A kind of revolving material sorting device
Technical field
The present invention relates to the sorting unit of a kind of material, be specifically related to a kind of revolving material sorting device.
Background technology
In the mineral course of processing, the size of material there is certain requirement, it is often necessary to different size of material is sorted, to obtain different mineral process requirements.
At present, general material sorting device includes leg, is provided with rotatable separation tube on leg, is provided with pore on separation tube.When screening, rotate separation tube, to pass from pore less than the material of pore diameter, then flow out from an outlet, pore is then cannot pass through more than the material of pore diameter, finally pour out from separation tube, thus material bigger and less for particle diameter is sorted, to obtain different mineral process requirements.But, after a long time use, part pore can will be significantly reduced the efficiency of separation of sorting unit, and need periodically to dismantle separation tube and remove the material of blocking pore by feed blocking, expend substantial amounts of human resources.
Summary of the invention
For the deficiencies in the prior art, the object of the invention is intended to provide a kind of revolving material sorting device, can preferably solve the problem that pore is the most blocked, significantly increase the efficiency of separation, be effectively reduced cost of human resources.
For achieving the above object, the present invention adopts the following technical scheme that
A kind of revolving material sorting device, including main frame, the body shell being arranged on main frame, it is detachably arranged in the upper casing at body shell top, the adapter sleeve being installed in rotation in the cavity of upper casing, motor for drive connection set work, it is inserted in adapter sleeve and can the rotating cylinder of synchronous rotation, it is positioned at the separation tube of the cavity of body shell, described separation tube is upper end open and the structure in hollow form, multiple pore it is formed with on the sidewall of described separation tube, feed pipe towards separation tube is installed on the top of described upper casing, the bottom of described body shell is provided with discharge nozzle, the top of described rotating cylinder is fitted with can the link of synchronous rotation, described separation tube is hinged on this link, this separation tube can be rotated along the axis direction being perpendicular to rotating cylinder.
Preferably, described link includes the connection body being inserted on rotating cylinder, described connection body end angle be outward extended with two in the leg being oppositely arranged, described separation tube is hinged on these two legs.
Preferably, being formed with the arc-shaped cavity for accommodating separation tube between said two leg, the diameter of the cross section of described arc-shaped cavity is more than the diameter of the cross section of separation tube.
Preferably, the line of two pin joints of said two leg and separation tube is non-intersect with the centrage of separation tube.
Preferably, being 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 for opening or closing cover plate.
Preferably, the quantity of described separation tube is four.
Preferably, described upper casing is provided with vacuum cleaner.
The present invention has the beneficial effects that:
The present invention setting by said structure, material to be sorted falls at feed pipe to separation tube, then motor is started, drive adapter sleeve and the rotation of rotating cylinder, then the synchronous rotary of separation tube is driven, the thin material that can pass from pore then falls in discharge nozzle through pore, last discharge at discharge nozzle, and the thin material that can not pass from pore is trapped within separation tube, finally can be by manually being poured out, owing to separation tube is hinged on link, therefore, separation tube with rotating cylinder synchronous rotary while, also can rotate along the axis direction being perpendicular to rotating cylinder, so that the present invention can preferably solve the problem that pore is the most blocked, significantly increase the efficiency of separation, it is effectively reduced cost of human resources;Simultaneously, the line of two pin joints of two legs and separation tube is non-intersect with the centrage of separation tube, the i.e. line of two pin joints is not the diameter of the transversal disc of separation tube, so that separation tube is under an equal amount of rotating speed, the centrifugal force that material in separation tube is subject to is bigger, obtains more preferable separating effect;Additionally, spring is installed between separation tube and rotating cylinder, 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, can also effectively prevent the phenomenon that separation tube causes separation tube to come off from leg too greatly along the amplitude that the axis direction being perpendicular to rotating cylinder rotates simultaneously.
Accompanying drawing explanation
Fig. 1 is the overall structure schematic diagram of the present invention;
Fig. 2 is body shell and the structural representation of 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, vacuum cleaner;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.
