阅读说明：本技术 一种基于过孔穿叉状态的pcb板传输方法及系统 (PCB transmission method and system based on through hole crossing state ) 是由 黎宇 于 2021-09-13 设计创作，主要内容包括：本申请揭示了一种基于过孔穿叉状态的PCB板传输方法及系统,将2n个PCB板以非接触的方式,间隔竖直立起在传输带上；调整相对位置,以形成过孔穿叉状态；从左侧对所述第一个PCB板的左侧面的第一区域进行气体喷射处理,以使得第一个PCB板能够维持倾斜状态；从右侧对所述第n+1个PCB板的右侧面的第2n区域进行气体喷射处理,从而使得第2n个PCB板能够维持倾斜状态；开启传输带,以第一速度传输所述2n个PCB板至目标地点,并且在传输过程中,维持所述2n个PCB板在传输过程中均保持倾斜状态。从而充分利用了空间,避免了占地面积过大的问题,提高了传输效率。(The application discloses a PCB transmission method and system based on a via hole crossing state, wherein 2n PCBs are vertically erected on a transmission belt at intervals in a non-contact mode; adjusting the relative position to form a through hole crossing state; performing a gas injection process on a first region of a left side surface of the first PCB from the left side to enable the first PCB to maintain an inclined state; performing a gas injection process on a 2n region of a right side surface of the (n + 1) th PCB from a right side, thereby enabling the 2n th PCB to maintain an inclined state; and starting the transmission belt, transmitting the 2n PCB boards to a target place at a first speed, and maintaining the 2n PCB boards to be in a tilting state in the transmission process. Thereby making full use of space, avoiding the problem of overlarge occupied area and improving the transmission efficiency.)

1. A PCB transmission method based on a through hole crossing state is characterized by comprising the following steps:

s1, after the drilling treatment is carried out on the PCB, vertically erecting 2n PCBs on the transmission belt at intervals in a non-contact mode; wherein n is an integer greater than 1;

s2, tilting the first PCB to the left by a first angle relative to the horizontal plane, tilting the second PCB to the left by a second angle relative to the horizontal plane, …, and tilting the nth PCB to the left by an nth angle relative to the horizontal plane;

s3, tilting the (n + 1) th PCB to the right by a first angle relative to the horizontal plane, tilting the (n + 2) th PCB to the right by a second angle relative to the horizontal plane, …, and tilting the (2 n) th PCB to the right by an nth angle relative to the horizontal plane;

s4, adjusting the relative positions of the 2n PCB boards to form a through hole crossing state; the through hole crossing state means that the parallel light source is started from the left side to emit visible light, the visible light can be irradiated on the left side surface of the second PCB and … and the left side surface of the nth PCB through the through hole, the parallel light source is started from the right side to emit visible light, and the visible light can be irradiated on the right side surface of the (n + 2) th PCB, … and the right side surface of the 2 nth PCB through the through hole;

s5, performing gas injection treatment on a first area of the left side surface of the first PCB from the left side by adopting a first moving spray head arranged on the left side of the transmission belt so as to enable the first PCB to maintain an inclined state; wherein the first region is free of vias;

s6, performing gas injection treatment on a second area of the left side surface of the first PCB from the left side by adopting a second moving spray head arranged on the left side of the conveyor belt, so as to inject gas to the left side surface of a second PCB through the through hole, and thus the second PCB can maintain an inclined state;

S7、……；

s8, performing gas injection treatment on the nth area of the left side surface of the first PCB from the left side by adopting an nth moving spray head arranged on the left side of the conveyor belt, so as to inject gas to the left side surface of the nth PCB through the through hole, and thus the nth PCB can maintain an inclined state;

s9, performing gas injection treatment on the (n + 1) th area on the right side surface of the (n + 1) th PCB from the right side by adopting an (n + 1) th moving sprayer arranged on the right side of the conveying belt, so that the (n + 1) th PCB can maintain an inclined state; wherein, no via hole is arranged on the n +1 region;

s10, performing gas injection treatment on the (n + 2) th area on the right side surface of the (n + 1) th PCB from the right side by adopting an (n + 2) th moving sprayer arranged on the right side of the conveying belt, so as to inject gas to the right side surface of the (n + 2) th PCB through a through hole, and further enable the (n + 2) th PCB to be capable of maintaining an inclined state;

S11、……；

s12, performing gas injection treatment on the 2n area on the right side surface of the (n + 1) th PCB from the right side by adopting a 2n motion sprayer arranged on the right side of the conveyor belt, so as to inject gas to the right side surface of the 2n PCB through the through hole, and further enable the 2n PCB to maintain an inclined state;

and S13, starting the conveyor belt, conveying the 2n PCB boards to a target site at a first speed, and keeping the relative relationship among the first moving spray head, the second moving spray head, …, the 2n moving spray head, the conveyor belt and the 2n PCB boards unchanged during the conveying process so as to maintain the 2n PCB boards in a tilted state during the conveying process.

