CN204382383U - A kind of X-Ray drilling equipment - Google Patents

Abstract

The utility model relates to a kind of X-Ray drilling equipment, and comprise workbench, the first guide rail, the first driving mechanism, workbench is connected with the first compressing structure, and the first driving mechanism moves along the first guide rail for driving workbench.Second guide rail, the 3rd guide rail are all vertical with the first guide rail to be arranged.And the second guide rail, the 3rd guide rail lay respectively at the both sides of the first compressing structure, the second driving mechanism to move and for driving X-Ray receiver to move along the 3rd guide rail along the second guide rail for driving X-Ray transmitter.Borehole drill construction is connected with the 4th guide rail, and the 3rd driving mechanism moves along the 4th guide rail for driving borehole drill construction.Visible, the utility model structure is simple, overcomes prior art only in the limitation of edges of boards boring, it can complete punching, drill process in the optional position on pcb board, automaticity is high, and bore position is accurate, and is conducive to the operating efficiency improving plate boring.

Description

A kind of X-Ray drilling equipment

Technical field

The utility model relates to a kind of drilling equipment, particularly relates to a kind of X-Ray drilling equipment.

Background technology

In PCB manufacture process, in order to partial high-precision contraposition requirement can be met, often first rush partial reference target with X-Ray, then by Quadratic Finite Element or have similar measurement function apparatus measures benchmark target harmomegathus value, finally repay drilling by this harmomegathus value complement, to realize pcb board Drilling operation.

X-Ray perforating press is mainly used in punching limit locating hole in the industry at present, for position target in plate, mostly can only adopt the mode of seeing target punching, the method punching speed is slow, efficiency is low, and it is of poor quality to go out knife face hole shape after boring, is unfavorable for that partial high-precision contraposition makes requirement; In addition, the structure of existing X-Ray perforating press is twin axle or center suck-back vacuum type, and it cannot realize optional position punching, there is boring blind area.

Utility model content

Based on this, the utility model is the defect overcoming prior art, provides a kind of and can realize in the punching of pcb board optional position and the high X-Ray drilling equipment of operating efficiency.

Its technical scheme is as follows: a kind of X-Ray drilling equipment, comprise workbench, the first guide rail, the first driving mechanism, described workbench is connected with the first compressing structure for compressing plate to be drilled, described workbench is connected with described first guide rail, and described first driving mechanism moves along described first guide rail for driving described workbench;

Also comprise the second driving mechanism, second guide rail arranged in parallel and the 3rd guide rail, described second guide rail, between equal and described first guide rail of 3rd guide rail, there is angle, and described second guide rail is positioned at the below of described first compressing structure, described 3rd guide rail is positioned at the top of described first compressing structure, described second guide rail is connected with X-Ray transmitter, described 3rd guide rail is connected with the X-Ray receiver corresponding to described X-Ray transmitter, described second driving mechanism moves along described second guide rail for driving described X-Ray transmitter, and for driving described X-Ray receiver to move along described 3rd guide rail,

Also comprise borehole drill construction, the 3rd driving mechanism, the 4th guide rail, described borehole drill construction is connected with described 4th guide rail, and described 3rd driving mechanism moves along described 4th guide rail for driving described borehole drill construction.

Below technical scheme is further illustrated:

Wherein in an embodiment, described second guide rail, the 3rd guide rail are all vertical with described first guide rail to be arranged.

Wherein in an embodiment, the bakelite plate that described workbench comprises platform frame and is connected with platform frame, described first compressing structure is positioned on described bakelite plate, described workbench is also provided with the first cylinder be in transmission connection with described first compressing structure.

Wherein in an embodiment, described frame is made up of aluminum alloy materials, and described bakelite plate is fixedly connected with described frame by screw.

Wherein in an embodiment, described first compressing structure comprises the first guide rod, the second guide rod, the 3rd guide rod, described first guide rod is connected with described second guide rod, the other end of described first guide rod is connected with described 3rd guide rod, described first guide rod, the second guide rod, the 3rd guide rod are connected with some pressing plates respectively, and described pressing plate can move along described first guide rod, the second guide rod, the 3rd guide rod.

