CN109085709B - Attached subassembly and attached system - Google Patents

Abstract

The invention relates to the technical field of liquid crystal display, in particular to an attaching assembly and an attaching system. The attaching assembly provided by the invention comprises a first pressing device, a second pressing device and a first driving device, wherein the first pressing device is positioned on the front surface of a product to be attached and can press and attach part of the mylar film to the front surface of the product to be attached, and the first driving device can drive the second pressing device to move, so that under the condition that the product to be attached does not turn over, the other part of the mylar film extending out of the product to be attached is bent and attached to the back surface of the product to be attached. The invention not only solves the problems of time and labor consumption caused by manually attaching the Mylar film, improves the attaching efficiency of the Mylar film, but also solves the problem that a product to be attached is easy to damage caused by manually attaching the Mylar film, and avoids the damage of the product to be attached in the process of attaching the Mylar film.

Description

Attached subassembly and attached system

Technical Field

The invention relates to the technical field of liquid crystal display, in particular to an attaching assembly and an attaching system.

Background

With the continuous development of technology, the volume of the display is becoming thinner and lighter, and although the conventional Cathode Ray Tube (CRT) has its advantages, it has a large volume and consumes much power, and is gradually replaced by the liquid crystal display device, which has the advantages of low operating voltage, no radiation, light weight, small volume, and the like, and thus has become the mainstream product in the market.

In order to fix the backlight module and the display module together, a mylar film is generally coated from the front surface of the liquid crystal display device to the back surface of the liquid crystal display device. In the prior art, an operator attaches a part of Mylar film (Mylar film) to the front of a liquid crystal display device, and then manually turns over the liquid crystal display device, and attaches another part of Mylar film to the back of the liquid crystal display device. However, the conventional mylar attachment method is time-consuming and labor-consuming, and the operator may easily damage the liquid crystal display device by manually turning the liquid crystal display device.

Disclosure of Invention

The invention aims to provide an attaching assembly and an attaching system, which can improve the attaching efficiency of a Mylar film and can avoid damaging a product to be attached.

In order to achieve the purpose, the invention adopts the following technical scheme:

an affixion assembly comprising:

the first pressing device is positioned on the front surface of the product to be attached and is configured to press a part of the Mylar film on the front surface of the product to be attached;

the first driving device is configured to drive the second pressing device to move so as to bend the other part of the Mylar film extending out of the product to be attached and attach the Mylar film to the back of the product to be attached.

Optionally, the first pressing device and the second pressing device are provided with pressing heads on the surfaces facing the mylar film, and the pressing heads are made of elastic materials.

Optionally, the pressing head further comprises a vacuum suction device, a through hole is formed in the pressing head, and the through hole is communicated with the vacuum suction device.

Optionally, the first pressing device is characterized by comprising a first support body and a first blowing mechanism, wherein the first blowing mechanism can slide and/or rotate relative to the first support body.

Optionally, the second pressing device includes a second supporting body and a second blowing mechanism, and the second blowing mechanism can slide and/or rotate relative to the second supporting body.

Optionally, the pressing device further comprises a circular guide rail, and the first driving device is configured to drive the second pressing device to slide along the circular guide rail.

Optionally, the first driving device comprises:

the roller is rotatably arranged on the body, and the second pressing device is connected with the body; and

the first motor is arranged on the body and can drive the roller to rotate.

An attachment system comprising: the attachment assembly as described above;

a material carrying assembly configured to place a mylar film stock;

a peeling assembly configured to peel off a release paper of the mylar film stock;

a support assembly configured to support the product to be affixed; and

the conveying assembly is configured to drive the attaching assembly to move among the material bearing assembly, the peeling assembly and the supporting assembly.

Optionally, the stripping assembly comprises:

the device comprises a turning plate and an adsorption device, wherein the adsorption device is arranged on the turning plate and is configured to adsorb the release paper; and

the second driving device is configured to drive the turning plate to move relative to the support so as to peel the release paper from the mylar stock.

Optionally, the turning plate is rotatably disposed on the bracket, the turning plate includes a first turning plate and a second turning plate disposed in parallel, and a rotation axis of the first turning plate is parallel to a rotation axis of the second turning plate.

