CN209715647U - A kind of ore dressing screw classifying loom - Google Patents

Abstract

The utility model relates to classifying equipoment technical field, especially a kind of ore dressing screw classifying loom.It includes pedestal, classification component, material collecting barrel and receiving vat.It will be in mineral aggregate collective conveyance to material collecting barrel, mineral aggregate in material collecting barrel is transported by the feeding inlet on the first positioning ring to sieve bucket, propellers in sieve bucket rotate under the driving of first motor, mineral aggregate, which constantly rolls in sieve bucket, to be stirred, due to offering several symmetrical sieve pores on the peripheral wall of sieve bucket, any sieve bucket peripheral wall for offering sieve pore is placed downwards, under the rotation of propellers, the lesser mineral aggregate of particle is fallen in receiving vat by sieve pore, convenient for centralized processing, and the biggish mineral aggregate of particle is then under the rotation of propellers, slowly at transport to the discharge gate on the second positioning ring, sieve bucket is discharged by discharge gate, through the above structure, the utility model ore dressing screw classifying loom can carry out ore-dressing practice in the case where no water resource, save great lot of water resources, man power and material can also be saved simultaneously.

Description

A kind of ore dressing screw classifying loom

Technical field

The utility model relates to classifying equipoment technical field, especially a kind of ore dressing screw classifying loom.

Background technique

With the high speed development of national economy and the increasingly raising of scientific and technological level.Heavy industry total output value is in its people Accounting in GDP is constantly soaring, and heavy industry industry has become for one of China's mainstay industry.Ore extraction level of processing is made The attach most importance to upstream source of industrial sector has become the important judgment criteria for determining industrial a chain efficiency and economic value, wherein gold Category class ore extraction processing is most representative, that is some important metal ore resources in China, and most of is lean ore, converts into metal The world Liang Zhan average product is relatively low.

Currently, the hydraulic classifier used in technical field of beneficiation, the ore discharge of the plurality of devices such as desliming bucket, rolling contracting bucket is main Control form be it is mechanical, hand, hydraulic type and electronic sensor etc. are several, and wherein this hierarchical approaches of hydraulic classifier need Huge water resource is consumed, and water source is drawn to minery during mining and carries out nearest classification processing, cost It is huge, if Ore Transportation is had water conservancy stepped zone operation to other, other man power and material is needed to support, therefore, It is necessary to propose a kind of ore dressing screw classifying loom, do not need waterpower and be classified, save water resource while save manpower and Material resources.

Utility model content

In view of the deficiency of the prior art, the purpose of this utility model is to provide a kind of ore dressing spiral classifiers Son.

To achieve the goals above, the utility model adopts the following technical solution:

A kind of ore dressing screw classifying loom, it includes pedestal, is set on pedestal for being classified the classification component of mineral aggregate, setting It is placed on classification component for the material collecting barrel to classification component offer mineral aggregate and is set on pedestal and is located under classification component Receiving vat of the side for the mineral aggregate after collecting classification；

The classification component includes the sieve bucket being set on pedestal, the first positioning for being set up in left end of the base and right end respectively Ring and the second positioning ring and be set in sieve bucket and with the propellers that are coaxially distributed of sieve bucket, the right end of first positioning ring with The left end rotation connection of bucket is sieved, the left end of second positioning ring and the right end of sieve bucket are rotatablely connected, are provided on the pedestal First motor, the left end of the propellers with the first positioning annulate shaft turn connection and at the center of the first positioning ring after with first The output shaft of motor is sequentially connected, and the right end of the propellers and the second positioning annulate shaft turn connection, opens on first positioning ring Equipped with feeding inlet, offer discharge gate on second positioning ring, the material collecting barrel be located above feeding inlet and with feeding inlet phase Connection, the receiving vat are located at the underface of sieve pore, and two group of first sieve pore group and two groups the are offered on the peripheral wall for sieving bucket Two sieve pore groups, the first sieve pore group and two group of second sieve pore group described in two groups are distributed in space crossings, the first sieve pore group described in every group Be made of the first sieve pore of several equidistantly distributeds, the second sieve pore group described in every group by several equidistantly distributeds the second sieve pore group At being provided with the regulatory component for trundle screen bucket on the pedestal, the regulation for trundle screen bucket be provided on the pedestal Component.

