KR102405980B1 - Electronic Component Lead Cutting Machine - Google Patents

Abstract

The electronic component lead cutting machine includes a support plate, wherein a conveyor belt assembly, a left and right cutterhead installed to be opposite to each other are installed on the support plate, and the conveyor belt assembly is added to a cylinder and two cylinders installed in parallel front to back It includes an annular belt body covered and installed, a medium plate is installed between the left cutter head and the right cutter head, and the annular belt body is overlaid outside the medium plate, and the left cutter head and the right The cutterheads all match the first driving mechanism, and under the action of the first driving mechanism, the left cutterhead moves to the left side of the medium plate and the right cutterhead moves to the right side of the medium plate. The present invention has the advantages of one-time completion of lead cutting of electronic components, greatly improving production efficiency, and lowering the labor intensity of workers.

Description

Electronic Component Lead Cutting Machine

The present invention relates to an electronic component lead cutter.

After purchasing electronic components, lead-cutting is required to a certain degree according to the demand. For electronic components installed at intervals of about one line with focus on the pins, lead-cutting all pins in one line at a time using a shearing machine However, as shown in FIG. 1 , in the case of electronic components in which pins are arranged in two rows, lead cutting cannot be completed one-time using a shear, and the shear must be used several times, so the efficiency is relatively low.

It is an object of the present invention to provide an electronic component lead cutter capable of improving production efficiency by shearing electronic components.

In order to achieve the above object, the present invention uses the following technical solution. A ring-shaped belt including a support plate, wherein a conveyor belt assembly, a left cutter head and a right cutter head installed to be opposite to each other are installed on the support plate, and the conveyor belt assembly includes a cylinder installed in parallel front to back and two cylinders overlaid on the two cylinders It includes a sieve, and a medium plate is installed between the left cutterhead and the right cutterhead, and the annular belt body is overlaid outside the medium plate, and the left cutterhead and the right cutterhead are both manufactured. Matching one driving mechanism, and under the action of the first driving mechanism, the left cutter head moves to the left side of the medium plate and the right cutter head moves to the right side of the medium plate. .

When using the lead cutter according to the present invention, by installing the electronic component on the upper surface of the annular belt body of the conveyor belt assembly so that the frame of the electronic component is supported on the annular belt body, the pins on the left and right sides of the electronic component are respectively After positioning the annular belt body to the left and right, the annular belt body is moved to move the electronic component between the left and right cutter heads. At this time, the left pin of the electronic component is located between the medium plate and the left cutterhead, the right pin of the electronic component is located between the medium plate and the right cutterhead, and the first driving mechanism is activated to complete the lead cutting operation, The annular belt body continues to move to move the lead-cutting electronic parts to the unloading stage. The lead cutter according to the present invention can greatly improve production efficiency and reduce the labor intensity of workers by completing lead cutting of electronic components in a one-time operation.

Preferably, the conveyor belt assembly is fixed to the upper side of the lifting plate, the lifting plate is coupled to a second driving mechanism, and under the action of the second driving mechanism, the conveyor belt assembly moves up and down relative to the medium plate. Here, based on the demand for different electronic component pin lengths, the present invention selects a lifting plate having a different height so that the lead cutting length can be adjusted.

Preferably, a vertical plate is installed on the support plate, and a horizontal plate installed along the left and right directions is firmly provided on the vertical plate, and the upper surface of the horizontal plate is depressed downward and has a fixing groove penetrating back and forth, the medium plate is fixed in the fixing groove, and the horizontal plate is located at the front and rear sides of the left and right cutter heads. The installation ensures a lead cutting effect by preventing the medium plate from swaying from side to side by making the supporting effect of the medium plate more excellent.