2. The PCB board transmission method based on the via-crossing state of claim 1, wherein after the PCB board is drilled, the hole cleaning process is not performed before the step S1 of vertically erecting 2n PCB boards on the transmission belt at intervals in a non-contact manner;

adjusting the relative positions of the 2n PCB boards to form a through hole crossing state; wherein, the via hole crosses the fork state and indicates, opens parallel light source from the left side and sends visible light, can make visible light pass through the via hole shine on the left surface of second PCB board, …, the left surface of nth PCB board, open parallel light source from the right side and send visible light, can make visible light pass through the via hole shine on the right flank of n +2 PCB board, step S4 on the right flank of …, 2 nth PCB board, include:

s401, adjusting the relative positions of the 2n PCBs, and simultaneously respectively carrying out comprehensive gas injection treatment on the left side surfaces or the right side surfaces of the 2n PCBs so as to complete the cleaning process of holes of the PCBs;

s402, continuously adjusting the relative positions of the 2n PCB boards to form a through hole crossing state.

3. The PCB transmission method based on the via crossing state as claimed in claim 1, wherein the width of the transmission belt is the sum of the widths of 4n PCB boards, the 2n PCB boards are parallel to each other during transmission, and the distance between every two adjacent PCB boards is equal to the width of one PCB board.

4. The PCB transmission method based on the via crossing state of claim 1, wherein the value of n is greater than or equal to 2 and less than or equal to 6.

5. The method for transporting PCB boards based on via-crossing state as claimed in claim 1, wherein the step of starting the conveyor belt to transport the 2n PCB boards to a target location at a first speed, and during the transporting, the relative relationship among the first moving nozzle, the second moving nozzle, …, the 2n moving nozzle, the conveyor belt and the 2n PCB boards is not changed to maintain the 2n PCB boards in the inclined state during the transporting step S13, comprises:

s131, taking out the nth PCB and the 2 nth PCB by adopting a preset manipulator;

s132, closing the nth moving spray head and the 2 nth moving spray head;

s133, taking out the (n-1) th PCB and the (2 n-1) th PCB by adopting a preset manipulator;

s134, closing the n-1 movement spray head and the 2n-1 movement spray head;

S135、……；

s136, taking out the first PCB and the (n + 1) th PCB by adopting a preset manipulator;

and S137, closing the first moving spray head and the n +1 th moving spray head.

6. The PCB transmission method based on the via crossing state of claim 5, wherein the step S131 of taking out the nth PCB and the 2 nth PCB by using a preset manipulator comprises:

s1311, clamping the nth PCB and the 2 nth PCB by a preset manipulator;

and S1312, controlling the mechanical arm to enable the nth PCB and the 2 nth PCB to move relative to the rest 2n-2 PCBs in the direction parallel to the conveying belt, so that the nth PCB and the 2 nth PCB are taken out.

7. The PCB board transmission method based on the through hole crossing state of claim 5, wherein the manipulator is a six-axis manipulator.

8. A PCB board conveying system based on a through hole crossing state is characterized in that a PCB board is conveyed by the PCB board conveying method based on the through hole crossing state in claim 1, and the PCB board conveying equipment comprises the conveying belt, the first moving spray head, the second moving spray head, … and the 2n moving spray head in claim 1.

Technical Field

The present application relates to the field of PCB boards, and in particular, to a PCB board transmission method and system based on a via crossing state.

Background

The PCB processing process requires a plurality of processes, and the PCB is transferred between the plurality of processes. These processes include a drilling process of drilling a plurality of through holes, etc., in a PCB panel, and after the drilling process, a hole cleaning process is required. The conventional processes of the PCB include drilling, hole cleaning and PCB transferring, wherein during the PCB transferring process, a single PCB is placed on a transfer belt one by one (in a manner that a side surface with the largest area contacts the transfer belt), and after reaching a target position, the PCB is sucked by a manipulator with a suction cup, thereby completing the PCB transferring. The traditional transmission mode of the PCB has the defects of overlarge floor area and low efficiency.