Preferably, the regulatory component include ring be fixedly installed on allly sieve bucket right end periphery wall surface on driven tooth, The driving tooth engaged with above sieve bucket and with driven tooth contraposition, the driving shaft that one end is fixed on driving tooth are set and are set to For driving the second motor of spindle rotation on pedestal.

Preferably, reduction gearbox is provided on the pedestal and between the second motor and driving shaft, the reduction gearbox Input shaft is fixedly connected with the output shaft of the second motor, and the output shaft of the reduction gearbox is connected by shaft coupling with driving shaft.

Preferably, the right end of first positioning ring is fixed with curved baffle, and the curved baffle is attached at the outer of sieve bucket With the sieve pore on the top side wall surface, front side wall surface and rear side wall surface for covering sieve bucket in side wall surface.

Preferably, the sieve bucket by lower left turn right inclined upward setting.

Preferably, the left bottom of the receiving vat offers discharge port, on the pedestal 10 and is located under receiving vat Side is provided with crawler belt, on the crawler belt and is located at immediately below discharge port and is provided with rewinding case.

Preferably, the driven tooth and driving tooth are all made of bevel gear.

As the above scheme is adopted, in the mineral aggregate collective conveyance to material collecting barrel of the utility model, in material collecting barrel Mineral aggregate is transported by the feeding inlet on the first positioning ring to sieve bucket, sieves the propellers in bucket in the driving backspin of first motor Turn, mineral aggregate, which constantly rolls in sieve bucket, to be stirred, and due to offering several symmetrical sieve pores on the peripheral wall of sieve bucket, is opened up any There is the sieve bucket peripheral wall of sieve pore to place downwards, under the rotation of propellers, the lesser mineral aggregate of particle falls to receiving vat by sieve pore Interior, convenient for centralized processing, and the biggish mineral aggregate of particle is then under the rotation of propellers, slowly transport to the row on the second positioning ring At material mouth, sieve bucket is discharged by discharge gate, through the above structure, the utility model ore dressing screw classifying loom can be provided in no water Ore-dressing practice is carried out in the case where source, saves great lot of water resources, while can also save man power and material.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model embodiment；

Fig. 2 is the structural schematic diagram of the utility model embodiment sieve bucket；

Fig. 3 is the partial enlarged view in Fig. 2 at M；

Fig. 4 is the partial enlarged view in Fig. 2 at K；

Fig. 5 is the cross section structure schematic diagram of the utility model embodiment sieve bucket and curved baffle.

Specific embodiment

The embodiments of the present invention are described in detail below in conjunction with attached drawing, but the utility model can be by right It is required that the multitude of different ways for limiting and covering is implemented.

