CN205288919U - Improved generation screening equipment - Google Patents

Abstract

The utility model discloses an improved generation screening equipment, including fixed case on the mount of mount, fixed mounting, install first motor on fixed case, rotationally install the rotation axis of fixed incasement, rotationally the suit at a rotatory epaxial first screening section of thick bamboo, an action wheel that is used for driving the rotatory work of a first screening section of thick bamboo, the second motor that is used for driving the rotatory work of action wheel, a feeder hopper that is linked together with a first screening section of thick bamboo, be used for carrying the material equipment of falling the material to the feeder hopper in, the output shaft of first motor is connected with the rotation axis, the perisporium of a first screening section of thick bamboo is formed with a plurality of first sieve meshes, install a plurality of stirring pieces on the rotation axis, the stirring piece is the heliciform at the external circumferential wall of rotation axis and distributes, the bottom intercommunication of fixed case has thin material pipe, the right side intercommunication of a first screening section of thick bamboo has the coarse fodder pipe. The utility model discloses the screening effect and the work efficiency that can show improve equipment.

Description

A kind of modified version screening plant

Technical field

The utility model relates to a kind of mechanism, is specifically related to a kind of modified version screening plant.

Background technology

Mineral products base often needs to be sieved by the material that particle is different by screening plant, to obtain the material of different-grain diameter. Existing screening plant is generally provided with the first sifting barrel of band sieve aperture, can be sieved by the material of variable grain size by the first sifting barrel rotated. But, partial material can cause the blocking of sieve aperture in rotating screen timesharing, causes the screening effect of screening plant very poor, and working efficiency is also very low.

Practical novel content

For the deficiencies in the prior art, the utility model object is intended to provide a kind of modified version screening plant, can significantly improve screening effect and the working efficiency of equipment.

For achieving the above object, the utility model adopts following technical scheme:

A kind of modified version screening plant, comprise anchor, the fixed case being fixedly mounted on anchor, the first motor being arranged on fixed case, the turning axle being installed in rotation in fixed case, it is set with the first sifting barrel on the rotary shaft rotationally, for driving the motion-work wheel of the first sifting barrel rotary work, for driving the 2nd motor of motion-work wheel rotary work, with the hopper that the first sifting barrel is connected, for by mass transport to the batch turning equipment in hopper, the output shaft of described first motor is connected with turning axle, the perisporium of described first sifting barrel is formed with multiple first sieve aperture, described turning axle is provided with multiple stirring piece, described stirring piece distributes in the shape of a spiral at the outer circle wall of turning axle, the bottom of described fixed case is communicated with fines pipe, the right side of described first sifting barrel is communicated with coarse fodder pipe.

The 2nd sifting barrel it is fitted with in described first sifting barrel, described first sifting barrel is provided with the first Link Port, described 2nd sifting barrel is provided with the 2nd Link Port at corresponding first Link Port place, the right side of described first sifting barrel is provided with the 3rd Link Port, described 2nd sifting barrel is provided with the 4th Link Port at corresponding 3rd Link Port place, the perisporium of described 2nd sifting barrel is formed with multiple 2nd sieve aperture, the top of described 2nd sifting barrel is installed with the first movable block, the top inner wall of described first sifting barrel is formed for the first cavity that the first movable block moves, the bottom of described 2nd sifting barrel is installed with the 2nd movable block, the bottom interior wall of described first sifting barrel is formed for the 2nd cavity that the 2nd movable block moves, described first cavity and the 2nd cavity all extend along the axial direction due of the first sifting barrel, the right end sidewalls of described 2nd sifting barrel is removably provided with pull bar, the right side of described first sifting barrel is formed for the first through hole that pull bar passes, the right side of described fixed case is formed for the 2nd through hole that pull bar passes.

Described batch turning equipment comprises batch turning plate, first cylinder, 2nd cylinder, the body feed tank being arranged on batch turning plate, it is positioned at the back up pad of batch turning plate bottom surface, it is positioned at the base plate below back up pad, one end of described batch turning plate and the same side end of back up pad are hinged, the body of described first cylinder is hinged on the side of back up pad, the piston rod of described first cylinder and the side of batch turning plate are hinged, two fork arms are installed between described back up pad and base plate, pitch in the middle part of arms hinged for these two, the bottom surface of described back up pad is provided with the first track, the upper surface of described base plate is provided with the 2nd track, wherein the fork left end of arm and back up pad are hinged, right-hand member and first track sliding of this fork arm are dynamically connected, the left end of another fork arm and base plate hinged, right-hand member and the 2nd track sliding of this fork arm are dynamically connected, the body of described 2nd cylinder is hinged with wherein one fork arm, the piston rod of described 2nd cylinder and another fork arm are hinged.

