RU2794103C2 - Vibrating screen - Google Patents

Abstract

FIELD: mechanical vibrator.

SUBSTANCE: proposed invention relates to a mechanical vibrator with a bearing housing mechanism to be installed on vibrating screens for sorting bulk material. The vibrating screen contains at least one screen deck (11) formed between two side walls (12), and a mechanical vibrator (VM) mounted on said side walls (12) and having two transverse shafts (20) rotating with the same rotation, in opposite directions. Each shaft (20) has end sections (20a), each of which carries at least one eccentric weight (30). Said two shafts (20) have end sections (20a) adjacent to each other, located in bearings (40) installed in the same bearing housing (50), which is mounted with the possibility of removal on beams (13), transverse to the longitudinal axis of the vibrating screen (PV), and has opposite ends attached to the corresponding side wall (12) of the vibrating screen (PV). Each end section (20a) of the shaft (20) carries at least one eccentric weight (30) with a total mass different from the mass of the eccentric weight (30) located in each of the end sections (20a) of the other shaft (20). Said shafts (20) rotate in certain phases that determine the forward and upward inclination of the major axis of the elliptical movement applied to the screen deck (11).

EFFECT: providing easy and quick assembly and disassembly of the vibrating screen structure, as well as increasing the sorting efficiency.

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Description

The field of technology to which the invention belongs

The present invention relates to a mechanical vibrator with a bearing housing mechanism to be installed on vibrating screens for sorting bulk material to vibrate the screen deck of at least one screening element, the mechanical vibrator being of the type that comprises a pair of bearing housings supported by structural side walls. a vibrating screen and supporting opposite end sections of rotating shafts located across the longitudinal axis of the vibrating screen, and said end sections of the shafts carry eccentric loads.

Prior Art

The process of sorting loose grains or particles of various sizes in machines or vibrating screens involves the passage of bulk material along the screen deck of the sorting element, which experiences vibration vibrations such that when moving the bulk material, smaller particles pass through the holes of the screen deck with an outlet separate from the larger particles moved on the deck of the roar.

The oscillating motion imparted to the vibrating screen and screening deck is designed to move the bulk material across the screen deck, as well as load upwards on the conveyed material to prevent particles that have not passed through the hole in the screen deck from getting stuck in the screen hole, preventing passage through the hole the roar of other smaller particles.

In one of the known designs of a vibrating screen, the screen deck moves in a reciprocating rectilinear motion in the direction of inclination forward and upward relative to the screen deck, and this movement is provided by providing two transverse shafts , the end sections of which are located for rotation on the corresponding pairs of bearings, each pair being placed in a respective bearing housing, which in turn is fixed in a respective side wall of the vibrating screen.

Each end section of each shaft carries at least one eccentric weight, and the shafts rotate in opposite directions, with the same frequency and in certain phases, which determine the slope of the direction of the reciprocating rectilinear motion relative to the plane of the screen deck.

The screening efficiency of a vibrating screen depends on several factors, among which may be mentioned the thickness of the layer of bulk material moving over the screen deck and the residence time of the bulk material on said screen deck. In addition to the two factors mentioned above, maintenance of the openings of the screening deck in the absence of an obstacle must also be considered.

Thus, it is necessary that the layer of bulk material moving along the screen deck move straight ahead, as well as upward, periodically and at a given frequency, in order to better turn the bulk material and at the same time move up and out of the holes of the particles that clog the holes.

Taking into account the factors mentioned above and related to the vibratory screening of bulk material, another known design of the vibrating screen has been proposed, according to which the deck of the vibrating screen moves with an elliptical movement, with its major longitudinal axis located in a direction that is inclined forward and upward relative to the screen deck, and this movement is provided by the provision of three transverse shafts, the shaft ends being rotatably located in respective pairs of bearings, each pair being in a respective bearing housing, which in turn is fixed in a respective sidewall of the vibrating screen, the geometrical the axis of rotation of the eccentric weights are located in the center of gravity of the vibrating screen or slightly above it.

