JP2855541B2 - How to measure base paper diameter - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial application field) The present invention relates to a base paper diameter capable of measuring a diameter of a new base paper when a new base paper is set in a base paper feeding machine and a new base paper is spliced to an old base paper. The measurement method.

(Prior art) Conventionally, when a new base paper is set on a base paper feeding machine and a new base paper is spliced with an old base paper, the splicing can be smoothly performed by adjusting the peripheral speed of the new base paper to the traveling speed of the old base paper. Was like that. The reason for this is to prevent excessive tension from being applied to the new base paper and the old base paper when splicing.
Therefore, it was necessary to accurately measure the diameter of the new base paper. In such a case, the diameter of the new base paper must be measured with a measure or the like.However, when the diameter of the new base paper is large, measurement with a measure or the like lacks accuracy and the work is dangerous and difficult. Was.

Therefore, a method of mechanically measuring a diameter has already been realized, but in reality, a mechanically complex measuring instrument is attached to the method.

FIG. 2 shows a stencil feeder incorporating a conventional stencil diameter measuring device. In FIG. 2, 11 is the old base paper, 15 is the new base paper,
14 is a turret arm, 18 is a rack and pinion mechanism provided on the side facing the new base paper 15, and 19 is a rack and pinion mechanism
A rack and pinion drive motor 18 drives the rack pinion mechanism 17, a photoelectric switch for diameter measurement provided at the tip of the rack and pinion mechanism 18, a pulse oscillator 12 incorporated in the rack and pinion drive motor 19, and a paster arm 13.

The principle of measuring the stencil diameter of this apparatus is as follows. The rack and pinion drive motor 19 is rotated, and the arm with the photoelectric switch 17 for measuring the diameter of the rack and pinion mechanism 18 is slid toward the center of the new stencil 15 to measure the diameter of the stencil. The moving distance of the arm until the light of the photoelectric tube of the photoelectric switch 17 is blocked is determined by the pulse oscillator 12.
And the new base paper diameter is calculated from this.

When the new base paper 15 is spliced from the state shown in FIG. 2 to the old base paper 11, the turret arm 14 is rotated counterclockwise to bring the peripheral surface of the new base paper 15 close to the running surface of the old base paper 11. The rotation of the turret arm 14 is stopped at the position, that is, at the paper splicing position. The detection of the turret arm 14 is performed by a detector (not shown) that detects a new base paper 15.

(Problems to be Solved by the Invention) However, in the base paper feeding machine incorporating the base paper diameter measuring device having the above configuration, the mechanism is complicated and large-scale, and the measurement accuracy is poor.

Moreover, the measurement mechanism hinders the rotation of the turret arm, so that the operability of the stencil feeder is poor. Further, when splicing, a dedicated detector for detecting the new base paper is required.

Therefore, an object of the present invention is to solve the drawbacks of the prior art and to provide a method for measuring a base paper diameter using a base paper feeding machine, which has a simple and compact base paper diameter measuring mechanism. I do.

(Means for Solving the Problems) According to the method of measuring the diameter of a stencil sheet according to the present invention, a pulse oscillator is attached to a drive unit of a turret rotating mechanism for rotating a turret arm, and a trajectory of the center of the stencil sheet fixed to an end of the turret arm is provided. Using a base paper feeding machine in which a photoelectric switch is attached in the vicinity and near the position where the new base paper is spliced to the old base paper, a predetermined positional relationship between the turret arm fixed position and the photoelectric switch, and the new base paper The new base paper diameter is obtained by calculation based on a value obtained by measuring the angle from the fixed position of the turret arm where the new base paper shields the photoelectric switch with the value obtained by one sensing of the photoelectric switch. It is characterized by the following.

Further, a more specific method of measuring the base paper diameter according to the present invention is to use the base paper feeder, set the trajectory radius of the center of the base paper to R, and rotate the turret arm when there is no base paper, to set the turret arm from a fixed position of the turret arm. Assuming that the angle until the arm blocks the photoelectric switch is θ _k , the angle θ _m from the fixed position of the turret arm on which the new base paper is set to the new base paper blocks the photoelectric switch at one time is set to θm. Based on the value obtained by measuring by sensing
It is characterized in that a new base paper diameter is obtained by calculation according to the following equation: r _x = 2Rsin [(θ _k −θ _m ) / 2].