Such as Fig. 1 to Fig. 5, the utility model embodiment provides a kind of ore dressing screw classifying loom, it includes pedestal 10, setting It is used to give the classification offer mineral aggregate of component 20 in being used to be classified the classification component 20 of mineral aggregate on pedestal 10, being set on classification component 20 Material collecting barrel 30 and be set on pedestal 10 and be located at below classification component 20 for collecting the receiving vat of the mineral aggregate after being classified 40；Classification component 20 includes the sieve bucket 21 being set on pedestal 10, the first positioning for being set up in 10 left end of pedestal and right end respectively Ring 22 and the second positioning ring 23 and the propellers 24 for being set in sieve bucket 21 and being coaxially distributed with sieve bucket 21, the first positioning ring 22 right end and the left end of sieve bucket 21 are rotatablely connected, and the left end of the second positioning ring 23 and the right end of sieve bucket 21 are rotatablely connected, pedestal First motor 11 is provided on 10, the left end of propellers 24 and 22 axis of the first positioning ring turn connection and run through the first positioning ring 22 Center at after be sequentially connected with the output shaft of first motor 11, the right end of propellers 24 and 23 axis of the second positioning ring turn to connect, Feeding inlet B is offered on first positioning ring 22, discharge gate C is offered on the second positioning ring 23, and material collecting barrel 30 is located on feeding inlet B It is connected just and with feeding inlet B, receiving vat 40 is located at the underface of sieve pore A, sieves and offers two group of first sieve on the peripheral wall of bucket 21 Hole group and two group of second sieve pore group, two group of first sieve pore group and two group of second sieve pore group are distributed in space crossings, every group first sieve Hole group is made of the first sieve pore A of several equidistantly distributeds, every group of second sieve pore group by several equidistantly distributeds the second sieve pore D It forms, the regulatory component for trundle screen bucket 21 is provided on pedestal 10, the tune for trundle screen bucket 21 is provided on pedestal 10 It controls component (being not marked in figure).

Based on the above structure, the utility model ore dressing screw classifying loom can be placed directly in mining region, and mineral aggregate is concentrated (mineral aggregate can be transmitted at a distance by crawler belt, settable switch valve of material collecting barrel 30 etc. is to control in transport to material collecting barrel 30 The speed and discharge capacity of conveying), the mineral aggregate in material collecting barrel 30 is transported by the feeding inlet B on the first positioning ring 22 to sieve bucket 21 It is interior (directly mineral aggregate can also be transported to feeding inlet B) by crawler belt, sieve in bucket 21 propellers 24 (propellers 24 use worm screw, And the screw rod leaf of worm screw is bonded always with the internal perisporium of sieve bucket 21) it is rotated under the driving of first motor 11, mineral aggregate constantly exists Rolling stirring in bucket 21 is sieved, due to (preferably symmetrically offering distribution symmetrical above and below on the peripheral wall of sieve bucket 21 on the peripheral wall of sieve bucket 21 The first sieve pore A, sieve bucket 21 peripheral wall on symmetrically offer bilateral symmetry distribution the second sieve pore D, the first sieve pore A with second sieve The pore size of hole D is different, and the size of the first sieve pore A and the second sieve pore D can be depending on the mesh numbers needed for mineral aggregate) if offering Symmetrical first sieve pore A and the second sieve pore D are done, any 21 peripheral wall of sieve bucket for offering the first sieve pore A is placed downwards, in spiral Under the rotation of roller 24, the lesser mineral aggregate of particle is fallen in receiving vat 40 by sieve pore A, small when being classified convenient for centralized processing After the mineral aggregate of particle, sieve bucket 21 is controlled by regulatory component and is rotated accordingly, any sieve bucket for offering the second sieve pore D is made 21 peripheral walls are placed downwards, while reversely rotate first motor 11, the mineral aggregate of classification medium grain size are carried out, in being classified Etc. after the mineral aggregate of granular sizes, rotate in the forward direction first motor 11, the biggish mineral aggregate of particle then under the rotation of propellers 24, delays At slow transport to the discharge gate C on the second positioning ring 23, sieve bucket 21 is discharged by discharge gate C (can be arranged shoe at discharge gate C Band transports the mineral aggregate of discharge to designated position), the above operation can be controlled by program setting, through the above structure, this Utility model ore dressing screw classifying loom can carry out ore-dressing practice in the case where no water resource, save great lot of water resources, together When can also save man power and material.

