SU618283A1 - Log-barking unit - Google Patents

Description

The invention relates to woodworking machinery, in particular, to devices for the charring of logs.

A known unit for filing logs containing logs, debarking machines with conveyors, remotely controlled log ejector and control panel I.

In a known installation, the operator manually sorts the logs into diameters and rocks. The installation cannot therefore operate in automatic mode without permanently serving personnel.

Also known is a setup for filming of logs containing log trailers, drive log removers, debarking machines and logic control unit of dump valves 2J.

However, in this installation, trees of all breeds are sent for fouling. It does not take into account the fact that, according to the processing technology, for example, birch should not be fermented. In addition, in this plant, trunks, for whatever reason, lacking bark, are also sent for fouling. All this leads to a reduction in the performance of the installation.

The purpose of the invention is to increase plant productivity.

This is achieved by the fact that the proposed installation is equipped with an automatic detection unit for logs that are not subject to fouling, rigidly installed in the casing above the logs and made in the form of a photoexposure meter, amplifier and constant light source, the output of the photoelectron meter being connected via an amplifier to the logic emitter unit.

FIG. I shows the functional setup diagram; in fig. 2 - unit for automatic detection of logs that are not subject to fumigation.

The installation (fig. I) contains debarking

Masks I-3, transporters 4-6, 7 log breakers, dumpers 8-12 and 13 with actuators - actuators 14, sensors 15.-17 control the presence of logs, remote control 18 of the optimal distribution of logs, which includes the node of average diameter determination log and block 20 logical control of resetR gre. 8, 9, 10, the sensors 21 control the diameter of the log and the remote control 22.

The drawing also shows a controlled log 23.

The installation also contains a photo-exponometer 24 rigidly mounted inside the casing 25, covering part of the logging mask 7. In the casing 25 a constant illumination source 26 is mounted, for example a lamp with a reflector, the light of which is directed to the log 23.

The photoexposure meter 24 through the amplifier 27 is connected to the logic control unit 20 by the dumpers 8, 9, 10.

Installed in the casing 25, the photoexponometer 24, the constant illuminance source 26 and the amplifier 27 form an automatic detection unit for logs that are not subject to firing.

The installation works as follows.

Each of the debarking machines 1, 2, 3 before starting work is adjusted to the processing speed that is optimal for a given interval of log diameter.

For example, machine 1 adjusts to a maximum speed for processing small diameter logs, machine 2 to an optimum speed for processing medium diameter logs, and machine 3 to a treatment for logs of large diameter.

When entering the log 7 logs 23 source 26 illuminates it.

The photoexposure meter 24 determines the illumination of the log 23, which depends on the type of wood. If a birch enters, then the illumination in the zone of the log will be maximum, and the signal from the photoexposure meter 24, amplified by amplifier 27, will go to block 20, which prohibits dropping of logs to debarking machines 1, 2, 3.

As a result, birch or logs that do not have bark are transported by logstock 7 further along the process flow, mine debarking masks 1, 2, 3.

Upon receipt of a log that needs to be fumigated, the illumination fixed by the photoexposure meter 24 is minimal and it does not work.

In this case, when logs 7 arrive at log 7, sensors 21 determine its diameter in several sections and give signals to node 19, which determines the average diameter of the log. As a result, a control signal appears at one of the outputs of node 20; For example, if a small diameter log has arrived and if there is no log on the conveyor 4, the signal is sent to the output connected to the actuator mechanism 14 of the dumper 10. The resetter 10 guides the log 23 to the conveyor 4 for edging in machine 1.

If, however, maschine 1 already has a log, then the signal from the output of the node 20 will come in the absence of the log in the debarking

Maschina 2, which is controlled by the sensor 16, to the actuator 14 of the ejector 9, when dropped, the log 23 on the conveyor 5 will go to the machine 2. In this way, when a log of small diameter is fed, it is directed to the debarking machine 1, which is configured to process logs such a diameter. And only if the machine is busy 1, the log will go to the next machine 2.

Similarly, when entering a log of medium diameter, it is directed to machine 2, which is tuned to such a diameter of the logs to be processed.

When a larger diameter log arrives, node 20 provides a control signal to the actuator 14 of the ejector 8, provided that the masking 3 is free, which is monitored by sensor 17. If conveyor 6 is occupied, the control signal will reach the actuator of the resetter 9.

Thus, an increase in the productivity of the proposed installation in comparison with the known ones was achieved due to the fact that birch and logs, which are free from bark and which do not need to be fumigated by technology, are automatically detected into the device by a block for determining logs that are not to be fumigated, and debarking maschins are freed from unnecessary work.

At the same time, the automatic detection of logs, which are not required to flash, allows you to fully automate the process, free yourself from the operators.

Claims (2)

1.Makovsky V.V. Fundamentals of Automation and Automation of Production Processes of Woodworking, M., “Lesna Industry, 1970, p. 341 2. USSR author's certificate “NO 562421, M. Cl. 2 In 27 L 1/00, 1974. fuz.i Rig.2