CN204365472U

CN204365472U - A kind of modified material sorting device

Info

Publication number: CN204365472U
Application number: CN201420746756.6U
Authority: CN
Inventors: 肖金坚
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-12-03
Filing date: 2014-12-03
Publication date: 2015-06-03
Anticipated expiration: 2024-12-03

Abstract

The utility model discloses a kind of modified material sorting device, comprise main frame, be arranged on the body shell on main frame, dismountable upper casing being arranged on body shell top, be installed in rotation on the adapter sleeve in the cavity of upper casing, for driving the motor of adapter sleeve work, be inserted into the rotating cylinder in adapter sleeve, be positioned at the separation tube of the cavity of body shell, separation tube is upper end open and in the structure of hollow form, the sidewall of separation tube is formed with multiple pore, the top of upper casing is provided with towards the feed pipe of separation tube, the bottom of body shell is provided with discharge nozzle, the bottom of discharge nozzle is connected with screening plant, the top of rotating cylinder is fitted with link, separation tube is hinged on this link, this separation tube can be rotated along the axis direction perpendicular to rotating cylinder.The utility model can solve the often blocked problem of pore preferably, improves the efficiency of separation significantly, preferably the magnetic material in fines and non-magnetic material can be carried out sorting.

Description

A kind of modified material sorting device

Technical field

The utility model relates to a kind of sorting unit of material, is specifically related to a kind of modified material sorting device.

Background technology

In mineral process, there is certain requirement to the particle size of material, often need to carry out sorting to the material of different size, to obtain different capital construction demands.

At present, general material sorting device comprises leg, leg is provided with rotatable separation tube, separation tube is provided with pore.When screening, rotate separation tube, the material being less than pore diameter will pass from pore, then flow out from an outlet, the material being greater than pore diameter then can not pass pore, finally pour out from separation tube, thus material larger and less for particle diameter is carried out sorting, to obtain different mineral process requirements.But after a long time use, part pore can by feed blocking, to significantly reduce the efficiency of separation of sorting unit, and, usually containing a large amount of magnetic materials in the fines of mineral, and these magnetic materials substantially can not work in capital construction process, cause the wasting of resources of magnetic material.

Utility model content

For the deficiencies in the prior art, the utility model object is intended to provide a kind of modified material sorting device, the often blocked problem of pore can be solved preferably, improve the efficiency of separation significantly, preferably the magnetic material in fines and non-magnetic material can be carried out sorting.

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

A kind of modified material sorting device, comprise main frame, be arranged on the body shell on main frame, dismountable upper casing being arranged on body shell top, be installed in rotation on the adapter sleeve in the cavity of upper casing, for driving the motor of adapter sleeve work, to be inserted in adapter sleeve and can with the rotating cylinder of its synchronous rotary, be positioned at the separation tube of the cavity of body shell, described separation tube is upper end open and in the structure of hollow form, the sidewall of described separation tube is formed with multiple pore, the top of described upper casing is provided with towards the feed pipe of separation tube, the bottom of described body shell is provided with discharge nozzle, the bottom of described discharge nozzle is connected with screening plant, the top of described rotating cylinder be fitted with can with the link of its synchronous rotary, described separation tube is hinged on this link, this separation tube can be rotated along the axis direction perpendicular to rotating cylinder,

Described screening plant comprises support, rack-mount screen box, be positioned at the concentration equipment of screen box, the top of described screen box is formed with charging aperture, described charging aperture is connected with discharge nozzle, the bottom of described screen box is formed with magnetic material outlet, the relative both sides of described screen box are formed with the first non-magnetic material outlet and the outlet of the second non-magnetic material respectively, described concentration equipment comprises in being arranged side by side and contrary the first transmitting device of throughput direction and the second transmitting device, the input of described first transmitting device is positioned at immediately below charging aperture, non-magnetic material can get rid of to the first non-magnetic material outlet by the output of described first transmitting device, the backhaul turning of the output of described first transmitting device is installed with roughly selects magnet, the input of described second transmitting device can be used for accepting the thick magnetic material dropped from the output of the first transmitting device, non-magnetic material can get rid of to the second non-magnetic material outlet by the output of described second transmitting device, the backhaul turning of the output of described second transmitting device is installed with carefully selects magnet, can be used for accepting the thin magnetic material dropped from the output of the second transmitting device immediately below the output that the outlet of described magnetic material is positioned at the second transmitting device.