Each end portion of each shaft carries at least one eccentric weight, usually with the same total mass, with the two shafts rotating in the same direction, opposite to that of the third shaft, but all at the same frequency and in certain phases that determine the inclination of the major axis elliptical motion, and the difference in masses determines the ratio of the sizes of the major and minor axes of the elliptical motion.

While the aforementioned three-shaft design provides the required elliptical motion of the screen deck, it is required to provide three shafts each carrying end eccentric weights, the three shafts being synchronized by a large number of gears. This design solution results in a heavy mechanical vibrator with larger dimensions and relatively higher cost.

To simplify the design of vibrating screens, another design solution was proposed for a mechanical vibrator with only two shafts, but capable of providing elliptical movement on the vibrating screen deck, with its major longitudinal axis located in accordance with a direction that is inclined forward and upward relative to the screen deck, while this movement is obtained by providing two transverse shafts, the end portions of the shafts being rotatably mounted on respective bearings housed in respective bearing housings, which in turn are attached to a respective side wall of the vibrating screen.

Each end section of each shaft carries at least one eccentric weight with a mass different from the mass of the other shaft, and the two shafts rotate in opposite directions, with the same frequency and in certain phases that determine the inclination of the major axis of the elliptical movement, while the difference in the masses of the eccentric weights two shafts determines the ratio of the sizes of the major and minor axes of the elliptical movement.

The constructions discussed above can be found in the descriptions and drawings of patent documents BR PI0602585-4 and PI1105435-2.

Although it is a two-axis design that is lighter and simpler than the three-shaft design, and gives the vibrating screen deck a more efficient elliptical motion, the third known design still has a drawback common to the other two previous solutions discussed above and which is due to the fact that the mechanical vibrator has bearing housings installed in the middle zone of the opposite side walls of the vibrating screen.

In the above structures, the mechanical vibrator is installed inside the vibrating screen structure, which makes it very difficult, time-consuming and expensive to assemble and disassemble their components for maintenance. Maintenance operations are usually performed, as a result of the structural connection of the vibrator to the vibrating screen, in highly contaminated conditions, which makes these operations even more problematic, which requires undesirable periods of interruption in the operation of the equipment.

The essence of the invention

Due to the disadvantages of mechanical vibrators equipped with two or three shafts and installed in opposite side walls of the vibrating screen to give the deck of the vibrating screen a reciprocating motion or an elliptical rectilinear motion, the object of the present invention is to provide a mechanical vibrator with a bearing housing capable of imparting a vibrating screen deck screen elliptical movement, and in providing a reduced size of only two shafts transverse to the screen, and allowing easy and fast assembly and disassembly operations relative to the design of the vibrating screen.

As mentioned earlier, the considered mechanical vibrator is used in vibrating screens containing at least one screen deck formed between two opposite side walls, and the mechanical vibrator contains two shafts transverse to the longitudinal axis of the vibrating screen, rotating with the same rotation in opposite directions, and when wherein each of their end sections carries at least one eccentric weight, said end sections being rotatably located in bearings supported by opposite side walls of the vibrating screen.

According to the invention, two shafts have their adjacent end sections supported on bearings mounted in the same bearing housing, which is detachably attached to beams transverse to the vibrating screen and having opposite ends fixed on the side walls of the latter. Each of the end sections of the shaft carries at least one eccentric weight having a total mass different from the total mass of the eccentric load located on each of the end sections of the other shaft. The shafts rotate in certain phases that determine the forward and upward inclination of the major axis of the elliptical movement imparted to the screen deck relative to the screen deck.

The design proposed according to the invention ensures that the rotation of two carrier shafts, each of which has a load different from the load of the other shaft, gives the deck of the vibrating screen the required elliptical movement, and the ratio of the sizes of the major and minor axes of the elliptical movement is determined by the difference in the eccentric load of the two shafts. In addition, the proposed design eliminates the fixation of the mechanical vibrator on the side walls of the vibrating screen, and the bearings are fixed in the respective bearing housings mounted on the cross beams located on the screen in the transverse direction, providing easy removal of the mechanical vibrator containing the bearing housings, bearings and shafts, for service or replacement.

