CN112025840A

CN112025840A - Circuit board processing device for electrical components

Info

Publication number: CN112025840A
Application number: CN202011007334.3A
Authority: CN
Inventors: 谈星
Original assignee: Suzhou Silicon Fruit Electronics Co ltd
Current assignee: Suzhou Silicon Fruit Electronics Co ltd
Priority date: 2020-09-23
Filing date: 2020-09-23
Publication date: 2020-12-04

Abstract

The invention discloses a circuit board processing device for electrical components, which comprises a drill point and a drill point driving module, wherein a pre-judging mechanism for selecting the specification of the drill point is arranged on the side surface of the drill point driving module, the pre-judging mechanism comprises a clamping module and a pre-judging module, when the device is used, a capacitor is clamped by the clamping module, a pin arranged on the capacitor is driven by a telescopic rod to be inserted into a pre-judging shell, when the pin touches a certain pair of movable blocks, the movable blocks can slide in the adjacent two movable blocks, and a circuit is communicated through the connection of a capacitor set, so that an electric signal can be transmitted to an indicator lamp through a second wire, and the indicator lamp is lightened, therefore, a user can directly determine the diameter of the pin by observing whether the indicator lamp shines or not; the electric signal can be transmitted to the cutter head through the first lead and drives the cutter head to rotate to a proper cutter changing position, so that the drill point driving module can change cutters quickly.

Description

Circuit board processing device for electrical components

Technical Field

The invention relates to the field of electronic element processing, in particular to a circuit board processing device for an electrical element.

Background

A plurality of electronic components such as capacitors and the like are often inserted into the circuit board, so that the circuit board needs to be drilled; firstly, selecting different drill points according to the thickness of pins of the electronic element, and manually carrying out specification matching in the process of selecting the drill points, namely, firstly checking the size of a capacitor pin, and then selecting the drill points with proper size from a pile of drill points; however, such a selection process requires manual checking, and this method is obviously no longer suitable when the capacitance specification on one circuit board is large.

Disclosure of Invention

The present invention is directed to a circuit board processing apparatus for electrical components, which solves the above problems of the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a circuit board processing device for electrical components comprises a drill point and a drill point driving module, wherein the drill point is connected to the drill point driving module and is driven by the drill point driving module to perform drilling motion on the surface of a circuit board, a pre-judging mechanism for selecting the specification of the drill point is arranged on the side surface of the drill point driving module and comprises a clamping module and a pre-judging module, the clamping module comprises a telescopic rod and a claw seat, one end of the telescopic rod is slidably arranged on a wall, the other end of the telescopic rod is fixedly connected with one end of the claw seat, the other end of the claw seat is rotatably connected with two clamping jaws, and the two clamping jaws are elastically connected through a first spring; the prejudging module comprises a prejudging shell and a movable block, and the prejudging shell is arranged below the clamping jaw; when the clamping jaw clamps the capacitor, the pin arranged on the capacitor is inserted into the pre-judging shell; a plurality of pairs of movable blocks are arranged in the prejudging shell, the plurality of pairs of movable blocks are arranged in a horn shape with a large top and a small bottom, and two adjacent movable blocks are connected in a sliding manner; the side surface of each movable block is also electrically connected with an indicator light through an electric piece group, the electric piece group comprises a first electric piece and a second electric piece, the first electric piece and the second electric piece are movably arranged, the first electric piece is bonded on the movable block, and the second electric piece is connected with the indicator light through a second lead; the number of the indicator lamps is multiple, and each indicator lamp is connected to a second chip corresponding to the indicator lamp through a second lead; the prejudging shell is further provided with a first wire, and the first wire is electrically connected with a cutter head.

As a further scheme of the invention: the cutter head is provided with a plurality of slotted holes, and a drill point is placed in each slotted hole and is multiple, and the sizes of the drill points are different.