Preferably, described link comprises the connection body be inserted on rotating cylinder, and the end angle of described connection body is outward extended with two in the leg be oppositely arranged, and described separation tube is hinged on these two legs.

Preferably, be formed with the arc-shaped cavity for holding separation tube between described two legs, the diameter of the cross section of described arc-shaped cavity is greater than the diameter of the cross section of separation tube.

Preferably, the line of two pin joints of described two legs and separation tube and the center line of separation tube non-intersect.

Preferably, be provided with spring between described separation tube and rotating cylinder, the head end of described spring is fixedly connected on separation tube, and the tail end of described spring is fixedly connected on rotating cylinder.

Preferably, the inwall of described body shell is provided with beche, and the outer wall of described body shell is provided with the time relay for controlling beche work.

Preferably, described body shell place above discharge nozzle is hinged with cover plate, and the outer wall of described body shell is provided with the controller being used to open or close cover plate.

Preferably, the quantity of described separation tube is four.

Preferably, described upper casing is provided with dust catcher.

Preferably, described charging aperture place is provided with for controlling material falling speed and preventing the vibrator of feed blocking.

The utility model beneficial effect is:

The utility model is by the setting of said structure, treat that the material of sorting falls into in separation tube from feed pipe, then starter motor, drive the rotation of adapter sleeve and rotating cylinder, then the synchronous rotary of separation tube is driven, the fine material that can pass from pore then falls in discharge nozzle through pore, finally discharge from discharge nozzle, and the fine material that can not pass from pore is trapped within separation tube, last by manually being poured out, because separation tube is hinged on link, therefore, separation tube with rotating cylinder synchronous rotary while, also can rotate along the axis direction perpendicular to rotating cylinder, thus make the utility model can solve the often blocked problem of pore preferably, improve the efficiency of separation significantly, the fines of discharging from discharge nozzle falls into in charging aperture, successively by roughly selecting and carefully selecting, carry out the sorting of magnetic material and non-magnetic material, then magnetic material is carried out independent collection, the fine material of non-magnetic material is used for the needs of capital construction, simultaneously, the line of two pin joints of two legs and separation tube and the center line of separation tube non-intersect, namely the line of two pin joints is not the diameter of the transversal disc of separation tube, thus make separation tube under onesize rotating speed, the centrifugal force that material in separation tube is subject to is larger, obtains better separating effect, in addition, between separation tube and rotating cylinder, spring is installed, the head end of spring is fixedly connected on separation tube, the tail end of spring is fixedly connected on rotating cylinder, the setting of spring can facilitate the reset work of separation tube, and the amplitude that simultaneously also can effectively prevent separation tube from rotating along the axis direction perpendicular to rotating cylinder causes the phenomenon that separation tube comes off from leg too greatly.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present utility model;

Fig. 2 is the structural representation of body shell and upper casing interior arrangement in Fig. 1.

Wherein, 1, main frame; 2, motor; 3, body shell; 4, upper casing; 5, feed pipe; 6, discharge nozzle; 7, dust catcher; 8, cover plate; 9, beche; 10, leg; 11, pin joint; 12, pore; 13, separation tube; 14, rotating cylinder; 15, body is connected; 16, adapter sleeve; 17, support; 18, screen box; 19, charging aperture; 20, the first transmitting device; 21, the second transmitting device; 22, magnet is roughly selected; 23, carefully magnet is selected; 24, the second non-magnetic material outlet; 25, the first non-magnetic material outlet; 26, magnetic material outlet; 27, vibrator.