Preferably, one end of the medium plate extends to the loading end of the conveyor belt assembly, and the medium plate is positioned at one end of the loading end to form a structure in which the width from the loading end to the unloading end is gradually increased. The medium plate can also be used as a guide for moving electronic components.

delete

Preferably, the second driving mechanism includes a driving motor and a lead screw, and the lead screw rotates to move the lifting plate upward or downward, fixing a thread block to the lifting plate, and fixing the thread block and the lead screw is matched with a screw thread, and a plurality of guide blocks are installed on the lifting plate, a plurality of guide posts are installed on the support plate, and guide holes matching the guide posts are installed on the lifting plate and the guide block. A lead screw is used to raise and lower the lifting plate, and the higher the precision, the better the lead cutting effect.

Preferably, an enclosure is installed on the support plate, and the enclosure includes at least a pressboard located above the annular belt body, and an electronic component frame is passed between the press board and the top surface of the annular belt body. space is provided. Press boards are used to prevent electronic components from bouncing when moving.

Preferably, the support plate is provided with passage grooves penetrating up and down relative to the portions located below the left and right cutter heads, and a waste collection box is installed under the passage grooves. The waste collection bin is used to collect the clipped pins.

The present invention has the advantages of one-time completion of lead cutting of electronic components, greatly improving production efficiency, and lowering the labor intensity of workers.

1 is a schematic structural diagram of the present invention;
2 is a cross-sectional view of the present invention;
3 is another structural illustration of the present invention.

Hereinafter, the present invention will be described in more detail based on the drawings and specific examples.

1, 2 and 3, the electronic component lead cutter according to the present invention includes a support plate 1 and an enclosure, a conveyor belt assembly on the support plate 1, and a left cutter head installed to face each other Install (2) and right cutterhead (3), left cutterhead (2) and right cutterhead (3) are used to cut pins (82) of electronic component (8), conveyor belt assembly includes a cylinder (4) installed parallel to the front and back and an annular belt body (5) installed overlaid on two cylinders (4), and a medium plate (Medium) between the left cutter head (2) and the right cutter head (3) Plate) (6) is installed, and the annular belt body (5) is installed to cover the outside of the medium plate (6), and the left cutter head (2) and the right cutter head (3) are both the first driving mechanism (20) , and under the action of the first driving mechanism 20 , the left cutterhead 2 moves to the left side of the medium plate 6 , but the right cutterhead 3 moves to the right side of the medium plate 6 . do. Here, the first driving mechanism 20 is a cylinder, and the cylinder 4 of the conveyor belt assembly is driven by a conveyor belt motor 41 . The enclosure includes at least a press board 13 located above the annular belt body 5, and passes through the frame 81 of the electronic component 8 between the press board 13 and the top surface of the annular belt body 5 space is provided.

The cylinder on the front side of the conveyor belt assembly is located outside the enclosure, the annular belt body 5 is partially exposed outside the enclosure to form a loading end, and one end at which the annular belt body 5 is located in the enclosure is a discharge end, A workpiece collection box can be installed on the support plate, and the rear of the enclosure can be opened to allow manual unloading by the operator. The support plate 1 is provided with a passage groove 15 penetrating up and down relative to a portion located below the left cutter head 2 and the right cutter head 3 , and a waste collection box is installed under the passage groove.

The conveyor belt assembly is fixed to the upper side of the lifting plate 7 , and the lifting plate 7 engages the second driving mechanism, and under the action of the second driving mechanism, the conveyor belt assembly moves up and down relative to the medium plate 6 . do. The second driving mechanism includes a driving motor 71 and a lead screw 72, and the lead screw 72 rotates so that the lifting plate 7 moves upward or downward, and a screw thread block ( 73) is fixed, the thread block 73 and the lead screw 72 are matched with threads, and a plurality of guide blocks 74 are installed on the lifting plate 7, and a plurality of guide posts on the support plate 7 ( 75) is installed, and guide holes matching the guide posts 75 are installed in the lifting plate 7 and the guide block 74 .

The support plate 1 is provided with two vertical plates 11 installed in parallel to the left and right, and each of the first driving mechanisms 20 is fixed to one vertical plate 11 in the left-right direction on the left vertical plate. The horizontal plate 12 installed along The horizontal plate 12 is located behind the left cutterhead 2 and the right cutterhead 3 .