Disclosure of Invention

The application provides a PCB transmission method based on a through hole crossing state, which comprises the following steps:

s1, after the drilling treatment is carried out on the PCB, vertically erecting 2n PCBs on the transmission belt at intervals in a non-contact mode; wherein n is an integer greater than 1;

s2, tilting the first PCB to the left by a first angle relative to the horizontal plane, tilting the second PCB to the left by a second angle relative to the horizontal plane, …, and tilting the nth PCB to the left by an nth angle relative to the horizontal plane;

s3, tilting the (n + 1) th PCB to the right by a first angle relative to the horizontal plane, tilting the (n + 2) th PCB to the right by a second angle relative to the horizontal plane, …, and tilting the (2 n) th PCB to the right by an nth angle relative to the horizontal plane;

s4, adjusting the relative positions of the 2n PCB boards to form a through hole crossing state; the through hole crossing state means that the parallel light source is started from the left side to emit visible light, the visible light can be irradiated on the left side surface of the second PCB and … and the left side surface of the nth PCB through the through hole, the parallel light source is started from the right side to emit visible light, and the visible light can be irradiated on the right side surface of the (n + 2) th PCB, … and the right side surface of the 2 nth PCB through the through hole;

s5, performing gas injection treatment on a first area of the left side surface of the first PCB from the left side by adopting a first moving spray head arranged on the left side of the transmission belt so as to enable the first PCB to maintain an inclined state; wherein the first region is free of vias;

s6, performing gas injection treatment on a second area of the left side surface of the first PCB from the left side by adopting a second moving spray head arranged on the left side of the conveyor belt, so as to inject gas to the left side surface of a second PCB through the through hole, and thus the second PCB can maintain an inclined state;

S7、……；

s8, performing gas injection treatment on the nth area of the left side surface of the first PCB from the left side by adopting an nth moving spray head arranged on the left side of the conveyor belt, so as to inject gas to the left side surface of the nth PCB through the through hole, and thus the nth PCB can maintain an inclined state;

s9, performing gas injection treatment on the (n + 1) th area on the right side surface of the (n + 1) th PCB from the right side by adopting an (n + 1) th moving sprayer arranged on the right side of the conveying belt, so that the (n + 1) th PCB can maintain an inclined state; wherein, no via hole is arranged on the n +1 region;

s10, performing gas injection treatment on the (n + 2) th area on the right side surface of the (n + 1) th PCB from the right side by adopting an (n + 2) th moving sprayer arranged on the right side of the conveying belt, so as to inject gas to the right side surface of the (n + 2) th PCB through a through hole, and further enable the (n + 2) th PCB to be capable of maintaining an inclined state;

S11、……；

s12, performing gas injection treatment on the 2n area on the right side surface of the (n + 1) th PCB from the right side by adopting a 2n motion sprayer arranged on the right side of the conveyor belt, so as to inject gas to the right side surface of the 2n PCB through the through hole, and further enable the 2n PCB to maintain an inclined state;

and S13, starting the conveyor belt, conveying the 2n PCB boards to a target site at a first speed, and keeping the relative relationship among the first moving spray head, the second moving spray head, …, the 2n moving spray head, the conveyor belt and the 2n PCB boards unchanged during the conveying process so as to maintain the 2n PCB boards in a tilted state during the conveying process.

Further, after the drilling process is performed on the PCB boards, before the step S1 of erecting 2n PCB boards on the conveyor belt at intervals in a non-contact manner, the hole cleaning process is not performed;

adjusting the relative positions of the 2n PCB boards to form a through hole crossing state; wherein, the via hole crosses the fork state and indicates, opens parallel light source from the left side and sends visible light, can make visible light pass through the via hole shine on the left surface of second PCB board, …, the left surface of nth PCB board, open parallel light source from the right side and send visible light, can make visible light pass through the via hole shine on the right flank of n +2 PCB board, step S4 on the right flank of …, 2 nth PCB board, include:

s401, adjusting the relative positions of the 2n PCBs, and simultaneously respectively carrying out comprehensive gas injection treatment on the left side surfaces or the right side surfaces of the 2n PCBs so as to complete the cleaning process of holes of the PCBs;

s402, continuously adjusting the relative positions of the 2n PCB boards to form a through hole crossing state.

Further, the width of the transmission belt is the sum of the widths of 4n boards, the 2n PCB boards are parallel to each other in the transmission process, and the distance between every two adjacent PCB boards is equal to the width of one PCB board.

