CN215827047U - Automatic mylar carrier band packagine machine that pastes of PCB gasket - Google Patents

Abstract

The utility model discloses a PCB gasket automatic Mylar carrier tape packaging machine which comprises a rack, a feeding device, a Mylar cutting and pasting device, a Mylar pressing and pasting device, a detection device, a carrying device, a Mylar conveying device and a carrier tape conveying device, wherein the feeding device is arranged on the rack; the frame is provided with a conveying trough, and the feeding device is arranged on the frame; the feeding device, the cutting and pasting mylar device, the pressing and pasting mylar device, the detection device and the carrying device are all arranged on the rack and positioned beside the conveying trough; the Mylar conveying device is arranged on the rack and positioned beside the Mylar cutting and pasting device; the carrier band conveying device is arranged on the rack and positioned beside the carrying device. The PCB gasket gets into from material feeding unit and carries the silo, and wheat draws conveyor, surely pastes wheat and draws the device and press and paste wheat and draw the device and transport, cut and press the wheat to draw in proper order and paste on the PCB gasket, and through detection device's detection back, handling device transports the PCB gasket to carrier band conveyor and carries out the carrier band packing, realizes automatic pasting wheat and draws and the production of packing.

Description

Automatic mylar carrier band packagine machine that pastes of PCB gasket

Technical Field

The utility model relates to the technical field of automatic mylar tape pasting packaging machines, in particular to a packaging machine for automatically pasting mylar tapes on a PCB gasket.

Background

With the trend that modern electronic products are increasingly portable, miniaturized, highly integrated and high-performance, the electronic industry puts increasing demands on miniaturization of PCBs. In the preparation process of the PCB, the turnover among the working procedures is generally carried out in a way of stacking the boards, and two adjacent boards are separated by a gasket to avoid the direct contact of the two boards. Meanwhile, mylar is widely used for protection of PCB boards, and therefore, a layer of mylar is generally attached to a PCB pad to enhance the performance of the PCB pad.

The traditional mylar application operation is to apply mylar to the corresponding product manually, and usually the worker peels off the mylar from the release paper of the mylar coil and applies the mylar to the product. The mode of manually pasting Mylar has low working efficiency, high labor cost and low precision, can not ensure the product quality, and is not suitable for mass production of enterprises. Therefore, a new scheme is needed to improve the traditional way of adhering mylar.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention is directed to the defects in the prior art, and the main object of the present invention is to provide a PCB gasket automatic mylar tape-sticking packaging machine, which can effectively solve the problems of low efficiency, high labor cost and low precision in the manual mylar sticking of the existing PCB gasket.

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

a PCB gasket automatic pasting Mylar carrier band packaging machine comprises a rack, a feeding device, a Mylar cutting and pasting device, a Mylar pressing and pasting device, a detection device, a carrying device, a Mylar conveying device and a carrier band conveying device; the frame is provided with a conveying trough, the feeding device is arranged on the frame, and the output end of the feeding device is communicated with the input end of the conveying trough; the feeding device is arranged on the rack and positioned beside the conveying trough; the cutting and pasting mylar device, the pressing and pasting mylar device, the detection device and the carrying device are all arranged on the rack and located beside the conveying trough, and the cutting and pasting mylar device, the pressing and pasting mylar device, the detection device and the carrying device are sequentially arranged along the extending direction of the conveying trough; the Mylar conveying device is arranged on the rack and positioned beside the Mylar cutting and pasting device; the carrier tape conveying device is arranged on the rack and positioned beside the carrying device.

As a preferred scheme, the feeding device comprises a vibration disc, a flat vibration track and a dislocation mechanism; this flat vibration track is parallel to each other and dislocation set with the transport silo, and the orbital input of flat vibration communicates with the output of vibration dish, and this dislocation mechanism sets up between orbital output of flat vibration and the input of transport silo.

