SU1159780A1 - Disc-type chipper - Google Patents

Abstract

DISK CUTTING MACHINE, having a casing with a receiving chuck and an anvil and mounted on a shaft in the casing, a drive vertical disc with spiral knives fixed on it with straight cutting edges, with the knives on each helix arranged at different angles relative to the radii through the midpoints of their cutting edges, characterized in that, in order to reduce the energy intensity of the cutting process, to reduce the vibration load during cutting on the horizontal countercutter, the receiving cartridge is positioned horizontally side of the shaft and deflected toward the periphery of the disc, blades have a length not more than 1/4 of the disk radius length, and the angle between the cutting edges and the radius drawn through their midpoints equal to a arctg T J «embedded Cochran wherein - the peripheral speed of the blade; Kttar - the set speed of implementation of night. J into the wood, and the angle J3 between the radii drawn (L through the midpoints of the cutting edges of adjacent knives is equal to. J H-S where N is the total number of knives; S is the number of spirals. SP co oo

Description

The invention relates to woodworking machinery and can be applied to obtain process chips. Disc chippers are known which contain a vertically mounted disk with radial knives and a receiving loading cartridge mounted obliquely to the plane of disk 1 - 3. A disadvantage of these devices lies in significant power consumption due to the presence of radial knives and high vibrations. A disc chipping mask is known, comprising a vertical disk with spiral knives mounted in a housing and a power cartridge, at an angle to the disk plane and having a vertical and horizontal counter knife 4. The disadvantage of such a device is the difficulty of manufacturing and sharpening spiral knives. A disk chipping mask is also known, comprising a housing with a receiving chuck and an anvil, and a drive vertical disk mounted on a shaft in the housing with knives secured on it in spirals with straight cutting edges, with the knives on each spiral at different angles with respect to the radii, conducted through the midpoints of their cutting edges 5. However, for a known disc chipper, a significant power consumption is characteristic, since it does not provide a tangential cut, which has less energy Stu, moreover, excessive tratits power and supply timber due negorizontalnosti receiving cartridge, and since the cut takes place on the vertical counter knife, then there are higher vibratory loads, reducing the service life maschiny nodes. The purpose of the invention is to reduce the energy intensity of the cutting process and reduce the vibration loads during cutting on the horizontal counter knife. This goal is achieved by the fact that, in the disk chipper, comprising a housing with a receiving chuck and a clamp and mounted on a shaft in the housing, a drive vertical disk with knives with straight cutting edges mounted on it, and the knives on each helix are located under different angles relative to the radii drawn through the midpoints of their cutting edges, the receiving cartridge is positioned horizontally to the side of the shaft and deflected toward the periphery of the disk, the blades have a length of not more than 1/4 the length of the disk radius, the angle between the cutting edges of the knives and the radius drawn through their midpoints are equal to JV OK.р where 1 / о «p is the speed of the knife; 1 / vior is the specified rate of penetration of the knife into the wood, and the angle j5 between the radii drawn through the midpoints of the cutting edges of the adjacent knives is 360 where N is the total number of knives; S is the number of spirals. FIG. 1 shows the masonry maschina, general view; in fig. 2 is a view A of FIG. one; FIG. 3 shows a machine disk with chippers mounted on it. The chipper disk contains a housing 1 with a receiving (loading) cartridge 2 and an anvil (not shown). In the housing 1 on the shaft 3 there is a vertical drive disk 4 with knives 5 fixed on it in spirals (Fig. 3) with straight cutting edges 6. These knives on each spiral are located at different angles with respect to the radii through the middle their cutting edges 6. Receiving cartridge 2 is located horizontally to the side of shaft 3 and is deflected towards the periphery of disk 4, i.e. the axis of the cartridge forms an acute angle with the plane of the disk and, moreover, can lie in the same plane with the axis of the shaft 3 of disk 4 The knives 5 (or their cutting edges) are no longer than e 1/4 of the length of the radius of the chipper disk 4, and the angle between the cutting edges of the knives and the radius drawn through their middle is a arctg where Wakr is the circumferential speed of the knife; Usvdr - given the rate of penetration of the knife into the wood. The angle between the radii drawn through the midpoints of the cutting edges of adjacent knives is equal to - # V where N is the total number of knives; S is the number of spirals. It should be noted that these radii can be carried out not only through the middle of the cutting edges, but through any identical points of the knives. There are slots 7 on the disk to remove chips, and the housing is provided with chips. Chipping machine works as follows. The receiving horizontal cartridge 2 of the timber (wood) is fed to the chipper disk 4. The knives 5 alternately, blocking the tracks of one another, are inserted at a small angle into the tree, thereby making a tangential cut. Chips through slots 7 and sleeve 8 are removed from the cutting area.

Thus, the design features of the proposed chipper:. short straight knives mounted on a disk in a spiral and set at an angle to the radius drawn through the middle of the cutting edge, and this angle is close to 90 °, which corresponds to the small angle of penetration of the knife into the wood, the choice of distance

between knives (i.e. the angle between the radii drawn through the middle of the cutters, their edges of the adjacent knives) such that the trajectories of the knives overlap each other, the horizontal loading cartridge installed on the side and at the axis of the disk shaft, all together reduce the energy intensity cutting of wood into ilepu compared with other known chippers of this type.

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Claims (1)

DISC CHAINING MACHINE having a case with a receiving chuck and a counter-knife and a vertical drive with a knife mounted on a shaft in the case with knives with straight cutting edges mounted on it in spirals, the knives on each spiral being located at different angles with respect to the radius drawn through the middle their cutting edges, characterized in that, in order to reduce the energy intensity of the cutting process, reduce vibration loads when cutting on a horizontal counterknife, the receiving cartridge is located horizontally to the side of shaft and deflected towards the periphery of the disk, the knives have a length of not more than 1/4 of the length of the radius of the disk, the angle a between the cutting edges and the radius drawn through their midpoints is equal to where Ko «p is the peripheral speed of the knife; y _in ""c> is the predetermined speed of knife penetration into the wood, and the angle β between the radii drawn through the midpoints of the cutting edges of adjacent knives is 360 K-S where N is the total number of knives; S is the number of spirals. >