UA75698C2 - Crusher - Google Patents

Abstract

The invention relates to machine-building industry, to devices for materials crushing and may be used for crushing of metal cutting, polymeric materials and wood waste at the enterprises of machine-building, chemical and woodworking industry. The crusher comprises a loading hopper, a cylindrical housing with cutters, a rotor with cutters, a perforated bottom and a reversible drive. The housing is formed from two mating surfaces, by a guideline, one of them is an arc and other is a ring. Inside rows of teeth are located at the first of named surfaces in parallel to a rotor shaft axis, and the housing is mounted on the rotor shaft with possibility of rotation and fixation. Such execution of the invention allows to increase crushing efficiency and to extend sphere of the device use.

Description

Description of the invention

The device belongs to mechanical engineering, to devices for grinding materials, and can be used at enterprises of machine building, chemical and woodworking industries to grind metal shavings, waste polymer and wood materials.

A known crusher for crushing sheet waste of polymeric materials, which contains a loading hopper, a cylindrical body with knives having a serrated cutting edge, a rotor with knives and a perforated bottom (a.s. USSR cl. В02С18/14 Mo14915669, BV Mo25, 1989). Disadvantages of this device, accepted as a 70th prototype, are low capture capacity, lack of stagedness of the grinding process and the possibility of controlling this process depending on the properties of the grinding material. As a result, the area of use of the crusher is narrowed: it is suitable for crushing sheet polymer waste, while the efficiency of crushing other materials, primarily friable, is significantly reduced due to the small size of the knives and their low gripping capacity, as well as the small gap between the body and the rotor. If the size of the 72 pieces of crushed material exceeds the specified gap, they do not enter the crushing zone and are not destroyed. The invention is based on the task of improving the crusher by making a part of the body in the form of a cylindrical surface formed by a spiral, with the possibility of its inclination, which will lead to improvement and regulation of the gripping capacity, which means that it will ensure an increase in the efficiency of crushing and an expansion of the area of use of the device.

The problem is solved by the fact that in a known device containing a loading hopper, a cylindrical body with radially arranged knives, a rotor with knives and a perforated bottom, the body is formed by two conjugate cylindrical surfaces, the guide line of one of which is a spiral, and the other - a circle, and from the inside on the first of the specified surfaces parallel to the axis of the rotor shaft there are rows of teeth, and the housing is installed on the same shaft with the possibility of rotation and fixation with angles of inclination of 20-602 from the vertical s 29 to the wall of the hopper, connected to the circular cylindrical surface of the case. At the same time, two hydraulic cylinders of synchronous action are installed on the hinges on the hinges on both sides of the housing, the hinge rods of which are hingedly connected to the side walls of the housing.

The body is formed by two conjugate cylindrical surfaces, the guiding line of one of which is a spiral, and the other is a circle, due to which the width of the gap between the body and the rotor continuously decreases from the largest at the beginning of grinding to the smallest in the part of the body that is formed by the circular cylinder, and in to which Ge) the main grinding takes place. Thanks to this, the capturing capacity increases, since large pieces of material immediately fall into the wide inlet gap, which, as the grinding progresses, pass into the space with smaller and smaller gaps between the housing and the rotor, which ensures the filling of the grinding zone with material necessary for effective work. Thus, the efficiency of grinding and the expansion of the area of use are achieved

With the coordination of a smooth reduction of the working gap with a reduction in the size of pieces of crushed material, as well as a wide input gap.

From the inside, on the surface of the housing formed by a spiral, rows of teeth are located parallel to the axis of the rotor shaft.

As the material is crushed in this part of the housing, thanks to the continuous reduction of the gap, the degree of interaction between the teeth and the blades of the rotating rotor increases. As a result, a sequential preliminary З7З 70 destruction of the material is achieved in the course of its movement to the main grinding. This increases the overall efficiency of shredding, and also expands the area of use of the shredder, because pieces of different sizes, shapes and types of material can be destroyed in the zone with a continuous reduction from the gap: woven metal shavings, wood pieces, film and sheet polymer waste, etc.