As a preferable scheme, the feeding device comprises a first sliding seat, a second sliding seat, a first driving mechanism and a second driving mechanism; the first sliding seat can be close to or far away from the conveying trough and is movably arranged on the frame, the second sliding seat can be parallelly conveyed to the trough to be movably arranged on the first sliding seat back and forth, a plurality of pusher dogs arranged along the conveying direction of the conveying trough at intervals are arranged on the second sliding seat, the first driving mechanism is arranged on the frame and drives the first sliding seat to be close to or far away from the conveying trough to move, and the second driving mechanism is arranged on the first sliding seat and drives the second sliding seat to be parallelly conveyed to the trough to move back and forth.

Preferably, the first driving mechanism and the second driving mechanism are both air cylinders.

As a preferred scheme, the mylar cutting and pasting device comprises a bracket, a cutting die, a cutter bar and a third driving mechanism; the bracket is fixed on the frame; the cutting die is fixed on the bracket and is positioned right above the conveying trough, a through groove for wheat to pass through is formed in the front side surface and the rear side surface of the cutting die in a penetrating manner, and a through hole is formed in the upper surface and the lower surface of the cutting die in a penetrating manner and vertically penetrates through the through groove; the cutter bar can be movably arranged in the through hole up and down; the third driving mechanism is arranged on the bracket and drives the cutter bar to move up and down.

As a preferred scheme, the pressure mylar device comprises a pressure lever and a fourth driving mechanism for driving the pressure lever to move up and down, and the pressure lever is positioned right above the conveying trough.

Preferably, the detection device is an optical fiber sensor.

As a preferable scheme, the carrying device comprises a swing arm mechanism, a motor and a plurality of suction nozzle mechanisms; the swing arm mechanism can be arranged on the rack in a back-and-forth swinging manner, and the motor is arranged on the rack and drives the swing arm mechanism to swing back and forth up and down as well as left and right; the plurality of suction nozzle mechanisms are arranged on the swing arm mechanism.

As a preferred scheme, the Mylar conveying device comprises a driving wheel, a driven wheel and a motor, wherein the driving wheel and the driven wheel are both rotatably arranged on the rack and are respectively positioned at two sides of the conveying trough, and the motor is arranged on the rack and drives the driving wheel to rotate.

Preferably, a waste collecting box is arranged beside the output end side of the conveying trough.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, and specifically, the technical scheme includes that:

through set up loading attachment in the frame, material feeding unit, surely paste the wheat and draw the device, press and paste the wheat and draw the device, detection device, handling device, wheat and draw conveyor and carrier band conveyor, the PCB gasket gets into the transport silo from material feeding unit, wheat draws conveyor, surely pastes the wheat and draws the device and press and paste the wheat and draw the device and transport the wheat in proper order, the cutting is pressed and is pasted on the PCB gasket, after the detection through detection device, again handling device will carry out the PCB gasket that the wheat was pressed and is pasted and carry out the carrier band packing to carrier band conveyor, realize automatic pasting wheat and draw and packing production, the mode of traditional artifical wheat of pasting has been replaced, production efficiency has effectively been improved, the cost of labor has been reduced, the precision is high, product quality has been guaranteed, be fit for enterprise mass production.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is an assembled perspective view of the preferred embodiment of the present invention;

FIG. 2 is an internal structural view of the preferred embodiment of the present invention;

FIG. 3 is an enlarged partial schematic view of FIG. 2;

FIG. 4 is an enlarged view of the loading device in the preferred embodiment of the present invention;

FIG. 5 is an assembled view of the frame, the feeding device and the detecting device in the preferred embodiment of the present invention;

FIG. 6 is an enlarged view of the Mylar cutting apparatus in accordance with the preferred embodiment of the present invention;

FIG. 7 is an enlarged view of the Mylar pressing apparatus in accordance with the preferred embodiment of the present invention;

FIG. 8 is an enlarged schematic view of the handling apparatus in the preferred embodiment of the present invention;

FIG. 9 is an enlarged schematic view of the Mylar delivery apparatus in a preferred embodiment of the utility model;

FIG. 10 is an enlarged view of the carrier tape transport apparatus in the preferred embodiment of the present invention.

