CN206122137U - Ore sieving mechanism - Google Patents

Abstract

The utility model discloses an ore sieving mechanism, include: a sieve, an extension spring, extension spring are located the casing, and the upper end of extension spring is connected with the roof of casing, and the lower extreme of extension spring is connected with the sieve, a carousel, carousel are located the casing and are close to the free end of sieve, and the carousel is rotated by motor drive, is provided with at least one vibrating arm on the perisporium of carousel, and the vibrating arm all extends along the radial direction of carousel, when the carousel rotates, and the free end of vibrating arm striking sieve. The utility model discloses the ore granule that makes the diameter be less than the diameter of through -hole on the sieve can all fall through the through -hole for the screening effect of sieve is better.

Description

Ore screening device

Technical field

This utility model is related to a kind of ore screening device.

Background technology

Current ore screening device generally comprises a sieve plate, and sieve plate is obliquely installed, and is provided with sieve plate and supplies ore particles The through hole for passing through, so, after Ore is put on sieve plate, Ore is rolled along sieve plate, diameter of the diameter less than through hole on sieve plate Ore particles can by falling the first rewinding box under through hole, and with diameter greater than the diameter of through hole on sieve plate ore particles then The second rewinding box can be rolled down to along sieve plate, this completes the screening of Ore.This ore screening device, because sieve plate is Fixed, so, diameter all cannot be fallen less than the ore particles of the diameter of through hole on sieve plate by through hole so that sieve The screening effect of plate is poor.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of ore screening device, and it causes diameter less than sieve The ore particles of the diameter of through hole all can be fallen by through hole on plate so that the screening effect of sieve plate is preferable.

For solve above-mentioned technical problem, this utility model provide ore screening device, including：

One frame；

One casing, casing is arranged in frame, and charging aperture is provided with the top of casing, and charging aperture is near the left side of casing Wall, the bottom of casing is provided with the first discharging opening, and the second discharging opening is provided with the left side wall of casing；

One sieve plate, is provided with the through hole passed through for ore particles on sieve plate, sieve plate is located in casing, the left end and machine of sieve plate The left side wall of shell is hinged by a horizontal hinge shaft, and the right-hand member of sieve plate is free end, sieve plate from the left side wall of casing diagonally downward Extend；

One extension spring, extension spring is located in casing, and the upper end of extension spring is connected with the roof of casing, lower end and the sieve plate phase of extension spring Connection；

One rotating disk, rotating disk is located in casing and near the free end of sieve plate, and rotating disk is rotated by Motor drive, the week of rotating disk At least one vibrating arm is provided with wall, vibrating arm extends along the radial direction of rotating disk, and when rotating disk is rotated, vibrating arm clashes into The free end of sieve plate；

One guide plate, guide plate is located in casing and positioned at the lower section of sieve plate, the left end of guide plate and the left side wall of casing It is fixedly connected, guide plate is tilted upward from the left side wall of casing and prolonged, the right-hand member of guide plate and the free end consistency from top to bottom of sieve plate, the Two discharging openings are located between sieve plate and guide plate, and the second discharging opening lower edge is concordant with the left end of guide plate.

Preferably, four vibrating arms are provided with the perisporium of described rotating disk, perisporium week of four vibrating arms along rotating disk To being uniformly distributed.

Preferably, four described vibrating arms are made by rubber.

Preferably, the bottom of described frame is provided with roller.

Preferably, being connected with a cloth between the right-hand member of described sieve plate and the right-hand member of guide plate.

After above structure, this utility model compared with prior art, has the following advantages that：

When ore screening device of the present utility model is used, Ore is put in casing by charging aperture, Ore input Fall after in casing and scrolled down through on sieve plate and along sieve plate, now, Motor drive rotating disk is rotated, vibrating arm when rotating disk is rotated Sieve plate is constantly clashed into so that sieve plate vertical tremor, so, by the vibrations of sieve plate so that Ore is being scrolled down through along sieve plate When, diameter all can be fallen less than the ore particles of the diameter of through hole on sieve plate by through hole so that the screening effect of sieve plate Preferably.

Diameter passes through to be fallen on guide plate under through hole less than the ore particles of the diameter of through hole on sieve plate, and along guide plate Scroll down through to the second discharging opening, casing is dropped out by the second discharging opening, with diameter greater than the Ore of the diameter of through hole on sieve plate Grain drops from the right-hand member of sieve plate, then drops out casing by the first discharging opening.

Description of the drawings

Fig. 1 is structural representation of the present utility model.

Specific embodiment

This utility model is described in more detail with reference to the accompanying drawings and detailed description.

As shown in Figure 1, this utility model ore screening device include a frame 1, a casing 2, a sieve plate 3, an extension spring 5, One rotating disk 6, a guide plate 4.

Casing 2 is arranged in frame 1, and the top of casing 2 is provided with charging aperture 201, and charging aperture 201 is near a left side for casing 2 Side wall, the bottom of casing 2 is provided with the first discharging opening 202, and the second discharging opening 203 is provided with the left side wall of casing 2.

