CN218947885U - Double-station board separator - Google Patents

Abstract

The utility model discloses a double-station board separator which comprises a frame, a feeding mechanism, a discharging mechanism, two groups of cutting mechanisms and two groups of connection mechanisms respectively corresponding to the two groups of cutting mechanisms, wherein each connection mechanism comprises a transfer positioning platform for transferring materials and a transfer driving mechanism for controlling the movement of the transfer positioning platform, the frame is provided with a feeding and material moving mechanism for transferring the materials on the feeding mechanism to the transfer positioning platform and a discharging and material moving mechanism for transferring the materials on the transfer positioning platform to the discharging mechanism, the feeding and material moving mechanism comprises a feeding and material sucking assembly, a first lifting module for controlling the feeding and material sucking assembly to move up and down and a first transverse moving module for controlling the first lifting module to move left and right, and the first lifting module is provided with a dust sucking assembly for cleaning the transfer positioning platform. According to the utility model, the two groups of cutting mechanisms and the two groups of connecting mechanisms are arranged on the frame, so that the working efficiency of the equipment is improved, and the output of enterprises is increased.

Description

Double-station board separator

Technical Field

The utility model relates to the technical field of PCB production equipment, in particular to a double-station board separator.

Background

The PCB dividing machine is a machine device for dividing a plurality of integrated circuit boards into single circuit boards by cutting the ribs of the integrated circuit boards, and dividing the PCB into single units after corresponding working procedures of PCB processing. However, most of the current PCB dividing machines are all used for cutting at a single station, and the machine needs to be stopped for cleaning during cutting so as to prevent the generated dust from damaging the next PCB, so that the production mode has lower cutting efficiency and seriously affects the output of enterprises.

Disclosure of Invention

The utility model provides a double-station board dividing machine, which aims at the defects in the prior art and can improve the working efficiency of the board dividing machine and increase the output of enterprises.

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

the utility model provides a duplex position board separator, includes frame, feed mechanism, unloading mechanism, two sets of cutting mechanism to and two sets of mechanisms that refute that correspond respectively with two sets of cutting mechanism, the mechanism of refuting all includes the transfer positioning platform that is used for transferring the material and the transfer actuating mechanism of control transfer positioning platform activity, be equipped with in the frame and be used for transferring the material on the feed mechanism to the material on the transfer positioning platform and move the material mechanism and be used for transferring the unloading on the transfer positioning platform to the unloading mechanism that moves of unloading mechanism, the material that the material was moved includes that the material is inhaled to the material loading is subassembly, the first lifting module that the material subassembly was inhaled in the control material loading is gone up and down movable and the first sideslip module of control first lifting module left and right movement, be equipped with the dust absorption subassembly that is used for clean transfer positioning platform on the first lifting module. Through setting up two sets of cutting mechanism and two sets of mechanisms that refute in the frame to and set up dust absorption subassembly on the material loading moves the material mechanism, thereby can be at the transfer positioning platform during operation of one set of mechanism that refutes by dust absorption subassembly to the transfer positioning platform of another set of mechanism that refutes clean, need not shut down and wait, realize continuous production, thereby improved the work efficiency of equipment, increase enterprise's output.

As a preferable scheme, the dust collection assembly comprises a dust collection pipe, and a brush bar is arranged at the air inlet end of the dust collection pipe. Through setting up the brush strip to can scrape the dust through the brush strip when cleaning, increase cleaning effect.

As a preferable scheme, the brush strips are uniformly distributed in a ring shape along the air inlet of the dust collection pipe.

As a preferred scheme, the dust collection assembly further comprises a lifting cylinder for controlling the dust collection pipe to move up and down, the first lifting module is provided with a first lifting seat, the lifting cylinder and the feeding material collection assembly are arranged on the first lifting seat, a movable rod of the lifting cylinder extends downwards to be connected with a connecting seat, and the dust collection pipe is fixedly arranged on the connecting seat.

As a preferred scheme, unloading moves material mechanism includes unloading and inhales material subassembly, controls unloading and inhale the second lifting module of material subassembly up-and-down motion and controls the second sideslip module of second lifting module left and right movement, the second lifting module is equipped with the second elevating socket, unloading is inhaled the material subassembly and is located on the second elevating socket, be equipped with first portal in the frame, first sideslip module and second sideslip module are parallel to be located on the first portal.