The attached drawings indicate the following:

10. frame 11, conveying trough

12. Waste collecting box 20 and feeding device

21. Vibration disk 22, flat vibration track

23. Dislocation mechanism 30 and feeding device

31. A first slide 32 and a second slide

33. First and second driving mechanisms 34 and 34

35. Pusher dog 40, cut and paste Mylar device

41. Support 42, cutting die

421. Through groove 422 and through hole

43. Knife bar 44, third driving mechanism

50. Mylar pressing device 51 and pressure lever

52. Fourth drive mechanism 60 and detection device

70. Carrying device 71 and swing arm mechanism

72. Motor 73 and vacuum suction nozzle mechanism

80. Mylar conveying device 81 and driving wheel

82. Driven wheel 83 and motor

90. Carrier tape conveying device 101 and PCB gasket

102. Mylar 103, carrier tape.

Detailed Description

Referring to fig. 1 to 8, a detailed structure of a preferred embodiment of the present invention is shown, which includes a frame 10, a feeding device 20, a feeding device 30, a mylar cutting device 40, a mylar pressing device 50, a detecting device 60, a conveying device 70, a mylar conveying device 80, and a carrier tape conveying device 90.

The frame 10 is provided with a transport chute 11, and a waste collection box 12 is provided beside the output end side of the transport chute 11.

The feeding device 20 is arranged on the frame 10, and the output end of the feeding device 20 is communicated with the input end of the conveying trough 11; in the present embodiment, the feeding device 20 includes a vibration tray 21, a flat vibration rail 22 and a displacement mechanism 23; this flat vibration track 22 is parallel to each other and dislocation set with transport silo 11, and the input of flat vibration track 22 and the output intercommunication of vibration dish 21, this dislocation mechanism 23 sets up between the output of flat vibration track 22 and the input of transport silo 11.

The feeding device 30 is arranged on the frame 10 and is positioned beside the conveying trough 11; in the embodiment, the feeding device comprises a first slide 31, a second slide 32, a first driving mechanism 33 and a second driving mechanism 34; the first slide seat 31 can be movably arranged on the machine frame 10 close to or far away from the conveying trough 11, the second slide seat 32 can be movably arranged on the first slide seat 31 back and forth parallel to the conveying trough 11, a plurality of pusher dogs 35 arranged at intervals along the conveying direction of the conveying trough 11 are arranged on the second slide seat 32, the first driving mechanism 33 is arranged on the machine frame 10 and drives the first slide seat 31 to move close to or far away from the conveying trough 11, and the second driving mechanism 34 is arranged on the first slide seat 31 and drives the second slide seat 32 to move back and forth parallel to the conveying trough 11; the first drive mechanism 33 and the second drive mechanism 34 are both air cylinders.

The cutting and pasting mylar device 40, the pressing and pasting mylar device 50, the detection device 60 and the carrying device 70 are all arranged on the frame 10 and located beside the conveying trough 11, and the cutting and pasting mylar device 40, the pressing and pasting mylar device 50, the detection device 60 and the carrying device 70 are sequentially arranged along the extending direction of the conveying trough 11. In the present embodiment, the mylar cutting device 40 includes a bracket 41, a cutter die 42, a cutter bar 43, and a third driving mechanism 44; the bracket 41 is fixed on the frame 10; the cutting die 42 is fixed on the bracket 41 and is positioned right above the conveying trough 11, a through groove 421 for wheat to pass through is formed through the front side and the rear side of the cutting die 42, a through hole 422 is formed through the upper surface and the lower surface of the cutting die 42, and the through hole 422 vertically passes through the through groove 421; the cutter bar 43 is movably arranged in the through hole 422 up and down; the third driving mechanism 44 is disposed on the bracket 41 and drives the knife bar 43 to move up and down; the Mylar pressing device 50 comprises a pressure lever 51 and a fourth driving mechanism 52 which drives the pressure lever to move up and down, wherein the pressure lever 51 is positioned right above the conveying trough 11; the detection device 60 is an optical fiber sensor; the carrying device 70 comprises a swing arm mechanism 71, a motor 72 and a plurality of suction nozzle mechanisms 73; the swing arm mechanism 71 is arranged on the frame 10 in a back-and-forth swinging manner, and the motor 72 is arranged on the frame 10 and drives the swing arm mechanism 71 to swing back and forth up and down and left and right; the plurality of suction nozzle mechanisms 73 are provided on the swing arm mechanism 71.