As a still further scheme of the invention: a drill point driving module is further arranged on the side face of the cutter head, a connecting hole matched with the drill point is formed below the drill point driving module, a driving block is arranged on the side face in a sliding mode, a rocker arm is rotatably connected to the driving block, and the rocker arm is a telescopic arm with a telescopic function; the rocking arm rotates to be connected on the slider, slider sliding connection is on the slide bar, slide bar fixed connection is on the wall.

As a still further scheme of the invention: a bearing plate used for bearing the circuit board is arranged below the drill point driving module and comprises a first half plate and a second half plate, and the first half plate is elastically connected with the second half plate through a second spring; the side surfaces of the first half plate and the second half plate are both provided with rotating motors; the rotating motor is connected to the wall through a telescopic piece.

As a still further scheme of the invention: the lower part of the bearing plate is also provided with a plate turning mechanism, the plate turning mechanism comprises a turning plate, a supporting plate and a telescopic column, the turning plate is rotatably arranged on the supporting plate, and the supporting plate is fixedly connected to the telescopic column.

As a still further scheme of the invention: the side surface of the drill point driving module is also provided with a polishing mechanism used for polishing ink powder on the circuit board, the polishing mechanism comprises a connecting rod, a slope sliding plate and a brush, one end of the connecting rod is connected to the wall in a sliding mode, the other end of the connecting rod is connected with the brush in a rotating mode, and the brush is connected with an external controller; a slope sliding plate is arranged below the brush, one end of the slope sliding plate is an inclined plane, and the other end of the slope sliding plate is a horizontal plane; and a baffle is also arranged at one end close to the horizontal plane of the slope plate and is a telescopic plate with a telescopic function.

As a still further scheme of the invention: a cleaning mechanism is further arranged on the side face of the polishing mechanism and comprises a cleaning cylinder and an air blowing machine, a cavity is formed in the cleaning cylinder, and cleaning liquid is filled in the cavity; and an air blower is also arranged on the bottom surface of the cavity.

Compared with the prior art, the invention has the beneficial effects that:

1. triggering a certain pair of movable blocks to slide through the pins, and connecting a loop through an electric sheet assembly, so that an electric signal can pass through two branch lines, wherein one branch line is used for lighting an indicator lamp, and the other branch line is used for controlling the cutter head to rotate to a proper cutter changing position; and then can be quick when accomplishing the size of the pin on the electric capacity and prejudge, accomplish the selection that corresponds the cutter, improved the efficiency of whole process.

2. The two sides of the bearing plate are also provided with rotating motors, when the circuit board needs to be machined on two sides, after the drill point driving module drives the drill point to complete machining on one side, the rotating motors are rotated, and then the other side of the circuit board is located on the machined surface.

3. When the circuit board needs to be dismounted, the first half plate and the second half plate are separated only by pulling the telescopic piece, then the telescopic column is lifted, and meanwhile, the turning plate is driven to rotate relative to the supporting plate, so that the circuit board can be jacked up and turned over to the slope sliding plate; the circuit board slides to the horizontal plane through the inclined plane of the slope sliding plate, the baffle is lifted, the brush is lowered, the brush rotates and simultaneously performs grinding motion, and toner coated on the circuit board is ground; after polishing is finished, the baffle is lowered, the rotation of the brush is stopped, the brush is extruded to the circuit board, and the circuit board is driven to slide to a subsequent cleaning cylinder through a connecting rod; the cleaning cylinder receives the circuit board sliding down from the slope sliding plate, enables the cleaning liquid to immerse the circuit board, and then opens the air blower, enables the air blower to continuously blow bubbles into the cleaning liquid, and enables the cleaning liquid to drive the circuit board to tumble, so that the cleaning effect is improved.

Drawings

Fig. 1 is a schematic structural diagram of a circuit board processing device for electrical components.

Fig. 2 is a partially enlarged structural diagram of a in fig. 1.