The left side outer circle wall of described first sifting barrel is provided with the first circle groove, the right outer periphery wall of described first sifting barrel is provided with the 2nd circle groove, described motion-work wheel is arranged on the lower left of the first sifting barrel, the upper left side of described first sifting barrel is provided with the first compression wheel, described motion-work wheel and first compresses wheel, and all the wall surface of round groove fits with first, the lower right of described first sifting barrel is provided with driven wheel, the upper right side of described first sifting barrel is provided with the 2nd compression wheel, and described driven wheel and the 2nd compresses wheel, and all the wall surface of round groove fits with the 2nd.

The useful effect of the utility model is:

The utility model is by the setting of said structure, material to be sieved is poured in hopper by batch turning equipment, then enter in the first sifting barrel, then the first motor is started, the rotation of driven rotary axle and stirring piece, then the 2nd motor is started, drive the rotation of the first sifting barrel, thus effectively prevent material from rotating screen timesharing, the phenomenon of blocking the first sieve aperture occurring, significantly improve screening effect and the working efficiency of equipment, material is under the effect of the stirring piece of spiral, from the left end helical feed of the first sifting barrel to right-hand member, course of conveying sieves, can through the material of the first sieve aperture then through the first sieve aperture, flow out from fines pipe, the right side of the first sifting barrel can not be then transported to through the material of the first sieve aperture, finally flow out from coarse fodder pipe.

Accompanying drawing explanation

Fig. 1 is one-piece construction schematic diagram of the present utility model;

Fig. 2 is the schematic side view of batch turning equipment of the present utility model;

Fig. 3 is the fork arm of the batch turning equipment of the present utility model structural representation when not launching.

Wherein, 1, anchor; 2, fixed case; 3, the first motor; 4, turning axle; 5, the 2nd sifting barrel; 6, the first sifting barrel; 7, motion-work wheel; 8, the 2nd motor; 9, hopper; 10, stirring piece; 11, fines pipe; 12, pull bar; 13, coarse fodder pipe; 14, the first circle groove; 15, the 2nd circle groove; 16, first wheel is compressed; 17, driven wheel; 18, the 2nd wheel is compressed; 19, the first Link Port; 20, bearing support; 21, the 2nd Link Port; 22, the 3rd Link Port; 23, the 4th Link Port; 24, the first movable block; 25, the first cavity; 26, the 2nd movable block; 27, the 2nd cavity; 28, motor seat; 29, the 2nd through hole; 30, batch turning plate; 31, body feed tank; 32, the first cylinder; 33, the 2nd cylinder; 34, back up pad; 35, arm is pitched; 36, base plate;37, the 2nd track; 38, the first track; 39, pin joint; 40, the first through hole.

Embodiment

Below, by reference to the accompanying drawings and embodiment, the utility model is described further:

As Figure 1-3, for a kind of modified version screening plant of the present utility model, comprise anchor 1, the fixed case 2 being fixedly mounted on anchor 1, the first motor 3 being arranged on fixed case 2, the turning axle 4 being installed in rotation in fixed case 2, the first sifting barrel 6 being sleeved on turning axle 4 rotationally, for driving the motion-work wheel 7 of the first sifting barrel 6 rotary work, for driving the 2nd motor 8 of motion-work wheel 7 rotary work, with the hopper 9 that the first sifting barrel 6 is connected, for by mass transport to the batch turning equipment in hopper 9, the output shaft of described first motor 3 is connected with turning axle 4, the perisporium of described first sifting barrel 6 is formed with multiple first sieve aperture, described turning axle 4 is provided with multiple stirring piece 10, described stirring piece 10 distributes in the shape of a spiral at the outer circle wall of turning axle 4, the bottom of described fixed case 2 is communicated with fines pipe 11, the right side of described first sifting barrel 6 is communicated with coarse fodder pipe 13. when mounted, turning axle 4 is arranged in fixed case 2 by bearing support 20. first motor 3 is arranged on fixed case 2 by motor seat 28.

Stirring piece 10 of the present utility model mainly contains two effects, and material is stirred by the first, facilitates the screening work of material; It two is that material is carried out helical feed, and these stirring pieces 10 distribute in the shape of a spiral at the outer circle wall of turning axle 4, and material, when rotary work, can be delivered to right-hand member from the left end of the first sifting barrel 6 by turning axle 4.

