.

[ background Art ]

In the OCA optical cement lamination of the prior art, the component for adsorbing the OCA optical cement is usually adsorbed by adopting a suction rod, the contact area between the suction rod and the OCA optical cement is small, marks are easily left on the optical cement after long-time adsorption, and bubbles are easily generated at the lamination position when lamination is attached to a product, so that poor lamination is caused.

[ utility model ]

In order to overcome the problems, the utility model provides a novel OCA optical cement taking and pressing mechanism capable of effectively solving the problems.

The technical scheme provided by the utility model for solving the technical problems is as follows: the utility model provides a novel material pressing mechanism of getting of OCA optical cement, including first movable assembly, second movable assembly, correction platform and storage silo set gradually in the same side of first movable assembly, the storage silo is used for storing OCA optical cement, correction platform is used for placing OCA optical cement and carries out the position correction, first movable assembly is used for transporting OCA optical cement and carries out the push-down action, second movable assembly is used for transporting the rubberizing product of waiting; the first movable assembly is provided with a pressing upper platform, the pressing upper platform comprises a pressing cylinder, the output end of the pressing cylinder is connected with a pressing lifting plate, the lower side of the pressing lifting plate is connected with a pressing adsorption platform, the bottom surface of the pressing adsorption platform is in a planar design, and pressing adsorption holes distributed in a matrix form are formed in the bottom surface of the pressing adsorption platform; the second moving assembly is provided with a pressing lower platform which is used for adsorbing and fixing a product to be rubberized; and a plurality of buffer springs are connected between the pressing adsorption platform and the pressing lifting plate.

Preferably, a feeding arm is arranged on the first moving assembly and is used for taking out the OCA optical cement from the storage bin and transporting the OCA optical cement to the correction platform.

Preferably, a reflecting plate is arranged on the feeding arm, a detection optical fiber is fixed on the side part of the first moving assembly, and the position of the detection optical fiber corresponds to the position of the reflecting plate.

Preferably, the correction platform comprises a correction fixed substrate, a plurality of support columns are connected to the correction fixed substrate, correction positioning tables are connected to the support columns, and correction adsorption holes distributed in a matrix form are formed in the correction positioning tables.

Preferably, a plurality of adjusting grooves are formed in two sides of the correction positioning table, spring columns are arranged on the adjusting grooves, and the upper ends of the spring columns extend out of the adjusting grooves and exceed the upper surface of the correction positioning table.

Preferably, an adjusting plate is connected to the lower portion of the spring column, an adjusting cylinder is connected to the adjusting plate, the adjusting cylinder drives the adjusting plate to move, and the adjusting plate drives the spring column to move back and forth in the adjusting groove.

Preferably, a positioning plate is arranged on one side of the correction positioning table, the positioning plate is connected with an adjusting cylinder, and the direction of the positioning plate is perpendicular to the arrangement direction of the spring columns.

Compared with the prior art, the novel OCA optical adhesive taking and pressing mechanism adopts the planar adsorption OCA optical adhesive to perform pressing operation, increases the contact area with the OCA optical adhesive compared with the adsorption of the suction rod, can effectively avoid the condition that marks are left on the OCA optical adhesive after long-time adsorption, can effectively reduce bubbles generated at the joint during the joint, and improves the product yield.

[ description of the drawings ]

FIG. 1 is a diagram showing the overall structure of a novel OCA optical adhesive taking and pressing mechanism;

FIG. 2 is a diagram of a press-fit upper platform of the novel OCA optical adhesive take-off and press-fit mechanism of the utility model;

fig. 3 is a diagram of a calibration platform of the novel OCA optical adhesive taking and pressing mechanism of the utility model.

[ detailed description ] of the utility model

The present utility model will be described in further detail with reference to the accompanying drawings and examples of implementation in order to make the objects, technical solutions and advantages of the present utility model 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 utility model.

It should be noted that in embodiments of the present utility model all directional indications (such as up, down, left, right, front, back … …) are limited to relative positions on a given view, and not absolute positions.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

Referring to fig. 1 to 3, the novel OCA optical adhesive taking and pressing mechanism of the present utility model includes a first moving assembly 10, a second moving assembly 20, a correction platform 30 and a storage bin 40, wherein the second moving assembly 20, the correction platform 30 and the storage bin 40 are sequentially disposed on the same side of the first moving assembly 10, the storage bin 40 is used for storing OCA optical adhesive, the correction platform 30 is used for temporarily placing OCA optical adhesive and performing position correction, the first moving assembly 10 is used for transporting OCA optical adhesive and performing a pressing action, and the second moving assembly 20 is used for transporting a product to be laminated.

The first movable assembly 10 is provided with a pressing upper platform 11, the pressing upper platform 11 comprises a pressing cylinder 111, the output end of the pressing cylinder 111 is connected with a pressing lifting plate 112, the lower side of the pressing lifting plate 112 is connected with a pressing adsorption platform 113, the bottom surface of the pressing adsorption platform 113 is of a planar design, pressing adsorption holes 115 distributed in a matrix are formed in the bottom surface of the pressing adsorption platform 113, and the OCA optical cement is adsorbed and fixed on the bottom surface of the pressing adsorption platform 113.

The second moving assembly 20 is provided with a pressing lower platform 21, and the pressing lower platform 21 is used for adsorbing and fixing a product to be rubberized.

A plurality of buffer springs 114 are connected between the pressing adsorption platform 113 and the pressing lifting plate 112, which is beneficial to buffering the pressing process and preventing the over-pressing unevenness.