The through hole 301 passed through for ore particles is provided with sieve plate 3, sieve plate 3 is located in casing 2, the left end and machine of sieve plate 3 The left side wall of shell 2 is hinged by a horizontal hinge shaft so that sieve plate 3 can swing up and down, and the right-hand member of sieve plate 3 is free end, is sieved Plate 3 is extended obliquely downward from the left side wall of casing 2.

Extension spring 5 is located in casing 2, and the upper end of extension spring 5 is connected with the roof of casing 2, lower end and the phase of sieve plate 3 of extension spring 5 Connection, the lower end of extension spring 5 is connected with the position of the right side wall of close casing 2 of the upper surface of sieve plate 3.

Rotating disk 6 is located in casing 2 and near the free end of sieve plate 3, and rotating disk 6 is rotated by Motor drive, the perisporium of rotating disk 6 On be provided with least one vibrating arm 601, vibrating arm 601 extends along the radial direction of rotating disk 6, when rotating disk 6 is rotated, vibrates Bar 601 clashes into the free end of sieve plate 3.

Guide plate 4 is located in casing 2 and positioned at the lower section of sieve plate 3, and left end and the left side wall of casing 2 of guide plate 4 are fixed Connection, guide plate 4 tilts upward from the left side wall of casing 2 and prolongs, the right-hand member of guide plate 4 and the free end consistency from top to bottom of sieve plate 3, the Two discharging openings 203 are located between sieve plate 3 and guide plate 4, and the lower edge of the second discharging opening 203 is concordant with the left end of guide plate 4.

Four vibrating arms 601, perisporium circumference of four vibrating arms 601 along rotating disk 6 are provided with the perisporium of described rotating disk 6 It is uniformly distributed, so, when rotating disk 6 is rotated, four vibrating arms 601 more can frequently clash into sieve plate 3 so that sieve plate 3 shakes It is dynamic more strong, so so that the screening effect of sieve plate 3 is more preferable.

Four described vibrating arms 601 are made by rubber, and so, vibrating arm 601 is flexibility, and vibrating arm 601 is clashing into During sieve plate 3, sieve plate 3 will not be caused to damage.

The bottom of described frame 1 is provided with roller 101, and so, the ore screening device can pass through the rolling of roller 101 Dynamic and convenient shift position.

A cloth 7 is connected between the right-hand member of described sieve plate 3 and the right-hand member of guide plate 4, cloth 7 can be by sieve plate 3 Gap closing between the right-hand member of right-hand member and guide plate 4, it is to avoid Ore is between the right-hand member and the right-hand member of guide plate 4 of sieve plate 3 Gap is dropped on guide plate 4.

Below only explanation is made that with regard to this utility model application preferably example, but is not to be construed as to claim Limit, structure of the present utility model there can be other to change, be not limited to said structure.In a word, it is all of the present utility model only The various change made in vertical scope of the claims is in protection domain of the present utility model.

Claims (5)

1. a kind of ore screening device, it is characterised in that include：

One frame (1)；

One casing (2), casing (2) is provided with charging aperture (201), charging aperture in frame (1) at the top of casing (2) (201) near the left side wall of casing (2), the bottom of casing (2) is provided with the first discharging opening (202), on the left side wall of casing (2) It is provided with the second discharging opening (203)；

One sieve plate (3), is provided with the through hole (301) passed through for ore particles on sieve plate (3), sieve plate (3) is interior positioned at casing (2), The left end of sieve plate (3) is hinged with the left side wall of casing (2) by a horizontal hinge shaft, and the right-hand member of sieve plate (3) is free end, sieve plate (3) left side wall from casing (2) is extended obliquely downward；

One extension spring (5), in casing (2), the upper end of extension spring (5) is connected with the roof of casing (2), extension spring (5) for extension spring (5) Lower end be connected with sieve plate (3)；

One rotating disk (6), in casing (2) and near the free end of sieve plate (3), rotating disk (6) is turned rotating disk (6) by Motor drive It is dynamic, at least one vibrating arm (601) is provided with the perisporium of rotating disk (6), vibrating arm (601) is along the radial direction of rotating disk (6) Extend, when rotating disk (6) is rotated, vibrating arm (601) clashes into the free end of sieve plate (3)；

One guide plate (4), guide plate (4) is in casing (2) and positioned at the lower section of sieve plate (3), the left end and machine of guide plate (4) The left side wall of shell (2) is fixedly connected, and guide plate (4) is tilted upward from the left side wall of casing (2) and prolonged, the right-hand member of guide plate (4) with The free end consistency from top to bottom of sieve plate (3), the second discharging opening (203) between sieve plate (3) and guide plate (4), the second discharging opening (203) lower edge is concordant with the left end of guide plate (4).

2. ore screening device according to claim 1, it is characterised in that：It is provided with the perisporium of described rotating disk (6) Four vibrating arms (601), four vibrating arms (601) are circumferentially uniformly distributed along the perisporium of rotating disk (6).

3. ore screening device according to claim 2, it is characterised in that：Four described vibrating arms (601) are by rubber Glue is made.

4. ore screening device according to claim 3, it is characterised in that：The bottom of described frame (1) is provided with rolling Wheel (101).

5. ore screening device according to claim 4, it is characterised in that：The right-hand member and guide plate of described sieve plate (3) (4) cloth (7) is connected between right-hand member.