Further, according to an embodiment of the present invention, in the above-described method for measuring the base paper diameter, the angle from the fixed position of the turret arm on which the new base paper is set to the time when the new base paper shields the photoelectric switch is determined by the pulse from the pulse generator. It is characterized by being calculated by:

(Operation) Since a pulse oscillator is mounted on the drive unit of the turret rotation mechanism that rotates the turret arm, the rotation of the turret arm that rotates according to the rotation of the drive unit is measured by measuring the rotation of the drive unit with the pulse oscillator. Then the base paper diameter can be calculated.

(Example) Hereinafter, an example of the present invention will be described in detail with reference to the drawings.

FIG. 1 shows a stencil feeder incorporating a stencil diameter measuring device used in the stencil diameter measuring method of the present invention. In FIG. 1, reference numeral 1 denotes old base paper rotatably supported at one end of the turret arm 4 and reference numeral 5 denotes new base paper rotatably supported at the other end of the turret arm 4. Reference numeral 3 denotes a photoelectric switch fixed on the tip of the Pester arm 8. A position near the running surface of the new base paper 1 near the running surface of the old base paper 1 near the locus of the base paper center due to the rotation of the center of the turret arm 4. In the vicinity of the paper splicing position. Then, when the new web is rotated and the photoelectric switch 3 on the Pester arm 8 is shielded from light, the rotation is stopped.

Reference numeral 6 denotes a turret rotation motor for rotating the turret via a worm 7 which is a drive unit of a turret rotation mechanism when the old base paper 1 and the new base paper 5 are spliced by rotating the turret. The above components are the same as those of the conventional base paper feeding machine. The present invention utilizes the mechanism of the conventional feeding machine, and attaches the pulse oscillator 2 to a part of the mechanism, that is, the worm 7 which is a drive unit of the rotating mechanism of the turret arm 4.

 FIG. 3 is a diagram showing the principle of measuring the base paper diameter according to the present invention.

Here, R, r _x , θ _k , and θ _m are defined as follows.

R: trajectory radius of the center of the turret, r _x : diameter of the new base paper, θ _k : angle at which the turret arm 4 moves from the fixed position when there is no new base paper 5, θ _m : fixed position when the new base paper 5 is set , The angle at which the turret arm 4 moves, θ _x : the angle corresponding to the new base paper diameter.

FIG. 3 shows a state in which the new base paper 5 is moved from the home position to take over the old base paper 1 to the new base paper 5 and the photoelectric switch 3 is shielded from light.

In this case, the turret arm 4 is rotated by theta _m, it pulses proportional to the rotation angle theta _m is obtained from the pulse oscillator. Here, from the rotation center of the turret arm 4, θ
_When a line that divides _x is drawn, a perpendicular line that exactly divides the new base paper diameter r _x into two is formed.

θ _x / 2, r _x / 2, and R hold the following relationships.

sin (θ _x / 2) = (r _x / 2) × (1 / R) = r _x / 2R Therefore, the following equation is derived.

r _x = 2Rsin (θ _x / 2) Equation A θ _k and θ _m obtained by the measurement have the following relationship with θ _x .

θ _x = θ _k −θ _m Expression B Therefore, the following expression is derived from Expressions A and B to obtain r _x .

r _x = 2R sin [(θ _k −θ _m ) / 2] Expression C: The trajectory radius R of the center of the base paper and the angle θ _k at which the turret arm 4 moves from the fixed position when there is no new base paper 5 are the base paper. because it is already the value set in the feeding unit, in fact, the site in the new web is when the diameter is measured from the home position when setting the new web 5 the turret arm 4 is only rotating angle theta _m to photoelectric switch 3 If you measure the
r _x can be obtained. Further, since the position where the new base paper diameter r _x is obtained is the position where the new base paper 5 is spliced with the old base paper 1, the splicing position can also be obtained by the photoelectric switch 3.