Fig. 3 is a schematic diagram of a structure of the inside of a pre-judging housing in a circuit board processing device for electrical components.

Fig. 4 is a partially enlarged structural diagram of B in fig. 3.

FIG. 5 is a schematic structural diagram of a carrier plate in a circuit board processing apparatus for electrical components.

Fig. 6 is a partially enlarged structural view of C in fig. 1.

Fig. 7 is a schematic structural diagram of the assembly of the drill driving module and the driving block in the circuit board processing device for electrical components.

In the figure: 1-prejudging mechanism, 101-telescopic rod, 102-claw seat, 103-clamping jaw, 104-first spring, 105-capacitor, 106-pin, 107-prejudging shell, 108-first lead, 109-movable block, 110-indicator light, 111-first electric sheet, 112-second electric sheet, 113-second lead, 2-drill point, 3-cutter head, 4-rotating motor, 5-bearing plate, 51-first half plate, 52-second half plate, 53-second spring, 6-circuit board, 7-drill point driving module, 8-rocker arm, 9-slide block, 10-slide rod, 11-connecting rod, 12-brush, 13-slope plate, 14-baffle plate, 15-cleaning cylinder, 16-air blower, 17-turning plate, 18-supporting plate, 19-telescopic column and 20-driving block.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Example 1

Referring to fig. 1-7, a circuit board processing device for electrical components includes a drill point 2 and a drill point driving module 7, the drill point 2 is connected to the drill point driving module 7 and is driven by the drill point driving module 7 to perform drilling motion on the surface of a circuit board 6, a pre-judging mechanism 1 for selecting the specification of the drill point 2 is arranged on the side surface of the drill point driving module 7, the pre-judging mechanism 1 includes a clamping module and a pre-judging module, the clamping module includes a telescopic rod 101 and a claw seat 102, one end of the telescopic rod 101 is slidably arranged on a wall, the other end of the telescopic rod 101 is fixedly connected with one end of the claw seat 102, the other end of the claw seat 102 is rotatably connected with two clamping jaws 103, and the two clamping jaws 103 are elastically connected through a first spring 104; the pre-judging module comprises a pre-judging shell 107 and a movable block 109, and the pre-judging shell 107 is arranged below the clamping jaw 103; when the clamping jaw 103 clamps the capacitor 105, the pin 106 mounted on the capacitor 105 is inserted into the predetermined housing 107; a plurality of pairs of movable blocks 109 are arranged in the prejudging shell 107, the plurality of pairs of movable blocks 109 are arranged in a horn shape with a large top and a small bottom, and two adjacent movable blocks 109 are connected in a sliding manner; the side surface of each movable block 109 is also electrically connected with an indicator light 110 through an electric sheet set, the electric sheet set comprises a first electric sheet 111 and a second electric sheet 112, the first electric sheet 111 and the second electric sheet 112 are movably arranged, the first electric sheet 111 is bonded on the movable block 109, and the second electric sheet 112 is connected with the indicator light 110 through a second lead 113; the number of the indicator lamps 110 is multiple, and each indicator lamp 110 is connected to a second electric sheet 112 corresponding to the indicator lamp 110 through a second lead 113; the prejudging shell 107 is further provided with a first lead 108, and the cutter head 3 is electrically connected with the first lead 108.

The cutter head 3 is provided with a plurality of slotted holes, and a drill point 2 is placed in each slotted hole, and the drill points 2 are different in size.

