JPH067858Y2 - Automatic lifting device for cutter blades in lead cutters on printed circuit boards - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to a lead cutter for a printed circuit board for automatically raising and lowering the cutter blade of the lead cutter for the printed circuit board and displaying the amount of elevation. The present invention relates to a cutter blade automatic lifting device.

(Prior Art) Conventionally, a lead cutter for a printed circuit board is required to have a high precision of a cutter dimension, but ascending / descending of a cutter spindle depends on visual adjustment by a manual handle (Japanese Utility Model Publication No. 55-52710). ).

(Problems to be solved by the invention) In the visual adjustment of the lifting and lowering of the spindle by driving the handle, the height of the spindle is visually checked by rotating the handle, and the spindle is adjusted to a required height. Therefore, maintaining the cutting length of the lead wire with high accuracy is a difficult problem and cannot be controlled numerically unless skilled techniques are used.

(Means for Solving the Problem) However, in the present invention, the spindle is moved up and down by the screw rod and the nut screwed to the screw rod, and the number of revolutions of the screw rod is digitally displayed. For example, after that, the above-mentioned conventional problems were solved by automatically adjusting the spindle to a desired height by matching the numerical value.

That is, the invention is such that a spindle of a cutter blade is vertically erected on a frame of a machine body having a printed circuit board moving path, and a spindle drive motor is fixed to an elevating plate to which a supporting piece of the spindle is fixed. The fixed nut is erected on the frame and screwed into the screw rod that rotates in place.
The lower end of the screw rod is connected to the shaft of a spindle up / down motor, a sprocket gear is fixed to the screw rod, a photo sensor is installed opposite to the sprocket gear, and the output of the photo sensor is connected to the input of a digital display. An automatic lifting device for the cutter blade was constructed. In the above description, the elevating structure by screwing the nut and the threaded rod has been exemplified, but other known means such as using a rack and a pinion can be used in addition to this.

In the above, as a means for counting the number of rotations of the screw rod,
Although a photo sensor was used in combination with the sprocket gear, instead of the sprocket gear, a slit may be provided in the disc or a spur gear may be used, or an inscription may be printed on the disc, or other known rotational speed detection means. Can be used.

(Operation) In this invention, since the combination of the nut and the screw rod is used as the elevating means, the number of rotations of the screw rod is accurately displayed. Therefore, the amount of vertical movement of the spindle can be regulated with high accuracy.

Next, the present invention will be described with reference to the accompanying drawings.

A spindle 3 of a cutter tooth 22 is vertically movably installed via a bearing 2 on a frame 1 at an intermediate portion of a machine body on which a printed circuit board moving path is formed, and a lower portion of the spindle 3 is parallel to the frame 1. It is attached to the support piece 4, and one side of the support piece 4 is fixed to the upper edge of the lift plate 5 (FIG. 2). The elevating plate 5 is vertically fixed to the support piece 4, and a motor 6 for driving a spindle is vertically fixed to one side of the elevating plate 5 via a bracket 26 (FIG. 2). A pulley 7 is fixed to a motor shaft 6a protruding above the motor 6, and a belt 10 is attached between the pulley 7 and a pulley 9 fixed to an interlocking shaft 8 of the spindle 3 (third part). Figure). A nut 11 is vertically fixed to the other side of the elevating plate 5 (FIG. 1), and a screw rod 12 is screwed onto the nut 11, and the screw rod 12 has a frame 13 through a frame 13.
It is attached to 4. As shown in FIG. 5, the nut 11 is fixed to a plate body 28 via screws 26, and the plate body 28 is fixed to the elevating plate 5. Therefore, the screw rod 12 rotates at a fixed position, and the lift plate 5 moves up and down via the nut 11. The fixing structure of the plate body 28 and the nut 11 is not limited. A sprocket gear 15 is attached to the lower end of the screw rod 12.
One side of the boss 16 of the (teeth 40) is connected, and the other side of the boss 16 is connected to the output shaft 1 of the geared motor 17 for driving the spindle.
8 and the joint 19 via a joint 19. A photo sensor 20 is arranged opposite to one side of the sprocket gear 15, and its output is connected as an input of a digital display 21. Reference numeral 23 in FIG. 2 denotes a joint.

In the above description, the frame 1 and the frame 14 are fixed to the machine body, and the spindle 3 is mounted so as to be vertically movable. Therefore, the cutter blade 22 also moves up and down. On the other hand, the printed circuit board moves horizontally along a moving path provided above the cutter blade 22.

The operation of the above embodiment will be described.

In FIG. 1, when the geared motor 17 is started, the screw rod 12 rotates via the output shaft 18 and the joint 19, so that the nut 11 moves in the direction of arrow 24 or 25 corresponding to the rotation direction. When the nut 11 moves in the direction of the arrow 25, the lifting plate 5 also moves in the same direction along with this, the spindle 3 also moves in the direction of the arrow 26 via the support piece 4, and the cutter blade 22 moves to the cutting position. , And the geared motor 17 is stopped and is set at a predetermined cutting position. In the above description, when the sprocket gear 16 of the boss 16 connected to the joint 19 also rotates, the rotation amount is detected by the photo sensor 20, the output of the photo sensor 20 is sent to the digital display 21, and the rotation amount is digitally displayed. . Since the height of the cutter blade 22 can be accurately known from this digitally displayed numerical value, the cutter blade 22 can be stopped at a predetermined height by stopping the geared motor 17. However, the cutter blade 22 to the digital display 21 in advance
By presetting the height of, the geared motor 17 can be automatically stopped at the position of the set numerical value.
In addition, in order to lower the cutter blade 22, the geared motor 17
The switch is switched to rotate the output shaft 18 in the opposite direction to the above, and the nut 11 is lowered in the direction of arrow 24.

In the above-described embodiment, the sprocket gear is provided with a photo sensor as the ascending / descending amount detecting means, but the optical sensor may be replaced with another optical or electrical rotation measuring device.

(Effect of the Invention) In this invention, the spindle of the cutter blade is configured to be automatically moved up and down and the amount of vertical movement is detected. By presetting the detection value corresponding to, there is an effect that the position of the cutter blade can be regulated with high accuracy. Therefore, there is an effect that the worker can cut the leads of the printed circuit board uniformly and without requiring a high degree of skill.

[Brief description of drawings]

FIG. 1 is a front view in which a part of the embodiment of the present invention is omitted, FIG. 2 is a side view in the same manner, FIG. 3 is a plan view in which a frame is also omitted, and FIG. FIG. 5 is a perspective view in which the nut and the plate body are similarly fixed. DESCRIPTION OF SYMBOLS 1 ... Frame, 3 ... Spindle 4 ... Supporting piece, 5 ... Elevating plate 6 ... Motor, 11 ... Nut 12 ... Screw rod, 15 ... Sprocket gear 17 ... Geared motor 18 ... Output shaft, 20 ... Photo sensor 21 ... Digital display, 22 ... Cutter blade

Claims (1)

[Scope of utility model registration request] 1. A spindle (3) of a cutter blade (22) is movably installed on a frame (1) of a machine having a printed circuit board moving path upward, and a support piece (4) of the spindle (3) is fixed. The spindle drive motor (6) is fixed to the lift plate (5), and the nut (11) fixed to the lift plate (5) is mounted on the frame (14) and screwed to the screw rod (12) that rotates in a fixed position. The lower end of the screw rod (12) is connected to the shaft of the spindle up / down motor (17), the sprocket gear (15) is fixed to the screw rod (12), and the sprocket gear (15) has a photo sensor ( 20) is a facing device, and the output of the photo sensor (20) is connected to the input of the digital display (21).