Further, in order to make the better effect of ore dressing, the regulatory component of the present embodiment includes that ring is fixedly installed on allly It sieves the driven tooth 25 on the right end periphery wall surface of bucket 21, setting and aligns the driving tooth engaged with above sieve bucket 21 and with driven tooth 25 26, the driving shaft 27 and be set on pedestal 10 for driving the second of the rotation of driving shaft 27 that one end is fixed on driving tooth 26 Motor 12.It based on the above structure, can be rotated by the second motor driven driving shaft 27, and then driving tooth 26 is made to drive driven tooth 25 Synchronous rotary drives sieve bucket 21 axis on the second positioning ring 23 and the first positioning ring 22 to turn connection, when the rotation of propellers 24 with this While turning, sieve bucket 21 also makes rotating motion, and so that mineral aggregate is kept in motion in sieve bucket 21 always, passes through sieve symmetrical above and below Hole A is screened little particle mineral aggregate constantly to receiving vat 40, while being turned by sieve 21 axis of bucket, makes to be located at about 21 bucket of sieve The sieve pore A of peripheral wall is used to be classified mineral aggregate in turn, prevent be used for a long time sieve bucket 21 on after a sieve pore A, block sieve pore A Phenomenon makes the better effect of ore dressing.

Further, the speed rotated for the ease of control sieve bucket 21 on the pedestal 10 of the present embodiment and is located at the second electricity Reduction gearbox 13, the fixed company of the output shaft of the input shaft of reduction gearbox 13 and the second motor 12 are provided between machine 12 and driving shaft 27 It connects, the output shaft of reduction gearbox 13 is connected by shaft coupling 14 with driving shaft 27.Based on the above structure, pass through the biography of reduction gearbox Dynamic ratio, can control makes 12 input speed of the second motor switch to the output revolving speed for meeting mineral aggregate classification, makes to sieve the speed that bucket 21 rotates Degree is convenient for control.

Further, when sieving 21 graded operation of bucket, part mineral aggregate is fallen out from the upper end peripheral wall of sieve bucket 21 in order to prevent Come, the right end of first positioning ring 22 of the present embodiment is fixed with curved baffle 15, and curved baffle is attached at the lateral wall of sieve bucket 21 With the sieve pore on the top side wall surface, front side wall surface and rear side wall surface for covering sieve bucket 21 on face.Based on the above structure, pass through arc Sieve pore on the top side wall surface, front side wall surface and rear side wall surface that sieve bucket 21 is sealed the (arc of curved baffle 15 by shape baffle 15 Degree size can be arranged accordingly, and the radian of curved baffle 15 is preferably extended bending to the center for sieving bucket 21 herein), it steps down It is used to be classified mineral aggregate in by the first sieve pore group or the second sieve pore group of sieving the bottom side wall surface of bucket 21, prevents part mineral aggregate from sieve bucket 21 Top side wall surface, fall in the sieve pore on front side wall surface and rear side wall surface.

Further, more efficient in order to be classified mineral aggregate, the sieve bucket 21 of the present embodiment is inclined from lower left toward upper right side Tiltedly setting.Based on the above structure, by being obliquely installed sieve bucket 21, mineral aggregate enters sieve bucket from the feeding inlet B on the first positioning ring 22 In 21, under the rotation of propellers 24, by gravity, inclined downward, the amplitude for making mineral aggregate roll in sieve bucket 21 add mineral aggregate to the left Greatly, it is classified to little particle mineral aggregate more efficient in receiving vat 40.

Further, for the ease of the mineral aggregate in processing receiving vat 40, the left bottom of the receiving vat 40 of the present embodiment is opened Equipped with discharge port E, on pedestal 10 and it is located at the lower section of receiving vat 40 and is provided with crawler belt 60, on crawler belt and be located at discharge port E just Lower section is provided with rewinding case 50.Based on the above structure, since sieve bucket 21 is obliquely installed, for the ease of handling receiving vat 40 Interior mineral aggregate, the mineral aggregate in receiving vat 40 pass through discharge port E under the influence of gravity and enter in rewinding case 50, then pass through crawler belt 60 Designated position is transmitted to be focused on.

Further, bucket 21 is sieved for the ease of synchronous rotary, preferably, the driven tooth 25 and active of the present embodiment Tooth 26 is all made of bevel gear.It based on the above structure, is engaged by bevel gear, vertical driving force can be converted to horizontal drive Power is easily installed the second motor, and sieves bucket 21 convenient for synchronous rotary.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, Equivalent structure or equivalent flow shift made by using the description of the utility model and the drawings, is directly or indirectly transported Used in other related technical areas, it is also included in the patent protection scope of the utility model.