When in use, the capacitor 105 is clamped by the clamping module, the telescopic rod 101 drives the pin 106 arranged on the capacitor 105 to be inserted into the predetermined housing 107, because the movable blocks 109 inside the anticipation casing 107 are composed of a plurality of pairs, and the movable blocks 109 form a horn shape with a large top and a small bottom, when the pin 106 moves from top to bottom, the pin 106 must touch a certain pair of the movable blocks 109, and at this time, the movable blocks 109 slide in the adjacent two movable blocks 109 at two sides, and through the connection of the electric sheet set, the circuits are communicated, and further, an electrical signal may be transmitted to the indicator lamp 110 through the second wire 113, the indicator lamp 110 is lighted, each indicator light 110 corresponds to a pair of the movable blocks 109, so that a user can directly determine the diameter of the pin 106 by observing whether the indicator light 110 is lighted; further, the electric signal is transmitted to the cutter head 3 through the first lead 108, and drives the cutter head 3 to rotate to a proper cutter changing position, so that the drill point driving module 7 can rapidly change a cutter;

preferably, there are a plurality of drill points 2 on the cutter head 3, and each drill point 2 corresponds to one group of movable blocks 109, i.e. also corresponds to one indicator light 110; namely: a certain pair of movable blocks 109 is triggered to slide through the pin 106, and then the circuit is connected through the electric sheet assembly, so that an electric signal can pass through two branch lines, wherein one branch line is used for lighting an indicator light 110, and the other branch line is used for controlling the cutter head 3 to rotate to a proper cutter changing position; the selection of the corresponding cutter can be completed while the size of the pin 106 on the capacitor 105 can be rapidly judged, so that the efficiency of the whole process is improved;

in the above loop, the movable block 109 and the electric sheet set exist on the trunk line and are communicated with an external controller, and the electric sheet set plays a role of a switch loop; the second lead 113 and the indicator light 110 are located on a first trunk line, the first lead 108 and the cutter head 3 are located on a second trunk line, and the arrangement of the two trunk lines ensures that the whole circuit transmission process is divided into specific work and does not influence each other.

Example 2

In order to further improve the processing efficiency of the circuit board 6, an improvement is added on the basis of the embodiment 1, and the improvement is as follows: referring to fig. 1-7, a drill point driving module 7 is further disposed on a side surface of the cutter head 3, a connecting hole matched with the drill point 2 is disposed below the drill point driving module 7, a driving block 20 is slidably disposed on the side surface, a rocker arm 8 is rotatably connected to the driving block 20, and the rocker arm 8 is a telescopic arm with a telescopic function; the rocker arm 8 is rotatably connected to a sliding block 9, the sliding block 9 is slidably connected to a sliding rod 10, and the sliding rod 10 is fixedly connected to a wall.

The drill point driving module 7 is divided into three states in the whole process, namely: the working state is that the drill point 2 is driven to drill; secondly, the method comprises the following steps: the cutter changing state is that the cutter changing state is realized by moving the cutter changing device to a cutter changing position under the cooperation of the driving block 20, the rocker arm 8 and the sliding block 9, and the drill point 2 on the positioned cutter head 3 is pulled out and fixed; thirdly, the method comprises the following steps: the moving state, i.e. the movement between the working state and the tool changing state.

A bearing plate 5 for bearing the circuit board 6 is arranged below the drill point driving module 7, the bearing plate 5 comprises a first half plate 51 and a second half plate 52, and the first half plate 51 is elastically connected with the second half plate 52 through a second spring 53; the rotating motor 4 is arranged on the side surfaces of the first half plate 51 and the second half plate 52; the rotating motor 4 is connected to the wall through a telescopic member.

When the circuit board is used, the first half plate 51 is pulled, the circuit board 6 is clamped between the first half plate 51 and the second half plate 52 through the second spring 53 to be clamped, and the drill point driving module 7 is convenient to drive the drill point 2 to process the circuit board;

preferably, the two sides of the bearing plate 5 are further provided with a rotating motor 4, when the circuit board 6 needs to be processed on two sides, after the drill point driving module 7 drives the drill point 2 to be processed on one side, the rotating motor 4 is rotated, and then the other side of the circuit board 6 is located on the processed side, so that the whole process is convenient and fast to operate.

The lower part of the bearing plate 5 is also provided with a plate turnover mechanism, the plate turnover mechanism comprises a turnover plate 17, a support plate 18 and a telescopic column 19, the turnover plate 17 is rotatably arranged on the support plate 18, and the support plate 18 is fixedly connected to the telescopic column 19.

