CN220784903U - Notebook touch module and gel plate alignment laminating machine - Google Patents

Abstract

The utility model discloses a notebook touch module and gel plate alignment laminating machine, which comprises: the device comprises a base, a horizontal moving module, a first positioning device arranged on one side of the horizontal moving module and used for positioning the touch module, a second positioning device arranged beside the first positioning device and used for positioning the gel plate, and a turnover driving device arranged on the horizontal moving module and a pressure maintaining device arranged at one end of the horizontal moving module. The touch module is installed by adopting the gel plate to replace the traditional screw and the curing adhesive, the touch module and the gel plate are respectively positioned on the first positioning device and the second positioning device, the second positioning device is pushed by the overturning driving device to be in overturning alignment fit with the first positioning device, the gel plate is further fit with the touch module, and finally the first positioning device and the second positioning device are moved below the pressure maintaining device by the horizontal movement module, so that the gel plate is tightly fit with the touch module through the pressure maintaining device.

Description

Notebook touch module and gel plate alignment laminating machine

Technical field:

the utility model relates to the technical field of production and manufacturing of touch modules, in particular to a notebook touch module and gel plate alignment laminating machine.

The background technology is as follows:

touch modules play an important role in notebook computers, and are generally used for cursor control, gesture operation, and the like, and are mainly used on touch pads and touch screens. At present, two common touch module assembly modes are adopted in the market, one is fixed by screw connection, and the other is fixed by connection through adhesive. However, with the development of technology, the more powerful the demand function of the intelligent force touch module of the notebook computer is, the thinner the demand function of the intelligent force touch module is, the more abundant the function of the product is, and the thinner the demand of the thickness of the product is. The traditional screw locking assembly mode is difficult to meet the requirement. The touch module is assembled in the manner of glue, the glue overflow problem exists, the glue is required to be solidified, the efficiency is low, and poor assembly is easy to occur. Such as: in the technical scheme disclosed in the Chinese patent application publication No. CN 111459327A, the touch control layer 10 and the glass cover plate 30 are connected by adopting the adhesive layer 20, and the adhesive layer 20 is irradiated by ultraviolet rays for curing, so that the curing adhesive is generally liquid, and when the curing adhesive is filled between the touch control layer 10 and the glass cover plate 30, uneven filling easily occurs, so that some partial areas are not filled in place, and some partial areas are excessively filled, overflow occurs in the bonding process, and the situation of poor assembly easily occurs.

In view of this, the present inventors have proposed the following means.

The utility model comprises the following steps:

the utility model aims to overcome the defects of the prior art and provides a notebook touch module and gel plate alignment laminating machine.

In order to solve the technical problems, the utility model adopts the following technical scheme: a notebook touch module and gel plate alignment laminating machine comprises: the device comprises a machine base, a horizontal moving module arranged on the machine base, a first positioning device arranged on one side of the horizontal moving module and used for positioning the touch module, a second positioning device arranged beside the first positioning device and used for positioning the gel plate, a turnover driving device arranged on the horizontal moving module and used for driving the second positioning device to turn over and align and attach with the first positioning device, and a pressure maintaining device arranged on one end of the horizontal moving module and used for pressing the touch module after aligning and attaching with the gel plate.

Furthermore, in the above technical solution, the first positioning device includes a fine adjustment module mounted on the horizontal movement module and a first positioning jig disposed on the fine adjustment module and used for positioning the touch module, where the first positioning jig includes a first bottom plate, a plurality of positioning blocks disposed on the first bottom plate and used for positioning the touch module, and a first cover plate disposed on the first bottom plate and used for clamping the touch module.

Furthermore, in the above technical scheme, the fine adjustment module comprises a first base, a first adjustment seat movably mounted on the first base, a Y-axis sliding rail pair disposed on the first base and the first adjustment seat and used for sliding relatively, a first fine adjustment rod disposed on one side of the first base and used for pushing the first adjustment seat to slide, a second adjustment seat movably mounted on the first adjustment seat, a first X-axis sliding rail pair disposed between the second adjustment seat and the first adjustment seat and used for sliding relatively, and a second fine adjustment rod disposed on one side of the first adjustment seat and used for pushing the second adjustment seat to slide, wherein the first positioning jig is disposed on the second adjustment seat.