The invention has the beneficial effects that:

the attaching assembly provided by the invention comprises a first pressing device, a second pressing device and a first driving device, wherein the first pressing device is positioned on the front surface of a product to be attached and can press and attach part of the mylar film to the front surface of the product to be attached, and the first driving device can drive the second pressing device to move, so that under the condition that the product to be attached does not turn over, the other part of the mylar film extending out of the product to be attached is bent and attached to the back surface of the product to be attached. The invention not only solves the problems of time and labor consumption caused by manually attaching the Mylar film, improves the attaching efficiency of the Mylar film, but also solves the problem that a product to be attached is easy to damage caused by manually attaching the Mylar film, and avoids the damage of the product to be attached in the process of attaching the Mylar film.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments of the present invention will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the contents of the embodiments of the present invention and the drawings without creative efforts.

FIG. 1 is a schematic structural view of a Mylar film stock provided by the present invention;

FIG. 2 is a schematic structural view of an attachment system provided in the present invention;

FIG. 3 is a schematic structural view of the attachment assembly in a first state according to the present invention;

FIG. 4 is a schematic structural view of the attachment assembly in a second state;

FIG. 5 is a schematic structural diagram of a first driving device provided in the present invention;

fig. 6 is a cross-sectional view of a compression head provided by the present invention.

The figures are labeled as follows:

1-an attachment system; 2-a liquid crystal display device; 3-preparing a Mylar film;

11-attaching the assembly; 12-a material carrying assembly; 13-a stripping assembly; 14-a support assembly; 15-a transmission assembly; 31-mylar film; 32-release paper;

111-a second hold-down device; 112-a first hold-down device; 113-a first drive; 114-a vacuum suction device; 115-circular guide rail; 116-a compression head; 121-a sensing device; 131-a first flap; 132-a second flap; 133-an adsorption device; 134-a scaffold; 135-a second motor;

1111-a second rod; 1112-a second blowing mechanism; 1113-second plate; 1121-a first rod; 1122-a first blowing mechanism; 1123 — a first plate; 1131-body; 1132 — a roller; 1133 — a first motor; 1161-through hole.

Detailed Description

In order to make the technical solutions of the present embodiments better understood by those skilled in the art, the technical solutions of the present embodiments are further described below by way of specific embodiments with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of a mylar film stock 3 provided in this embodiment, and as shown in fig. 1, the mylar film stock 3 provided in this embodiment includes a mylar film 31 and a release paper 32 bonded to each other, where a side of the mylar film 31 having adhesiveness is bonded to the release paper 32, and the mylar film 31 can be attached to a liquid crystal display device only by tearing the release paper 32 from the mylar film 31. From type paper 32 including mutually independent first from type paper and second from type paper, and stride draw membrane 31 not completely cover on from type paper 32, exert from first from the adjacent position of type paper and second from type paper and tear the power, can realize tearing the effect of removing from striding draw membrane 31 with type paper 32 fast.

Fig. 2 is a schematic structural diagram of the attaching system 1 provided in the present embodiment, and as shown in fig. 2, the attaching system 1 provided in the present embodiment includes an attaching assembly 11, a material carrying assembly 12, a peeling assembly 13, a supporting assembly 14, and a conveying assembly 15. The material bearing assembly 12 is configured to place a plurality of mylar film stocks 3, the peeling assembly 13 is configured to peel off release paper 32 from a mylar film 31, the supporting assembly 14 is configured to support the liquid crystal display device 2, the attaching assembly 11 can achieve fast and accurate attaching of the mylar film 31 to the liquid crystal display device 2, and the conveying assembly 15 is configured to drive the attaching assembly 11 to move between the material bearing assembly 12 and the peeling assembly 13 and between the supporting assembly 14. The working principle of the attaching system 1 is as follows: the conveying assembly 15 drives the attaching assembly 11 to obtain the mylar film stock 3 from the material bearing assembly 12, the conveying assembly 15 conveys the attaching assembly 11 to the peeling assembly 13 to perform the action of peeling the release paper 32 from the mylar film 31, the conveying assembly 15 conveys the attaching assembly 11 with the mylar film 31 to the supporting assembly 14 where the liquid crystal display device 2 is placed, and the attaching assembly 11 works to coat the mylar film 31 from the front side of the liquid crystal display device 2 to the back side of the liquid crystal display device 2.

As shown in fig. 2, a sensing device 121 is arranged inside the material carrying assembly 12, the sensing device 121 is electrically connected to a control device, the control device is also electrically connected to an alarm device, and when the mylar film stock 3 exists in the material carrying assembly 12, the sensing device 121 sends a signal indicating that the mylar film stock 3 exists to the control device; when the mylar film stock 3 in the material bearing component 12 is used up, the sensing device 121 phase control device sends a signal that the mylar film stock 3 does not exist, and the control device controls the alarm device to send an alarm to remind an operator to add the mylar film stock 3 into the material bearing component 12, so that the subsequent steps can be conveniently carried out. In other embodiments, the control device may be electrically connected to a display device, and when the mylar stock 3 is not present in the material carrying assembly 12, the control device controls the display device to display a material shortage reminder.

