CN108127904B - Processing method and processing equipment for metal sheet assembly - Google Patents

Abstract

The invention discloses a metal sheet component processing method and processing equipment, wherein the metal sheet component processing equipment comprises a first working platform, a micro-mucosa recovery wheel, an inclined plate, a suction head, a carrier tape feeding wheel, a carrier tape driving wheel and a warm-pressing film feeding wheel, wherein the micro-mucosa adhered with a metal sheet is paved on the inclined plate, the lower end of the micro-mucosa on the inclined plate penetrates through the middle part of the inclined plate and is wound on the micro-mucosa recovery wheel, the suction head can absorb the metal sheet on the inclined plate onto a carrier tape on the first working platform under the driving of a rotating part, the warm-pressing film feeding wheel is wound with a warm-pressing film, the warm-pressing film feeding wheel is positioned above the first working platform, the warm-pressing film is paved on the carrier tape on the first working platform through the surface of a carrier tape tension shaft, and the carrier tape is driven by the carrier tape driving wheel to move on the first working platform. The processing method and the processing equipment for the metal sheet component can greatly reduce the manpower consumption, have high automation degree, can improve the production efficiency and reduce the production cost of enterprises.

Description

Processing method and processing equipment for metal sheet assembly

Technical Field

The invention relates to a processing method and processing equipment of a metal sheet assembly.

Background

Some metal sheet components can be used in electronic products such as mobile phones, and the structure of the metal sheet component comprises a carrier tape and a plurality of metal sheets, wherein the metal sheets are arranged on the carrier tape in a straight line, a plurality of positioning holes are formed in the side edge of the carrier tape, the positioning holes are arranged in a straight line, the arrangement direction of the positioning holes is consistent with the arrangement direction of the metal sheets, and a layer of warm pressing film is laid on the metal sheets. The traditional processing method of the metal sheet component is that a plurality of metal sheets are placed on a carrier tape one by one manually, then a layer of warm pressing film is paved on the carrier tape, and then the carrier tape with the metal sheets and the warm pressing film is placed on a hot pressing device for hot pressing, and the carrier tape, the metal sheets and the warm pressing film are hot pressed together. However, the manual operation method has very low efficiency, directly increases labor cost, increases the burden of enterprises and increases production cost.

Disclosure of Invention

The invention mainly solves the technical problem of providing the processing method of the metal sheet component, which can greatly reduce the manpower consumption in the processing process of the metal sheet component, improve the production efficiency and greatly reduce the production cost of enterprises.

In order to solve the technical problems, the invention adopts the following technical scheme: there is provided a sheet metal assembly processing method comprising the steps of:

(1) A plurality of metal sheets are laid on a layer of micro-mucosa in a straight line, the metal sheets are adhered on the micro-mucosa by means of the adhesion force of the micro-mucosa, and then the micro-mucosa with the metal sheets is wound on a micro-mucosa feeding wheel;

(2) A part of the micro-mucosa extends out from a micro-mucosa feeding wheel and is paved on an inclined plate body, one end of the micro-mucosa passes through the inclined plate body and is wound on a micro-mucosa recovery wheel, one end of the inclined plate body is close to a workbench horizontally arranged, a metal sheet on one end of the micro-mucosa is separated from the micro-mucosa when the micro-mucosa passes through the inclined plate body, the separated metal sheet slides to the position, close to the workbench, of the lower end of the inclined plate body, the metal sheet, close to the workbench, is sucked onto a carrier belt on the workbench by a suction head, then the micro-mucosa recovery wheel pulls the micro-mucosa to move, and the metal sheet continuously slides to the position, close to the workbench, on the inclined plate body for suction head suction;

(3) The carrier belt driving wheel drives the carrier belt to move forwards, and the suction head continuously sucks the metal sheet on the inclined plate body onto the carrier belt on the workbench;

(4) The metal sheet on the carrier belt is covered by a warm pressing film released by a warm pressing film feeding wheel, and then the warm pressing film is hot-pressed on the metal sheet on the carrier belt by a hot pressing knife to form a required metal sheet assembly.

Preferably, after the step (4), the sheet metal component is wound and recovered on the carrier tape receiving wheel by rotating the carrier tape receiving wheel.