When the circuit board 6 needs to be dismounted, the first half plate 51 and the second half plate 52 are separated only by pulling the telescopic piece, the telescopic column 19 is lifted, and the turning plate 17 is driven to rotate relative to the supporting plate 18, so that the circuit board 6 can be jacked up and turned over to the slope sliding plate 13.

The side surface of the drill point driving module 7 is also provided with a grinding mechanism for grinding ink powder on the circuit board 6, the grinding mechanism comprises a connecting rod 11, a slope sliding plate 13 and a brush 12, one end of the connecting rod 11 is connected to the wall in a sliding mode, the other end of the connecting rod is connected with the brush 12 in a rotating mode, and the brush 12 is connected with an external controller; a slope plate 13 is arranged below the brush 12, one end of the slope plate 13 is an inclined plane, and the other end of the slope plate 13 is a horizontal plane; a baffle 14 is further arranged at one end close to the horizontal plane of the slope plate 13, and the baffle 14 is a telescopic plate with a telescopic function.

The circuit board 6 slides to the horizontal plane through the inclined plane of the slope board 13, at this time, the baffle 14 is lifted, the brush 12 is lowered, the brush 12 rotates and simultaneously performs grinding motion, and toner covering on the circuit board 6 is ground;

after polishing is completed, the baffle plate 14 is lowered, the rotation of the brush 12 is stopped, the brush 12 is extruded to the circuit board 6, and the circuit board 6 is driven by the connecting rod 11 to slide into a subsequent cleaning cylinder 15;

to be specifically noted: firstly, when the brush 12 performs a polishing motion, a certain limiting effect is achieved between the raised baffle 14 and the inclined plane of the slope sliding plate 13, so that the circuit board 6 is prevented from being changed in position while being polished, and the polishing effect is prevented from being influenced; secondly, the friction coefficient of the horizontal plane of the slope board 13 is smaller than that of the brush 12, so that the brush 12 can keep relatively static with the circuit board 6 within the static friction range and drive the circuit board 6 to slide along the slope board 13.

A cleaning mechanism is further arranged on the side face of the polishing mechanism and comprises a cleaning cylinder 15 and an air blower 16, a cavity is formed in the cleaning cylinder 15, and cleaning liquid is filled in the cavity; an air blower 16 is also arranged on the bottom surface of the cavity.

When the cleaning device is used, the cleaning cylinder 15 receives the circuit board 6 which slides down from the slope sliding plate 13, the cleaning liquid submerges the circuit board 6, the air blower 16 is started, the air blower 16 continuously blows bubbles into the cleaning liquid, the cleaning liquid drives the circuit board 6 to tumble, and the cleaning effect is improved.