Brief description of the drawings

The invention will now be described with reference to the accompanying drawings, given as an example of a possible embodiment of the invention, in which:

in fig. 1 is a simplified perspective view of a vibrating screen provided with two screen decks located between two side walls on which a mechanical vibrator according to the invention is removably attached;

in fig. 2 is a schematic and simplified cross-sectional view of the vibrating screen and mechanical vibrator shown in FIG. 1;

in fig. 3 is a schematic side view of a vibrating screen with a mechanical vibrator according to the invention, provided with two transverse shafts rotating in opposite directions and at the same frequency, each of which carries at its end sections a pair of eccentric masses having a total mass different from that of the eccentric masses of the other shaft, and the eccentric weights in the first position correspond to the elliptical movement of the screen deck longitudinally and upwards;

in fig. 3A schematically shows the eccentric weights of the two shafts in the same first longitudinal upward position shown in FIG. 3;

in fig. 3B, 3C, and 3D are schematic representations of two shaft eccentric weights, in positions representing three other movements, lateral up, longitudinal down, and lateral down, respectively, of the vibrating screen deck according to the two axes of the required elliptical motion; A

in fig. 4 is a schematic top plan view of the vibrating screen shown in FIG. 3 and two transverse shafts of a mechanical vibrator connected to each other by gears.

Detailed description of the invention

As shown and already mentioned above, the invention generally relates to vibrating screens PV for sorting bulk material, and more specifically, to such a type of screens that contain at least one sorting element 10, usually in the form of an elongated trough and with essentially U- shaped profile and having a screen deck 11 on which a continuous load of bulk material such as various ores moves, the screen deck 11 being formed between two side walls 12 of the vibrating screen PV.

As shown, the mechanical vibrator VM comprises a pair of shafts 20 transverse to the longitudinal axis of the vibrating screen 10, each having an end portion 20a carrying at least one eccentric weight 30.

In the construction shown, adjacent end portions 20a of the shafts 20 are rotatably mounted on bearings 40 which are mounted in the same bearing housing 50 which is removably supported on beams 13, typically two and transverse to the longitudinal axis of the vibrating screen PV. The opposite ends of the beams 13 are attached to the side walls 12 of the vibrating screen PV, usually on the inner surface of said side walls.

According to the construction shown, each bearing housing 50 comprises a pair of opposite side walls 51, each adjacent end portions 20a of the two shafts 20 being located on a pair of bearings 40, with each bearing 40 mounted on a side wall 51 of a respective bearing housing 50.

Preferably, each end section 20a of the shafts 20 carries a pair of eccentric weights 30 located outside the respective pair of bearings 40, i.e. outside the opposite side walls 51 of the respective bearing housing 50, and sized to remain generally within the structural housing 50.

One of the shafts 20 is driven by any of the drive units (not shown), with the end sections 20a of the shafts 20 located on each side of the vibrating screen 10, equipped with gears 60, which provide a joint rotation of the shafts 20, with the same rotation, but in opposite directions , as shown schematically in FIG. 3A, 3B, 3C, 3D and 4.

Each of the end sections 20a of the shaft 20 carries a gear 60 engaged with a gear 60 located on an adjacent end section 20a of the other shaft 20, said gears 60 being in the same bearing housing 50, between two bearings 40 to support the respective end section 20a shafts 20.

Each of the end sections 20a of the shafts 20 carries at least one eccentric weight 30 with a total mass different from the mass of the eccentric weight 30 located on each of the end sections 20a of the other shaft 20, and said shafts 20, coupled to each other by gears 60, move with rotation in opposite directions at the same frequency and in certain phases, determining the forward and upward tilt of the major longitudinal axis of the elliptical movement imparted to the screen deck 11, as shown in FIG. 3.

The difference in the masses of the eccentric loads of the two shafts 20 determines the ratio of the sizes of the large and small axes of the elliptical movement of the deck 11 of the screen.

In FIG. 3 and 3A show the eccentric weights 30 in the first position corresponding to the elliptical movement, longitudinal and upward, of the screen deck 11, while in FIG. 3B, 3C, and 3D show the eccentric weights 30 of the two shafts 20, in positions representing the other three lateral movements, lateral up, longitudinal down, and lateral down, respectively, of the screen deck 11 of the vibrating screen 10, according to the two axes of the desired elliptical movement.