Further, the value of n is 2 or more and 6 or less.

Further, the step of starting the conveyor belt to transport the 2n PCB boards to a target location at a first speed, and during the transport, the relative relationship among the first moving nozzle, the second moving nozzle, …, the 2n moving nozzle, the conveyor belt and the 2n PCB boards is not changed to maintain the 2n PCB boards in a tilted state during the transport step S13, includes:

s131, taking out the nth PCB and the 2 nth PCB by adopting a preset manipulator;

s132, closing the nth moving spray head and the 2 nth moving spray head;

s133, taking out the (n-1) th PCB and the (2 n-1) th PCB by adopting a preset manipulator;

s134, closing the n-1 movement spray head and the 2n-1 movement spray head;

S135、……；

s136, taking out the first PCB and the (n + 1) th PCB by adopting a preset manipulator;

and S137, closing the first moving spray head and the n +1 th moving spray head.

Further, the step S131 of taking out the nth PCB and the 2 nth PCB by using a preset manipulator includes:

s1311, clamping the nth PCB and the 2 nth PCB by a preset manipulator;

and S1312, controlling the mechanical arm to enable the nth PCB and the 2 nth PCB to move relative to the rest 2n-2 PCBs in the direction parallel to the conveying belt, so that the nth PCB and the 2 nth PCB are taken out.

Further, the manipulator is a six-axis manipulator.

The application provides a PCB transmission system based on a through hole crossing state, which adopts the PCB transmission method based on the through hole crossing state of claim 1 to transmit a PCB, and the PCB transmission equipment comprises a transmission belt, a first motion spray head, a second motion spray head, … and a 2n motion spray head which are described in claim 1.

According to the PCB transmission method and system based on the through hole crossing state, 2n PCBs are vertically erected on a transmission belt at intervals in a non-contact mode; adjusting the relative positions of the 2n PCB boards to form a through hole crossing state; performing gas injection treatment on a first area of the left side surface of the first PCB from the left side by adopting a first moving spray head arranged on the left side of the transmission belt so that the first PCB can maintain an inclined state; performing gas injection treatment on a 2n area on the right side surface of the (n + 1) th PCB from the right side by adopting a 2n motion sprayer arranged on the right side of the conveyor belt, so that gas is injected to the right side surface of the 2n PCB through a through hole, and the 2n PCB can maintain an inclined state; and starting the transmission belt, transmitting the 2n PCB boards to a target place at a first speed, and maintaining the 2n PCB boards to be in a tilting state in the transmission process.

Thereby realized the vertical mode transmission PCB board that stands at the interval, make full use of the space, avoided the too big problem of area, improved transmission efficiency to for the transmission of ordinary PCB board, need not to carry out the hole cleaning operation, reduced the clear process in one step hole (or, need not to carry out the hole alone cleanly, because this kind of process of this application can accomplish simultaneously in PCB board transmission process, has reduced one step of process in other words).

Drawings

Fig. 1 is a left side view of a first PCB of a PCB transmission method based on a via crossing state according to an embodiment of the present application;

fig. 2 is a left side view of a second PCB of the PCB transmission method based on the via crossing state according to an embodiment of the present application;

fig. 3 is a left side view of a third PCB of the PCB transferring method based on the via crossing state according to an embodiment of the present application;

the reference numbers are as follows:

the first via hole 1, the second via hole 2, the third via hole 3, the first region 4, the second region 5, the translation length 6, and the third region 7.

The implementation, functional features and advantages of the objectives of the present application will be further explained with reference to the accompanying drawings.

Detailed Description

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

Referring to fig. 1, an embodiment of the present application provides a PCB board transmission method based on a via crossing state, including the following steps:

s1, after the drilling treatment is carried out on the PCB, vertically erecting 2n PCBs on the transmission belt at intervals in a non-contact mode; wherein n is an integer greater than 1;

s2, tilting the first PCB to the left by a first angle relative to the horizontal plane, tilting the second PCB to the left by a second angle relative to the horizontal plane, …, and tilting the nth PCB to the left by an nth angle relative to the horizontal plane;

s3, tilting the (n + 1) th PCB to the right by a first angle relative to the horizontal plane, tilting the (n + 2) th PCB to the right by a second angle relative to the horizontal plane, …, and tilting the (2 n) th PCB to the right by an nth angle relative to the horizontal plane;

