RU115290U1 - FRACTIONAL GRILLE - Google Patents

Abstract

A fractionating lattice, which includes rods diverging in the direction of manufacture, the converging ends of which are hinged, and the diverging ends are freely placed in stops on slats pivotally connected to each other, and a vibration apparatus connected to the articulation of the bars, characterized in that on the lower surfaces of the rods that come into contact with strips, there are stripes in the form of waves or triangles, the protrusions and valleys of which on adjacent rods are staggered.

Description

The utility model relates to the woodworking industry and can be used in the manufacture of multilayer wood boards.

Known forming machine for flooring a carpet of wood particles containing a fractionating grid, which includes diverging in the direction of manufacture of the rods mounted on a frame made with the possibility of vibration [A.S. USSR No. 574347, 09/29/1977, B.I. No. 36].

In the known lattice, only vertical vibrations are imparted to wood particles, which slows down the fractionation process.

Known fractionation lattice, including diverging in the direction of manufacture of the rods, the converging ends of which are pivotally mounted, and diverging are freely placed in the stops on the pivotally interconnected planks, and a vibrating apparatus connected to the articulation of the planks [RF Patent No. 2428304, 09/10/2011, B. AND. No. 25].

This grate has a low fractionation capacity, because wood particles perform oscillatory movements only in the horizontal plane due to the extension-compression of the rods.

The utility model solves the problem of increasing the productivity of fractionation of wood particles.

The technical result from the use of the utility model is to increase the productivity of fractionation of wood particles by giving the wood particles vibrational vibrations in an additional vertical plane.

This is achieved by the fact that in the fractionation grid, which includes rods diverging in the manufacturing direction, the converging ends of which are pivotally mounted, and the diverging ends are freely placed in the stops on the planks pivotally connected to each other, and a vibrating apparatus connected to the plank joint, according to the utility model, on the lower the surfaces of the rods that come in contact with the strips have strips in the form of waves or triangles, the protrusions and depressions of which on adjacent rods are staggered e.

The inventive fractionating grating is distinguished by the location on the lower surfaces of the rods that come in contact with the strips, there are strips in the form of waves or triangles, the protrusions and troughs of which on adjacent rods are staggered.

Improving the performance of the device is achieved by giving the wood particles vibrational vibrations in an additional plane.

Figure 1 shows the lattice at a maximum angle α between the strips; figure 2 - view of the rods with strips in the form of waves in the direction of the plane of the lattice across the direction of manufacture; figure 3 is a view of the rods with stripes in the form of triangles in the direction of the plane of the lattice across the direction of manufacture

The fractionation grid includes pivotally interconnected strips 1, and on the strips 1 there are rods 2 diverging in the direction of manufacture. In this case, the converging ends of the rods 2 are connected to the strips 1 by means of hinged joints 3, and the diverging ends are included in the stops 4 made on the strips 1, for example, in the form of pins and restricting lateral movement of the rods 2. On the lower surfaces of the rods 2 in contact with strips 1 in the stops 4, there are strips 5 in the form of waves or triangles, the protrusions and troughs of which on adjacent rods 2 are staggered. The strips 1 form a polygon connected by hinges 6. The lower protrusions of the hinges 6 are included in the grooves 7 located in the frame 8. This ensures rigidity of the structure. The frame 8 is made with a slope of 2 ... 6 ° towards the diverging ends of the rods 2. The center of the figure formed by the strips 1, for example, a hexagon, is aligned with the center of the rectangular window 9 of the frame 8. Under the window 9 is a forming conveyor (not shown in Fig.). The device also contains a vibrating apparatus 10 fixed in one of the grooves 7, the rod of which is connected to one of the hinges 6.

The device operates as follows.

The angle α between the strips 1 is set such that the distance between the rods 2 corresponds to the size intended for fractionation of particles. In this case, the vibrating apparatus 10 also takes the corresponding position in the groove 10. The vibrating apparatus 10 is turned on, which imparts reciprocating vibrations in the longitudinal direction from the planks 1 (horizontal vibration). In this case, as a result of longitudinal-rotational movements of the straps 1, the rods 2 perform longitudinal-transverse vibrations in the horizontal plane, and as a result of the movement of the strips (overlays) 5 in the form of waves or triangles along the straps 1, the rods 2 oscillate in the vertical plane due to that when the protrusion of the strip 5 is above the bar 1, the rod 2 is thrown up, and when the cavity is located, it falls under its own weight.

The forming conveyor is set in motion, wood particles are fed to form the lower layer of the chip carpet. Moving along the rods 2, the particles oscillate both horizontally and vertically due to the longitudinal-transverse and vertical vibrations of the rods 2, and move to the lower diverging ends of the rods 2. Moreover, the wood particles are staggered by the protrusions and depressions of the strips 5 they are thrown with a multidirectional tilt, which increases the speed of their advancement and sieving through the rods 2, i.e. fractionation rate. Further, the particles through the window 9 are placed in the chip carpet, and the particles of small fractions are sifted earlier and laid in the lower part of the lower layer of the carpet, and the particles of large fractions are sieved later and laid in the upper part of the lower layer of the carpet.

With an increase in the size of fractionated particles, the strips 1 are moved apart, the angle α between them increases and takes on a value corresponding to the rapid fractionation of particles of all sizes. With a decrease in the size of the fractionated particles, the trims 1 are shifted, decreasing the angle α.

A similar arrangement is made for the lattice located in the direction of movement of the forming conveyor and designed to fractionate the upper layer of the chipboard carpet. In this lattice, the rods 2 converge in the direction of manufacture, and the frame 8 has an inclination toward the diverging ends of the rods.

In the proposed device, the vibrational movement of the structure is carried out both in the horizontal and vertical planes due to the corresponding extension-compression of the rods, and due to their "tossing" when moving wave-like strips (overlays) along the slats. Therefore, particles are fractionated faster, which increases the performance of the lattice.

Claims (1)

Fractional grating, including rods diverging in the manufacturing direction, the converging ends of which are pivotally mounted, and the diverging ends are freely placed in the stops on the planks pivotally connected to each other, and a vibrating apparatus connected to the plank joint, characterized in that on the lower surfaces of the rods that make contact with strips, strips in the form of waves or triangles are located, the protrusions and depressions of which on adjacent rods are staggered.