RU2696969C1 - Debarking method of timber - Google Patents

Abstract

FIELD: woodworking industry.

SUBSTANCE: invention relates to woodworking industry, in particular, to debarking of timber. High-temperature flue gases are supplied from the nozzle to the timber for debarking, the kinetic and thermal energy of which is sufficient for separation of bark. Flue gases are formed in combustion chamber where fuel and air mix is burnt. Timber for debarking is turned along the longitudinal axis so that the next section of its surface falls under the effect of the flue gas jet. Upon completion of the full rotation of the timber for debarking, the nozzle is moved along the longitudinal axis of the timber for debarking to the width of the nozzle. Cycle is repeated till the dug timber is completely dug.

EFFECT: higher efficiency of debarking of frozen timber.

3 cl, 1 dwg

Description

The invention relates to the forest industry and can be used for debarking timber.

There is a method of debarking timber, which consists in separating the bark of the tree from the wood using special tools that have a mechanical effect on the bark [Birman, A. R. Technology and equipment of timber depots and woodworking shops. Mechanical debarking of timber: a training manual / A. R. Birman, B. M. Lokshtanov, A. E. Gulko et al. - St. Petersburg: St. Petersburg State Technical University, 2013. - 92 p. - S. 13].

The disadvantage of this method is the inability to accurately copy the natural surface of the wood.

There is a method of debarking timber, which consists in separating the bark of the tree from the wood using a series of nozzles (nozzles), from which water jets having sufficient energy provided by a pump are supplied to the bark to separate the bark from the wood due to hydromechanical effects on the bark and hydroerosive effects at the junction of the bark with wood [Birman, A. R. Technology and equipment of timber depots and forestry shops. Mechanical debarking of timber: a training manual / A. R. Birman, B. M. Lokshtanov, A. E. Gulko et al. - St. Petersburg: St. Petersburg State Technical University, 2013. - 92 p. - S. 11].

The disadvantage of this method is the significant consumption of water necessary for its implementation.

The closest is the method of debarking of timber, which consists in separating the bark of the tree from the wood using a series of nozzles, from which air streams are supplied to the bark to be separated, which have sufficient energy provided by the compressor to separate the bark from the wood due to the pneumomechanical effect on the bark and the air erosion effect in the junction of the bark with wood [Birman, A.R. Technology and equipment of timber depots and forestry workshops. Mechanical debarking of timber: a training manual / A. R. Birman, B. M. Lokshtanov, A. E. Gulko et al. - St. Petersburg: St. Petersburg State Technical University, 2013. - 92 p. - S. 12].

The disadvantage of this method is the low efficiency in the processing of frozen timber.

The technical result consists in the ability to effectively process frozen timber.

The technical result is achieved by the fact that the method of debarking of timber, which consists in separating the bark of a tree from wood using a series of nozzles (nozzles) from which air jets are fed to a bark to be separated, according to the invention, high-temperature flue gases are supplied to the wood to be sprayed from a series of nozzles (nozzles), the kinetic and thermal energy of which, sufficient to separate the crust, is generated in the combustion chamber, in which the mixture of fuel and air, high-temperature flue gases, along with gas-dynamic m and gas-erosive effect on the bark and the place of its connection with wood have a thermal effect, consisting in heating and evaporation of moisture contained in the bark and the place of its connection with wood, high-temperature flue gases are formed in the combustion chamber, both during isochoric and isobaric processes combustion of a mixture of fuel and air.

In FIG. 1 presents a diagram of the implementation of the claimed method of debarking timber.

Work on the claimed method is as follows. A flue gas stream 4 is directed to the wood to be painted 1 using a nozzle 2 from the combustion chamber 3 into which fuel and air are supplied, which exerts gas-dynamic, gas-erosive and thermal effects on the bark 5 and its connection with wood 6. Thermal effect of the flue gas stream 4 to the bark 5 and the place of its connection with the wood 6 consists in heating and evaporation of moisture contained in the bark 5 and the place of its connection with the wood 6, which helps to reduce the effort required to separate the bark 5 from the wood 6. Due to gas erosion and thermal effects, the bonds between the bark 5 and the wood 6 are destroyed 6. After that, on a certain surface area of the wood to be painted 1, under the gas-dynamic action of the flue gas stream 4, the bark 5 is separated from the wood 6. After that, the wood being baked 1 rotates along its longitudinal axis in the direction indicated in FIG. 1 by an arc arrow, so that under the action of a stream of flue gases 4 the next section of its surface enters. Upon completion of the complete revolution of the wood to be sprayed 1, the nozzle 2 moves along the longitudinal axis of the wood to be sprayed 1 in the direction indicated in FIG. 1 with a straight arrow to the nozzle width, after which the cycle is repeated until the wood to be boiled is completely debarked 1. High-temperature flue gases 4 are formed in the combustion chamber 3, both during the isochoric and isobaric combustion of the mixture of fuel and air, which helps to reduce the effort required to branches of bark from wood and allows you to efficiently process frozen timber.

Claims (3)

1. The method of debarking of timber, which consists in separating the bark of the tree from the wood using a nozzle supplying gas, characterized in that high-temperature flue gases, the kinetic and thermal energy of which is sufficient to separate the bark, formed in the combustion chamber, are supplied to the barked wood from the nozzle which burns a mixture of fuel and air, and the wood to be sprayed is rotated along the longitudinal axis so that the next section of its surface falls under the action of a stream of flue gases, and about the completion of a complete turn of the wood to be sprayed, the nozzle is moved along the longitudinal axis of the wood to be painted to the width of the nozzle, after which the cycle is repeated until the complete debarking of the wood to be painted. 2. The method of debarking of wood according to claim 1, characterized in that the high-temperature flue gases, along with gas-dynamic and gas-erosive effects on the bark and its connection with the wood, have a thermal effect consisting in heating and evaporation of moisture contained in the bark and its connection with wood. 3. The method of debarking timber according to claim 1, characterized in that high-temperature flue gases are formed in the combustion chamber, both during isochoric and isobaric combustion of a mixture of fuel and air.

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