Furthermore, in the above technical scheme, a first reset limiting tension spring is arranged between the first adjusting seat and the first base, and a second reset limiting tension spring is arranged between the second adjusting seat and the first adjusting seat.

Furthermore, in the above technical solution, the fine adjustment module further includes a rotating disc seat disposed on the second adjustment seat, a rotating adjustment seat rotatably disposed on the rotating disc seat and used for mounting the first positioning jig, a rotating shaft penetrating through the rotating adjustment seat and the center of the rotating disc seat, a plurality of third reset limiting tension springs disposed between the rotating adjustment seat and the rotating disc seat and having a periphery and disposed on one side of the rotating disc seat, and a third fine adjustment rod disposed on one side of the rotating disc seat and used for pushing the rotating adjustment seat to rotate relative to the rotating disc seat.

Furthermore, in the above technical solution, the overturning driving device includes a supporting seat disposed beside the fine adjustment module, a supporting rotating shaft rotatably disposed at an upper end of the supporting seat and used for mounting the second positioning device, a rotating cylinder disposed at one end of the supporting rotating shaft and used for driving the supporting rotating shaft to rotate, a swinging rod disposed at the other end of the supporting rotating shaft and swinging along with the supporting rotating shaft, a first buffer and a second buffer disposed at one side of the supporting seat and positioned at two sides of the supporting rotating shaft for decelerating and buffering the swinging rod, a first limiting part disposed beside the first buffer and used for limiting swinging of the swinging rod, and a second limiting part disposed at the second buffer and used for limiting swinging of the swinging rod.

Furthermore, in the above technical solution, the second positioning device includes a support plate mounted on the support shaft and swinging along with the support shaft, a second positioning jig disposed on one side of the support plate and used for positioning the gel plate, a floating frame penetrating through the support plate and used for connecting with the second positioning jig, and a plurality of floating sleeves disposed on the support plate and used for allowing the support columns in the floating frame to penetrate through, and the pressure maintaining device contacts with the floating frame and pushes the second positioning jig to be attached to the first positioning device.

Furthermore, in the above technical scheme, the second positioning jig comprises a second bottom plate, a second cover plate covered on the second bottom plate and an air tap arranged on one side of the second bottom plate, wherein a plurality of negative pressure holes for adsorbing the gel plate are arranged on the second cover plate, and a vacuum chamber for communicating the negative pressure holes with the air tap is arranged between the second bottom plate and the second cover plate.

Furthermore, in the above technical scheme, the pressure maintaining device comprises a straight cylinder vertically arranged and a rubber backing plate arranged on a piston below the straight cylinder and used for pushing the floating frame in a propping manner.

Furthermore, in the above technical solution, the horizontal movement module includes a second X-axis sliding rail pair, an X-axis movement seat disposed on the second X-axis sliding rail pair and used for supporting the first positioning device, the second positioning device, and the overturning driving device, and a driving cylinder for driving the X-axis movement seat to follow the second X-axis sliding rail pair.

By adopting the technical scheme, compared with the prior art, the utility model has the following beneficial effects: according to the utility model, the gel plate is used for replacing the traditional screws and curing glue to mount the touch module, the touch module and the gel plate are respectively positioned on the first positioning device and the second positioning device, the second positioning device is pushed by the overturning driving device to be in overturning alignment and attached to the first positioning device, the gel plate is attached to the touch module, manual visual alignment is not needed, the efficiency is higher, the attaching effect is good, and finally the first positioning device and the second positioning device are moved to the lower part of the pressure maintaining device by the horizontal movement module, pressure is applied to the second positioning device by the pressure maintaining device, so that the gel plate is tightly attached to the touch module, the poor attaching is avoided, and the attaching yield is ensured.

Description of the drawings:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the present utility model in the loading state;

FIG. 3 is a schematic view of the press-fit structure of the present utility model;

FIG. 4 is a schematic diagram of a fine tuning module according to the present utility model;

FIG. 5 is a schematic view of the structure of the flip driving device of the present utility model;

fig. 6 is a schematic structural view of a second positioning device in the present utility model.

The specific embodiment is as follows:

the utility model will be further described with reference to specific examples and figures.