As a preferred scheme, be equipped with in the frame with first portal seat parallel arrangement's second portal seat, two sets of cutting mechanism is on the second portal seat side by side, two sets of cutting mechanism all include saw bit, drive the rotatory cutting motor of saw bit, drive the third elevating module of the activity about the cutting motor, drive the lead screw of the activity about the third elevating module and drive lead screw pivoted sideslip driving motor.

As a preferred scheme, the connection mechanism further comprises a material moving guide rail arranged between the first gantry seat and the second gantry seat, the transfer positioning platform is arranged on the material moving guide rail in a sliding mode, and the transfer positioning platform is provided with a feeding station and a discharging station which are positioned below the first gantry seat and a cutting station which is positioned below the second gantry seat.

As a preferable scheme, a pressing mechanism for fixing materials on the transfer positioning platform is arranged beside the cutting station, and the pressing mechanism comprises a pressing plate and a pressing cylinder for controlling the pressing plate to move up and down.

As a preferred scheme, feed mechanism includes two parallel arrangement's material loading conveyer belt, forms material conveying passageway between two material loading conveyer belts, be equipped with the material loading motor of control material loading conveyer belt activity in the frame, feed mechanism includes unloading conveyer belt and the unloading motor of control unloading conveyer belt activity.

As a preferable scheme, the third lifting module is provided with a third lifting seat, the cutting motor is arranged on the third lifting seat, and the third lifting seat is provided with a CCD positioning system for positioning materials.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, in particular, by arranging two groups of cutting mechanisms and two groups of connecting mechanisms on the frame and arranging the dust collection assembly on the feeding and moving mechanism, the dust collection assembly can clean the transfer positioning platform of one group of connecting mechanisms when the transfer positioning platform of the other group of connecting mechanisms works, and the machine does not need to be stopped for waiting, thereby realizing continuous production, improving the working efficiency of equipment and increasing the output of enterprises.

For a clearer description of the structural features, technical means, and specific objects and functions achieved by the present utility model, the present utility model will be further described in detail with reference to the accompanying drawings and specific embodiments:

drawings

FIG. 1 is an assembled block diagram of an embodiment of the present utility model;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is a mounting block diagram of a cutting mechanism according to an embodiment of the present utility model;

FIG. 4 is a block diagram of an alternate view of the cutting mechanism of an embodiment of the present utility model.

The attached drawings are used for identifying and describing:

10. frame 11, first gantry base 12, second gantry base

20. Feeding mechanism 30, discharging mechanism 40 and cutting mechanism

41. Saw blade 42, cutting motor 43 and third lifting module

44. Screw 45, CCD positioning system 50 and connection mechanism

51. Transfer positioning platform 60, feeding and shifting mechanism 61 and feeding and absorbing assembly

62. First lifting module 63, first traversing module 70, blanking and shifting mechanism

71. Blanking and sucking assembly 72, second lifting module 73 and second traversing module

80. Dust collection assembly 81, dust collection pipe 82 and brush bar

83. Lifting cylinder 84, connecting seat 90 and material pressing mechanism

91. A pressing plate 92, a pressing cylinder 100 and a PCB.

Detailed Description

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and to simplify the description, and do not indicate or imply that the positions or elements referred to must have specific directions, be configured and operated in specific directions, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood as appropriate by those of ordinary skill in the art.

