JP3440308B2 - How to adjust the detector - Google Patents

Description

BACKGROUND OF THE INVENTION [0001] Field of the Invention The present invention relates to a detector for adjusting how such photoelectric switches. 2. Description of the Related Art As shown in FIG. 4, a photoelectric switch A is provided with a light projecting element 2 and a light receiving element 3 inside a front opening of a body case 1.
And a circuit board 4 provided with a distance detection circuit, a detection distance adjustment volume 5, and a display LED.
6 is incorporated in the main body case 1 and the cord 7 connected to the circuit board 4 is led out from the rear end of the case 1. Conventionally, the operation shaft 8 of the volume 5 is operated to rotate from outside the case. Was adjusted so as to obtain a predetermined detection distance. However, according to the detection distance adjusting means of the volume 5, if the adjustment amount of the volume 5 is different even with the photoelectric switch having the same detection distance, the angle of the mark previously attached to the outer surface of the operation shaft 8 is changed by the switch. Each time, it was different, and users often felt it was inconvenient. [0004] As a means for solving such a problem,
By performing laser trimming on the light emitting current control resistor 9 mounted on the circuit board 4 or replacing the resistor 9, the rotation angle of the volume 5, that is, the rotation angle of the operation shaft 8 is maintained at a predetermined value. To adjust the detection distance to a constant value. [0005] That is, the improved adjustment method is as follows. (1) Insert the interior parts into the main body case 1, (2) Set the operation shaft 8 of the detection distance adjusting volume 5 to a predetermined fixed rotation angle, (3) Next, move the detection object from the switch At the distance, the resistor 9 is laser trimmed until the switch output is turned off, or the resistor 9 is replaced and adjusted to an appropriate resistance value. According to this adjustment method, the rotation angle of the operation shaft 9 of each switch with respect to a certain predetermined detection distance becomes constant, so that the user can handle the switch without mistake. However, according to this adjusting method, since the adjusting step is inserted in the middle of the assembling step, the detection distance may change depending on the subsequent steps. In addition, the laser trimming process requires an expensive trimming device, and the replacement of the resistor is troublesome, resulting in a decrease in productivity. The present invention, a resistor without the need for or replaced or laser trimming, and its object is to provide an adjustment how the detection distance can be made to correspond with respect to the rotation angle of the volume adjustment operation shaft . [0010] In order to achieve the above object, a method for adjusting a detector according to the present invention includes an operation shaft of a detection distance adjustment volume exposed on an outer surface of a main body case. In the method of adjusting the detector, a step of actually measuring a detection distance in a state where the operation axis not marked with a mark for displaying a rotation angle is set to a predetermined rotation angle, and a volume rotation angle and a detection distance obtained in advance. And a step of attaching a mark to the operation axis with a rotation angle phase corresponding to the determined volume rotation angle based on the detected distance measured from the relationship. According to the present invention, the detection distance is measured for each detector after the detector is assembled, and a mark is attached to the volume operation axis set in advance at a fixed angle at an angle corresponding to the detection distance. The marks of the operation axes in the detectors having the same detection distance have the same angle. FIG. 1 shows a schematic configuration of the method of the present invention. In the method of the present invention, the adjustment of the detection distance is performed on the photoelectric switch as the assembled detector as follows. (1) In the photoelectric switch A in which various parts including the light projecting element 2 and the light receiving element 3 are incorporated in the main body case 1, the operation shafts 8 of the volume 5 are all fixed angles (for example, the center of the adjustment angle range, Corner). In this case, the end face of the operation shaft 8 has not yet been marked. The relationship between the rotation angle θ of the volume 5 and the detection distance L is obtained in advance as shown in FIG. (2) The assembled photoelectric switch A is placed at a fixed position, the detection object 10 is moved, and the detection distance L is detected by the distance measurement device 11.
_{In addition} to the actual measurement of ₀ , the volume rotation angle θ ₀ with respect to the actual detection distance L ₀ is calculated from the relational expression in FIG. (3) The rotation of the tampon printing mechanism 12 is controlled by the motor 14 via the rotation angle controller 13 based on the calculated rotation angle θ ₀ . (4) The mark M is printed on the end face of the operation shaft 8. FIG. 2 shows an example of a photoelectric switch adjusted by the method of the present invention. For example, in the case of a photoelectric switch having a standard detection distance of 50, when the volume operation shaft 8 is set at the center and the detection distance L ₀ is measured, for example, (a) 45 cm, (b) 50
cm, (c) 60 cm, etc. Here, in the method of the present invention, the actual detection distance L ₀ = 5
For the 0 cm photoelectric switch, as shown in FIG.
A mark M is attached to the center of the photoelectric switch having an actual detection distance L ₀ = 45 cm, and a mark M is attached at an angle deviated by a predetermined angle toward the MIN side as shown in FIG.
_For a switch of ₀ = 60 cm, a mark M is attached to the MAX side at an angle deviated by a predetermined angle, and (a)
In the switch (c), the detection distance is set to 50c by rotating and adjusting the switch M so that the mark M of the operation shaft 8 is located at the center.
m. That is, the switches located at the center of the mark M all have a detection distance of 50 cm. As shown in FIG. 2, a cross-shaped operation groove 20 is formed in the operation shaft 8 as an insertion portion of a driver for a rotation operation. An angle mark 21 indicating a corner is provided. As described above, according to the present invention, the following effects can be obtained. (1) Since the means for adjusting the angle at which the mark is attached is used to adjust the detection distance for eliminating the variation of the mark on the volume operation axis, it is expensive to perform laser trimming on the light emitting current control resistor. This eliminates the need for a complicated device or troublesome replacement of the resistor, thereby reducing equipment costs or improving workability. (2) Since the marking adjustment is performed after the detector is assembled, the detection distance does not change after the detection distance and the volume are adjusted, which is advantageous in stabilizing the quality. (3) Marking on the operation axis can be easily automated, which is effective for improving production efficiency.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory diagram showing a schematic configuration of a method of the present invention. FIG. 2 is a plan view of a photoelectric switch provided with marks according to the present invention. FIG. 3 is a relationship diagram between a volume rotation angle and a detection distance. FIG. 4 is a vertical sectional side view showing an internal configuration of the photoelectric switch. [Description of Signs] 1 Body case 5 Detecting distance adjusting volume 8 Operating axes θ, θ ₀ Volume rotation angles L, L ₀ Detecting distance

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. ⁷ , DB name) H01H 35/00 H01H 11/00 G01B 21/00-21/32 H03K 17/74-17/98

Claims (1)

(1) A method for adjusting a detector, wherein an operation shaft (8) of a detection distance adjustment volume (5) is exposed on an outer surface of a main body case (1). A step of actually measuring the detection distance in a state in which the operation axis (8), which is not provided with a mark for displaying a rotation angle, is set to a predetermined rotation angle; and a step of determining a volume rotation angle (θ) and a detection distance (L) obtained in advance. ), And a step of calculating a volume rotation angle (θ ₀ ) with respect to the actually measured detection distance (L ₀ ), and marking the operation axis (8) with a rotation angle phase corresponding to the determined volume rotation angle (θ ₀ ). (M). A method for adjusting a detector, the method including: