CN211728181U - Automatic lamination equipment of FPC antenna - Google Patents

Abstract

The utility model is suitable for a FPC antenna pressfitting technical field provides an automatic lamination equipment of FPC antenna, include: the automatic feeding device comprises a first support, an indexing disc assembly arranged on the first support, a pressing mechanism assembly arranged on the first support, a material taking assembly arranged on the first support and a control assembly; the indexing disc assembly comprises an indexing disc and a driving device for driving the indexing disc, and at least three product bottom dies are arranged on the indexing disc to form a feeding station, a material taking station and at least one pressing station; the pressing mechanism assembly comprises a second support arranged on the index plate in a spanning mode and a pressing mechanism arranged on the second support and corresponding to a pressing station on the index plate; the material taking station of the material taking assembly is arranged corresponding to the material taking station on the index plate. The utility model discloses the at utmost has improved the efficiency of production operation, has saved the manpower demand of production line and has reduced holistic manufacturing cost.

Description

Automatic lamination equipment of FPC antenna

Technical Field

The utility model belongs to the technical field of the FPC antenna pressfitting, especially, relate to an automatic lamination equipment of FPC antenna.

Background

In the existing mobile phone, in order to achieve the aesthetic appearance, the light structure and the portability, the old external rod-shaped antenna is almost not used, and the old external rod-shaped antenna is replaced by various antennas which are arranged in the mobile phone shell.

Especially, after the technology of the full-screen mobile phone is popularized, the layout space of the FPC antenna of the mobile phone structure is smaller and smaller. The structure of the FPC antenna is more and more complex, and a plurality of FPC antennas are simultaneously distributed in a plane, a vertical plane and a mobile phone fillet area. And in the production process of the existing mold factory, the laminating of most FPC antennas is the manual laminating mode operation, and because of the complicated structure of the FPC antennas, the difficulty of manual laminating is large, the FPC antennas are always pressed effectively after laminating, and the unstable bonding or the subsequent upwarping of the antennas are avoided.

The current working mode is basically operated in a mode of manually adding a pressing jig, antennas at the head and the tail of a product cannot simultaneously complete pressing, and the antenna needs to be independently operated at different stations, so that the conditions of low operating efficiency and high labor cost are caused.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an automatic lamination equipment of FPC antenna aims at solving the operating efficiency of FPC antenna laminating and hangs down, problem that whole manufacturing cost is high.

The embodiment of the utility model provides a realize like this, an automatic lamination equipment of FPC antenna, include: the automatic feeding device comprises a first support, an indexing disc assembly arranged on the first support, a pressing mechanism assembly arranged on the first support, a material taking assembly arranged on the first support and a control assembly;

the indexing disc assembly comprises an indexing disc and a driving device for driving the indexing disc, and at least three product bottom dies are arranged on the indexing disc to form a feeding station, a material taking station and at least one pressing station;

the pressing mechanism assembly comprises a second support arranged on the upper portion of the index plate in a spanning mode and a pressing mechanism arranged on the second support and corresponding to a pressing station on the index plate;

the material taking station of the material taking assembly is arranged corresponding to the material taking station on the index plate.

Preferably, four evenly distributed product bottom molds are arranged on the index plate, and two pressing mechanisms are arranged on the second support, wherein the pressing mechanisms at different positions correspond to different pressing positions of the product bottom molds so as to press the FPC antennas at different positions of the product.

Preferably, the indexing disk assembly comprises; the two pressing mechanisms are arranged at 90 degrees to respectively press the FPC antennas at the head and the tail of the product.

Preferably, the pressing mechanism comprises a connecting plate arranged on the second support, a pressing cylinder arranged on the connecting plate, and a soft glue pressing head arranged at the output end of the pressing cylinder.

Preferably, the pressfitting cylinder output is provided with a clamp plate, the clamp plate bottom is connected with the connecting rod, the connecting rod other end slidable is provided with the connector, just be provided with regulating spring on the connecting rod, the flexible glue pressure head sets up on the connector.