The invention also provides processing equipment used in the processing method of the metal sheet component, which comprises a first working platform, a micro-mucosa recovery wheel, an inclined plate, a suction head, a carrier belt driving wheel and a warm-pressing film feeding wheel, wherein one end of the inclined plate is close to the first working platform, the other end of the inclined plate obliquely extends upwards and outwards, the micro-mucosa recovery wheel is positioned below the other end of the inclined plate, the micro-mucosa adhered with a metal sheet is paved on the inclined plate, the lower end of the micro-mucosa on the inclined plate passes through the middle part of the inclined plate and is wound on the micro-mucosa recovery wheel, the suction head is positioned above the first working platform, the suction head is fixed on a rotating part, the rotating part is driven by a driving box, the driving box is arranged near the inclined plate, the suction head can absorb a metal sheet on the inclined plate onto a carrier belt on the first working platform under the driving of the rotating part, the warm-pressing film feeding wheel is wound with a warm-pressing film, the warm-pressing film feeding wheel is paved on the inclined plate, the micro-mucosa feeding wheel is paved on the inclined plate, the lower end of the micro-mucosa is paved on the first working platform, the hot-pressing film feeding wheel is in the direction opposite to the first working shaft, the hot-pressing blade is arranged on the first side of the carrier belt driving device, and the hot-pressing blade is in the contact with the first working platform, and the hot-pressing device is arranged on the hot-pressing blade is in the side of the first side of the carrier belt by the first side, and the driving device. The central line of the warm pressing film feeding wheel is parallel to the tension shaft.

In a preferred embodiment of the present invention, the present invention further comprises a micro-mucosa feeding wheel, the micro-mucosa feeding wheel is located at the outer side of the other end of the inclined plate, a metal sheet is adhered to the micro-mucosa, a part of the micro-mucosa on the micro-mucosa feeding wheel extends out from the micro-mucosa feeding wheel and is laid on the inclined plate, and the lower end of the micro-mucosa on the inclined plate passes through the middle of the inclined plate and is wound on a micro-mucosa recovery wheel.

In a preferred embodiment of the invention, the rotating member is a rotating disc.

In a preferred embodiment of the present invention, the apparatus further comprises a carrier tape feeding wheel, wherein the carrier tape feeding wheel is located below the first working platform, and the carrier tape on the carrier tape feeding wheel extends from the carrier tape feeding wheel and is paved on the first working platform.

In a preferred embodiment of the present invention, the apparatus further comprises a carrier tape receiving wheel, wherein the carrier tape receiving wheel is located at one side of the carrier tape driving wheel, and the carrier tape is wound on the carrier tape receiving wheel after passing through the carrier tape driving wheel.

In a preferred embodiment of the present invention, a plurality of protruding parts are disposed on the outer peripheral surface of the carrier driving wheel, and the protruding parts are uniformly distributed in a ring shape with the center of the carrier driving wheel as the center of the circle, and the protruding parts are matched with the positioning holes on the carrier.

In a preferred embodiment of the present invention, a gap is provided in the middle of the inclined plate, and the micro-adhesive film passes through the gap and is wound on a micro-adhesive film recovery wheel.

In a preferred embodiment of the invention, there is also included an inductive sensor for sensing the presence of a metal sheet on the inclined plate, the inductive sensor being directed to the metal sheet location on the inclined plate.

In a preferred embodiment of the invention, a counting sensor for sensing the number of metal sheets on the carrier tape is further included, said counting sensor being located above the carrier tape on the first work platform.

In a preferred embodiment of the present invention, the other end of the inclined plate is provided with an arc-shaped plate, the top of the arc-shaped plate protrudes upwards, and the micro-mucosa is laid on the inclined plate after passing through the top of the arc-shaped plate.

The beneficial effects of the invention are as follows: the processing method and the processing equipment for the metal sheet component can greatly reduce the manpower consumption in the processing process of the metal sheet component, replace manual operation by using equipment to automatically adsorb and put the metal sheet, have high automation degree, greatly improve the production efficiency and greatly reduce the production cost of enterprises.