Wherein in an embodiment, described second driving mechanism comprises motor, the synchronous drive mechanism be connected with motor-driven, described second guide rail, 3rd guide rail is all connected with described synchronous drive mechanism transmission, also comprise the first carrier being socketed described second guide rail, be socketed the Second support of described 3rd guide rail, and described first carrier is threaded with described second guide rail, described Second support is threaded with described 3rd guide rail, described second guide rail, 3rd guide rail all has the thread segment corresponding to described operating position, described X-Ray transmitter is arranged on described first carrier, described X-Ray receiver is arranged on described Second support.

Wherein in an embodiment, described 4th guide rail is fixedly connected with described first carrier or Second support, and described 4th guide rail and described second guide rail parallel are arranged.

Wherein in an embodiment, described synchronous drive mechanism is belt, described belt socket described second guide rail, the 3rd guide rail.

Wherein in an embodiment, also comprise the second compressing structure, the 3rd compressing structure, described second compressing structure is arranged on the top of described first compressing structure, and described second compressing structure is connected with the second cylinder, and described second cylinder is arranged on described Second support;

Described 3rd compressing structure is positioned at the below of described bakelite plate, and described 3rd compressing structure is connected with the 3rd cylinder, and described 3rd cylinder is arranged on described 3rd carrier.

Wherein in an embodiment, described first carrier or Second support are also provided with the image capturing device for obtaining plate image to be drilled.

Below the principle, effect etc. of preceding solution are described:

1, by adopting X-Ray drilling equipment described in the utility model, the first driving mechanism is made to drive workbench to move along the first guide rail, make that the second driving mechanism drives X-Ray transmitter, X-Ray receiver moves along the second guide rail, the 3rd guide rail respectively, so, X-Ray transmitter can be adjusted, X-Ray receiver position makes to aim at plate to be drilled, optional position laser punching on pcb board can be realized.And, drive borehole drill construction to move along the 4th guide rail by the 3rd driving mechanism, just come with borehole drill construction drilling bore hole after moving to laser punching position.Visible, the utility model structure is simple, overcomes prior art only in the limitation of edges of boards boring, it can complete punching, drill process in the optional position on pcb board, automaticity is high, and bore position is accurate, and is conducive to the operating efficiency improving plate boring.

2, be placed on bakelite plate by pcb board, and control the first compressing structure lifting action with the first cylinder, to pick and place or to compress pcb board, it can improve the drilling quality of pcb board.

3, the first guide rod, the second guide rod and the 3rd guide rod surround a font, pcb board can be filled in from without guide rod side, and pressing plate can move along the first guide rod, the second guide rod, the 3rd guide rod, so, when needing to bore edges of boards hole, can corresponding moving press plate, avoid pressing plate to block bore position, edges of boards can be caused to hole.Visible, while it ensures better fixed effect, the impact on edges of boards boring can be avoided.

4, by the action of driven by motor synchronous drive mechanism, such as, synchronous drive mechanism can select belt, drive the second guide rail, the 3rd guide rail rotation with belt simultaneously, also gear train can be selected make the second guide rail, the 3rd guide rail rotation, when after the second guide rail, the 3rd guide rail synchronous axial system, the first carrier can be made, Second support synchronizing moving carries out puncture motion to required position.Visible, the second guide rail, the 3rd guide rail share a drive mechanism, and structure is simple, with low cost, and can ensure the first carrier, Second support synchronizing moving.

5, with drilling machine to pcb board drill process before, available second air cylinder driven second compressing structure compress pcb board, and with the 3rd air cylinder driven the 3rd compressing structure compression bakelite plate, it can improve drilling quality.

6, with the borehole image on image capturing device Real-time Obtaining pcb board, and be transferred to controller, compare with the boring file of internal memory, obtain error result, and control the first driving mechanism, the second driving mechanism action in real time to reduce bore error, improve borehole accuracy.

Accompanying drawing explanation

Fig. 1 is X-ray drilling equipment structural representation described in the utility model embodiment;

Fig. 2 is the first compressing structure schematic diagram described in the utility model embodiment.

Description of reference numerals:

10, workbench, 11, bakelite plate, the 12, first compressing structure, the 121, first guide rod, 122, the second guide rod, the 123, the 3rd guide rod, 124, pressing plate, 13, the second compressing structure, the 14, the 3rd compressing structure, the 15, first guide rail, 20, X-ray transmitter, 21, X-ray receiver, 22, image capturing device, 23, the second guide rail, the 24, the 3rd guide rail, 25, belt, 30, borehole drill construction, the 31, the 4th guide rail, 40, pcb board.