Preferably, the front end of the soft rubber pressure head is set to be parallel to the horizontal plane, and the material taking assembly comprises a third support arranged on the outer side of the index plate, a linear motion module arranged on the third support, a fourth support connected with the linear motion module and extending towards the direction of the index plate, and a material taking mechanism connected to the fourth support.

Preferably, the X-axis module comprises: set up the supporting shoe on the box, feeding agencies includes: the material taking cylinder is fixedly arranged on the fourth support, and the sucking disc component is connected to the material taking cylinder.

Preferably, the sucking disc component comprises a connecting block assembly connected to a cylinder rod of the material taking cylinder, a sucking disc support arranged on the connecting block assembly, and a sucking disc arranged on the sucking disc support.

Preferably, another head of sliding connection pole is provided with the sucking disc and gets material subassembly, the linear motion module is screw drive mechanism.

Compared with the prior art, the utility model discloses a set up the graduated disk and set up the product die block according to the principle of at least three graduation on the graduated disk for product blowing station, pressfitting station, get the material station and can all go on simultaneously and the isolated operation, each other do not influence, thereby the at utmost has improved the efficiency of production operation, has saved the manpower demand of production line and has reduced holistic manufacturing cost.

Drawings

Fig. 1 is a schematic view of an overall structure of an automatic pressing device for an FPC antenna according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a first bracket combined with a second bracket according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an index plate assembly provided by an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a pressing mechanism assembly according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a material taking assembly provided by the embodiment of the present invention.

Fig. 6 is a schematic structural view of a suction cup member according to an embodiment of the present invention.

Wherein the content of the first and second substances,

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The examples are as follows:

this embodiment provides an automatic lamination equipment of FPC antenna, as shown in fig. 1, includes: the automatic material taking device comprises a first support 1, an index plate assembly 2 arranged on the first support 1, a pressing mechanism assembly 3 arranged on the first support 1, a material taking assembly 5 arranged on the first support 1 and a control assembly 4.

As shown in fig. 3, the index plate assembly 2 includes an index plate 10 and a driving device 6 for driving the index plate 10, and at least three product bottom molds 11 are disposed on the index plate 10 to form a material feeding station, a material taking station, and at least one pressing station.

The pressing mechanism component 3 comprises a second support 8 arranged on the upper portion of the index plate 10 in a spanning mode and a pressing mechanism arranged on the second support 8 and corresponding to a pressing station on the index plate 10;

the material taking station of the material taking assembly 5 is arranged corresponding to the material taking station on the index plate 10.

As shown in fig. 2, the first frame 1 is used for supporting each component, and here, the first frame 1 is configured as a square frame with a fixable pulley 7 at the bottom, so that the equipment can be stably operated, and the equipment can be conveniently moved, and the carrying flexibility of the equipment is increased, of course, the first frame 1 can also be a box structure or a frame structure with other shapes, and the like.

The control assembly 4 is used for detecting, analyzing and controlling the index plate assembly 2, the pressing mechanism assembly 3 and the material taking assembly 5 so as to realize the simultaneous operation among the assemblies.

The control component 4 comprises an electric cabinet and a single chip microcomputer arranged in the electric cabinet.

This electric cabinet sets up in the support, and its inside has with graduated disk subassembly 2, pressing fit mechanism subassembly 3, get the circuit that material subassembly 5 is connected and be used for controlling power output's device etc. and its inside device is selected according to actual conditions in order to satisfy the demand.

The specific model of the single chip microcomputer is selected according to actual conditions to meet requirements.

The driving device 6 is a motor, a direct current motor or an alternating current motor can be selected, the specific model of the driving device is selected according to actual requirements to meet the requirements, and the driving device 6 is used for driving the dividing plate 10 to rotate so as to convert the positions of the bottom dies 11 of the products and simultaneously realize the operations of discharging, pressing and taking materials.