The housing is installed on the rotor shaft with the possibility of rotation and fixation with inclination angles of 20-60 from - 15 vertical to the wall of the bunker connected to the circular cylindrical surface of the housing. This is necessary to accommodate the increased grip capacity, which may seem excessive for some materials. 1 By changing the angle of inclination of the housing together with the hopper, that is, by changing the location of the pre-shredding zone b relative to the horizontal plane of symmetry of the shredder, it is possible to significantly change the capturing capacity due to the different effect of gravity on the material captured from the hopper by the rotor blades. As the angle (Ce) 50 of the slope decreases, gravity increasingly contributes to increasing capture. At the same time, an increasing number of teeth of the spiral part of the housing take part in the destruction of the material, since they are located below the horizontal plane of symmetry. This position of the body is appropriate when grinding loose materials with low strength properties, for which the destructive deformation of the gap is effective. Accordingly, for solid materials with high strength properties, it is advisable to increase the slope of the casing, thereby reducing the gripping capacity. Pre-destroyed material is much easier to grind into

GF) of the main stage. Thus, the combination of the part of the body formed by a spiral with the teeth inside it and with the possibility of changing the angle of inclination of the body provides an increase in the gripping capacity and its adjustment, and also realizes the stage of preliminary destruction of the material, thanks to which the grinding efficiency increases and the field of use of the device is expanded. because the installation of the housing at angles smaller than 202 is impractical, since it no longer leads to an increase in the gripping capacity, and the area of the circular cylindrical surface of the housing, which is located at the bottom, turns out to be too small to ensure the main grinding. That is, a decrease in the specified angle of inclination by more than 202 leads to an unfavorable combination of the preliminary and main grinding stages. Increasing the 65 Angle of inclination of the housing over 602 is also impractical, because it worsens the sliding of the material on the wall of the hopper and the conditions for its entry into the inlet gap of the shredder. Thus, the indicated limits of the change in the angle of inclination of the hull are the only ones necessary for solving the given problem.

The shredder has a reversible drive, which allows you to completely eliminate the stage of preliminary destruction and grind the sheet material as efficiently as in the prototype device when the rotor rotates in reverse. Thus, the properties of the crusher do not deteriorate in the presence of new positive signs, which are given by the specified improvements.

On the shaft supports on both sides of the housing, two hydraulic cylinders of synchronous action are installed on the hinges, the piston rods of which are hingedly connected to the side walls of the housing. This is necessary for solving the given problem, as it ensures the rotation of the housing on the shaft, both in the working state and during operation, under /o load. The presence of exactly two hydraulic cylinders of synchronous action excludes the appearance of unbalanced torsional forces on the body and its deformation, which is extremely unacceptable under the condition of a small working gap between the knives.

The advantages of using a hydraulic drive for turning the housing compared to other technical solutions are its quick operation, the ability to act under load and reliable fixation of the housing in any position without additional devices.

Fig. 1 shows a chopper, a side view in section, with a minimum angle of inclination of the housing, in Fig. 2 - a chopper, a side view in section, with a maximum angle of inclination of the housing; Fig. 3 is a shredder, front view in section.

The shredder (Fig. 1-7, 2, C) contains a loading hopper 1, a cylindrical body with radially located knives 2, 3, 4, 5, a rotor 6 with knives 7 and a perforated bottom 8. The body is formed by two conjugate cylindrical surfaces 9, 10 , the guiding line of one of which is a spiral, and the second is a circle, and from the inside, on the first of the specified surfaces 9, parallel to the axis of the rotor shaft 11, there are rows of teeth 12, and the housing is installed on the same shaft with the possibility of rotation and fixation with inclination angles of 20-60 from the vertical to the wall of the hopper 13, connected to the circular cylindrical surface of the body 10, while the chopper has a reversible drive. On the supports 14 of the shaft on both sides of the body, two hydraulic cylinders 15 synchronous with

Actions, the piston rods of which are hingedly connected to the side walls of the housing.

The shredder works as follows. The material loaded into the hopper 1 (Fig. 1, 2, 3) is captured by the blades 7 of the rotating rotor 6 and enters through a wide inlet gap into the space between the rotor and that part of the cylindrical body 9, the guiding line of which is a spiral. The knives of the rotor interact with the teeth 12, as a result of which the material is partially destroyed before the main grinding, and its separate pieces, torn from the knives by the teeth, fill the sectors between the knives on the rotor. The continuous reduction of the gap in this part of the housing increases the interaction of the rotor blades with the teeth in accordance with the reduction in the size of the pieces of material. As a result, the captured pieces immediately occupy the gaps corresponding to their size and are destroyed, and the pieces destroyed in the first row of teeth are crushed by their movement equally effectively, despite the constant reduction in their size. The previously destroyed material falls further into the narrow gap between the rotor and that part of the housing at 10, which is formed by the circular cylinder. This gap is the main working gap, and here the material is finally crushed to the desired size when the rotor knives pass through the gaps between the fixed knives 2, 3, 4 of the housing. The finished product is poured out of the shredder through the perforated bottom 8. The wide inlet gap increases the gripping capacity, and at the same time allows you to adjust it to increase the efficiency of grinding and expand the area of use of the device. "