Claims (7)

1. a kind of ore dressing screw classifying loom, it is characterised in that: it includes pedestal (10), is set on pedestal (10) for being classified The classification component (20) of mineral aggregate is set in classification component (20) for providing the material collecting barrel (30) of mineral aggregate to classification component (20) And it is set on pedestal (10) and is located at below classification component (20) for collecting the receiving vat (40) of the mineral aggregate after being classified；

Classification component (20) includes the sieve bucket (21) being set on pedestal (10), is set up in pedestal (10) left end and the right side respectively It first positioning ring (22) and the second positioning ring (23) at end and is set in sieve bucket (21) and is coaxially distributed with bucket (21) are sieved Propellers (24), the right end of first positioning ring (22) and the left end of sieve bucket (21) are rotatablely connected, second positioning ring (23) right end of left end and sieve bucket (21) is rotatablely connected, and is provided with first motor (11), the spiral on the pedestal (10) The left end of roller (24) and the first positioning ring (22) axis turn connection and at the center of the first positioning ring (22) after with first motor (11) output shaft transmission connection, the right end and the second positioning ring (23) axis of the propellers (24) turn connection, and described first is fixed It offers feeding inlet (B), is offered discharge gate (C) on second positioning ring (23), the material collecting barrel (30) on position ring (22) It is connected above feeding inlet (B) and with feeding inlet (B), the receiving vat (40) is located at the underface of sieve pore (A), the sieve Two group of first sieve pore group and two group of second sieve pore group are offered on the peripheral wall of bucket (21), the first sieve pore group described in two groups and two groups the Two sieve pore groups are distributed in space crossings, and the first sieve pore group described in every group is made of the first sieve pore (A) of several equidistantly distributeds, often Group the second sieve pore group is made of the second sieve pore (D) of several equidistantly distributeds, is provided on the pedestal (10) for turning The regulatory component of dynamic sieve bucket (21).

2. a kind of ore dressing screw classifying loom as described in claim 1, it is characterised in that: the regulatory component includes ring week ground Driven tooth (25), setting and sieve bucket (21) top and and the driven tooth being fixedly installed on the right end periphery wall surface of sieve bucket (21) (25) driving shaft (27) and be set to pedestal (10) that the driving tooth (26) of contraposition engagement, one end are fixed on driving tooth (26) On for drive driving shaft (27) rotate the second motor (12).

3. a kind of ore dressing screw classifying loom as claimed in claim 2, it is characterised in that: on the pedestal (10) and be located at the It is provided between two motors (12) and driving shaft (27) reduction gearbox (13), the input shaft and the second motor of the reduction gearbox (13) (12) output shaft is fixedly connected, and the output shaft of the reduction gearbox (13) is connected by shaft coupling (14) with driving shaft (27).

4. a kind of ore dressing screw classifying loom as described in claim 1, it is characterised in that: the right side of first positioning ring (22) End is fixed with curved baffle (15), and the curved baffle is attached on the outer side surface of sieve bucket (21) for covering sieve bucket (21) Top side wall surface, the sieve pore on front side wall surface and rear side wall surface.

5. a kind of ore dressing screw classifying loom as described in claim 1, it is characterised in that: the sieve bucket (21) from lower left toward Upper right side is obliquely installed.

6. a kind of ore dressing screw classifying loom as claimed in claim 5, it is characterised in that: the left side bottom of the receiving vat (40) Portion offers discharge port (E), is provided with crawler belt (60), the crawler belt on the pedestal (10) and below receiving vat (40) Above and immediately below discharge port (E) it is provided with rewinding case (50).

7. a kind of ore dressing screw classifying loom as claimed in claim 2, it is characterised in that: the driven tooth (25) and driving tooth (26) it is all made of bevel gear.