RU112202U1 - SORTING DEVICE - Google Patents

Abstract

1. Sorting device, including a permeable surface, a suction chamber made of sections, loading devices, collectors of separation products and an injection chamber, characterized in that the permeable surface is made in the form of an endless belt and is fixed with the ability to move on the conveyor shafts. ! 2. Sorting device according to claim 1, characterized in that the conveyor belt in the transverse plane has an inclination angle of 15-30 °, and the suction chamber is made of sections in which the vacuum decreases in the direction of the belt movement.

Description

The utility model relates to the field of cleaning technological chips from greens, bark, impurities, etc. and can be used in pulp and paper mills (PPM) in the production of pulp.

A device for cleaning technological chips of logging waste [SU 589313 A, 1975], including a permeable surface mounted with the possibility of rotation and located inside its suction chamber, loading device and collections of separation products.

In the known device, the chips are cleaned sequentially on two drums. Its disadvantage is the complexity of the hardware design. In addition, the device does not provide for cleaning the permeable surface from adhering leaves, which reduces the separation efficiency.

The closest in technical essence and the achieved result to the proposed utility model is a device for cleaning technological chips of logging waste [SU 1045955 A, 10/07/1983], including a permeable surface mounted with rotation, suction chamber, loading devices, separation products collections , the injection chamber and the permeable surface in the form of a cone mounted by the apex towards the loading side, and the suction chamber is made of sections in which the vacuum decreases towards permeable surface growth.

In the known device, the separation of wood chips into components, i.e. sorting into bark, impurities and wood-based particles is carried out under the condition that the particles making up the chips fall off from a rotating permeable surface, namely when the total component of the forces holding the particle (the main of which are the pneumatic pressing force and the friction force of the particle on the permeable surface) is less than the sum forces tearing off the particle (centrifugal force and rolling force). Other things being equal, the friction force and rolling force depend on the mass of the particle. Pneumatic force - a constant value in each area. And the centrifugal force depends on the radius and the farther the particle is from the top of the cone, the greater the centrifugal force affects it. But the particles are placed on the surface in the form of a path equal to the width of the ring. Naturally, the closer the particle is to the apex of the cone, the (ceteris paribus) it will later come off the surface. A particle with the same characteristics, but located at a greater distance, will come off earlier.

Therefore, the same particles, depending on the location on the permeable surface (closer and further from the top of the cone), will fall into different collectors, and this reduces the quality of sorting and leads to loss of conditioned fraction of wood chips.

It is possible to make the centrifugal force the same for all particles, but this will lead to a decrease in the width of the ring with a permeable surface, and this will drastically reduce productivity. And instead of one sorting device for high-quality processing of the same volume of wood chips, several similar ones will be required.

The complexity of a uniform proportional increase in pressure (in the areas of the suction chamber) from the top of the cone to its base will greatly complicate the hardware design, which will significantly increase the cost of the sorting device for the pulp and paper mill (this is possible only in scientific laboratories).

In addition, dropping particles from the permeable surface along a tangent by centrifugal forces leads to an increase in the dimensions of the device due to the fact that the collectors of separation products are located around the conical surface (tangent).

The technical problem solved by the utility model is the development of the design of a sorting device that allows high-quality, high-performance and smaller dimensions to separate the chips into components (impurities, bark and wood particles).

The technical result is achieved in that the sorting device, including a permeable surface, a suction chamber made of sections, loading devices, collectors of separation products and a pressure chamber, according to a utility model, the permeable surface is made in the form of an endless belt and is fixed with the possibility of movement on the conveyor shafts and has in the transverse plane, an inclination angle of 15-30 degrees, and the suction chamber is made of sections in which the pressure decreases towards emescheniya tape.

The essence of the proposed utility model is illustrated by the figures: figure 1 shows a sorting device (side view, and the suction chamber is shown for clarity in section); figure 2 is a top view.

The sorting device consists of a loading device in the form of a feeding conveyor 1, a sorting device 2 with an endless belt 3 with a permeable surface in the form of a mesh 4 having an inclination angle of 15-30 degrees, mounted on the shafts of the conveyor 5, the suction chamber 6 with sections A , B and C, the vacuum in which decreases in the direction of movement of the tape, and the injection chamber 7 (for blowing greens and purging the grid in Fig. 2 is shown with a dashed line) with one section D. Collectors of separation products 8, 9, 10 and 11 in the form of longitudinalransporterov placed at the bottom of the device.

Sorting device operates as follows. The source material is fed by a feeding conveyor 1 to a moving endless belt 3 with a permeable surface in the form of a mesh 4, mounted on the shafts of the conveyor 5, to a section A of the suction chamber 6 located under the grid (on its upper half), where the highest vacuum is created in the suction chamber 6, which ensures that all incoming wood chips are pressed against the net 4. Impurities in the form of segments of branches, stones, etc. under the influence of their own weight, they slide down without sticking to the net and fall onto the conveyor 8 and are taken out of the sorting zone. In section B, a vacuum is created that ensures that all wood chips are retained on the grid 4, except for bark particles, cylindrical and shapeless particles that fall off the grid and roll down and are transported by conveyor 9. In section C, a vacuum is created sufficient to hold 4 leaves and small ones on the grid shavings, and the conditioned chips fall down onto the conveyor 10. In section D, the pressure chamber 7 creates excessive air pressure and leaves on it are blown off from the permeable surface 4, and the like. and fall on the conveyor 11. At the same time, air streams clean the permeable surface from contamination.

The permeable surface in the form of an endless belt ensures the same conditions for the entire incoming mass of wood chips, both in terms of the action of the pneumatic pressure force and the separation force due to its own weight.

The advantage of this design of the sorting device is to increase the quality and productivity, reduce the size and loss of wood.

Claims (2)

1. Sorting device, including a permeable surface, a suction chamber made of sections, loading devices, collectors of separation products and an injection chamber, characterized in that the permeable surface is made in the form of an endless belt and is mounted with the possibility of movement on the conveyor shafts. 2. The sorting device according to claim 1, characterized in that the conveyor belt in the transverse plane has an angle of inclination of 15-30 °, and the suction chamber is made of sections in which the pressure decreases in the direction of movement of the belt.