In the construction shown, each of the two bearing housings 50 is located on one side of the vibrating screen PV near its corresponding side wall 12. portion 20b of the respective shaft 20 using suitable flexible connections 20c well known in the art.

In the proposed design, all constituent elements of the mechanical vibrator VM, comprising two bearing housings 50 and shafts 20, are enclosed by a protective cover 70, which is fixed with the possibility of removal by any suitable means on the beams, as shown in FIG. 1 and 2.

For maintenance of the mechanical vibrator VM, it is sufficient that the protective cover 70 and the bearing housings 50 with the shafts 20 can be easily removed from the beams 13 without the need for internal disassembly of the vibrating screen PV.

The proposed design provides an elliptical movement of the screen deck 11 by using a mechanical vibrator VM with only two shafts 20 mounted on a pair of bearing housings 50, which are easily and quickly assembled and dismantled from the beams 13 of the vibrating screen PV.

The advantages of this design are provided by the assembly of the mechanical vibrator VM, displaced strongly upwards relative to the center of gravity of the vibrating screen PV, in a longitudinal position relative to the latter, which balances the eccentric, longitudinal and transverse impulses, in the areas of supply and discharge of bulk material relative to the deck 11 of the screen, providing a substantially constant flow of bulk material from feed to discharge from screen deck 11.

Although only one possible embodiment of the invention has been shown, it should be understood that changes in the form, number and relative arrangement of the component parts can be made without deviating from the scope of protection defined in the claims appended to this disclosure.

Claims (6)

1. Vibrating screen containing at least one screen deck (11) formed between two side walls (12), and a mechanical vibrator (VM) mounted on said side walls (12) and having two transverse shafts (20) rotating with the same rotation, in opposite directions, and each shaft (20) has end sections (20a), each of which carries at least one eccentric weight (30), while the vibrating screen (PV) is characterized in that these two shafts ( 20) have end sections (20a) adjacent to each other located in bearings (40) installed in the same bearing housing (50), which is mounted with the possibility of removal on beams (13) transverse to the longitudinal axis of the vibrating screen ( PV), and has opposite ends attached to the corresponding side wall (12) of the vibrating screen (PV), with each end section (20a) of the shaft (20) carrying at least one eccentric weight (30) with a total mass different from the mass eccentric weight (30), which is located in each of the end sections (20a) of the other shaft (20), and these shafts (20) rotate in certain phases that determine the tilt forward and upward, the major axis of the elliptical movement applied to the deck (11) roar. 2. Vibrating screen according to Claim. 1, characterized in that each housing (50) of the bearing contains a pair of opposite side walls (51), and each of the adjacent end sections (20a) of the two shafts (20) is located in a pair of bearings (40), with each bearing (40) is installed in the side wall (51) of the respective bearing housing (50). 3. Vibrating screen according to claim 2, characterized in that each end section (20a) of the shaft (20) carries a gear (60) engaged with a gear (60) located on an adjacent end section (20a) of the other shaft (20), wherein said gears (60) are located in the interior of the same bearing housing (50), each gear being between two bearings (40) supporting a respective end section (20a) of a respective shaft (20). 4. Vibrating screen according to any one of paragraphs. 1-3, characterized in that each of the two bearing housings (50) is located on one of the sides of the vibrating screen (PV), near its corresponding side wall (12), and the end sections (20a) of one of the two shafts (20), which forms the drive shaft are connected to each other by an intermediate section (20b) of the respective shaft (20) and by respective flexible joints (20c). 5. Vibrating screen according to any one of paragraphs. 1-4, characterized in that the mechanical vibrator is installed with an upward offset relative to the center of gravity of the vibrating screen (PV), in a longitudinal arrangement relative to the specified screen, which balances the eccentric, longitudinal and transverse impulses in the areas of supply and discharge of bulk material relative to the vibrating screen (11 ). 6. Vibrating screen according to claim 5, characterized in that two housings (50) of bearings and shafts (20) are covered with a protective cover (70) fixed with the possibility of removal on beams (13).

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