SU418585A1 - DEVICE FOR MEASURING DEFIBRATION RATE OF WOOD - Google Patents

Description

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A device for measuring the rate of defibration of wood is known, comprising a drum with spikes and a spring for pressing it against the ends of the balances.

The purpose of the invention is to improve the measurement accuracy and use the measurement results to control the defibration process.

It is achieved by the fact that the proposed device is equipped with peripheral and radial components of the speed of movement of the drum, the outputs of which are connected to the input of the computing unit.

FIG. 1 shows the described device, a general view; in fig. 2 is a block diagram of the device; in fig. 3 is a diagram of decomposing the speed of movement of the drum into components.

The device consists of a drum 1 with plugs 2; springs 3 to press it against the ends of the balaps; a sensor 4 of a circumferential speed component of a drum mounted on an axis 5 within it; a radial component sensor 6 of the speed of the drum receiving rotation via the cable 7, the tongue 8 and the counter spring 9 from the translational movement of the drum; brushes 10 rotated by the drum through the gear I. Sensors 4 and 6 are connected to a computing device 12 continuously determining the speed of wood defibration, the output of which is used to automatically control the process of defibration.

When wood is being defibrated, the drum 1 rotates with the spring 2, rotated by the spring 3 to the ends of the balances in close proximity to the surface of the stone through a window in the frame and the wall of the grinder. The speed of movement of the package of balances formed in the lower part of the shaft is equal to the speed of defibration of wood, and in the absence of translational movement of the drum, the peripheral speed of the latter. The rotation of the drum 1 is transmitted to the sensor 4 seated on the same axis 5 with it. The location of the sensor 4 inside the drum 1 reduces the size of the device and also improves the sealing of the sensor of the circumferential component of the drum speed. In the case of non-rolling over the unevenly lined wall formed by the ends of the individual balances, the drum reciprocates in the horizontal plane, which, by means of the cable 7, cheek 8 and the opposing rod 9, are converted into rotational movement of the sensor 6 of the drum speed component. The use of sensors of the same type simplifies the electrical circuit of the device.

The output signals of sensors 4 and 6 for measuring small angular velocities, for example, tachometric, electrostatic, or with differentiating links, are proportional to the circumferential, respectively.

The diagonal w bar component of the drum speed is fed to the input of the computing device 12, which produces a right-angled triangle triangle in a known way through the hypotenuse and the leg. The output signal of the computing device 12, which is proportional to the speed of wood defibration, and with a constant cross-sectional area of the shaft, proportional to the efficiency of the grinder in folding cubic meters per hour, is used to take into account the amount of worn wood and to automatically control the process of defibration. To eliminate the error in measuring the rate of defibration of wood that occurs during

by varying the drum engagement radius with the ends of the balances, in the latter, the full depth of the pinch 2 of drum 1 is inserted by spring 3 (the calculated radius is the drum radius), and the surface of the drum from sticking to it chips and wood pulp is cleaned with a brush 10 rotated by the drum through gear II, for example gear.

The subject of the invention is a device for measuring the speed of defibrating wood, containing a drum with spikes and a spring for pressing it against the mountaineers of balances, characterized in that, in order to increase the measurement accuracy and use the measurement results to adjust the process of defibration, it is equipped with sensors of circumferential and radial velocity components movement of the drum, the outputs of which are connected to the input of the computing unit.

Fig

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