Detailed description of the invention

Below, by reference to the accompanying drawings and detailed description of the invention, the utility model is described further:

As shown in Figure 1-2, for a kind of modified material sorting device of the present utility model, comprise main frame 1, be arranged on the body shell 3 on main frame 1, dismountable upper casing 4 being arranged on body shell 3 top, be installed in rotation on the adapter sleeve 16 in the cavity of upper casing 4, the motor 2 worked for driving adapter sleeve 16, to be inserted in adapter sleeve 16 and can with the rotating cylinder 14 of its synchronous rotary, be positioned at the separation tube 13 of the cavity of body shell 3, described separation tube 13 is upper end open and in the structure of hollow form, the sidewall of described separation tube 13 is formed with multiple pore 12, the top of described upper casing 4 is provided with towards the feed pipe 5 of separation tube 13, the bottom of described body shell 3 is provided with discharge nozzle 6, the bottom of described discharge nozzle 6 is connected with screening plant, the top of described rotating cylinder 14 be fitted with can with the link of its synchronous rotary, described separation tube 13 is hinged on this link, this separation tube 13 can be rotated along the axis direction perpendicular to rotating cylinder 14,

Screening plant comprises support 17, be arranged on the screen box 18 on support 17, be positioned at the concentration equipment of screen box 18, the top of described screen box 18 is formed with charging aperture 19, described charging aperture 19 is connected with discharge nozzle 6, the bottom of described screen box 18 is formed with magnetic material outlet 26, the relative both sides of described screen box 18 are formed with the first non-magnetic material outlet 25 and the second non-magnetic material outlet 24 respectively, described concentration equipment comprises in being arranged side by side and contrary the first transmitting device 20 and the second transmitting device 21 of throughput direction, the input of described first transmitting device 20 is positioned at immediately below charging aperture 19, non-magnetic material can get rid of to the first non-magnetic material outlet 25 by the output of described first transmitting device 20, the backhaul turning of the output of described first transmitting device 20 is installed with roughly selects magnet 22, the input of described second transmitting device 21 can be used for accepting the thick magnetic material dropped from the output of the first transmitting device 20, non-magnetic material can get rid of to the second non-magnetic material outlet 24 by the output of described second transmitting device 21, the backhaul turning of the output of described second transmitting device 21 is installed with carefully selects magnet 23, can be used for accepting the thin magnetic material dropped from the output of the second transmitting device 21 immediately below the output that described magnetic material outlet 26 is positioned at the second transmitting device 21.

The operation principle of screening plant of the present utility model is: the fine material dropped from discharge nozzle 6 enters from charging aperture 19, then fall on the first transmitting device 20, output is delivered to from the input of the first transmitting device 20, at the backhaul turning of the first transmitting device 20, non-magnetic material and roughly select between magnet 22 and do not have magnetic attraction, got rid of under the motional inertia of the first transmitting device 20 and deliver to the first non-magnetic material and export 25 places, magnetic material due to and roughly select between magnet 22 and have magnetic attraction, thus thick magnetic material can be delivered to the lower surface of output from the upper surface of the output of the first transmitting device 20, magnet 22 is roughly selected owing to only having the backhaul turning of the first transmitting device 20, so thick magnetic material still can fall on the input of the second transmitting device 21, then under the effect of the second transmitting device 21, output is delivered to from the input of the second transmitting device 21, carry out thin magnetic separation, the material that in last thick magnetic material, magnetic is less is transported to the second non-magnetic material and exports 24 places, and the stronger thin magnetic material of magnetic is finally transported to magnetic material and exports 26 places.The fine material that first non-magnetic material outlet 25 and the second non-magnetic material export 24 places can select different infrastructure projects according to the actual requirements, and the material that magnetic material exports 26 places may be used for other needs.In addition, the first transmitting device 20 of the present utility model and the second transmitting device 21 can be crawler belt conveying devices of the prior art, preferably material can be carried out lateral transport by the crawler belt that it is arranged.