Detailed description of the invention

As shown in Figure 1, X-Ray drilling equipment described in the utility model, comprise workbench 10, first guide rail 15, first driving mechanism (not shown in the figures anticipate out), described workbench 10 is connected with the first compressing structure 12 for compressing plate to be drilled, described workbench 10 is connected with described first guide rail 15, and described first driving mechanism moves along described first guide rail 15 for driving described workbench 10.

X-Ray drilling equipment described in the utility model also comprises the second driving mechanism (not shown in the figures anticipate out), the second guide rail 23 arranged in parallel and the 3rd guide rail 24, between equal and described first guide rail 15 of described second guide rail 23, the 3rd guide rail 24, there is angle, in the utility model embodiment, described second guide rail 23, the 3rd guide rail 24 are all vertical with described first guide rail 15 to be arranged.While described second guide rail 23 is positioned at the below of described first compressing structure 12, described 3rd guide rail 24 is positioned at the top of described first compressing structure 12, described second guide rail 23 is connected with X-ray transmitter 20, described 3rd guide rail 24 is connected with the X-ray receiver 21 corresponding to described X-ray transmitter 20, and described second driving mechanism to move and for driving described X-ray receiver 21 to move along described 3rd guide rail 24 along described second guide rail 23 for driving described X-ray transmitter 20.

X-Ray drilling equipment described in the utility model also comprises borehole drill construction 30, the 3rd driving mechanism (not shown in the figures anticipate out), the 4th guide rail 31, described borehole drill construction 30 is connected with described 4th guide rail 31, and described 3rd driving mechanism moves along described 4th guide rail 31 for driving described borehole drill construction 30.

By adopting X-Ray drilling equipment described in the utility model, the first driving mechanism is made to drive workbench 10 to move along the first guide rail 15, make that the second driving mechanism drives X-ray transmitter 20, X-ray receiver 21 moves along the second guide rail 23, the 3rd guide rail 24 respectively, so, X-ray transmitter 20 can be adjusted, X-ray receiver 21 position makes to aim at plate to be drilled, optional position laser punching on pcb board 40 can be realized.And, drive borehole drill construction 30 to move along the 4th guide rail 31 by the 3rd driving mechanism, just come with borehole drill construction 30 drilling bore hole after moving to laser punching position.Visible, the utility model structure is simple, overcomes prior art only in the limitation of edges of boards boring, it can complete punching, drill process in the optional position on pcb board 40, automaticity is high, and bore position is accurate, and is conducive to the operating efficiency improving plate boring.

The bakelite plate 11 that described workbench 10 comprises platform frame (not marking in figure) and is connected with platform frame, described first compressing structure 12 is positioned on described bakelite plate 11, described workbench 10 is also provided with the first cylinder (not shown in the figures anticipate out) be in transmission connection with described first compressing structure 12.Described frame is made up of aluminum alloy materials, and described bakelite plate 11 is fixedly connected with described frame by screw, and bakelite plate 11 selects epoxide resin material to make, and bakelite plate 11 hardness can be made good and do not absorb X-ray light, punching is effective.Be placed on bakelite plate 11 by pcb board 40, and control the first compressing structure 12 lifting action with the first cylinder, to pick and place or to compress pcb board 40, it can improve the drilling quality of pcb board 40.

Refer to Fig. 2, described first compressing structure 12 comprises the first guide rod 121, second guide rod 122, the 3rd guide rod 123, described first guide rod 121 one end is connected with described second guide rod 122, the other end of described first guide rod 121 is connected with described 3rd guide rod 123, described first guide rod 121, second guide rod 122, the 3rd guide rod 123 are connected with some pressing plates 124 respectively, and described pressing plate 124 can move along described first guide rod 121, second guide rod 122, the 3rd guide rod 123.So, when needing to bore edges of boards hole, can corresponding moving press plate 124, avoid pressing plate 124 to block bore position, edges of boards can be caused to hole.Visible, while it ensures better fixed effect, the impact on edges of boards boring can be avoided.

