SU864312A1 - Device for marking logs - Google Patents

Description

(54) DEVICE FOR MARKING LOGS

Claims (3)

The invention relates to the timber and woodworking industry and can be used for automatic marking, wood in equal lengths. Measuring the diameters of the log cross-sections at equal distances along its length is a mandatory operation to take round timber into actual volume measures. Therefore, a device for automatic marking of logs issued to the functional diagram of the actual volume measuring round timber is transmitted The sensor of the diameters of the next log segment of a given length is its inalienable functional unit. A log counter is known that includes a diameter sensor, a length sensor with a photosensor, a recording unit and a command device. The sensor is made on a disk kinematically associated with a log break and its full rotation corresponds to moving the log by a certain distance. After the measured log is within the range of the photosensitive length sensor, pulses from the latter enter the registering unit of the log counter 1 However, the length of the measured length of the log is always longer than the specified one, since the marking of the log does not start from the moment when it crosses the front end of the optical axis of the diameter sensor, and some time later, when the latch position of the conveyor chain takes the position corresponding to the origin. Closest to the invention, the technical essence is a device for automatically measuring and counting logs on longitudinal conveyors, including sensors for the path, length and diameter, a decoder, a switch, an adder and registering a 1 × 1 unit. - The sensor of the kinematically path is connected with the conveyor and, during its movement, pulses are generated at one of the inputs of the length sensor. Its second input receives a signal from the dameter's sensor. After the appearance of a paged log in the sensor, the signal from the diameter sensor enables the pulses from the path sensors to be transmitted through the length sensor 2. A disadvantage of the known device is the low measurement accuracy and reliability in operation, due to the kinematic connection of the track sensor with the moving parts of the conveyor, as a result of which the first segment of the log to be measured is more subsequent. The purpose of the invention is to improve the accuracy and reliability of the device. The goal is achieved by including pulse counters, a comparison unit and a pulse generator connected to the first inputs of the pulse counters, the output of which is connected to the output of the device / device and the second input of the first pulse counter, the sensor and meter are connected to the second input of the second pulse counter, the output of the path sensor is connected to the third input of the pulse counters. The drawing shows a block diagram of the device marking logs. The device comprises a pulse generator 1, a second counter 2 pulses 2, a first counter 3 pulses, a log 4, a diameter sensor 5, a path sensor 6 and a comparison unit 7. The device works in the following way. When the conveyor is switched on, a pulse generator 1 is started, from which the pulses arrive at the inputs of the pulse counters. 2 and 3. At the time of the occurrence of the measured log 4 in the diameter sensor 5 (position I), a signal is sent from it to the second pulse counter 2, allowing counting and storing of the number of pulses received from the pulse generator 1 Next when the front face of the log 4 is crossed the sensor track 6 (position II), located along the movement of the log 4 at a distance equal to a predetermined length of sections, the latter operates and generates a signal prohibiting the counting of pulses fed to the input of the second counter 2 pulses and simultaneously enabling the count t pulses of the first counter 3 pulses coming from the generator I pulses. After the number of pulses counted by the first counter of 3 pulses becomes equal to the number of pulses received earlier in the second counter of 2 pulses, which indicates passage through the next segment through diameter sensor 5 {position W, block 7 compares the coincidence signal, which goes to the functional scope of the volume metering scheme. At the same time, by the coincidence signal, the first counter of 3 pulses resets the readings and returns to the original polynomial, continuing the counting of pulses from zero. The pulse counting process continues until the number of pulses equals the number of pulses counted previously by the second counter of 2 pulses at the beginning of the cycle, followed by the return of the first counter of 3 pulses to its original position and the start of a new counting until the measured log moves in front of the sensor 6 way. At the moment of intersection of the sensor path 6 by the rear end of the log 4, the latter issues a command to return the second counter 2 pulses and the first counter of the 3 pulses to the initial position and prohibit the passage of pulses through the first counter 3 pulses G When the next measured log passes through the diameter sensor, equal segments of a given length are repeated. The proposed device provides an increase in the accuracy and reliability of log marking, which determines the economic efficiency of its use. The invention includes a log sensor that includes a diameter sensor and a path sensor, which in order to improve the accuracy and reliability of the device, pulse counters are introduced into it. comparison unit