Of the present utility modelly treat that the material of sorting falls into in separation tube 13 from feed pipe 5, then starter motor 2, drive the rotation of adapter sleeve 16 and rotating cylinder 14, then the synchronous rotary of separation tube 13 is driven, the fine material that can pass from pore 12 then falls in discharge nozzle 6 through pore 12, finally discharge from discharge nozzle 6, and the fine material that can not pass from pore 12 is trapped within separation tube 13, last by manually being poured out, because separation tube 13 is hinged on link, therefore, separation tube 13 with rotating cylinder 14 synchronous rotary while, also can rotate along the axis direction perpendicular to rotating cylinder 14, thus make the utility model can solve the often blocked problem of pore 12 preferably, improve the efficiency of separation significantly, the fines of discharging from discharge nozzle 6 falls into in charging aperture 19, successively by roughly selecting and carefully selecting, carry out the sorting of magnetic material and non-magnetic material, then magnetic material is carried out independent collection, the fine material of non-magnetic material is used for the needs of capital construction.

When practical operation, the quantity of feed pipe 5 can be one, also can be multiple.If be arranged to multiple, then a corresponding separation tube 13 of feed pipe 5, if one, then after a separation tube 13 loads the material of some, drive motors 2, after separation tube 13 being rotated an angle, then passes into material to another one separation tube 13.In addition, motor 2 of the present utility model also can be arranged on main frame 1.

Preferably, described link comprises the connection body 15 be inserted on rotating cylinder 14, and the end angle of described connection body 15 is outward extended with two in the leg 10 be oppositely arranged, and described separation tube 13 is hinged on these two legs 10.

Preferably, be formed with the arc-shaped cavity for holding separation tube 13 between described two legs 10, the diameter of the cross section of described arc-shaped cavity is greater than the diameter of the cross section of separation tube 13.The setting of arc-shaped cavity can facilitate the placement of separation tube 13.

Preferably, the line of two pin joints 11 of two legs 10 and separation tube 13 and the center line of separation tube 13 non-intersect.Namely the line of two pin joints 11 is not the diameter of the transversal disc of separation tube 13, thus makes separation tube 13 under onesize rotating speed, and the centrifugal force that the material in separation tube 13 is subject to is larger, obtains better separating effect.

Preferably, be provided with spring (not shown) between described separation tube 13 and rotating cylinder 14, the head end of described spring is fixedly connected on separation tube 13, and the tail end of described spring is fixedly connected on rotating cylinder 14.The setting of spring can facilitate the reset work of separation tube 13, and the amplitude that simultaneously also can effectively prevent separation tube 13 from rotating along the axis direction perpendicular to rotating cylinder 14 causes the phenomenon that separation tube 13 comes off from leg 10 too greatly.

Preferably, the inwall of described body shell 3 is provided with beche 9, and the outer wall of described body shell 3 is provided with the time relay worked for controlling beche 9.The periodic oscillations that can be controlled beche 9 by the time relay beats body shell 3, the material being attached to body shell 3 inwall is fallen in discharge nozzle 6, thus effectively prevents material in the accumulation of body shell 3 inwall.

Preferably, described body shell is hinged with cover plate 8 in place above 3 discharge nozzles 6, and the outer wall of described body shell 3 is provided with the controller being used to open or close cover plate 8.After material is accumulated to certain quantity above cover plate 8, opening of cover plate 8 can be controlled by controller, material can be expelled in discharge nozzle 6; After dispatch, the closedown work of cover plate 8 can be controlled by controller.

Preferably, the quantity of described separation tube 13 is four, can improve the efficiency of separation of material.

Preferably, described upper casing 4 is provided with dust catcher 7, the dust in body shell 3 can be absorbed, prevent these dusts to be discharged to the external world, and then pollution is shone into air.