The number of the material placing stations, the material taking stations and the pressing stations is changed according to the number of the product bottom dies 11 on the index plate 10, and correspondingly, the rotation angle of the index plate 10 every time is also set according to the number of the product bottom dies 11. If four product bottom dies 11 are arranged, the material feeding station and the material taking station are respectively one, the pressing station is two (one pressure head and one pressure tail), and the rotation angle of the index plate 10 is 90 degrees each time; if five product bottom dies 11 are arranged, one of the material feeding station and the material taking station can be one, the other station can be two, the pressing station can be two, and the rotating angle of the dividing plate 10 is 72 degrees each time; if six product bottom dies 11 are arranged, the material feeding station, the material taking station and the pressing station are respectively two, and the rotating angle of the dividing plate 10 is 60 degrees each time.

Compared with the prior art, this embodiment has set up product die block 11 through setting up graduated disk 10 and according to the principle of at least three graduation on graduated disk 10 for product blowing station, pressfitting station, material taking station all can go on simultaneously and the isolated operation, do not influence each other, thereby furthest's improvement the efficiency of production operation, saved the manpower demand of production line and reduced holistic manufacturing cost.

As another optional embodiment of the utility model, as shown in fig. 3, set up the product die block 11 that is provided with four equipartitions on the graduated disk 10, as shown in fig. 1, be provided with two pressing mechanism on the second support 8, wherein, the pressfitting position difference that the pressing mechanism at different positions corresponds product die block 11 carries out the pressfitting in order to carry out the pressfitting to the FPC antenna of product different positions.

Of course, the four product bottom molds 11 on the indexing plate 10 are not necessarily arranged uniformly, but may be arranged at different ring edge positions on the indexing plate 10, but the spacing angles need to be the same.

The two pressing structures respectively correspond to different positions of the bottom die 11 of the product, so that pressing of different positions of the product is facilitated, all-dimensional pressing of the product is achieved, and working efficiency is improved.

This embodiment is through setting up four evenly arranged product die blocks 11 on graduated disk 10, is provided with two pressing mechanism on the second support 8, and the pressing mechanism of different positions corresponds the pressfitting position of product die block 11 different to can be a pressing mechanism carries out the pressfitting to the second part again after to the first part pressfitting of product, with the all-round pressfitting of realization product, avoid needing secondary pressfitting, thereby improve work efficiency.

As another optional embodiment of the present invention, as shown in fig. 1, two pressing mechanisms are 90 ° disposed to press the FPC antenna at the head and the tail of the product respectively.

Of course, the two pressing mechanisms may be disposed at different angles, such as 45 degrees, 46 degrees, 47 degrees, 70 degrees, 80 degrees, etc., but the pressing positions of the pressing mechanisms need to correspond to different positions of the product, so as to realize the omnibearing pressing of the product.

This embodiment is through making two pressing fit mechanism be 90 degrees settings to make two pressing fit mechanism correspond the head and the afterbody of product, thereby through twice pressfitting to the all-round processing of product, with improvement work efficiency, and can avoid the position between two pressing fit mechanism to lean on, thereby influence the operation separately between them.

As another optional embodiment of the utility model, the pressing mechanism includes the connecting plate 9 of setting on the second support 8, the pressfitting cylinder 12 of setting on the connecting plate 9 and the flexible glue pressure head 13 of setting at the 12 outputs of pressfitting cylinder.

As shown in fig. 2, the second bracket 8 includes two struts provided on the first bracket 1 and a strut provided at the top ends of the two struts, so that stability can be improved by the two struts.

As shown in fig. 4, the connecting plate 9 has a certain inclination so that the two mounted pressing mechanisms correspond to different positions of the bottom mold 11, and the connecting plate 9 and the second bracket 8 are connected by matching screws and screw holes, and of course, can also be connected by a sticking manner.

The pressing cylinder 12 is used for providing pressing force for the pressing mechanism to drive the pressing mechanism to press the FPC antenna, and the pressing head is made of soft rubber, so that the FPC antenna can be prevented from being damaged due to overlarge pressure of the pressing head, and an excellent protection effect is achieved.

As another optional embodiment of the utility model, as shown in fig. 4, the output end of the pressing cylinder 12 is provided with a pressing plate 14, the bottom of the pressing plate 14 is connected with a connecting rod 16, the other end of the connecting rod 16 is slidably provided with a connector 17, and is provided with an adjusting spring 15 on the connecting rod 16, and a soft rubber pressing head 13 is arranged on the connector 17.