Fig. 1 to 6 show a notebook touch module and gel plate alignment laminating machine, which includes: the device comprises a machine base 1, a horizontal movement module 2 arranged on the machine base 1, a first positioning device 3 arranged on one side of the horizontal movement module 2 and used for positioning a touch module, a second positioning device 4 arranged beside the first positioning device 3 and used for positioning a gel plate, a turnover driving device 5 arranged on the horizontal movement module 2 and used for driving the second positioning device 4 to turn over and attach to the first positioning device 3 in a aligned manner, and a pressure maintaining device 6 arranged at one end of the horizontal movement module 2 and used for pressing the touch module after the alignment and attach to the gel plate. Adopt the gel board to replace traditional screw and curing glue to install touch module, fix a position touch module and gel board respectively on first positioner 3 and second positioner 4, promote second positioner 4 upset counterpoint laminating to first positioner 3 by upset drive arrangement 5, and then laminate the gel board to the touch module on, need not artifical vision counterpoint, efficiency is higher, laminating effect is good, remove pressure device 6 below with first positioner 3 and second positioner 4 by horizontal migration module 2, apply pressure on to second positioner 4 through pressure device 6, closely laminate the gel board to the touch module on, avoid appearing laminating failure, thereby guarantee the yields of laminating.

The first positioning device 3 includes a fine adjustment module 31 mounted on the horizontal movement module 2 and a first positioning jig 32 disposed on the fine adjustment module 31 and used for positioning the touch module, where the first positioning jig 32 includes a first bottom plate 321, a plurality of positioning blocks 322 disposed on the first bottom plate 321 and used for positioning the touch module, and a first cover plate 323 disposed on the first bottom plate 321 and used for clamping the touch module.

The fine adjustment module 31 includes a first base 311, a first adjustment seat 312 movably mounted on the first base 311, a Y-axis sliding rail pair 313 disposed on the first base 311 and the first adjustment seat 312 and used for sliding relatively, a first fine adjustment rod 414 disposed on one side of the first base 311 and used for pushing the first adjustment seat 312 to slide, a second adjustment seat 315 movably mounted on the first adjustment seat 312, a first X-axis sliding rail pair 316 disposed between the second adjustment seat 315 and the first adjustment seat 312 and used for sliding relatively, and a second fine adjustment rod 317 disposed on one side of the first adjustment seat 312 and used for pushing the second adjustment seat 315 to slide, wherein the first positioning fixture 32 is disposed on the second adjustment seat 315.

A first reset limiting tension spring 318 is arranged between the first adjusting seat 312 and the first base 311, and a second reset limiting tension spring 319 is arranged between the second adjusting seat 315 and the first adjusting seat 312.

The fine adjustment module 31 further comprises a rotating disc seat 31A disposed on the second adjustment seat 315, a rotating adjustment seat 31B rotatably disposed on the rotating disc seat 31A and used for mounting the first positioning fixture 32, a rotating shaft 31D penetrating through the centers of the rotating adjustment seat 31B and the rotating disc seat 31A, a plurality of third reset limit tension springs 31C disposed between the rotating adjustment seat 31B and the rotating disc seat 31A and circumferentially disposed on the periphery, and a third fine adjustment rod 31E disposed on one side of the rotating disc seat 31A and used for pushing the rotating adjustment seat 31B to rotate relative to the rotating disc seat 31A.

The turnover driving device 5 comprises a supporting seat 51 arranged beside the fine adjustment module 31, a supporting rotating shaft 52 rotatably arranged at the upper end of the supporting seat 51 and used for installing the second positioning device 4, a rotating cylinder 53 arranged at one end of the supporting rotating shaft 52 and used for driving the supporting rotating shaft to rotate, a swinging rod 54 arranged at the other end of the supporting rotating shaft 52 and rotating and swinging along with the supporting rotating shaft, a first buffer 55 and a second buffer 56 arranged at one side of the supporting seat 51 and positioned at two sides of the supporting rotating shaft 52 and used for decelerating and buffering the swinging rod 54, a first limiting part 57 arranged beside the first buffer 55 and used for limiting the swinging of the swinging rod 54, and a second limiting part 58 arranged at the second buffer 56 and used for limiting the swinging of the swinging rod 54.