As shown in fig. 2, the peeling assembly 13 provided in the present embodiment includes a first flap 131, a second flap 132, an adsorption device 133, a bracket 134, and a second driving device. The first flap 131 and the second flap 132 are both rotatably disposed on the bracket 134, the first flap 131 and the second flap 132 are disposed in parallel, and the rotation axes of the first flap 131 and the second flap 132 are parallel. Adsorption devices 133 are arranged on the surfaces of the first turning plate 131 and the second turning plate 132, and the adsorption devices 133 can adsorb the release paper 32. The second driving device includes two second motors 135, one second motor 135 is connected to the rotating shaft of the first flap 131 to drive the first flap 131 to rotate relative to the bracket 134, and the other second motor 135 is connected to the rotating shaft of the second flap 132 to drive the second flap 132 to rotate relative to the bracket 134. When the two second motors 135 work simultaneously, the first turning plate 131 and the second turning plate 132 are driven to rotate in the direction of the rotating arrow shown in fig. 2, so that the first release paper and the second release paper can be respectively peeled off from the mylar film 31, the operation is simple and convenient, and the integrity of the mylar film 31 can be ensured. In other embodiments, only one flap may be provided that rotates relative to the bracket 134 or moves in a vertical direction relative to the bracket 134 to effect peeling of the release paper 32.

As shown in fig. 2, the attaching assembly 11 provided in this embodiment includes a first pressing device 112, a second pressing device 111, a first driving device 113, a vacuum sucking device 114, a circular guide rail 115, and a pressing head 116. Wherein, the first pressing device 112 comprises a first supporting body composed of a first rod 1121 and a first plate 1123, and the first rod 1121 and the first plate 1123 are connected. The second pressing device 111 includes a second supporting body composed of a second rod 1111 and a second plate 1113, the second rod 1111 is connected with the second plate 1113, and the pressing heads 116 are disposed on the first plate 1123 and the second plate 1113. The first plate 1123 is positioned on the front surface of the liquid crystal display device 2, and the first rod 1121 is movable in the vertical direction so that the pressing head 116 on the first plate 1123 presses a part of the mylar film 31 against the front surface of the liquid crystal display device 2. Meanwhile, the first rod 1121 and the second rod 1111 can be freely extended or shortened in the respective length directions to adjust the distance from the liquid crystal display device 2, thereby facilitating the attaching operation of the mylar film 31. The second rod 1111 is connected to the first driving device 113, and the first driving device 113 is located in the circular track 115, and the first driving device 113 can drive the second rod 1111 to rotate along the circular track 115, so as to bend the mylar film 31 extending out of the upper surface of the liquid crystal display device 2, and attach the bent mylar film 31 to the back of the liquid crystal display device 2 through the pressing head 116 on the second plate 1113.

Fig. 3 is a schematic structural diagram of the attaching assembly 11 provided in this embodiment in a first state, as shown in fig. 3, the first pressing device 112 and the second pressing device 111 are both located on the front surface of the supporting assembly 14, the first rod 1121 moves downward in the vertical direction to attach a portion of the mylar film 31 to the front surface of the liquid crystal display device 2, and the remaining portion of the mylar film 31 extends out of the liquid crystal display device 2.

The first blowing mechanism 1122 is provided on the first plate 1123, and the first blowing mechanism 1122 is slidable in the extending direction of the first rod 1121 with respect to the first plate 1123, and can flatten the mylar film 31 attached to the upper surface of the liquid crystal display device 2 in the extending direction of the first rod 1121. The first blowing mechanism 1122 is also rotatable with respect to the first plate 1123, and can smooth the mylar film 31 attached to the upper surface of the liquid crystal display device 2 in the direction perpendicular to the vertical plane. The sliding and rotating motions are matched with each other, so that the mylar film 31 attached to the upper surface of the liquid crystal display device 2 can be flattened in all directions, and the part of the mylar film 31 is attached to the liquid crystal display device 2 more closely.

Fig. 4 is a schematic structural diagram of the attachment assembly 11 provided in this embodiment in a second state. The second blowing mechanism 1112 is slidable in the extending direction of the second rod 1111 with respect to the second plate 1113, and can smooth the mylar film 31 attached to the lower surface of the liquid crystal display device 2 in the extending direction of the second rod 1111. The second blowing mechanism 1112 is also rotatable with respect to the second rod 1111, and can smooth the mylar film 31 attached to the lower surface of the liquid crystal display device 2 in the direction perpendicular to the paper surface. The sliding and rotating motions are matched with each other, so that the mylar film 31 attached to the upper surface of the liquid crystal display device 2 can be flattened in all directions, and the part of the mylar film 31 is attached to the liquid crystal display device 2 more closely.