The pressing plate 14 and the connecting body 17 are both square structures so as to have a better fixing effect, and of course, structures with other shapes can be selected.

The number of the connecting rods 16 is set according to actual conditions, and may be one, two, three, or the like.

The number of the connectors 17 is set according to the number of the soft rubber pressure heads 13, each connector 17 is connected with one soft rubber pressure head 13, and of course, one connector 17 can be connected with a plurality of soft rubber pressure heads 13.

The adjusting spring 15 can be a pressure spring, a spring plate, a plastic spring, etc.

Wherein, the connecting rod 16 is four, and the connector 17 is two, and flexible glue pressure head 13 is two, and two connecting rods 16 connect a connector 17 to play the effect of fixed connector 17, and set up a flexible glue pressure head 13 on every connector 17.

This embodiment is through setting up clamp plate 14, sets up connecting rod 16 in clamp plate 14 bottom to set up slidable connector 17 at the other end of connecting rod 16, and set up regulating spring 15 on connecting rod 16, flexible glue pressure head 13 sets up on connector 17, like this alright slow down the pressure of flexible glue pressure head 13 to the FPC antenna through regulating spring 15 on the connecting rod 16, in order to avoid the too much damage that leads to the FPC antenna of pressure.

As another optional embodiment of the present invention, as shown in fig. 5, the material taking assembly 5 includes a third support 18 disposed outside the index plate 10, a linear motion module 19 disposed on the third support 18, a fourth support 20 connected to the linear motion module 19 and extending toward the index plate 10, and a material taking mechanism 21 connected to the fourth support 20.

The third bracket 18 is of the same or similar construction as the second bracket 8 to improve stability.

As shown in fig. 5, the fourth support 20 is a vertical plate-shaped structure and is perpendicular to the linear motion module 19, so that the product on the material taking mechanism 21 can be better output to the next processing station through the linear motion module 19, and certainly, the product may not be perpendicular to the next processing station according to actual requirements. The fourth support 20 is connected to the output of the linear motion module 19.

As shown in fig. 5, the material taking mechanism 21 is disposed at the other end of the fourth support 20 to better correspond to the product bottom molds 11 on the index plate 10.

This embodiment is through setting up the outside to graduated disk 10 with third support 18, can avoid its rotation that influences graduated disk 10, sets up linear motion module 19 on third support 18, and the next processing position that the material that can sharply will take out was carried to promote and get material efficiency, and set up fourth support 20 then be convenient for the fixed of extracting mechanism 21, with the fixed effect of promoting extracting mechanism 21.

As another alternative embodiment of the present invention, as shown in fig. 6, the material taking mechanism 21 includes: a material taking cylinder 22 fixedly arranged on the fourth bracket 20 and a sucker member connected to the material taking cylinder 22.

The material taking cylinder 22 is specifically arranged at one end of the fourth support 20 so as to correspond to the product bottom die 11 on the index plate 10.

The suction cup member is specifically connected with an output shaft of the material taking cylinder 22, and of course, the suction cup member can be replaced by other grabbing members according to actual requirements, such as a mechanical claw member or a vacuum suction head member.

The material taking cylinder 22 is used for driving the sucking disc member to move up and down so as to suck the product on the product bottom die 11.

Get material cylinder 22 and sucking disc component through setting up to can reciprocate through getting material cylinder 22 drive sucking disc component, absorb the product that the pressfitting was accomplished through the sucking disc component, realize automatic material of getting, promote the operating efficiency.

As another alternative embodiment of the present invention, as shown in fig. 6, the suction cup member includes a connection block assembly 23 connected to the cylinder rod of the material taking cylinder 22, a suction cup support 24 disposed on the connection block assembly 23, and a suction cup 25 disposed on the suction cup support 24.