According to the novel OCA optical adhesive taking and pressing mechanism, the planar adsorption OCA optical adhesive is adopted for pressing operation, compared with the adsorption of the suction rod, the contact area between the OCA optical adhesive and the suction rod is increased, the condition that marks are left on the OCA optical adhesive after long-time adsorption can be effectively avoided, air bubbles generated at the joint can be effectively reduced during the joint, and the product yield is improved.

The first moving assembly 10 is further provided with a loading arm 12, and the loading arm 12 is used for taking out the OCA optical cement from the storage bin 40 and transporting the OCA optical cement to the calibration platform 30.

The feeding arm 12 is provided with a reflecting plate 13, a detection optical fiber 14 is fixed on the side portion of the first moving assembly 10, the position of the detection optical fiber 14 corresponds to the position of the reflecting plate 13, and the detection optical fiber 14 is used for detecting whether the feeding arm 12 is effective in taking materials.

The correction platform 30 comprises a correction fixed substrate 31, a plurality of support columns 32 are connected to the correction fixed substrate 31, a correction positioning table 33 is connected to the support columns 32, and the OCA optical cement is placed on the correction positioning table 33 for correction.

Correction adsorption holes 331 are formed in the correction positioning table 33 in a matrix distribution mode, and the correction adsorption holes 331 are used for adsorbing OCA optical cement to prevent shaking, so that correction accuracy can be improved.

The two sides of the correction positioning table 33 are provided with a plurality of adjusting grooves 332, the adjusting grooves 332 are provided with spring columns 34, the upper ends of the spring columns 34 extend out of the adjusting grooves 332 and exceed the upper surface of the correction positioning table 33, so as to position two sides of the OCA optical cement, and meanwhile, when the pressing upper platform 11 presses down to absorb the OCA optical cement, the spring columns 34 can be pressed down into the adjusting grooves 332, so that the pressing upper platform 11 can absorb the OCA optical cement smoothly.

An adjusting plate 341 is connected below the spring column 34, the adjusting plate 341 is connected with an adjusting cylinder, the adjusting cylinder drives the adjusting plate 341 to move, and the adjusting plate 341 drives the spring column 34 to move back and forth in the adjusting groove 332 to perform positioning.

One side of the correction positioning table 33 is provided with a positioning plate 35, the positioning plate 35 is connected with an adjusting cylinder, and the direction of the positioning plate 35 is perpendicular to the arrangement direction of the spring columns 34 and is used for positioning the other side of the OCA optical cement.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the scope of the utility model, but is intended to cover any modifications, equivalents, and improvements within the spirit of the utility model.

Claims

The novel OCA optical adhesive taking and pressing mechanism is characterized by comprising a first moving assembly, a second moving assembly, a correction platform and a storage bin, wherein the second moving assembly, the correction platform and the storage bin are sequentially arranged on the same side of the first moving assembly, the storage bin is used for storing OCA optical adhesive, the correction platform is used for placing OCA optical adhesive and correcting the position, the first moving assembly is used for transporting OCA optical adhesive and performing pressing action, and the second moving assembly is used for transporting products to be rubberized;

the first movable assembly is provided with a pressing upper platform, the pressing upper platform comprises a pressing cylinder, the output end of the pressing cylinder is connected with a pressing lifting plate, the lower side of the pressing lifting plate is connected with a pressing adsorption platform, the bottom surface of the pressing adsorption platform is in a planar design, and pressing adsorption holes distributed in a matrix form are formed in the bottom surface of the pressing adsorption platform;

the second moving assembly is provided with a pressing lower platform which is used for adsorbing and fixing a product to be rubberized;

and a plurality of buffer springs are connected between the pressing adsorption platform and the pressing lifting plate.
2. The novel OCA optical cement taking and pressing mechanism of claim 1, wherein the first moving assembly is provided with a feeding arm, and the feeding arm is used for taking out OCA optical cement from a storage bin and transporting the OCA optical cement to the correction platform.
3. The novel OCA optical cement taking and pressing mechanism according to claim 2, wherein a reflecting plate is arranged on the feeding arm, a detection optical fiber is fixed on the side part of the first moving component, and the position of the detection optical fiber corresponds to the position of the reflecting plate.
4. The novel OCA optical cement taking and pressing mechanism according to claim 1, wherein the correction platform comprises a correction fixed substrate, a plurality of support columns are connected to the correction fixed substrate, correction positioning tables are connected to the support columns, and correction adsorption holes distributed in a matrix form are formed in the correction positioning tables.
5. The novel OCA optical cement taking and pressing mechanism according to claim 4, wherein a plurality of adjusting grooves are formed in two sides of the correction positioning table, spring columns are arranged on the adjusting grooves, and the upper ends of the spring columns extend out of the adjusting grooves and exceed the upper surface of the correction positioning table.
6. The novel OCA optical cement taking and pressing mechanism according to claim 5, wherein an adjusting plate is connected below the spring column, the adjusting plate is connected with an adjusting cylinder, the adjusting cylinder drives the adjusting plate to move, and the adjusting plate drives the spring column to move back and forth in the adjusting groove.
7. The novel OCA optical cement taking and pressing mechanism according to claim 5, wherein a positioning plate is arranged on one side of the correction positioning table, the positioning plate is connected with an adjusting cylinder, and the direction of the positioning plate is perpendicular to the arrangement direction of the spring columns.