Described second driving mechanism comprises motor (not shown in the figures anticipate out), the synchronous drive mechanism that is connected with motor-driven (not shown in the figures anticipate out), described second guide rail 23, 3rd guide rail 24 is all connected with described synchronous drive mechanism transmission, also comprise the first carrier (not shown in the figures anticipate out) being socketed described second guide rail 23, be socketed the Second support (not shown in the figures anticipate out) of described 3rd guide rail 24, and described first carrier is threaded with described second guide rail 23, described Second support is threaded with described 3rd guide rail 24, described second guide rail 23, 3rd guide rail 24 all has the thread segment corresponding to described workbench 10 position, described X-ray transmitter 20 is arranged on described first carrier, described X-ray receiver 21 is arranged on described Second support.Described 4th guide rail 31 is fixedly connected with described first carrier or Second support, and described 4th guide rail 31 be arranged in parallel with described second guide rail 23.Wherein in an embodiment, described synchronous drive mechanism is belt 25, and described belt 25 is socketed described second guide rail 23, the 3rd guide rail 24.Visible, the second guide rail 23, the 3rd guide rail 24 share a drive mechanism, and structure is simple, with low cost, and can ensure the first carrier, Second support synchronizing moving.

X-Ray drilling equipment described in the utility model also comprises the second compressing structure 13, the 3rd compressing structure 14, described second compressing structure 13 is arranged on the top of described first compressing structure 12, and described second compressing structure 13 is connected with the second cylinder (not shown in the figures anticipate out), described second cylinder is arranged on described Second support.Described 3rd compressing structure 14 is positioned at the below of described bakelite plate 11, and described 3rd compressing structure 14 is connected with the 3rd cylinder (not shown in the figures anticipate out), and described 3rd cylinder is arranged on described 3rd carrier.With drilling machine to pcb board 40 drill process before, available second air cylinder driven second compressing structure 13 compresses pcb board 40, and compresses bakelite plate 11 with the 3rd air cylinder driven the 3rd compressing structure 14, and it can improve drilling quality.

Described first carrier or Second support are also provided with the image capturing device 22 for obtaining plate image to be drilled.With the borehole image on image capturing device 22 Real-time Obtaining pcb board 40, and be transferred to controller, compare with the boring file of internal memory, obtain error result, and control the first driving mechanism, the second driving mechanism action in real time to reduce bore error, improve borehole accuracy.

To sum up, the utility model tool has the following advantages:

1, by adopting X-Ray drilling equipment described in the utility model, the first driving mechanism is made to drive workbench 10 to move along the first guide rail 15, make that the second driving mechanism drives X-ray transmitter 20, X-ray receiver 21 moves along the second guide rail 23, the 3rd guide rail 24 respectively, so, X-ray transmitter 20 can be adjusted, X-ray receiver 21 position makes to aim at plate to be drilled, optional position laser punching on pcb board 40 can be realized.And, drive borehole drill construction 30 to move along the 4th guide rail 31 by the 3rd driving mechanism, just come with borehole drill construction 30 drilling bore hole after moving to laser punching position.Visible, the utility model structure is simple, overcomes prior art only in the limitation of edges of boards boring, it can complete punching, drill process in the optional position on pcb board 40, automaticity is high, and bore position is accurate, and is conducive to the operating efficiency improving plate boring.

2, be placed on bakelite plate 11 by pcb board 40, and control the first compressing structure 12 lifting action with the first cylinder, to pick and place or to compress pcb board 40, it can improve the drilling quality of pcb board 40.

3, the first guide rod 121, second guide rod 122 and the 3rd guide rod 123 surround a font, pcb board 40 can be filled in from without guide rod side, and pressing plate 124 can move along the first guide rod 121, second guide rod 122, the 3rd guide rod 123, so, when needing to bore edges of boards hole, can corresponding moving press plate 124, avoid pressing plate 124 to block bore position, edges of boards can be caused to hole.Visible, while it ensures better fixed effect, the impact on edges of boards boring can be avoided.

4, by the action of driven by motor synchronous drive mechanism, such as, synchronous drive mechanism can select belt 25, with belt 25 drive the second guide rail 23 simultaneously, the 3rd guide rail 24 rotates, also can select gear train to make the second guide rail 23, the 3rd guide rail 24 rotates.When after the second guide rail 23, the 3rd guide rail 24 synchronous axial system, because the second guide rail 23 is threaded with the first carrier, and the first carrier can not rotate, therefore, namely first carrier produces relative movement with the second guide rail 23, and in like manner, namely Second support produces relative movement with the 3rd guide rail 24, so, the first carrier can be made, Second support synchronizing moving carries out puncture motion to required position.Visible, the second guide rail 23, the 3rd guide rail 24 share a drive mechanism, and structure is simple, with low cost, and can ensure the first carrier, Second support synchronizing moving.