The sense of rotation of turning axle 4 of the present utility model and the first sifting barrel 6 can be contrary, can prevent material from rotating screen timesharing, the phenomenon of blocking the first sieve aperture occurring further. And, it is possible to the rotating speed of turning axle 4 is arranged to about 40 times of rotating speed of the first sifting barrel 6.

It is fitted with the 2nd sifting barrel 5 in described first sifting barrel 6, described first sifting barrel 6 is provided with the first Link Port 19, described 2nd sifting barrel 5 is provided with the 2nd Link Port 21 at corresponding first Link Port 19 place, the right side of described first sifting barrel 6 is provided with the 3rd Link Port 22, described 2nd sifting barrel 5 is provided with the 4th Link Port 23 at corresponding 3rd Link Port 22 place, the perisporium of described 2nd sifting barrel 5 is formed with multiple 2nd sieve aperture, the top of described 2nd sifting barrel 5 is installed with the first movable block 24, the top inner wall of described first sifting barrel 6 is formed for the first cavity 25 that the first movable block 24 moves, the bottom of described 2nd sifting barrel 5 is installed with the 2nd movable block 26, the bottom interior wall of described first sifting barrel 6 is formed for the 2nd cavity 27 that the 2nd movable block 26 moves, described first cavity 25 and the 2nd cavity 27 all extend along the axial direction due of the first sifting barrel 6, the right end sidewalls of described 2nd sifting barrel 5 is removably provided with pull bar 12, the right side of described first sifting barrel 6 is formed for the first through hole 40 that pull bar 12 passes, the right side of described fixed case 2 is formed for the 2nd through hole 29 that pull bar 12 passes.

When charging, suspend when the first Link Port 19 and the 2nd Link Port 21 can be rotated the position to alignment hopper 9, facilitate the charging of material to work like this. When the 3rd Link Port 22, the 4th Link Port 23 are all and during the position alignment of coarse fodder pipe 13, coarse fodder just can be discharged from coarse fodder pipe 13.

Such scheme is mainly by regulating the relative position of the first sieve aperture and the 2nd sieve aperture, just adjustable from fines pipe 11 outflow material size. Its concrete regulative mode is: by moving left and right pull bar 12, the first movable block 24 being fixedly mounted on the 2nd sifting barrel 5 and the 2nd movable block 26 moving left and right along the first cavity 25 and the 2nd cavity 27 respectively can be driven, thus change the first sieve aperture and the relative position of the 2nd sieve aperture. So after design, can conveniently obtain the fine material of different-grain diameter, and not need to change screen drum, significantly improve turndown ratio of the present utility model.

Described batch turning equipment comprises batch turning plate 30, first cylinder 32, 2nd cylinder 33, the body feed tank 31 being arranged on batch turning plate 30, it is positioned at the back up pad 34 of batch turning plate 30 bottom surface, it is positioned at the base plate 36 below back up pad 34, one end of described batch turning plate 30 and the same side end of back up pad 34 are hinged, the body of described first cylinder 32 is hinged on the side of back up pad 34, the described piston rod of the first cylinder 32 and the side of batch turning plate 30 are hinged, two fork arms 35 are installed between described back up pad 34 and base plate 36, pitch in the middle part of arms 35 hinged for these two, the bottom surface of described back up pad 34 is provided with the first track 38, the upper surface of described base plate 36 is provided with the 2nd track 37, wherein the fork left end of arm 35 and back up pad 34 are hinged, right-hand member and first track 38 of this fork arm 35 are slidably connected, left end and the base plate 36 of another fork arm 35 are hinged, right-hand member and the 2nd track 37 of this fork arm 35 are slidably connected, the body of described 2nd cylinder 33 is hinged with wherein one fork arm 35, the piston rod of described 2nd cylinder 33 and another fork arm 35 are hinged.

The principle of work of batch turning equipment is: by starting the 2nd cylinder 33, organizing work of two fork arms 35 can be driven, namely the right-hand member of two fork arms 35 moves along the left end of the first track 38 and the 2nd track 37 respectively, thus promote back up pad 34 and the whole height of batch turning plate 30, thus the height of also improving material case 31, after the height location of body feed tank 31 is adjusted, start the first cylinder 32, due to the connection relation that batch turning plate 30 and back up pad 34 are hinged, so batch turning plate 30 will rotate around its pin joint 39, thus also drive the rotation of body feed tank 31, finally the material in body feed tank 31 is poured in hopper 9, complete batch turning work.