Drawings

For a clearer description of the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly introduced below, it being obvious that the drawings in the description below are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art, wherein:

FIG. 1 is a schematic view of a sheet metal component processing apparatus of the present invention;

FIG. 2 is a schematic illustration of the placement of a metal sheet on the micro-mucosa of FIG. 1;

fig. 3 is a schematic view of the structure of the sheet metal assembly of the present invention.

The components in the drawings are marked as follows: 1. the device comprises a first working platform, 2, a warm pressing film, 3, a first tension wheel, 4, a connecting shaft, 5, a connecting bracket, 6, a warm pressing film feeding wheel, 7, a first mounting bracket, 8, a second tension wheel, 9, a rotating part, 10, a third mounting bracket, 11, a gap, 12, a micro-mucosa groove, 13, an inclined plate, 14, an arc plate, 15, micro-mucosa, 16, a micro-mucosa feeding wheel, 17, a micro-mucosa recovery wheel, 18, a carrier tape feeding wheel, 19, a second working platform, 20, a driving box, 21, a carrier tape, 22, a suction head, 23, a tension shaft, 24, a mounting seat, 25, a hot pressing knife driving device, 26, a hot pressing knife, 27, a protruding part, 28, a carrier tape driving wheel, 29, a fourth mounting bracket, 30, a carrier tape collecting wheel, 31, a metal sheet, 32, a positioning hole, 33, an inductive sensor, 34 and a counting sensor.

Detailed Description

The following description of the technical solutions in the embodiments of the present invention will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a processing method of a metal sheet component, which comprises the following steps:

(1) A plurality of metal sheets are laid on a layer of micro-mucosa in a straight line, the metal sheets are adhered on the micro-mucosa by means of the adhesion force of the micro-mucosa, and then the micro-mucosa with the metal sheets is wound on a micro-mucosa feeding wheel;

(2) A part of the micro-mucosa extends out from a micro-mucosa feeding wheel and is paved on an inclined plate body, one end of the micro-mucosa passes through the inclined plate body and is wound on a micro-mucosa recovery wheel, one end of the inclined plate body is close to a workbench horizontally arranged, a metal sheet on one end of the micro-mucosa is separated from the micro-mucosa when the micro-mucosa passes through the inclined plate body, the separated metal sheet slides to the position, close to the workbench, of the lower end of the inclined plate body, the metal sheet, close to the workbench, is sucked onto a carrier belt on the workbench by a suction head, then the micro-mucosa recovery wheel pulls the micro-mucosa to move, and the metal sheet continuously slides to the position, close to the workbench, on the inclined plate body for suction head suction;

(3) The carrier belt driving wheel drives the carrier belt to move forwards, and the suction head continuously sucks the metal sheet on the inclined plate body onto the carrier belt on the workbench;

(4) The metal sheet on the carrier belt is covered by a warm pressing film released by a warm pressing film feeding wheel, and then the warm pressing film is hot-pressed on the metal sheet on the carrier belt by a hot pressing knife to form a required metal sheet assembly.

Preferably, after the step (4), the sheet metal component is wound and recovered on the carrier tape receiving wheel by rotating the carrier tape receiving wheel.

By using the method provided by the invention, equipment work is provided to replace manual labor, the suction head automatically sucks and places the metal sheet, manual placement is replaced, the metal sheet assembly is automatically hot-pressed, the whole processing flow is continuous and automatic, the whole processing flow is directly finished on one piece of equipment, the automation degree is high, the production efficiency can be greatly improved, and the production cost of enterprises is greatly reduced.

Referring to fig. 1 to 3, the present invention further provides a processing apparatus for use in the above-mentioned sheet metal assembly processing method, which includes a first working platform 1, a micro-adhesive film recovery wheel 17, an inclined plate 13, a suction head 22, a carrier tape feeding wheel 18, a carrier tape driving wheel 28 and a warm-pressing film feeding wheel 6, wherein one end of the inclined plate 13 is close to the first working platform 1, the other end of the inclined plate 13 extends obliquely upwards and outwards, the micro-adhesive film recovery wheel 17 is located below the other end of the inclined plate 13, the micro-adhesive film 15 with the sheet metal 31 adhered thereon is laid on the inclined plate 13, and the lower end of the micro-adhesive film 15 on the inclined plate 13 passes through the middle gap 11 of the inclined plate 13 and is wound on the micro-adhesive film recovery wheel 17.