Fig. 5 is a schematic structural diagram of the first driving device 113 provided in this embodiment. Wherein, first drive arrangement 113 includes body 1131, gyro wheel 1132 and first motor 1133, and gyro wheel 1132 rotates and sets up on body 1131, and first motor 1133 sets up and rotates with drive gyro wheel 1132 on body 1131 to the drive sets up first closing device 112 on body 1131 and slides along circular guide rail 115.

Fig. 6 is a sectional view of the compressing head provided in this embodiment. Alternatively, the pressing heads 116 of the first pressing device 112 and the second pressing device 111 are made of an elastic material such as rubber, and when the first pressing device 112 and the second pressing device 111 respectively press the mylar film 31 of the corresponding area against the liquid crystal display device 2, damage to parts on the liquid crystal display device 2 can be reduced. In addition, the attaching assembly 11 further includes a vacuum absorbing device 114 as shown in fig. 4, a through hole 1161 is formed on the pressing head 116 in fig. 6, and the through hole 1161 is communicated with the vacuum absorbing device 114, so that the mylar film 31 is tightly adsorbed on the pressing head 116, the mylar film 31 is prevented from falling off, and normal transmission of the mylar film 31 is ensured.

It is important to note that the foregoing illustrates and describes the principles and general features of the present invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined by the appended claims and their equivalents.

Claims (9)

1. A patch assembly (11), comprising:

a first pressing device (112) which is positioned on the front surface of the product to be attached and is configured to press a part of the Mylar film (31) on the front surface of the product to be attached;

the device comprises a second pressing device (111), a circular guide rail (115) and a first driving device (113), wherein the first driving device (113) is configured to drive the second pressing device (111) to slide along the circular guide rail (115) so as to bend and attach the other part of the mylar film (31) extending out of the product to be attached to the back of the product to be attached.

2. The laying assembly (11) according to claim 1, wherein the first pressing means (112) and the second pressing means (111) are each provided with a pressing head (116) on the side facing the mylar (31), said pressing heads (116) being made of an elastic material.

3. The attachment assembly (11) of claim 2, further comprising a vacuum suction device (114), wherein the pressing head (116) is provided with a through hole (1161), and the through hole (1161) is communicated with the vacuum suction device (114).

4. The affixing assembly (11) according to any one of claims 1 to 3, wherein said first pressing means (112) comprises a first support and a first blowing mechanism (1122), said first blowing mechanism (1122) being slidable and/or rotatable with respect to said first support.

5. The laying assembly (11) according to any one of claims 1 to 3, wherein said second pressing device (111) comprises a second support body and a second blowing mechanism (1112), said second blowing mechanism (1112) being slidable and/or rotatable with respect to said second support body.

6. The affixing assembly (11) according to claim 1, characterized in that said first driving means (113) comprise:

the pressing device comprises a body (1131) and a roller (1132), wherein the roller (1132) is rotatably arranged on the body (1131), and the second pressing device (111) is connected with the body (1131); and

the first motor (1133) is arranged on the body (1131) and can drive the roller (1132) to rotate.

7. An affixing system (1), characterized in that it comprises: the attachment assembly (11) of any of claims 1 to 6;

a material-carrying assembly (12) configured to place a mylar stock (3);

a peeling assembly (13) configured to peel off a release paper (32) of the mylar film stock (3);

a support assembly (14) configured to support the product to be affixed; and

a conveying component (15) configured to drive the attaching component (11) to move among the material carrying component (12), the peeling component (13) and the supporting component (14).

8. Affixing system (1) according to claim 7, characterized in that said stripping assembly (13) comprises:

a flap (131, 132) and an adsorption device (133), the adsorption device (133) being disposed on the flap (131, 132), the adsorption device (133) being configured to adsorb the release paper (32); and

a support (134) and a second drive arrangement configured to drive movement of the flaps (131, 132) relative to the support (134) to peel the release paper (32) from the mylar stock (3).

9. The attachment system (1) according to claim 8, wherein the flaps (131, 132) are rotatably arranged on the support (134), the flaps (131, 132) comprising a first flap (131) and a second flap (132) arranged side by side, the rotational axis of the first flap (131) being parallel to the rotational axis of the second flap (132).

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