Therefore, when grinding material with low strength properties, it is possible to bring about the synchronous action of the pistons of the hydraulic cylinders 15, which are hingedly installed on both sides of the body on the supports 14 of the shaft and the grinder. From the hydraulic cylinders, their piston rods, hinged to the side walls of the housing, protrude, and "" the housing mounted on bearings turns on the shaft, reducing its inclination. The material begins to be captured more efficiently, as the wide inlet gap is increasingly pushed back to the second quarter of the rotor rotation , where the material is drawn into this gap not only by the rotor, but also by the action of gravity. In such a position of the housing, the main grinding occurs when the rotor knives interact with the fixed knives 2 and 3 (Fig. 1). The maximum capturing capacity is achieved at an angle of 20 2 between vertical and wall

Mn of the hopper 13, connected to the circular cylindrical surface of the housing 10. Further rotation in the direction of decrease

Ge") of this angle is impractical, because it no longer leads to an increase in the capturing capacity, while the area of the main grinding zone (located at the bottom of the body, formed by a circular cylinder) is insufficient for complete grinding of the material. In addition, in this case, the stationary knife C and the section of the perforated bottom located behind it are excessively raised, which worsens the conditions of grinding and removal of the product in this part of the ground. When grinding material with high strength properties, including woven metal shavings, the piston rods can be synchronously pushed to the hydraulic cylinders to the required length, and the body being crushed will simultaneously turn on the shaft, increasing its inclination. As soon as the input gap moves to the first quarter of the rotation of the rotor, i) gravity will no longer contribute to capture, but on the contrary, will dump the material back on the wall 13 of the hopper. This is especially evident when the hopper is not fully loaded (at the final stage of grinding) and when grinding loose material. As a result, the gripping capacity is significantly reduced, and its optimal value can be selected by the appropriate angle of inclination and fixation of the body in this position. Thus, the mode of operation corresponding to the optimal capture and the most effective grinding of various materials is ensured. If the housing is installed so that the inlet gap is located in the first quarter of the rotation circle of the rotor, then the main grinding occurs when the rotor knives interact with the fixed knives 2, 3, 4. Increasing the angle of inclination of the housing over 602 from the vertical to the wall 13 of the hopper is impractical, because 65 is excessive reduces the gripping capacity and worsens the sliding of the material along the wall 13 and its entry into the inlet gap.

Control of the inclination of the housing can be carried out both with a fixed and with a moving rotor, depending on the properties of the material and the grinding stage. For example, as the hopper is emptied, it is advisable to gradually reduce the angle of inclination of the housing. It is also possible to automatically control the inclination of the body depending on the moment of the crushing force on the shaft, which can be carried out using typical electrical circuits and devices.

The hydraulic control system consists of existing parts and devices and does not contain significant differences.

When shredding sheet material, the stage of preliminary destruction is unnecessary, so the rotor is switched to reverse rotation thanks to the reversible drive. At the same time, the housing is installed at an angle of inclination close to 602 to exclude the material from entering the wide gap. The main grinding takes place 7/0 now when the rotor knives interact with the fixed knives 5, 4, З, which, with the specified tilt of the housing, occupy the most favorable position for complete grinding of the material.

Thus, the execution of the chopper body in the form of two conjugate cylindrical surfaces, the guiding line of one of which is a spiral, and the second is a circle, in combination with the location of the teeth on the first of these surfaces, the possibility of changing the inclination of the body and the reversible drive, provides several 75 modes of operation shredder, as a result of which the grinding efficiency increases and the area of use of the device expands.

Claims (2)

Formula of the invention y y M y M y 1. A shredder comprising a loading hopper, a cylindrical body with radially arranged knives therein, a rotor with knives, a perforated bottom, and a reversible drive, characterized in that the body is formed by two mating cylindrical surfaces, a guide line, one of which is an arc, and the second is a circle, and from the inside on the first of these surfaces, parallel to the axis of the rotor shaft, there are rows of teeth, and the housing is installed on the rotor shaft with the possibility of rotation and fixation with inclination angles of 20-602 from the vertical to the wall of the hopper, connected to the cylindrical surface body, the guiding line of which is a circle. at 2. The shredder according to claim 1, which differs in that on the shaft supports on both sides of the housing, two hydraulic cylinders of synchronous action are installed on the hinges, the piston rods of which are hingedly connected to the side walls of the housing. (ee) (o) (Se) iv) and - - and? -i 1 (o) se) IR e) ime) 60 b5