s4, adjusting the relative positions of the 2n PCB boards to form a through hole crossing state; the through hole crossing state means that the parallel light source is started from the left side to emit visible light, the visible light can be irradiated on the left side surface of the second PCB and … and the left side surface of the nth PCB through the through hole, the parallel light source is started from the right side to emit visible light, and the visible light can be irradiated on the right side surface of the (n + 2) th PCB, … and the right side surface of the 2 nth PCB through the through hole;

s5, performing gas injection treatment on a first area of the left side surface of the first PCB from the left side by adopting a first moving spray head arranged on the left side of the transmission belt so as to enable the first PCB to maintain an inclined state; wherein the first region is free of vias;

s6, performing gas injection treatment on a second area of the left side surface of the first PCB from the left side by adopting a second moving spray head arranged on the left side of the conveyor belt, so as to inject gas to the left side surface of a second PCB through the through hole, and thus the second PCB can maintain an inclined state;

S7、……；

s8, performing gas injection treatment on the nth area of the left side surface of the first PCB from the left side by adopting an nth moving spray head arranged on the left side of the conveyor belt, so as to inject gas to the left side surface of the nth PCB through the through hole, and thus the nth PCB can maintain an inclined state;

s9, performing gas injection treatment on the (n + 1) th area on the right side surface of the (n + 1) th PCB from the right side by adopting an (n + 1) th moving sprayer arranged on the right side of the conveying belt, so that the (n + 1) th PCB can maintain an inclined state; wherein, no via hole is arranged on the n +1 region;

s10, performing gas injection treatment on the (n + 2) th area on the right side surface of the (n + 1) th PCB from the right side by adopting an (n + 2) th moving sprayer arranged on the right side of the conveying belt, so as to inject gas to the right side surface of the (n + 2) th PCB through a through hole, and further enable the (n + 2) th PCB to be capable of maintaining an inclined state;

S11、……；

s12, performing gas injection treatment on the 2n area on the right side surface of the (n + 1) th PCB from the right side by adopting a 2n motion sprayer arranged on the right side of the conveyor belt, so as to inject gas to the right side surface of the 2n PCB through the through hole, and further enable the 2n PCB to maintain an inclined state;

and S13, starting the conveyor belt, conveying the 2n PCB boards to a target site at a first speed, and keeping the relative relationship among the first moving spray head, the second moving spray head, …, the 2n moving spray head, the conveyor belt and the 2n PCB boards unchanged during the conveying process so as to maintain the 2n PCB boards in a tilted state during the conveying process.

The application transmission belt, the motion spray head, the mechanical arm and other entity equipment are actually part of a PCB (printed circuit board) retractable system (also individually referred to as a PCB retractable plate machine). Compared with the common PCB transmission, the efficiency is improved, the PCB transmission device is actually divided into two parts, wherein one part is that the whole space on a transmission belt is actually wasted in the common PCB transmission process, and the whole space on the transmission belt is fully utilized by adopting an upright transmission mode, so that the efficiency is improved; secondly, because this application need not to carry out the clean process in hole alone, consequently on whole scheme, improved efficiency.

By taking fig. 1-3 as an example (the vias and other labeled areas in the drawings are only examples, and the actual size can be adjusted arbitrarily), the PCB board transmission scheme based on the via crossing state of the present application is introduced. At this time, taking n as 3 for example, fig. 1 is a left side view of the first PCB, fig. 2 is a left side view of the second PCB, and fig. 3 is a left side view of the third PCB. When the gas injection is performed, the first region 4 (the dashed line frame portion) of the first PCB is injected with the gas, and thus remains in a state of being inclined to the left (although only one position is indicated in the drawing, any other possible position may be actually used as the first region, that is, the first region may be a plurality of discontinuous regions, and is preferably a region symmetrical with respect to the center of the first PCB).

As shown in fig. 2, the second region 5 (dashed line frame portion) of the second PCB is gas-jetted and thus remains in a state of being inclined to the left, and at this time, the actual shape of the second region 5 is the same as that of the via hole although it is represented by a virtual block. In addition, the second area 5 is sprayed onto the second PCB through the third via hole 3 of the first PCB because the second PCB is translated (translated based on the schematic diagram) by the length 6 of the dotted line to the left with respect to the first PCB based on the original position (the original position means that a plurality of PCBs are placed in parallel and the via hole positions are identical when viewed from the side), and the length 6 is the distance between the center of the first via hole and the center of the second via hole. Since the position of the second PCB board relative to the third via hole is a physical position after the second PCB board is translated, it can be used as a second area for maintaining a state of tilting to the left after the gas is injected. The arrows in the figure indicate the direction of translation of the second PCB with respect to the first PCB.