The mylar conveying device 80 is arranged on the frame 10 and is positioned beside the mylar cutting device 40; in this embodiment, the mylar conveying device 80 includes a driving wheel 81, a driven wheel 82 and a motor 83, the driving wheel 81 and the driven wheel 82 are both rotatably disposed on the frame 10 and respectively located at two sides of the conveying trough 11, and the motor 83 is disposed on the frame 10 to drive the driving wheel 81 to rotate.

The carrier tape conveying device 90 is disposed on the frame 10 and located beside the carrying device 70.

Detailed description the working process of this embodiment is as follows:

firstly, the PCB gasket 101 is placed on the flat vibration track 22, the vibration disc 21 transports the PCB gasket 101 along the extending direction of the flat vibration track 22, the PCB gasket 101 is transported to the output end of the flat vibration track 22, the PCB gasket 101 is pushed into the conveying trough 11 by the dislocation mechanism 23, then, the first slide seat 31 moves close to the conveying trough 11 and enables the pulling claw 35 to clamp the PCB gasket 101, the second slide seat 32 starts to move towards the waste material collection box 12 and parallel to the conveying trough 11, then, the Mylar conveying device 80 starts to pull the Mylar 102, the Mylar cutting device 40 starts to cut the Mylar 102 and pastes the Mylar 102 on the surface of the PCB gasket 101, the pressing rod 51 of the Mylar pressing device 50 is pressed to tightly attach the Mylar 102 on the PCB gasket 101, the detection device detects the PCB gasket 101, the PCB gasket 101 which cannot be detected falls into the waste material collection box 12, and finally, the PCB gasket 101 which is detected and checked is absorbed by the vacuum suction nozzle mechanism 73, the swing arm mechanism 71 conveys the detected qualified PCB gasket 101 to the upper side of the carrier tape conveying device 90, the vacuum suction nozzle mechanism 73 stops sucking, and the detected qualified PCB gasket 101 falls onto the carrier tape 103 of the carrier tape conveying device 90 and is packaged.

The design of the utility model is characterized in that: through set up loading attachment in the frame, material feeding unit, surely paste the wheat and draw the device, press and paste the wheat and draw the device, detection device, handling device, wheat and draw conveyor and carrier band conveyor, the PCB gasket gets into the transport silo from material feeding unit, wheat draws conveyor, surely pastes the wheat and draws the device and press and paste the wheat and draw the device and transport the wheat in proper order, the cutting is pressed and is pasted on the PCB gasket, after the detection through detection device, again handling device will carry out the PCB gasket that the wheat was pressed and is pasted and carry out the carrier band packing to carrier band conveyor, realize automatic pasting wheat and draw and packing production, the mode of traditional artifical wheat of pasting has been replaced, production efficiency has effectively been improved, the cost of labor has been reduced, the precision is high, product quality has been guaranteed, be fit for enterprise mass production.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (10)