As shown in fig. 1-4, a duplex board separator comprises a frame 10, a feeding mechanism 20, a discharging mechanism 30, two groups of cutting mechanisms 40, and two groups of connection mechanisms 50 corresponding to the two groups of cutting mechanisms 40 respectively, the connection mechanisms 50 each comprise a transfer positioning platform 51 for transferring materials and a transfer driving mechanism (not shown) for controlling the movement of the transfer positioning platform 51, the frame 10 is provided with a feeding and material moving mechanism 60 for transferring the materials on the feeding mechanism 20 to the transfer positioning platform 51 and a discharging and material moving mechanism 70 for transferring the materials on the transfer positioning platform 51 to the discharging mechanism 30, the feeding and material moving mechanism 60 comprises a feeding and material sucking component 61, a first lifting module 62 for controlling the feeding and material sucking component 61 to move up and down, and a first traversing module 63 for controlling the first lifting module 62 to move left and right, the first lifting module 62 is provided with a dust sucking component 80 for cleaning the transfer positioning platform 51, the dust sucking component 80 comprises a dust sucking pipe 81 and a lifting cylinder 83 for controlling the material sucking pipe 81 to move up and down, the first lifting and lowering and lifting and lowering modules 62 are respectively provided with a lifting and lowering cylinder seat 82, which is provided with a lifting and lowering rod 84, and a lifting seat 82 which are respectively connected with the dust sucking brush 81, and a lifting seat 82 which are respectively arranged on the upper end of the suction pipe 81. Through setting up two sets of cutting mechanism 40 and two sets of mechanism 50 that refutes on frame 10 to and set up dust absorption subassembly 80 on the material loading moves material mechanism 60, thereby can be at the transfer positioning platform 51 during operation of one of them set of mechanism 50 that refutes, the transfer positioning platform 51 of another set of mechanism 50 that refutes is cleaned by dust absorption subassembly 80, need not shut down and wait, realizes continuous production, thereby has improved the work efficiency of equipment, increases enterprise's output. By providing the brush bar 82, dust can be scraped up by the brush bar 82 during cleaning, and cleaning effect is increased.

Specifically, the blanking and material moving mechanism 70 includes a blanking and material sucking component 71, a second lifting module 72 for controlling the blanking and material sucking component 71 to move up and down, and a second traverse module 73 for controlling the second lifting module 72 to move left and right, where the second lifting module 72 is provided with a second lifting seat, the blanking and material sucking component 71 is disposed on the second lifting seat, the frame 10 is provided with a first gantry 11, and the first traverse module 63 and the second traverse module 73 are disposed on the first gantry 11 in parallel.

The frame 10 is provided with a second gantry 12 parallel to the first gantry 11, two sets of cutting mechanisms 40 are arranged on the second gantry 12 side by side, and each set of cutting mechanisms 40 includes a saw blade 41, a cutting motor 42 for driving the saw blade 41 to rotate, a third lifting module 43 for driving the cutting motor 42 to move up and down, a screw rod 44 for driving the third lifting module 43 to move left and right, and a traverse driving motor (not shown) for driving the screw rod 44 to rotate. The third lifting module 43 is provided with a third lifting seat, the cutting motor 42 is arranged on the third lifting seat, and the third lifting seat is provided with a CCD positioning system 45 for positioning the material.

The connection mechanism 50 further comprises a material moving guide rail arranged between the first gantry 11 and the second gantry 12, the transfer positioning platform 51 is slidably arranged on the material moving guide rail, the transfer positioning platform 51 is provided with a material loading and unloading station arranged below the first gantry 11 and a cutting station arranged below the second gantry, during material loading, the transfer positioning platform 51 firstly moves to the material loading and unloading station, the material loading and transferring mechanism 60 transfers the PCB 100 to be cut from the material loading mechanism to the transfer positioning platform 51, the transfer driving mechanism moves the transfer positioning platform 51 to the cutting station, the cutting mechanism 40 cuts the PCB 100 on the transfer positioning platform 51, the transfer driving mechanism moves the transfer positioning platform to the material loading and unloading station, the material unloading mechanism 70 moves the cut PCB to the material unloading mechanism 30, and the dust collection assembly 80 arranged on the material loading and transferring mechanism 60 cleans the transfer positioning platform 51 and then places the cut PCB again.

The side of the cutting station is provided with a material pressing mechanism 90 for fixing materials on the transfer positioning platform 51, and the material pressing mechanism 90 comprises a material pressing plate 91 and a material pressing cylinder 92 for controlling the material pressing plate 91 to move up and down.

The feeding mechanism 20 comprises two parallel feeding conveyor belts, a material conveying channel is formed between the two feeding conveyor belts, and a feeding motor for controlling the movement of the feeding conveyor belts is arranged on the frame 10. The discharging mechanism 30 comprises a discharging conveyor belt and a discharging motor for controlling the movement of the discharging conveyor belt.