The second positioning device 4 comprises a support plate 41 mounted on the support shaft 52 and swinging along with the support shaft, a second positioning jig 42 arranged on one side of the support plate 41 and used for positioning the gel plate, a floating frame 43 penetrating through the support plate 41 and used for being connected with the second positioning jig 42, and a plurality of floating sleeves 44 arranged on the support plate 41 and used for allowing support columns 431 in the floating frame 43 to penetrate through, wherein the pressure maintaining device 6 is in contact with the floating frame 43 and pushes the second positioning jig 42 to be attached to the first positioning device 3.

The second positioning fixture 42 comprises a second bottom plate 421, a second cover plate 422 covering the second bottom plate 421, and an air tap 423 disposed on one side of the second bottom plate 421, wherein a plurality of negative pressure holes 424 for adsorbing the gel plate are disposed on the second cover plate 422, and a vacuum chamber for communicating the negative pressure holes 424 with the air tap 423 is disposed between the second bottom plate 421 and the second cover plate 422.

The pressure maintaining device 6 comprises a vertical linear cylinder 61 and a rubber pad plate 62 arranged on a piston below the linear cylinder 61 and used for pushing the floating frame 43.

The horizontal moving module 2 comprises a second X-axis sliding rail pair 21, an X-axis moving seat 22 arranged on the second X-axis sliding rail pair 21 and used for supporting the first positioning device 3, the second positioning device 4 and the overturning driving device 5, and a driving cylinder 23 used for driving the X-axis moving seat 22 to move along the second X-axis sliding rail pair 21.

In summary, when the utility model works, firstly, the touch module and the gel plate are respectively installed and positioned on the first positioning device 3 and the second positioning device 4, the position of the touch module is limited by the first positioning device 3, and the position of the gel plate is limited by the second positioning device 4; further, the second positioning device 4 is driven by the overturning driving device 5 to be in overturning fit with the first positioning device 3, so that the gel plate on the second positioning device 4 can be accurately fit with the touch module on the first positioning device 3, and the gel plate can be accurately fit with the touch module in a screwed joint when the second positioning device 4 is fit with the first positioning device 3 because the position of the gel plate on the second positioning device 4 is determined before and the position of the touch module is also determined on the first positioning device 3; further, the first positioning device 3 and the second positioning device 4 which are bonded together are simultaneously moved to the lower part of the pressure maintaining device 6 by the horizontal movement module 2, and then the second positioning device 4 is tightly pressed by the pressure maintaining device 6, so that the gel plate is tightly bonded on the touch module, and bubbles are prevented from being generated after bonding.

It is understood that the foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, but rather is to be accorded the full scope of all such modifications and equivalent structures, features and principles as set forth herein.

Claims (10)

1. The utility model provides a notebook touch module and gel board laminating machine of counterpointing which characterized in that includes: the device comprises a base (1), a horizontal movement module (2) arranged on the base (1), a first positioning device (3) arranged on one side of the horizontal movement module (2) and used for positioning a touch module, a second positioning device (4) arranged beside the first positioning device (3) and used for positioning a gel plate, a turnover driving device (5) arranged on the horizontal movement module (2) and used for driving the second positioning device (4) to turn over and align and attach with the first positioning device (3), and a pressure maintaining device (6) arranged on one end of the horizontal movement module (2) and used for pressing the touch module after aligning and attaching with the gel plate.

2. The notebook touch module and gel plate alignment laminating machine according to claim 1, wherein: the first positioning device (3) comprises a fine adjustment module (31) arranged on the horizontal movement module (2) and a first positioning jig (32) arranged on the fine adjustment module (31) and used for positioning the touch module, wherein the first positioning jig (32) comprises a first bottom plate (321), a plurality of positioning blocks (322) arranged on the first bottom plate (321) and used for positioning the touch module, and a first cover plate (323) arranged on the first bottom plate (321) in a covering manner and used for clamping the touch module.

3. The notebook touch module and gel plate alignment laminator of claim 2, wherein: the fine adjustment module (31) comprises a first base (311), a first adjustment seat (312) movably mounted on the first base (311), a Y-axis sliding rail pair (313) arranged on the first base (311) and the first adjustment seat (312) and used for sliding relatively, a first fine adjustment rod (414) arranged on one side of the first base (311) and used for pushing the first adjustment seat (312) in a propping manner, a second adjustment seat (315) movably mounted on the first adjustment seat (312), a first X-axis sliding rail pair (316) arranged between the second adjustment seat (315) and used for sliding relatively and a second fine adjustment rod (317) arranged on one side of the first adjustment seat (312) and used for pushing the second adjustment seat (315) in a propping manner, and the first positioning jig (32) is arranged on the second adjustment seat (315).