FIG. 4 shows a configuration diagram of a base paper diameter output system. Base paper diameter output system configuration diagram shows pulse oscillator 2, counter circuit, D /
It is composed of an A conversion circuit and an arithmetic circuit. This performs the calculation of the C-type in the base paper diameter output system, measures the pulse of the resulting theta _m in the pulse oscillator counter circuit, then
D / A conversion is performed, and then, through the arithmetic circuit, the trajectory radius R of the turret obtained in advance and the angle θ _k at which the turret arm moves when there is no new base paper 5 are substituted to calculate the above formula C. And output the new base paper diameter.

This hardware configuration is merely an example, and digital signal processing can be directly performed using a CPU.

(Effects of the Invention) The method for measuring the base paper diameter according to the present invention uses a base paper feeding machine using the mechanism of the conventional base paper feeding machine, attaches a pulse oscillator to a part of the mechanism, and replaces the photoelectric switch with the old base paper. It is merely provided in the vicinity of the position where the splicing is performed on the base paper, and the splicing position can be detected simultaneously with the measurement of the new base paper with respect to the conventional base paper feeding machine. In addition, the diameter of the new base paper can be obtained by one sensing of the photoelectric switch. Thus, the number of detectors can be reduced, and the number of operation steps is also reduced, so that the operation can be performed quickly. Also, a special rack and pinion mechanism for diameter measurement, a rack and pinion drive motor, and a photoelectric switch for diameter measurement are unnecessary, so the mechanism is compact, and there is no complicated and large-scale mechanism for measuring the base paper diameter. The operability is good, and the measurement error is reduced to improve the accuracy.

[Brief description of the drawings]

FIG. 1 is a view showing a base paper feeder incorporating a base paper diameter measuring device used in the method of measuring the base paper diameter of the present invention, FIG. 2 is a view showing a base paper feeder incorporating a conventional base paper diameter measuring apparatus,
FIG. 3 is a diagram showing the principle of measuring the base paper diameter of the present invention, and FIG. 4 is a configuration diagram of the base paper diameter output system of the present invention. 1. Old base paper 2. Pulse oscillator 3. Photoelectric switch 4. Turret arm 5. New base paper 6. Turret rotating motor 7. Warm

Claims (3)

(57) [Claims] 1. A pulse generator is mounted on a drive unit of a turret rotation mechanism for rotating a turret arm, and a new base paper is spliced to an old base paper near a locus of a center of a base paper fixed to an end of the turret arm. Using a base paper feeder having a photoelectric switch mounted near the position, the new base paper is obtained from the fixed position of the turret arm and the predetermined positional relationship between the photoelectric switch and the fixed position of the turret arm on which the new base paper is set. A method for measuring a diameter of a base paper, wherein a new base paper diameter is obtained by calculation based on a value obtained by measuring an angle until the photoelectric switch is shielded from light by one sensing of the photoelectric switch. 2. A turret rotation mechanism for rotating a turret arm is provided with a pulse generator mounted on a drive unit, and a new base paper is spliced to an old base paper near a locus of a base paper center fixed to an end of the turret arm. Using a base paper feeder with a photoelectric switch attached near the position, let the trajectory radius of the center of the base paper be R, and when there is no base paper, the turret arm will block the photoelectric switch from the fixed position of the turret arm by rotation of the turret arm when the angle theta _k until to obtain an angle theta _m from the home position of the turret arm equipped with a new web until該新sheet shields the photoelectric switch as determined by single sensing photoelectric switch A new base paper diameter calculated by the following equation, r _x = 2Rsin [(θ _k −θ _m ) / 2], based on the obtained base paper diameter. Law. 3. The method for measuring the diameter of a stencil sheet according to claim 1, wherein an angle from a fixed position of a turret arm on which the stencil sheet is set to a point at which the stencil light shields the photoelectric switch is determined by a pulse from a pulse generator. A method for measuring a base paper diameter, which is obtained by calculation.