As shown in fig. 3, the third area 7 (dotted frame portion) of the third PCB is gas-injected, and thus maintains a state of being inclined to the left. Similarly, although the third region 7 is also in a square frame shape in the drawing, it should be substantially equal to the shape of the via hole, and more specifically, the shape of the third region 7 is the overlapping portion of the first via hole 1 and the second via hole 2 in a side view if the shape of the first via hole 1 and the shape of the second via hole 2 are the same as the shape of the first via hole 1 and the second via hole 2 (i.e., the shape of the first via hole 1 and the shape of the second via hole 2 are the same). And the third region 7 is formed by: the moving nozzle sprays gas to the third area 7 through the first through hole 1 of the first PCB and the second through hole 2 of the second PCB. It should be noted that, at this time, the third PCB is shifted by the dotted line length 6 to the left relative to the second PCB, that is, shifted by twice the dotted line length 6 to the left relative to the first PCB, so that, when viewed from the side, the first via hole 1 of the first PCB, the second via hole 2 of the second PCB, and the third area 7 of the third PCB are located on the same straight line (the centers of the three are located on the same straight line), and thus, the gas of the moving nozzle can be injected to the third area. The arrows in the figure indicate the direction of translation of the third PCB with respect to the second PCB.

Fig. 1-3 are descriptions of the first PCB, the second PCB, and the third PCB, and since the present application transmits 2n PCBs at the time of transmission, when n is equal to 3, the present application further has a fourth PCB, a fifth PCB, and a sixth PCB, which are reversely symmetric to the first PCB, the second PCB, and the sixth PCB, and inclined to the right during the transmission process, and thus are not described herein again.

Of course, the vias and the regions marked in fig. 1-3 are all convenient for demonstration, and in practice, the via layout and the regions (both preferably being symmetrical regions to facilitate the dispersion of the supporting force given by the gas jet) can be implemented in any feasible manner.

The scheme of this application can be realized, it relies on the via hole state of crossing, and the via hole state of crossing indicates, opens parallel light source from the left side and sends visible light, can make visible light pass through on the via hole shines the left surface of second PCB board, …, the left surface of nth PCB board, open parallel light source from the right side and send visible light, can make visible light pass through on the via hole shines the right flank of n +2 PCB board, …, the right flank of 2 nth PCB board. As shown in fig. 1-3, different holes have different relative positions, for example, the third PCB board can be reached through the first via hole and the second via hole, and the second PCB board can be reached through the third via hole only, which is the illustrated state of via crossing.

The inclination angle, i.e. the first angle, the second angle, etc. in the present application may be any feasible angle, and the smaller the angle is, the lower the inclination is, and the more the inclination is, the possibility of overturning in the opposite direction is, so the stability of the whole transmission process is worse, but relatively, the required gas injection amount is smaller, which is beneficial to simultaneously transporting a greater number of PCB boards. And because the length-width ratio of the PCB board is larger, the inclination angle is not suitable to be too large. Therefore, the inclination angle is preferably 1 to 30 degrees, more preferably 1 to 15 degrees, more preferably 1 to 5 degrees (i.e. the angle to the vertical should be 90 degrees minus the corresponding value if converted to an inclination angle with respect to the horizontal).

During the process of placing a plurality of PCB boards on the conveying belt, the temporary fixing device can be adopted to assist in maintaining the inclined state, and after the movement of the spray head for spraying gas can be maintained, the temporary fixing device can be removed. These temporary fixing means may be manipulators which have a low requirement on precision and are advantageous for reducing costs.

In the application, the aperture of the via hole can be adjusted at will, the original via hole design in the via hole layout can be adopted, and partial special via holes can be added additionally, so that the aperture of the special via holes is larger, and the gas jet receiving is facilitated. The special via holes can be removed in the subsequent cutting step (at this time, the drilled PCB is formed by a plurality of PCB sub-boards which are obtained after the PCB main board is cut, so that a partial area can be reserved when the main board is designed, the special via holes are specially distributed, and the special via holes are not used as actual PCB board for electrical connection, but are only used when the application is implemented).

Since the transmission belt does not transmit at high speed when transmitting the PCB, it is a prerequisite for the application to be implemented. If the transport speed is too high, it is difficult to maintain the inclined state of the PCB when the showerhead is moved to inject gas. In addition, in practical application, the angle of the inclined state of the PCB board of the present application can be dynamically changed, and although the terms such as the first angle and the second angle are mentioned in the present application, the numerical values of the first angle and the second angle can be dynamically changed, so that the present application has a certain fault tolerance. Of course, the faster the transmission speed of the transmission belt, the lower the fault tolerance.

Further, the 2n PCB boards of the present application may adopt different via layouts, or may also adopt the same via layout. When different via layouts are used, it is actually equivalent that the 2n PCBs do not follow the same wiring plan, but it is necessary to ensure that the via-crossing state can be achieved between each other. Further, this application adopts n via hole overall arrangement, is applied to 2n PCB boards for 2n PCB boards need not carry out position control, just can realize the via hole and wear the fork state, this is because, can be through comparing different via hole overall arrangements in advance, and then directly select the PCB board that the via hole overall arrangement version that matches corresponds, thereby has saved the time of adjusting the position, has improved overall efficiency.

The motion shower nozzle of this application can be formed integrally with the transmission band, and the transmission band keeps the relatively fixed state with the motion shower nozzle promptly.

In this application, the ellipses are used in the same way as the ellipses in the field of mathematics, and mean the same, i.e., for step S2, the first PCB is tilted to the left by a first angle with respect to the horizontal plane, the second PCB is tilted to the left by a second angle with respect to the horizontal plane, …, and the nth PCB is tilted to the left by an nth angle with respect to the horizontal plane, wherein the ellipses omit the description between the third PCB and the (n-1) th PCB, which can be clearly concluded by those skilled in the art.

Similarly, for step S7, which is located between steps S6-S8,

s6, performing gas injection treatment on a second area of the left side surface of the first PCB from the left side by adopting a second moving spray head arranged on the left side of the conveyor belt, so as to inject gas to the left side surface of a second PCB through the through hole, and thus the second PCB can maintain an inclined state;

S7、……；

s8, performing gas injection treatment on the nth area of the left side surface of the first PCB from the left side by adopting the nth moving nozzle arranged on the left side of the conveying belt, so as to inject gas to the left side surface of the nth PCB through the through hole, and further enable the nth PCB to maintain an inclined state.

The descriptions of the third to n-1 th moving jets are omitted, as is clear from the descriptions of the front and rear parts of the ellipses. This description is used because all the moving jets cannot be listed and therefore has to be used, but it is clear and unique because it does not create ambiguity.

Further, after the drilling process is performed on the PCB boards, before the step S1 of erecting 2n PCB boards on the conveyor belt at intervals in a non-contact manner, the hole cleaning process is not performed;

adjusting the relative positions of the 2n PCB boards to form a through hole crossing state; wherein, the via hole crosses the fork state and indicates, opens parallel light source from the left side and sends visible light, can make visible light pass through the via hole shine on the left surface of second PCB board, …, the left surface of nth PCB board, open parallel light source from the right side and send visible light, can make visible light pass through the via hole shine on the right flank of n +2 PCB board, step S4 on the right flank of …, 2 nth PCB board, include:

s401, adjusting the relative positions of the 2n PCBs, and simultaneously respectively carrying out comprehensive gas injection treatment on the left side surfaces or the right side surfaces of the 2n PCBs so as to complete the cleaning process of holes of the PCBs;

s402, continuously adjusting the relative positions of the 2n PCB boards to form a through hole crossing state.

One advantage of the present application is that the hole cleaning process of the patent need not be performed. That is, after the drilling process is performed on the PCB boards, the hole cleaning process is not performed until the step S1 of vertically erecting 2n PCB boards on the conveyor belt at intervals in a non-contact manner. And the moving spray head can be adopted to carry out comprehensive spraying treatment on the via holes at any time in the process of transmission and before and after so as to realize the steps of transmission and hole cleaning. The present application preferably performs the hole cleaning process at the same time in step S4, because it is advantageous to expose all the holes while adjusting the relative positions, thereby facilitating the cleaning process. The overall gas injection process means that the gas injection range covers the entire left side surface or the entire right side surface.

Further, the width of the transmission belt is the sum of the widths of 4n boards, the 2n PCB boards are parallel to each other in the transmission process, and the distance between every two adjacent PCB boards is equal to the width of one PCB board.