In addition, fork arm 35 can have two groups, and corresponding first cylinder 32 and the 2nd cylinder 33 respectively have two.

The left side outer circle wall of described first sifting barrel 6 is provided with the first circle groove 14, the right outer periphery wall of described first sifting barrel 6 is provided with the 2nd circle groove 15, described motion-work wheel 7 is arranged on the lower left of the first sifting barrel 6, the upper left side of described first sifting barrel 6 is provided with the first compression wheel 16, all the wall surface of round groove 14 fits with first for described motion-work wheel 7 and the first compression wheel 16, the lower right of described first sifting barrel 6 is provided with driven wheel 17, the upper right side of described first sifting barrel 6 is provided with the 2nd compression wheel 18, described driven wheel 17 and the 2nd compresses wheel 18, and all the wall surface of round groove 15 fits with the 2nd.

After starting the 2nd motor 8, under the first cooperation compressing wheel 16 and motion-work wheel 7, can driving the rotation of the first sifting barrel 6, the 2nd cooperation compressing wheel 18 and driven wheel 17 can effectively ensure that the first sifting barrel 6 steadily rotates. When actual fabrication, in order to facilitate the rotary work driving the first sifting barrel 6 better, can arranging the first engagement portion, arrange the 2nd engagement portion on motion-work wheel 7 on the first circle groove 14, more convenient like this motion-work wheel 7 drives the rotary work of the first sifting barrel 6.

For a person skilled in the art, according to technical scheme described above and design, other various corresponding change and distortion can be made, and all these change and are out of shape within the protection domain that all should belong to the utility model claim.

Claims (1)

1. a modified version screening plant, it is characterized in that: comprise anchor, the fixed case being fixedly mounted on anchor, the first motor being arranged on fixed case, the turning axle being installed in rotation in fixed case, it is set with the first sifting barrel on the rotary shaft rotationally, for driving the motion-work wheel of the first sifting barrel rotary work, for driving the 2nd motor of motion-work wheel rotary work, with the hopper that the first sifting barrel is connected, for by mass transport to the batch turning equipment in hopper, the output shaft of described first motor is connected with turning axle, the perisporium of described first sifting barrel is formed with multiple first sieve aperture, described turning axle is provided with multiple stirring piece, described stirring piece distributes in the shape of a spiral at the outer circle wall of turning axle, the bottom of described fixed case is communicated with fines pipe, the right side of described first sifting barrel is communicated with coarse fodder pipe,

The 2nd sifting barrel it is fitted with in described first sifting barrel, described first sifting barrel is provided with the first Link Port, described 2nd sifting barrel is provided with the 2nd Link Port at corresponding first Link Port place, the right side of described first sifting barrel is provided with the 3rd Link Port, described 2nd sifting barrel is provided with the 4th Link Port at corresponding 3rd Link Port place, the perisporium of described 2nd sifting barrel is formed with multiple 2nd sieve aperture, the top of described 2nd sifting barrel is installed with the first movable block, the top inner wall of described first sifting barrel is formed for the first cavity that the first movable block moves, the bottom of described 2nd sifting barrel is installed with the 2nd movable block, the bottom interior wall of described first sifting barrel is formed for the 2nd cavity that the 2nd movable block moves, described first cavity and the 2nd cavity all extend along the axial direction due of the first sifting barrel, the right end sidewalls of described 2nd sifting barrel is removably provided with pull bar, the right side of described first sifting barrel is formed for the first through hole that pull bar passes, the right side of described fixed case is formed for the 2nd through hole that pull bar passes,

Described batch turning equipment comprises batch turning plate, first cylinder, 2nd cylinder, the body feed tank being arranged on batch turning plate, it is positioned at the back up pad of batch turning plate bottom surface, it is positioned at the base plate below back up pad, one end of described batch turning plate and the same side end of back up pad are hinged, the body of described first cylinder is hinged on the side of back up pad, the piston rod of described first cylinder and the side of batch turning plate are hinged, two fork arms are installed between described back up pad and base plate, pitch in the middle part of arms hinged for these two, the bottom surface of described back up pad is provided with the first track, the upper surface of described base plate is provided with the 2nd track, wherein the fork left end of arm and back up pad are hinged, right-hand member and first track sliding of this fork arm are dynamically connected, the left end of another fork arm and base plate hinged, right-hand member and the 2nd track sliding of this fork arm are dynamically connected, the body of described 2nd cylinder is hinged with wherein one fork arm, the piston rod of described 2nd cylinder and another fork arm are hinged.