It should be noted that, the electric components in the present application, such as the drill point driving module 7, are all connected to the external controller, and the external controller is the prior art, and the present application does not improve the external controller, so that the specific model, the circuit structure, and the like of the external controller do not need to be disclosed, and the integrity of the present application is not affected.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. A circuit board processing device for electrical components comprises a drill point (2) and a drill point driving module (7), wherein the drill point (2) is connected to the drill point driving module (7), and the drill point driving module (7) drives the drill point to do drilling motion on the surface of the circuit board (6), it is characterized in that a pre-judging mechanism (1) for selecting the specification of the drill point (2) is arranged on the side surface of the drill point driving module (7), the pre-judging mechanism (1) comprises a clamping module and a pre-judging module, the clamping module comprises a telescopic rod (101) and a claw seat (102), one end of the telescopic rod (101) is arranged on the wall in a sliding way, the other end of the telescopic rod is fixedly connected with one end of the claw seat (102), the other end of the claw seat (102) is rotatably connected with a clamping jaw (103), the number of the clamping jaws (103) is two, and the clamping jaws are elastically connected through a first spring (104); the prejudgment module comprises a prejudgment shell (107) and a movable block (109), and the prejudgment shell (107) is arranged below the clamping jaw (103); when the clamping jaw (103) clamps the capacitor (105), a pin (106) arranged on the capacitor (105) is inserted into a pre-judging shell (107); a plurality of pairs of movable blocks (109) are arranged in the prejudging shell (107), the movable blocks (109) are arranged in a horn shape with a large top and a small bottom, and two adjacent movable blocks (109) are connected in a sliding manner; the side surface of each movable block (109) is also electrically connected with an indicator light (110) through an electric piece group, the electric piece group comprises a first electric piece (111) and a second electric piece (112), the first electric piece (111) and the second electric piece (112) are movably arranged, the first electric piece (111) is bonded on the movable block (109), and the second electric piece (112) is connected with the indicator light (110) through a second lead (113); the number of the indicator lamps (110) is multiple, and each indicator lamp (110) is connected to a second electric sheet (112) corresponding to the indicator lamp (110) through a second lead (113); the prejudging shell (107) is further provided with a first lead (108), and the cutter head (3) is electrically connected with the prejudging shell through the first lead (108).

2. The processing device of circuit board for electrical device according to claim 1, wherein the cutter head (3) is provided with a plurality of slots, each slot is provided with a drill (2), and the drill (2) has different sizes.

3. The circuit board processing device for the electrical appliance component according to claim 1, wherein a drill point driving module (7) is further arranged on a side surface of the cutter head (3), a connecting hole matched with the drill point (2) is formed below the drill point driving module (7), a driving block (20) is arranged on the side surface in a sliding manner, a rocker arm (8) is rotatably connected to the driving block (20), and the rocker arm (8) is a telescopic arm with a telescopic function; rocking arm (8) rotate to be connected on slider (9), slider (9) sliding connection is on slide bar (10), slide bar (10) fixed connection is on the wall.

4. The circuit board processing device for electrical components according to claim 3, wherein a bearing plate (5) for bearing the circuit board (6) is arranged below the drill driving module (7), the bearing plate (5) comprises a first half plate (51) and a second half plate (52), and the first half plate (51) is elastically connected with the second half plate (52) through a second spring (53); the side surfaces of the first half plate (51) and the second half plate (52) are provided with rotating motors (4); the rotating motor (4) is connected to the wall through a telescopic piece.

5. The processing device of the circuit board for electrical components as claimed in claim 4, wherein a flap mechanism is further disposed below the bearing plate (5), the flap mechanism comprises a flap (17), a support plate (18) and a telescopic column (19), the flap (17) is rotatably mounted on the support plate (18), and the support plate (18) is fixedly connected to the telescopic column (19).

6. The circuit board processing device for the electrical components is characterized in that a grinding mechanism for grinding toner on the circuit board (6) is further arranged on the side surface of the drill point driving module (7), the grinding mechanism comprises a connecting rod (11), a slope sliding plate (13) and a brush (12), one end of the connecting rod (11) is connected to the wall in a sliding mode, the other end of the connecting rod is connected with the brush (12) in a rotating mode, and the brush (12) is connected with an external controller; a slope sliding plate (13) is arranged below the brush (12), one end of the slope sliding plate (13) is an inclined plane, and the other end of the slope sliding plate is a horizontal plane; a baffle (14) is further arranged at one end close to the horizontal plane of the slope sliding plate (13), and the baffle (14) is a telescopic plate with a telescopic function.

7. The processing device of the circuit board for the electrical component according to claim 6, wherein a cleaning mechanism is further arranged on the side surface of the polishing mechanism, the cleaning mechanism comprises a cleaning cylinder (15) and an air blower (16), a cavity is formed in the cleaning cylinder (15), and cleaning liquid is filled in the cavity; an air blower (16) is also arranged on the bottom surface of the cavity.