Thereby further improving space utilization. At this time, since the interval between each PCB is extremely narrow, the tilt angle should be small and the fault tolerance is low, but accordingly, the overall efficiency is improved. According to actual need, this application can also adjust the distance between every two adjacent PCB boards to change the width of transmission band. However, in any case, the width of the transmission band of the present application is much smaller than that of a general PCB transmission band, which is one aspect of the present application in which space utilization is improved (for the horizontal aspect). Another aspect of the present application where space utilization is improved is that since the PCB board is transported upright, the space above the PCB transport belt is also utilized (for the vertical aspect).

Further, the value of n is 2 or more and 6 or less. And n is preferably 3, namely when the total number of the PCB boards is 6, the fault tolerance rate is high, and the implementation is easy.

Further, the step of starting the conveyor belt to transport the 2n PCB boards to a target location at a first speed, and during the transport, the relative relationship among the first moving nozzle, the second moving nozzle, …, the 2n moving nozzle, the conveyor belt and the 2n PCB boards is not changed to maintain the 2n PCB boards in a tilted state during the transport step S13, includes:

s131, taking out the nth PCB and the 2 nth PCB by adopting a preset manipulator;

s132, closing the nth moving spray head and the 2 nth moving spray head;

s133, taking out the (n-1) th PCB and the (2 n-1) th PCB by adopting a preset manipulator;

s134, closing the n-1 movement spray head and the 2n-1 movement spray head;

S135、……；

s136, taking out the first PCB and the (n + 1) th PCB by adopting a preset manipulator;

and S137, closing the first moving spray head and the n +1 th moving spray head.

The process of taking out the PCB is different compared with the common PCB transportation process. Since the present application does not employ any hard restricting member, it is not necessary to consider the problem of collision between the hard restricting members. Correspondingly, the PCB positioned in the middle is taken out firstly, and then other PCBs are taken out from inside to outside in sequence, so that the operation of taking the PCBs cannot be performed out of order.

Further, the step S131 of taking out the nth PCB and the 2 nth PCB by using a preset manipulator includes:

s1311, clamping the nth PCB and the 2 nth PCB by a preset manipulator;

and S1312, controlling the mechanical arm to enable the nth PCB and the 2 nth PCB to move relative to the rest 2n-2 PCBs in the direction parallel to the conveying belt, so that the nth PCB and the 2 nth PCB are taken out.

In addition, when the PCB is taken out, the movement in the vertical direction is not needed, or the movement in the vertical direction is almost not needed, so that the space in the vertical direction can be given up to the transportation process of the PCB, and the implementation of the whole scheme is facilitated. It can be understood that the PCB board is extracted from the plurality of PCB boards along the moving direction of the conveyor belt, which is equivalent to the existence of an invisible magazine.

Further, the manipulator is a six-axis manipulator. So as to facilitate the taking out of the PCB. The six-axis manipulator is a manipulator which operates by utilizing rotation and movement of x, y and z axes, has high flexibility and has better response capability to possible emergency situations.

An embodiment of the present application further discloses a PCB conveying system based on a via-hole crossing state, which conveys a PCB by using the aforementioned PCB conveying method based on a via-hole crossing state, wherein the PCB conveying apparatus includes the conveyor belt, the first moving nozzle, the second moving nozzle, …, and the 2n moving nozzle as set forth in claim 1.

The use method and relative position of the conveyor belt, the first moving spray head, the second moving spray head, … and the 2n moving spray head are the same as those in the PCB board conveying method, and the position and structure of the conveyor belt, the first moving spray head, the second moving spray head, … and the 2n moving spray head are limited.

According to the PCB transmission method and system based on the through hole crossing state, 2n PCBs are vertically erected on a transmission belt at intervals in a non-contact mode; adjusting the relative positions of the 2n PCB boards to form a through hole crossing state; performing gas injection treatment on a first area of the left side surface of the first PCB from the left side by adopting a first moving spray head arranged on the left side of the transmission belt so that the first PCB can maintain an inclined state; performing gas injection treatment on a 2n area on the right side surface of the (n + 1) th PCB from the right side by adopting a 2n motion sprayer arranged on the right side of the conveyor belt, so that gas is injected to the right side surface of the 2n PCB through a through hole, and the 2n PCB can maintain an inclined state; and starting the transmission belt, transmitting the 2n PCB boards to a target place at a first speed, and maintaining the 2n PCB boards to be in a tilting state in the transmission process. Therefore, the PCB is transmitted in a vertically standing mode at intervals, the space is fully utilized, the problem of overlarge occupied area is solved, and the transmission efficiency is improved.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, apparatus, article, or method that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, apparatus, article, or method. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, apparatus, article, or method that includes the element.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.