Detailed description of the invention
Below, in conjunction with accompanying drawing and detailed description of the invention, the present invention is described further:
nullAs shown in Figure 1-2,The revolving material sorting device of one for the present invention,Including main frame 1、The body shell 3 being arranged on main frame 1、It is detachably arranged in the upper casing 4 at body shell 3 top、The adapter sleeve 16 being installed in rotation in the cavity of upper casing 4、Motor 2 for drive connection set 16 work、In being inserted into adapter sleeve 16 and can the rotating cylinder 14 of synchronous rotation、It is positioned at the separation tube 13 of the cavity of body shell 3,Described separation tube 13 is upper end open and the structure in hollow form,Multiple pore 12 it is formed with on the sidewall of described separation tube 13,Feed pipe 5 towards separation tube 13 is installed on the top of described upper casing 4,The bottom of described body shell 3 is provided with discharge nozzle 6,The top of described rotating cylinder 14 is fitted with can the link of synchronous rotation,Described separation tube 13 is hinged on this link,This separation tube 13 can be rotated along the axis direction being perpendicular to rotating cylinder 14.
The material to be sorted of the present invention falls at feed pipe 5 to separation tube 13, then motor 2 is started, drive adapter sleeve 16 and the rotation of rotating cylinder 14, then the synchronous rotary of separation tube 13 is driven, the thin material that can pass from pore 12 then falls in discharge nozzle 6 through pore 12, last discharge at discharge nozzle 6, and the thin material that can not pass from pore 12 is trapped within separation tube 13, finally can be by manually being poured out, owing to 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 being perpendicular to rotating cylinder 14, so that the present invention can preferably solve the problem that pore 12 is the most blocked, significantly increase the efficiency of separation, it is effectively reduced cost of human resources.
When practical operation, the quantity of feed pipe 5 can be one, it is also possible to is multiple.If configured to multiple, then a corresponding separation tube 13 of feed pipe 5, if one, then after a separation tube 13 loads a number of material, drive motor 2, after separation tube 13 is rotated an angle, then another one separation tube 13 is passed through material.It addition, the motor 2 of the present invention can also be arranged on main frame 1.
Preferably, described link includes the connection body 15 being inserted on rotating cylinder 14, described connection body 15 end angle be outward extended with two in the leg 10 being oppositely arranged, described separation tube 13 is hinged on these two legs 10.
Preferably, being formed with the arc-shaped cavity for accommodating separation tube 13 between said two leg 10, the diameter of the cross section of described arc-shaped cavity is more 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 is non-intersect with the centrage of separation tube 13.The i.e. line of two pin joints 11 is not the diameter of the transversal disc of separation tube 13, so that separation tube 13 is under an equal amount of rotating speed, the centrifugal force that the material in separation tube 13 is subject to is bigger, obtains more preferable separating effect.
Preferably, being 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, can also effectively prevent the phenomenon that separation tube 13 causes separation tube 13 to come off from leg 10 too greatly along the amplitude that the axis direction being perpendicular to rotating cylinder 14 rotates simultaneously.
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 for controlling beche 9 work.The periodic oscillations that can be controlled beche 9 by the time relay beats body shell 3 so that the material being attached to body shell 3 inwall falls in discharge nozzle 6, thus effectively prevents material in the accumulation of body shell 3 inwall.
Preferably, described body shell place above 3 discharge nozzles 6 is hinged with cover plate 8, and the outer wall of described body shell 3 is provided with the controller for opening or closing cover plate 8.Material is accumulated above cover plate 8 after certain quantity, can control opening of cover plate 8 by controller, can be expelled in discharge nozzle 6 by material;After dispatch, can be controlled the closedown work of cover plate 8 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 vacuum cleaner 7, the dust in body shell 3 can be absorbed, prevent these dusts to be discharged to the external world, and then air is shone into pollution.
The workflow of the present invention is: material to be sorted falls at feed pipe 5 to separation tube 13, then motor 2 is started, drive adapter sleeve 16 and the rotation of rotating cylinder 14, then the synchronous rotary of separation tube 13 is driven, the thin material that can pass from pore 12 then falls in discharge nozzle 6 through pore 12, last discharge at discharge nozzle 6, and the thin material that can not pass from pore 12 is trapped within separation tube 13, finally can be by manually being poured out.Owing to 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 along be perpendicular to rotating cylinder 14 axis direction rotate.
For a person skilled in the art, can technical scheme as described above and design, make other various corresponding changes and deformation, and within all these changes and deformation all should belong to the protection domain of the claims in the present invention.