One end of the medium plate 6 extends to the loading end of the conveyor belt assembly, and the medium plate 6 is positioned at one end of the loading end to form a structure in which the width from the loading end to the unloading end is gradually increased. A detection sensor is installed on the conveyor belt assembly side, and the detection sensor is located in front of the left cutter head 2 and the right cutter head 3, and the detection sensor indicates that the annular belt body 5 is equipped with electronic components. After detection, the first driving mechanism 20 is operated. The detection sensor is an infrared sensor, and includes an infrared reception sensor 51 and an infrared emission sensor 52 .

When using the lead cutter according to the present invention, the electronic component is installed on the upper surface of the annular belt body of the conveyor belt assembly so that the frame of the electronic component is supported by the annular belt body, so that the pins on the left and right sides of the electronic component are respectively connected to the annular belt After the detection sensor detects the electronic component as the annular belt body moves, the two first driving mechanisms operate to move the electronic component between the left and right cutter heads. , the left pin of the electronic component is located between the medium plate and the left cutterhead, the right pin of the electronic component is located between the medium plate and the right cutterhead, and the left and right cutterheads move for lead cutting, lead cutting This finished electronic component continues to move backwards and fall into the workpiece collection bin. Here, by realizing vertical movement of the conveyor belt assembly on the lifting plate through the second driving mechanism according to demand, the lead cutting length is adjusted by adjusting the distance between the upper surface of the annular belt body and the medium plate.

The lead cutting machine according to the present invention can complete lead cutting of electronic components in a one-time manner, greatly improve production efficiency, and lower the labor intensity of workers.

Claims (8)

A ring-shaped belt including a support plate, wherein a conveyor belt assembly, a left cutter head and a right cutter head installed to be opposite to each other are installed on the support plate, and the conveyor belt assembly includes a cylinder installed in parallel front to back and two cylinders overlaid on the two cylinders It includes a sieve, a medium plate is installed between the left cutterhead and the right cutterhead, and the annular belt body is overlaid outside the medium plate, and the left cutterhead and the right cutterhead are both manufactured. 1 matching the drive mechanism, under the action of the first drive mechanism, the left cutterhead moves to the left side of the medium plate and the right cutterhead moves to the right side of the medium plate,
The conveyor belt assembly is fixed to an upper side of the lifting plate, the lifting plate is coupled to a second driving mechanism, and under the action of the second driving mechanism, the conveyor belt assembly is characterized in that it moves up and down relative to the medium plate. Electronic component lead cutting machine. delete The method of claim 1,
A vertical plate is installed on the support plate, and a horizontal plate installed along the left and right directions is firmly provided on the vertical plate, the upper surface of the horizontal plate is depressed downward and has a fixing groove penetrating back and forth, and the medium plate is fixed It is fixed in the groove, and the horizontal plate is an electronic component lead cutter, characterized in that it is located in front and behind the left cutter head and the right cutter head. The method of claim 1,
One end of the medium plate extends to the loading end of the conveyor belt assembly, and the medium plate is located at one end of the loading end to form a structure in which the width from the loading end to the unloading end is gradually increased. . delete The method of claim 1,
The second driving mechanism includes a driving motor and a lead screw, the lead screw rotates to move the lifting plate upward or downward, and the screw thread block is fixed to the lifting plate, and the thread block and the lead screw are threaded. Electronic component characterized in that a plurality of guide blocks are installed on the lifting plate, a plurality of guide posts are installed on the support plate, and guide holes matching the guide posts are installed on the lifting plate and the guide block. lead cutter. The method of claim 1,
An enclosure is installed on the support plate, and the enclosure includes at least a pressboard positioned above the annular belt body, and between the press board and the top surface of the annular belt body, there is a space for passing the electronic component frame. Electronic component lead cutting machine, characterized in that provided. The method of claim 1,
The electronic component lead cutting machine, characterized in that the support plate is provided with a passage groove penetrating up and down relative to a portion located below the left cutter head and the right cutter head, and a waste collection box is installed under the passage groove.

Images