The joint block assembly 23 includes: with get the first connecting block that material cylinder 22 is connected and the second connecting block of being connected with first connecting block, the length of second connecting block is greater than the length of first connecting block, and first connecting block is used for playing a transitional coupling's effect, thereby the second connecting block is used for the extension a plurality of sucking disc support 24's of being convenient for setting up.

The sucking disc support 24 is two, be provided with two sucking discs 25 on every sucking disc support 24, of course, sucking disc support 24 can also set up to a plurality ofly according to actual need, like three, four etc. corresponding sucking disc 25 of every sucking disc support 24 also can set up a plurality ofly, like three, four etc. this mainly sets for according to the size of product, sets up a plurality ofly then better absorption product.

This embodiment can play a fine fixed effect through set up connecting block subassembly 23 on getting material cylinder 22's cylinder rod to set for of sucking disc support 24, and set up sucking disc support 24 then fixed sucking disc 25 that can be better, it is not hard up to avoid sucking disc 25 to appear, and the influence is got the material.

As another optional embodiment of the present invention, the linear motion module 19 is a screw transmission mechanism.

The screw rod transmission mechanism comprises a motor and a screw rod mechanism connected with the motor, and the screw rod mechanism is driven by the motor to drive the material taking mechanism 21 to perform linear motion so as to improve the operation efficiency.

This embodiment is through selecting for use lead screw drive mechanism as linear motion module 19, can improve linear motion's speed to improve the operating efficiency, and still improved the precision of motion, thereby appointed position is carried to the product that will take out that can be accurate.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides an automatic lamination equipment of FPC antenna which characterized in that includes: the pressing mechanism assembly is arranged on the first support, and the material taking assembly and the control assembly are arranged on the first support;

the indexing disc assembly comprises an indexing disc and a driving device for driving the indexing disc, and at least three product bottom dies are arranged on the indexing disc to form a feeding station, a material taking station and at least one pressing station;

the pressing mechanism assembly comprises a second support arranged on the upper portion of the index plate in a spanning mode and a pressing mechanism arranged on the second support and corresponding to a pressing station on the index plate;

the material taking station of the material taking assembly is arranged corresponding to the material taking station on the index plate.

2. The automatic pressing device for FPC antennas of claim 1, wherein four evenly distributed product bottom molds are disposed on the index plate, and two pressing mechanisms are disposed on the second bracket, wherein the pressing mechanisms at different positions correspond to different pressing positions of the product bottom molds to press FPC antennas at different positions of the product.

3. The automatic FPC antenna pressing device as claimed in claim 2, wherein the two pressing mechanisms are disposed at 90 ° to respectively press the FPC antennas at the head and the tail of the product.

4. The automatic FPC antenna pressing device as recited in claim 2, wherein the pressing mechanism comprises a connecting plate disposed on the second support, a pressing cylinder disposed on the connecting plate, and a flexible glue pressing head disposed at an output end of the pressing cylinder.

5. The automatic pressing device for the FPC antenna as claimed in claim 4, wherein a pressing plate is disposed at the output end of the pressing cylinder, a connecting rod is connected to the bottom of the pressing plate, a connecting body is slidably disposed at the other end of the connecting rod, an adjusting spring is disposed on the connecting rod, and the soft rubber pressing head is disposed on the connecting body.

6. The automatic pressing device for the FPC antenna as recited in claim 1, wherein the material taking assembly comprises a third support frame disposed outside the index plate, a linear motion module disposed on the third support frame, a fourth support frame connected to the linear motion module and extending toward the index plate, and a material taking mechanism connected to the fourth support frame.

7. The automatic FPC antenna laminating equipment of claim 6, wherein the material taking mechanism comprises: the material taking cylinder is fixedly arranged on the fourth support, and the sucking disc component is connected to the material taking cylinder.

8. The automatic pressing device for the FPC antenna as recited in claim 7, wherein the suction cup member comprises a connection block assembly connected to a cylinder rod of the material taking cylinder, a suction cup support disposed on the connection block assembly, and a suction cup disposed on the suction cup support.

9. The automatic FPC antenna pressing device as recited in claim 6, wherein the linear motion module is a screw transmission mechanism.

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