5, with drilling machine to pcb board 40 drill process before, available second air cylinder driven second compressing structure 13 compresses pcb board 40, and compresses bakelite plate 11 with the 3rd air cylinder driven the 3rd compressing structure 14, and it can improve drilling quality.

6, with the borehole image on image capturing device 22 Real-time Obtaining pcb board 40, and be transferred to controller, compare with the boring file of internal memory, obtain error result, and control the first driving mechanism, the second driving mechanism action in real time to reduce bore error, improve borehole accuracy.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this description is recorded.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (10)

1. an X-Ray drilling equipment, it is characterized in that, comprise workbench, the first guide rail, the first driving mechanism, described workbench is connected with the first compressing structure for compressing plate to be drilled, described workbench is connected with described first guide rail, and described first driving mechanism moves along described first guide rail for driving described workbench;

Also comprise the second driving mechanism, second guide rail arranged in parallel and the 3rd guide rail, described second guide rail, between equal and described first guide rail of 3rd guide rail, there is angle, and described second guide rail is positioned at the below of described first compressing structure, described 3rd guide rail is positioned at the top of described first compressing structure, described second guide rail is connected with X-Ray transmitter, described 3rd guide rail is connected with the X-Ray receiver corresponding to described X-Ray transmitter, described second driving mechanism moves along described second guide rail for driving described X-Ray transmitter, and for driving described X-Ray receiver to move along described 3rd guide rail,

Also comprise borehole drill construction, the 3rd driving mechanism, the 4th guide rail, described borehole drill construction is connected with described 4th guide rail, and described 3rd driving mechanism moves along described 4th guide rail for driving described borehole drill construction.

2. X-Ray drilling equipment according to claim 1, is characterized in that, described second guide rail, the 3rd guide rail are all vertical with described first guide rail to be arranged.

3. X-Ray drilling equipment according to claim 1, it is characterized in that, the bakelite plate that described workbench comprises platform frame and is connected with platform frame, described first compressing structure is positioned on described bakelite plate, described workbench is also provided with the first cylinder be in transmission connection with described first compressing structure.

4. X-Ray drilling equipment according to claim 3, is characterized in that, described frame is made up of aluminum alloy materials, and described bakelite plate is fixedly connected with described frame by screw.

5. the X-Ray drilling equipment according to claim 1 or 3, it is characterized in that, described first compressing structure comprises the first guide rod, the second guide rod, the 3rd guide rod, described first guide rod is connected with described second guide rod, the other end of described first guide rod is connected with described 3rd guide rod, described first guide rod, the second guide rod, the 3rd guide rod are connected with some pressing plates respectively, and described pressing plate can move along described first guide rod, the second guide rod, the 3rd guide rod.

6. the X-Ray drilling equipment according to any one of claims 1 to 3, it is characterized in that, described second driving mechanism comprises motor, the synchronous drive mechanism be connected with motor-driven, described second guide rail, 3rd guide rail is all connected with described synchronous drive mechanism transmission, also comprise the first carrier being socketed described second guide rail, be socketed the Second support of described 3rd guide rail, and described first carrier is threaded with described second guide rail, described Second support is threaded with described 3rd guide rail, described second guide rail, 3rd guide rail all has the thread segment corresponding to described operating position, described X-Ray transmitter is arranged on described first carrier, described X-Ray receiver is arranged on described Second support.

7. X-Ray drilling equipment according to claim 6, is characterized in that, described 4th guide rail is fixedly connected with described first carrier or Second support, and described 4th guide rail and described second guide rail parallel are arranged.

8. X-Ray drilling equipment according to claim 6, is characterized in that, described synchronous drive mechanism is belt, described belt socket described second guide rail, the 3rd guide rail.

9. X-Ray drilling equipment according to claim 6, it is characterized in that, also comprise the second compressing structure, the 3rd compressing structure, described second compressing structure is arranged on the top of described first compressing structure, and described second compressing structure is connected with the second cylinder, described second cylinder is arranged on described Second support;

Described 3rd compressing structure is positioned at the below of described bakelite plate, and described 3rd compressing structure is connected with the 3rd cylinder, and described 3rd cylinder is arranged on described 3rd carrier.

10. X-Ray drilling equipment according to claim 6, is characterized in that, described first carrier or Second support is also provided with the image capturing device for obtaining plate image to be drilled.