SU1096106A1 - Apparatus for monitoring log diameter when splitting veneer - Google Patents

Abstract

A DEVICE FOR CONTROLLING A CHASSEL'S THICKNESS THROUGH A VENEER, comprising a housing with a caliper mounted on it with a drive, a rotational speed converter of a support screw, characterized in that, in order to improve the accuracy of deflection of the churak diameter, it is sleep. drive speed converter; This caliper is equipped with a caliper movement sensor, a caliper movement direction sensor, a caliper position monitoring sensor, two coincidence input elements, a reversible counter, two Ta i i output elements and a display unit, where the outputs of the caliper movement sensor and the movement direction of the caliper are connected to the inputs of the coincidence input elements, which outputs are connected to the direct and inverse inputs of the reversible counter, the installation input connected to the output of the position control sensor supp mouth, thus indicating node s input is connected to the outputs of the output (A matcher elements, first inputs of which are connected to the outputs of down counter, and the latter - to the output of sensor control fragmentary veneer.

Description

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The invention relates to wood processing, mainly to shelling machines.

A device for controlling the diameter of the chora while veneer peeling is known, which is connected to the drive of the working body of the electromechanical converter.

The disadvantage of this device is the low accuracy of determining the diameter of the block.

Closest to the present invention is a device comprising a housing with a caliper mounted thereon with a drive and a rotation speed converter of the spindle screw. caliper 2.

However, this device is characterized by insufficient accuracy in determining the diameter of the block.

The purpose of the invention is to improve the accuracy of determining the diameter of the block.

The goal is achieved by the fact that the device is equipped with a sensor for monitoring torn veneer, and the rotational speed converter of the driving screw of the caliper is equipped with a caliper movement sensor, a caliper movement direction sensor, a caliper position control sensor, two coincidence input elements, a reversible counter, two-angle coincidence output elements and a node and 1, and the outputs of the sensors of the movement of the caliper and the direction of movement of the caliper are connected to the inputs of the input elements of coincidence, which are the outputs connected to the direct and inverse inputs of the reversible counter, the installation input of the sup- port control connected to the output of the sensor, the input display unit connected to the matches of the output elements, the first inputs of which are connected to the outputs of the reversible counter, and the second to the output ragged veneer sensor

FIG. 1 shows the proposed device, a general view; Fig. 2 is a structural electrical circuit diagram of the device.

The device includes a caliper position control sensor 1, a caliper 2, a housing 3, a spindle 1 unit 4, a caliper knife 5, a support spindle 6, a ragged veneer control sensor, a caliper movement sensor 8, a caliper drive 9, a screw rotation speed converter 10, a sensor 11 directions of movement of the caliper, two elements of the 12 and 13 coincidence

reversible counter 14, output elements 15 and. 16, the display unit P, in which the outputs of the sensor 8 and 11 are connected to the inputs of the input elements 12 and 13, which are connected to the direct and inverse inputs of the reversing counter 14, the installation input of the support 2 positioned on the output of the sensor 1, This node 17 display input connected to the outputs of the output elements 15 and 16 match, the first inputs of which are connected to the outputs of the reversible counter 14, and the second to the output of the sensor 7 control torn veneer installed on the housing 3 from the side of the veneer .

The device works as follows.

After the device is put into operation, sensor 1, monitoring the position of the caliper 2, inserts through the installation input into the reversible counter 14 a code for the block radius equal to the distance from the axis of the spindles 4 to the cutting edge of the knife 5.

When moving the caliper 2 when peeling or moving the caliper 2 to the spindle 4, the sensor 11 of the direction of movement of the caliper 2 by a signal from one of its outputs opens the input element 12 of coincidence. In this case, the pulses from the sensor 8 of the displacement of the caliper 2 through the open input element 12 coincidence arrive at the inverse input of the reversible counter 14. The contents of the reversible counter

14 (code of radius of the block) is reduced If at some point from the sensor

7 of the control of a ragged veneer, a resolving signal appears, then the code for the chushka chars, currently characterizing its radius, arrives at the display unit 17 from the reversible counter 14 through the output elements

15 and 16 matches. The elements of the display unit 17 illuminate the specified radius value after rounding

On retraction of the caliper 2 from the spindles 4, the sensor 11 of the direction of movement of the signal from its other output opens the input element 13 of coincidence. Through the specified element, the displacement pulses of the caliper 2 from the sensor 8 of the displacement of the caliper are delivered to the direct input of the reversible counter 14, increasing its contents.

Thus, the proposed device provides an increase in the accuracy of determining the diameter of the block.

Claims (1)

DEVICE FOR CHURK THICKNESS CONTROL WHEN PERFORMING THE VENEER, comprising a case with a support mounted on it with a drive, a caliper spindle rotational speed converter, which, in order to improve the accuracy of determining the diameter of the churak, is equipped with a sensor for monitoring veneered veneer , and the lead-in rotational speed converter; This caliper is equipped with a caliper displacement sensor, caliper directional direction sensor, caliper position control sensor, two input matching elements, a reversible counter, two output matching elements and an indication unit, the outputs of the caliper displacement sensors and caliper movement directions being connected to the inputs of the coincidence input elements, which outputs connected to the direct and inverse inputs of the reversible counter, installation input connected to the output of the caliper position sensor, p In this case, the input indication unit is connected to the outputs of the output matching elements, the first inputs of which are connected to the outputs of the reversible counter, and the second - to the output of the torn veneer monitoring sensor. SU, 1096 106 Fp1