The suction head 22 is located above the first working platform 1, the suction head 22 is fixed on the third mounting bracket 10, the third mounting bracket 10 is fixed on the rotating component 9, the rotating component 9 is a rotating disc, the rotating disc 9 is driven by a driving box 20, the driving box 20 is arranged near the inclined plate 13, a motor for driving the rotating disc 9 to rotate is arranged in the driving box 20, and the suction head 22 can suck the metal sheet 31 on the inclined plate 13 onto the carrier belt 21 on the first working platform 1 under the driving of the rotating disc 9.

When the device of the invention works, the carrier tape 21 is led out from the carrier tape feeding wheel 18 to the first working platform 1, then the carrier tape 21 is guided to the carrier tape driving wheel 28, the protruding part 27 on the carrier tape driving wheel 28 is inserted into the positioning hole 32 on the carrier tape 21, and the carrier tape 21 can be driven to move forwards by rotating the carrier tape driving wheel 28.

The micro adhesive film recovery wheel 17 is driven by a corresponding motor to rotate, pulls the micro adhesive film 15 to move on the inclined plate 13, and the metal sheet 31 on the micro adhesive film 15, which is close to the gap 11 on the inclined plate 13, is peeled off from the micro adhesive film 15 and slides from the micro adhesive film groove 12 on the inclined plate 13 to the lower end of the inclined plate 13. The rotating disc 9 rotates, the suction head 22 rotates to the position of the metal sheet 31 near the lower end of the inclined plate 13, the metal sheet 31 is sucked away, the rotating disc reversely rotates again, the metal sheet 31 is sucked onto the carrier belt 21 on the first working platform 1, and the metal sheet 31 is released onto the carrier belt 21.

The warm pressing film feeding wheel 6 is wound with the warm pressing film 2, the warm pressing film feeding wheel 6 is positioned above the first working platform 1, a tension shaft 23, a hot pressing knife 26 and a hot pressing knife driving device 25 are arranged above the carrier belt 21 on the first working platform 1, two ends of the tension shaft 23 are respectively fixed on the mounting seat 24, the hot pressing knife 26 is arranged on the hot pressing knife driving device 25, the hot pressing knife driving device 25 is arranged on the first working platform 1, the lower end of the hot pressing knife 26 is opposite to the carrier belt 21 on the first working platform 1, the warm pressing film 2 is led out from the warm pressing film feeding wheel 6, and is paved on the carrier belt 21 on the first working platform 1 through the surfaces of the second tension wheel 8, the first tension wheel 3 and the tension shaft 23. The first tension wheel 3 is fixed at one end of the connecting shaft 4, and the other end of the connecting shaft 4 is mounted on the connecting bracket 5. The connection bracket 5 is mounted on the first mounting bracket.

The hot pressing knife driving device 25 is provided with an air cylinder which can drive the hot pressing knife 26 to move up and down. The hot knife 26 has a temperature at which it can be electrically heated. The hot pressing knife 26 moves down to press the warm pressing film 2 on the carrier tape 21, and presses the warm pressing film 2, the carrier tape 21 and the metal sheet 31 on the carrier tape 21 together to form a metal sheet assembly.

The carrier tape 21 with the formed sheet metal assembly is moved forward by the rotation of the carrier tape drive wheel 28, and after passing the carrier tape drive wheel 28, the carrier tape 21 may be further wound up on the carrier tape take-up wheel 30 for finished product take-up.

Preferably, an arc-shaped plate 14 is disposed on the other end of the inclined plate 13, the top of the arc-shaped plate 14 protrudes upwards, and the micro-mucosa 2 passes through the top of the arc-shaped plate 14 and then is laid on the inclined plate 13. The curved plate 14 smoothes the transition between the micro-mucosa 2 and the inclined plate 13, and reduces the resistance when the micro-mucosa 2 moves.