Preferably, described charging aperture 19 place is provided with for controlling material falling speed and preventing the vibrator 27 of feed blocking.

Workflow of the present utility model is: treat that the material of sorting falls into in separation tube 13 from feed pipe 5, then starter motor 2, drive the rotation of adapter sleeve 16 and rotating cylinder 14, then the synchronous rotary of separation tube 13 is driven, the fine material that can pass from pore 12 then falls in discharge nozzle 6 through pore 12, finally discharge from discharge nozzle 6, and the fine material that can not pass from pore 12 is trapped within separation tube 13, finally by manually being poured out.Because separation tube 13 is hinged on the leg 10 of adapter sleeve 16, therefore, separation tube 13 with rotating cylinder 14 synchronous rotary while, also can rotate along the axis direction perpendicular to rotating cylinder 14.The fine material of discharging from discharge nozzle 6 passes into in charging aperture 19, under the effect of concentration equipment, the most weak material of magnetic enters in the first non-magnetic material outlet 25, the material that magnetic is more general enters in the second non-magnetic material outlet 24, the material that magnetic is the strongest enters in magnetic material outlet 26, is finally carried out using or preserving collection by these materials according to different demand.Meanwhile, the large material poured out in separation tube 13 also can pass into from charging aperture 19, also screens.

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 distortion all should belong within the protection domain of the utility model claim.

Claims

1. a modified material sorting device, it is characterized in that: comprise main frame, be arranged on the body shell on main frame, dismountable upper casing being arranged on body shell top, be installed in rotation on the adapter sleeve in the cavity of upper casing, for driving the motor of adapter sleeve work, to be inserted in adapter sleeve and can with the rotating cylinder of its synchronous rotary, be positioned at the separation tube of the cavity of body shell, described separation tube is upper end open and in the structure of hollow form, the sidewall of described separation tube is formed with multiple pore, the top of described upper casing is provided with towards the feed pipe of separation tube, the bottom of described body shell is provided with discharge nozzle, the bottom of described discharge nozzle is connected with screening plant, the top of described rotating cylinder be fitted with can with the link of its synchronous rotary, described separation tube is hinged on this link, this separation tube can be rotated along the axis direction perpendicular to rotating cylinder,

2. modified material sorting device as claimed in claim 1, it is characterized in that: described link comprises the connection body be inserted on rotating cylinder, the end angle of described connection body is outward extended with two in the leg be oppositely arranged, and described separation tube is hinged on these two legs.

3. modified material sorting device as claimed in claim 2, is characterized in that: be formed with the arc-shaped cavity for holding separation tube between described two legs, the diameter of the cross section of described arc-shaped cavity is greater than the diameter of the cross section of separation tube.

4. modified material sorting device as claimed in claim 2, is characterized in that: the line of two pin joints of described two legs and separation tube and the center line of separation tube non-intersect.

5. modified material sorting device as claimed in claim 4, it is characterized in that: be provided with spring between described separation tube and rotating cylinder, the head end of described spring is fixedly connected on separation tube, and the tail end of described spring is fixedly connected on rotating cylinder.

6. modified material sorting device as claimed in claim 1, it is characterized in that: the inwall of described body shell is provided with beche, the outer wall of described body shell is provided with the time relay for controlling beche work.

7. modified material sorting device as claimed in claim 1, is characterized in that: described body shell place above discharge nozzle is hinged with cover plate, and the outer wall of described body shell is provided with the controller being used to open or close cover plate.

8. modified material sorting device as claimed in claim 1, is characterized in that: the quantity of described separation tube is four.

9. modified material sorting device as claimed in claim 1, is characterized in that: described upper casing is provided with dust catcher.

10. modified material sorting device as claimed in claim 1, is characterized in that: described charging aperture place is provided with for controlling material falling speed and preventing the vibrator of feed blocking.