JPH02266600A - Axial component lead former - Google Patents

Abstract

PURPOSE:To print cream solder so as to enable soldering by a reflow furnace by equipping a pair of cutters, a holder, a first slider, a second slider, and an adjusting screw. CONSTITUTION:The processing pitch of a member is adjusted by an adjusting screw 1 and an axial part 11 is laid on the holding part 2a of a holder 2. Next, by shifting a cutter 3 downward, the force is transmitted to a spring 6, a slider 4, and a spring 7, and it lowers a slider 5, and the bases of both ends of leads of the axial part 11 are fixed by the end parts 5a and the holding parts 29. Next, the sliders 4 lower and push the end sides of both ends 11a of the leads, whereby the leads are bent downward along the outsides of the part receiving parts 2b of holders 2, and at the same time second inflection points are formed by the end faces 4a of the sliders 4 and the base faces 2b of the holders 2. Furthermore, when the cutters 3 lower completely to the base faces 2b of the holders 2, surplus leads of the axial part 11 are cut by the blades 3a of the cutters 3. Hereby, cream solder can be printed and soldering by a reflow furnace can be made.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an axial component lead former, and more particularly to an axial component lead former that forms the leads of an axial component into the shape of a lead for surface mounting.

[Conventional technology]

Conventionally, this type of axial component lead former was intended to be mounted on a through-hole board, and the lead bending process was a single bending of 90 degrees.

[Problem to be solved by the invention]

The conventional axial component lead former mentioned above is for mounting the leads of axial components onto a through-hole board.Since the component can only be bent once when mounted on a surface mount board, the lead former must be placed on the board surface again. When additional work such as a bench was performed to perform parallel bending, variations in bending dimensions and heights occurred, and the parts did not sit well and could not be automatically mounted. Therefore, it was not possible to print cream solder and solder in a reflow oven.

[Means to solve the problem]

The axial component lead former of the present invention is a former for cutting the leads of axial components attached to a surface-mounted printed circuit board, and includes a pair of cutters having blades for cutting both ends of the leads of the component, and a cutter that can freely move up and down. A holder for supporting, a first slider for holding the base of the lead wire of the component together with the holder, a second slider for pressing and bending the tip side of the held lead wire, and a slider for adjusting the cutter to a specified pitch width. An adjustment screw, a first shaft on which a pair of holders can move in parallel, and a first shaft that controls the movement of the cutter. The first to convey to the second slider.
a second spring, a first slider attached to the cutter, and a second slider.

It has a shaft that restricts the back and forth movement of the first spring and the second spring, and an angle that restricts the left and right movement of the cutter.

〔Example〕 Next, the present invention will be explained with reference to the drawings.

FIG. 1 shows an embodiment of the invention. In FIG. 1, one embodiment of the present invention is an axial component for a surface mount board, which has a pair of cutters 3 having blade portions 3a that are moved up and down by an air cylinder, a motor, or manually to cut both ends of the leads of the axial component. In the lead former, a pair of cutters 3 are attached to a holder 2 that supports them so as to be vertically movable. The cutter 3 is equipped with a slider 5 that holds the base of the lead wire of the axial component together with the holder 2, and a slider 4 that presses and bends the tip of the held lead wire. The cutter 3 has a TA trimming screw 1 on its upper part for forming the interval between the cutters to a specified pitch width. A pair of holders 2 are attached to a shaft 9 so as to move in parallel. Furthermore, the cutter 3 has a shaft 8.
This shaft 8 is equipped with a spring 6 that transmits the movement of the cutter 3 to the slider 4, and a spring 7 that pushes the slider 5 to keep the reed base under optimal pressure.
Slider 4° Slider 5.
The springs 6 and 7 are attached so as to restrict their forward and backward movement. The angle 10 is configured to restrict the lateral movement of the holder 2.

A pair of cutters 3 are attached to a pair of holders 2 so as to be vertically movable, and are attached to a mechanism (not shown) so as to be vertically movable by an air cylinder, a motor, or the like. An adjustment screw 1 attached to the upper part of the cutter 3 is configured to adjust the distance between the pair of cutters 3, and a pair of holders 2 are attached so as to move together with the cutter 3 in parallel to the adjustment width of the adjustment screw 1. There is. As the cutter 3 descends, the slider 4 is pushed down by the spring 6 and pushes the next spring 7. This spring 7 pushes the slider 5 to lower it. The shaft 8 has an upper end fixed to the cutter 3, passes through the spring 6, slider 4, spring 7, and slider 5 so as to be vertically movable, and restricts the back and forth movement C of each member. Lateral movement B is regulated by an angle 10 extending from the holder 2.

Adjust the machining pitch of the part using the adjustment screw l, and then press 2 of holder 2.
Place the axial component 11 on part a. Next, by moving the cutter 3 downward, the force is reduced by the spring 6 and the slider 4.
．． The force is transmitted to the spring 7, and the slider 5 is lowered to lower the tip portion 5.
The base portions of both ends 11a of the leads of the axial component 11 are fixed by the holding portion 2a by a. Next, the slider 4 descends and pushes the tip sides of both ends 11a of the lead.
It is bent downward along the outer surface of the component receiving portion 2b of the holder 2, and a second bending point is formed by the tip end surface 4a of the slider 4 and the base surface 2b of the holder 2. When the cutter 3 further descends to the base surface 2b of the holder 2, the portion 3a of the cutter 3 cuts off the excess leads of the axial component 11, completing the forming.

By moving the cutter 3 upward, the force is applied to the slider 5. It is transmitted to the spring 7 and the slider 4, and the slider 4.
Slider 5 returns to its original position.

The axial component which has been formed in this manner is mounted on the printed circuit board 12 with its lead wires uniformly as shown in FIG. 2, so that various types of soldering etc. can be easily performed.

〔Effect of the invention〕

As explained above, the present invention allows the width of the bent portion of an axial component to be adjusted arbitrarily, and even if the main body shape of the component changes, the width can be easily adjusted.
Because only the base of the lead is held and fixed, not the main body of the part, no force is applied to the main body of the part, so the original electrical and mechanical properties of the part are not impaired, and the bending dimensions and height of the part can be adjusted. Since it can be processed without any variation, automatic mounting is possible, and it has the effect of printing cream solder and soldering in a reflow oven.

Holding part, 2b... Component holder part, 3... Cutter, 3
a... Blade part, 4.5... Slider, 4a... Lead pushing part, 5a... Clamping part, 6, 7... Spring, 8° 9... Shaft, 10. ...Angle, 1
1... Axial parts, lla... Lead wire part, 1
2...Printed circuit board.

Claims (1)

[Claims] A former that cuts the leads of an axial component to be attached to a surface-mounted printed circuit board includes a pair of cutters that have blades that cut both ends of the component's lead, a holder that supports the cutter in a vertically movable manner, and a base of the component's lead wire. A first slider that is held together with the holder, a second slider that presses and bends the tip of the lead wire, an adjustment screw that adjusts the cutter to a specified pitch width, and a first slider that allows the pair of holders to move in parallel. a shaft, first and second springs that transmit the movement of the cutter to each slider, a shaft that is attached to the cutter and regulates the back and forth movement of the slider spring, and an angle that regulates the left and right movement of the cutter. This is an axial component lead former.