Preferably, an induction sensor 33 for sensing whether the metal sheet 31 is present on the inclined plate 13 is further included, the induction sensor 33 being directed to the position of the metal sheet 31 on the inclined plate 13. The induction sensor 33 may be provided on the inclined plate 13 or on other parts of the apparatus as long as its induction head is directed to the position of the metal sheet 31 on the inclined plate 13, and is preferably directed to the position of the metal sheet 31 at the lower end of the inclined plate 13. When the metal sheet 31 is not arranged on the inclined plate 13, the induction sensor 33 generates an induction signal to the equipment control system, the micro-mucosa recovery wheel 17 and the micro-mucosa feeding wheel 16 rotate, and the metal sheet 31 on the micro-mucosa 15 is brought to the inclined plate 13 for suction by the suction head 22. When the inclined plate 13 is not provided with the metal sheet 31, the suction head 22 will not suck up.

Preferably, a counting sensor 34 for sensing the number of metal sheets 31 on the carrier tape 21 is further included, and the counting sensor 34 is located above the carrier tape 21 on the first working platform 1. Each time a sheet 31 passes the count sensor 34, the count sensor 34 generates a count value, so that the total number of the passing sheet 31 can be counted, which is convenient for production statistics and yield control.

The carrier tape take-up wheel 30 is mounted on a fourth mounting bracket 29, and the fourth mounting bracket 29 is mounted on the second work platform 19. The carrier belt driving wheel 28, the warm pressing film feeding wheel 6 and the carrier belt receiving wheel 30 are driven by synchronous servo motors, so that synchronous operation of the carrier belt driving wheel 28, the warm pressing film feeding wheel 6 and the carrier belt receiving wheel 30 can be realized.

The metal sheet component processing equipment of the invention releases the metal sheet 31 to the inclined plate 13 through the micro-adhesive film 15, then the suction head 22 automatically sucks the metal sheet 31 on the inclined plate 13 to the carrier belt 21 on the first working platform 1, then the warm pressing film 2 is paved on the carrier belt 21 through the warm pressing film feeding wheel 6 and the hot pressing knife 26, and the warm pressing film 2, the metal sheet 31 and the carrier belt 21 are pressed together to form the required metal sheet component. The whole process is automatically completed through equipment, so that the manpower consumption in the processing process of the metal sheet assembly can be greatly reduced, the metal sheets are automatically adsorbed and placed by the equipment, manual operation is replaced, the automation degree is high, the production efficiency can be greatly improved, and the production cost of enterprises is greatly reduced

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present invention.

Claims (2)

1. The utility model provides a sheetmetal subassembly processing method, this sheetmetal subassembly includes carrier tape and a plurality of sheetmetal, a plurality of sheetmetals are the straight line setting on the carrier tape, be provided with a plurality of locating holes on the side of carrier tape, a plurality of locating holes are the straight line and arrange, the range direction of a plurality of locating holes with the range direction of a plurality of sheetmetals is unanimous, lay one deck warm press film on a plurality of sheetmetals, its characterized in that includes the following steps:

(1) A plurality of metal sheets are laid on a layer of micro-mucosa in a straight line, the metal sheets are adhered on the micro-mucosa by means of the adhesion force of the micro-mucosa, and then the micro-mucosa with the metal sheets is wound on a micro-mucosa feeding wheel;

(2) A part of the micro-mucosa extends out from a micro-mucosa feeding wheel and is paved on an inclined plate body, one end of the micro-mucosa passes through the inclined plate body and is wound on a micro-mucosa recovery wheel, one end of the inclined plate body is close to a workbench horizontally arranged, a metal sheet on one end of the micro-mucosa is separated from the micro-mucosa when the micro-mucosa passes through the inclined plate body, the separated metal sheet slides to the position, close to the workbench, of the lower end of the inclined plate body, the metal sheet, close to the workbench, is sucked onto a carrier belt on the workbench by a suction head, then the micro-mucosa recovery wheel pulls the micro-mucosa to move, and the metal sheet continuously slides to the position, close to the workbench, on the inclined plate body for suction head suction;

(3) The carrier belt driving wheel drives the carrier belt to move forwards, and the suction head continuously sucks the metal sheet on the inclined plate body onto the carrier belt on the workbench;

(4) The metal sheet on the carrier belt is covered by a warm pressing film released by a warm pressing film feeding wheel, and then the warm pressing film is hot-pressed on the metal sheet on the carrier belt by a hot pressing knife to form a required metal sheet assembly.

2. The method of claim 1, wherein after step (4) is completed, the sheet metal assembly is wound back by rotation of a carrier take-up wheel.