1. The utility model provides an automatic mylar carrier band packagine machine that pastes of PCB gasket which characterized in that: comprises a frame, a feeding device, a mylar cutting and pasting device, a mylar pressing and pasting device, a detection device, a carrying device, a mylar conveying device and a carrier belt conveying device; the frame is provided with a conveying trough, the feeding device is arranged on the frame, and the output end of the feeding device is communicated with the input end of the conveying trough; the feeding device is arranged on the rack and positioned beside the conveying trough; the cutting and pasting mylar device, the pressing and pasting mylar device, the detection device and the carrying device are all arranged on the rack and located beside the conveying trough, and the cutting and pasting mylar device, the pressing and pasting mylar device, the detection device and the carrying device are sequentially arranged along the extending direction of the conveying trough; the Mylar conveying device is arranged on the rack and positioned beside the Mylar cutting and pasting device; the carrier tape conveying device is arranged on the rack and positioned beside the carrying device.

2. The PCB gasket automatic mylar tape wrapping machine of claim 1, wherein: the feeding device comprises a vibration disc, a flat vibration track and a dislocation mechanism; this flat vibration track is parallel to each other and dislocation set with the transport silo, and the orbital input of flat vibration communicates with the output of vibration dish, and this dislocation mechanism sets up between orbital output of flat vibration and the input of transport silo.

3. The PCB gasket automatic mylar tape wrapping machine of claim 1, wherein: the feeding device comprises a first sliding seat, a second sliding seat, a first driving mechanism and a second driving mechanism; the first sliding seat can be close to or far away from the conveying trough and is movably arranged on the frame, the second sliding seat can be parallelly conveyed to the trough to be movably arranged on the first sliding seat back and forth, a plurality of pusher dogs arranged along the conveying direction of the conveying trough at intervals are arranged on the second sliding seat, the first driving mechanism is arranged on the frame and drives the first sliding seat to be close to or far away from the conveying trough to move, and the second driving mechanism is arranged on the first sliding seat and drives the second sliding seat to be parallelly conveyed to the trough to move back and forth.

4. The PCB gasket automatic mylar tape wrapping machine of claim 3, wherein: the first driving mechanism and the second driving mechanism are both cylinders.

5. The PCB gasket automatic mylar tape wrapping machine of claim 1, wherein: the Mylar cutting and pasting device comprises a bracket, a cutting die, a cutter bar and a third driving mechanism; the bracket is fixed on the frame; the cutting die is fixed on the bracket and is positioned right above the conveying trough, a through groove for wheat to pass through is formed in the front side surface and the rear side surface of the cutting die in a penetrating manner, and a through hole is formed in the upper surface and the lower surface of the cutting die in a penetrating manner and vertically penetrates through the through groove; the cutter bar can be movably arranged in the through hole up and down; the third driving mechanism is arranged on the bracket and drives the cutter bar to move up and down.

6. The PCB gasket automatic mylar tape wrapping machine of claim 1, wherein: the Mylar pressing device comprises a pressing rod and a fourth driving mechanism which drives the pressing rod to move up and down, and the pressing rod is positioned right above the conveying trough.

7. The PCB gasket automatic mylar tape wrapping machine of claim 1, wherein: the detection device is an optical fiber sensor.

8. The PCB gasket automatic mylar tape wrapping machine of claim 1, wherein: the carrying device comprises a swing arm mechanism, a motor and a plurality of suction nozzle mechanisms; the swing arm mechanism can be arranged on the rack in a back-and-forth swinging manner, and the motor is arranged on the rack and drives the swing arm mechanism to swing back and forth up and down as well as left and right; the plurality of suction nozzle mechanisms are arranged on the swing arm mechanism.

9. The PCB gasket automatic mylar tape wrapping machine of claim 1, wherein: wheat draws conveyor is including the action wheel, follows driving wheel and motor, and this action wheel all rotationally sets up in the frame and lies in the both sides of carrying the silo respectively with following the driving wheel, and this motor sets up and drives the action wheel rotation in the frame.

10. The PCB gasket automatic mylar tape wrapping machine of claim 1, wherein: and a waste collecting box is arranged beside the side of the output end of the conveying trough.

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