4. The notebook touch module and gel sheet alignment laminator of claim 3, wherein: a first reset limit tension spring (318) is arranged between the first adjusting seat (312) and the first base (311), and a second reset limit tension spring (319) is arranged between the second adjusting seat (315) and the first adjusting seat (312).

5. The notebook touch module and gel sheet alignment laminator of claim 3, wherein: the fine adjustment module (31) further comprises a rotating disc seat (31A) arranged on the second adjustment seat (315), a rotating adjustment seat (31B) which is arranged on the rotating disc seat (31A) in a rotatable mode and used for installing the first positioning jig (32), a rotating shaft (31D) penetrating through the centers of the rotating adjustment seat (31B) and the rotating disc seat (31A), a plurality of third reset limit tension springs (31C) which are arranged between the rotating adjustment seat (31B) and the rotating disc seat (31A) and are circumferentially arranged on the periphery, and a third fine adjustment rod (31E) which is arranged on one side of the rotating disc seat (31A) and used for pushing the rotating adjustment seat (31B) to rotate relative to the rotating disc seat (31A).

6. The notebook touch module and gel sheet alignment laminator of any one of claims 2-5, wherein: the turnover driving device (5) comprises a supporting seat (51) arranged beside the fine adjustment module (31), a supporting rotating shaft (52) which is arranged at the upper end of the supporting seat (51) in a rotatable mode and used for installing the second positioning device (4), a rotating cylinder (53) which is arranged at one end of the supporting rotating shaft (52) and used for driving the supporting rotating shaft to rotate, a swinging rod (54) which is arranged at the other end of the supporting rotating shaft (52) and swings along with the supporting rotating shaft, a first buffer (55) and a second buffer (56) which are arranged at one side of the supporting seat (51) and used for carrying out deceleration buffering on the swinging rod (54), a first limiting part (57) which is arranged beside the first buffer (55) and used for limiting the swinging of the swinging rod (54) and a second limiting part (58) which is arranged at the second buffer (56) and used for limiting the swinging of the swinging rod (54).

7. The notebook touch module and gel sheet alignment laminator of claim 6, wherein: the second positioning device (4) comprises a supporting plate (41) which is arranged on the supporting rotating shaft (52) and swings along with the supporting shaft, a second positioning jig (42) which is arranged on one side of the supporting plate (41) and used for positioning the gel plate, a floating frame (43) which penetrates through the supporting plate (41) and is used for being connected with the second positioning jig (42), and a plurality of floating sleeves (44) which are arranged on the supporting plate (41) and used for allowing supporting columns in the floating frame (43) to penetrate through, wherein the pressure maintaining device (6) is in contact with the floating frame (43) and pushes the second positioning jig (42) to be attached to the first positioning device (3).

8. The notebook touch module and gel sheet alignment laminator of claim 7, wherein: the second positioning jig (42) comprises a second bottom plate (421), a second cover plate (422) covered on the second bottom plate (421) and an air tap (423) arranged on one side of the second bottom plate (421), wherein a plurality of negative pressure holes (424) for adsorbing the gel plate are formed in the second cover plate (422), and a vacuum chamber for communicating the negative pressure holes (424) with the air tap (423) is formed between the second bottom plate (421) and the second cover plate (422).

9. The notebook touch module and gel sheet alignment laminator of claim 7, wherein: the pressure maintaining device (6) comprises a straight-line cylinder (61) which is vertically arranged and a rubber pad plate (62) which is arranged on a piston below the straight-line cylinder (61) and is used for pushing the floating frame (43) in a propping mode.

10. The notebook touch module and gel sheet alignment laminator of claim 6, wherein: the horizontal movement module (2) comprises a second X-axis sliding rail pair (21), an X-axis movement seat (22) arranged on the second X-axis sliding rail pair (21) and used for supporting the first positioning device (3), the second positioning device (4) and the overturning driving device (5), and a driving cylinder (23) used for driving the X-axis movement seat (22) to follow the second X-axis sliding rail pair (21).