In summary, according to the utility model, the two groups of cutting mechanisms and the two groups of connecting mechanisms are arranged on the frame, and the dust collection assembly is arranged on the feeding and moving mechanism, so that the dust collection assembly can clean the transfer and positioning platform of one group of connecting mechanisms when the transfer and positioning platform of the other group of connecting mechanisms works, the machine does not need to be stopped for waiting, and continuous production is realized, thereby improving the working efficiency of equipment and increasing the output of enterprises.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, so any modifications, equivalents, improvements, etc. of the above embodiments according to the present utility model are still within the scope of the present utility model.

Claims (10)

1. The utility model provides a duplex position board separator, its characterized in that includes frame, feed mechanism, unloading mechanism, two sets of cutting mechanism to and two sets of mechanisms that overlap that correspond respectively with two sets of cutting mechanism, the mechanism of plugging into all includes the transfer positioning platform that is used for transferring the material and the transfer actuating mechanism of control transfer positioning platform activity, be equipped with in the frame and be used for transferring the material on the feed mechanism to the material on the transfer positioning platform and move the material mechanism and be used for transferring the unloading on the transfer positioning platform to the unloading mechanism of unloading mechanism, the material is moved the material mechanism and is inhaled the material subassembly including the material feeding, control the material feeding is inhaled the first lifting module of the material subassembly up-and-down activity and is controlled the first sideslip module of first lifting module left and right movement, be equipped with the dust absorption subassembly that is used for cleaning transfer positioning platform on the first lifting module.

2. The double-station board separator according to claim 1, wherein the dust collection assembly comprises a dust collection pipe, and the air inlet end of the dust collection pipe is provided with a brush bar.

3. A double-station board separator according to claim 2, characterized in that the brush bars are evenly distributed in a ring shape along the air inlet of the suction pipe.

4. The double-station board separator according to claim 2, wherein the dust collection assembly further comprises a lifting cylinder for controlling the dust collection pipe to move up and down, the first lifting module is provided with a first lifting seat, the lifting cylinder and the feeding and sucking assembly are both arranged on the first lifting seat, a movable rod of the lifting cylinder extends downwards to be connected with a connecting seat, and the dust collection pipe is fixedly arranged on the connecting seat.

5. The double-station board separator according to claim 1, wherein the blanking and material moving mechanism comprises a blanking and material sucking assembly, a second lifting module for controlling the blanking and material sucking assembly to move up and down and a second transverse moving module for controlling the second lifting module to move left and right, the second lifting module is provided with a second lifting seat, the blanking and material sucking assembly is arranged on the second lifting seat, a first gantry seat is arranged on the frame, and the first transverse moving module and the second transverse moving module are arranged on the first gantry seat in parallel.

6. The double-station board separator as in claim 5, wherein the frame is provided with a second gantry base parallel to the first gantry base, the two sets of cutting mechanisms are arranged on the second gantry base side by side, and each set of cutting mechanisms comprises a saw blade, a cutting motor for driving the saw blade to rotate, a third lifting module for driving the cutting motor to move up and down, a screw rod for driving the third lifting module to move left and right, and a transverse moving driving motor for driving the screw rod to rotate.

7. The double-station board separator according to claim 6, wherein the docking mechanism further comprises a material moving guide rail arranged between the first gantry base and the second gantry base, the transfer positioning platform is slidably arranged on the material moving guide rail, and the transfer positioning platform is provided with a loading and unloading station arranged below the first gantry base and a cutting station arranged below the second gantry.

8. The double-station board separator according to claim 7, wherein a pressing mechanism for fixing materials on the transfer positioning platform is arranged beside the cutting station, and the pressing mechanism comprises a pressing plate and a pressing cylinder for controlling the pressing plate to move up and down.

9. The double-station board separator according to claim 1, wherein the feeding mechanism comprises two feeding conveyor belts arranged in parallel, a material conveying channel is formed between the two feeding conveyor belts, a feeding motor for controlling the movement of the feeding conveyor belts is arranged on the frame, and the discharging mechanism comprises a discharging conveyor belt and a discharging motor for controlling the movement of the discharging conveyor belts.

10. The double-station board separator according to claim 6, wherein the third lifting module is provided with a third lifting seat, the cutting motor is arranged on the third lifting seat, and the third lifting seat is provided with a CCD positioning system for positioning the materials.

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