CN210816109U - Hydraulic classification automatic control device - Google Patents

Abstract

The utility model discloses a hydraulic classification automatic control device, including shell, feed inlet, discharge gate, valve port, suction pump, filter layer, deposition storehouse, net baffle, hierarchical storehouse, filter screen, turbofan, motor and buffer layer. The utility model has the advantages that: the suction pump sets up in the circulation through-pipe on the right side of whole device, the filter layer is the filtration that active carbon and gauze combine, and its periphery is provided with the metal frame, and it fixes inside the deposition storehouse through welded connection, the net baffle is the thin grid structure of round platform form, and its upper end is fixed at the inboard top in hierarchical storehouse through the screw hole connection, and its parcel is in the outside in hierarchical storehouse, the filter screen is the mesh structure that the mesh increases progressively from top to bottom in proper order, and be hourglass hopper-shaped, and fix in the inside on the three screening layer in hierarchical storehouse through welded connection, the shape of its inboard of buffer layer is laminated in motor housing, and through powerful sticky inside at the housing.

Description

Hydraulic classification automatic control device

Technical Field

The utility model relates to a hierarchical automatic control device specifically is a hydraulic classification automatic control device, belongs to hydraulic classification technical field.

Background

A hydraulic classifier is a particle size classifying device, has the advantages of high efficiency, low energy consumption, no noise and the like, is a device system in the professional field of mineral classification, and has a design thought originated in 1988, developed by several doctor of mineral separation engineering of the university of Ahenh industry (Gem industry university, Gem industry, Ohio Ming corporation, Alluminal), Germany and European patents were obtained in 1991 and 1992, respectively, the basic structure of the hydraulic classifier is circular, the main body is composed of an upper cylinder and a lower cone, the coarse particle classifying chamber in the middle and the annular fine particle classifying chamber around the coarse particle classifying chamber are efficiently classified by applying a fluidized bed and an ascending water technology, coarse ore pulp is vertically fed onto a distribution plate at the bottom of the coarse particle classifying chamber from the middle of the classifying chamber through a special pipeline, ascending water flow enters the coarse particle classifying chamber through an annular gap between the distribution plate and the inner wall of the coarse particle classifying chamber, a turbulent flow area is formed at the lower part of the coarse grain grading chamber to realize coarse grain grading, coarse grain minerals settle according to the process requirements and enter a coarse grain discharge opening positioned at the middle position of the bottom of the coarse grain grading chamber through the annular gap, and fine grain minerals enter the annular fine grain grading chamber in an overflowing mode.

However, there are some problems more or less in the product on the market, one, do not have circulating device, the particulate matter that often does not sieve when using is wasted, do not have purifier simultaneously, when using, a large amount of water resources are wasted, also cause the waste to the environment simultaneously, also wasted a lot of resources, its two, the stirring fan does not have protection device, there are a large amount of particulate matters in the solution that is stirred, when high-speed stirring, can damage the flabellum, its three, most grading plant all are bulky, come the screening layer according to the granularity, space and resource are comparatively wasted, its four, do not have motor damping device, when using, it leads to the components and parts to damage to appear shaking easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hydraulic classification automatic control device for solving the problems.

The utility model discloses a following technical scheme realizes above-mentioned purpose: a hydraulic classification automatic control device comprises a shell, a feed inlet, a discharge outlet, valve ports, a water suction pump, a filter layer, an accumulation bin, a grid baffle, a classification bin, a filter screen, a turbine fan, a motor and a buffer layer, wherein the shell, the feed inlet, the discharge outlet, the water suction pump, the filter layer, the accumulation bin, the grid baffle, the classification bin, the filter screen, the turbine fan, the motor and the buffer layer form a main body structure of the hydraulic classification automatic control device, the shell is arranged at the top of the whole device and fixed on the upper surface of the classification bin through welding, the feed inlet is of a funnel-shaped structure and fixed at a through hole on the upper surface of the classification bin through welding, the discharge outlets are provided with three valve ports, the upper ends of the three valve ports are fixed at the lowest end of each layer of the classification bin through welding, the valve ports are fixed at the lowest end of the classification bin through rotation, the filter layer sets up in the deposition storehouse, the deposition storehouse passes through welded connection and fixes the bottommost in hierarchical storehouse, the net baffle is the inside that sets up in hierarchical storehouse, hierarchical storehouse comprises three layers of screening layers, screens in proper order through the difference of granularity size, the filter screen sets up the inside in hierarchical storehouse, the turbofan sets up the top in the inside in hierarchical storehouse, and its central axis passes through welded fastening in the axis of rotation of motor, the motor sets up the top in hierarchical storehouse, and sets up the inside at the buffer layer, the buffer layer sets up the inside at the shell.

Preferably, in order to facilitate retrieving remaining particulate matter in the waste material, prevent that the resource is wasted, also reduce the time of artifical clearance waste material, also prevent waste material polluted environment simultaneously, the suction pump sets up in the circulation siphunculus on the right side of whole device, and the one end of this circulation siphunculus is fixed on the through-hole on deposition storehouse upper portion through welded connection, and the other end passes through welded connection to be fixed on the left through-hole of feed inlet.

Preferably, in order to come out the moisture separation in the waste material, the water economy resource, the concentrated waste material solution of being convenient for simultaneously, the classification on next step of being convenient for improves its work efficiency simultaneously, the filter layer is the filtration that active carbon and gauze combine, and its periphery is provided with the metal frame, and it fixes inside the deposition storehouse through welded connection.

Preferably, in order to protect the turbine fan from being damaged by particles in the solution during high-speed stirring, so that unnecessary loss is caused, the service life is prolonged, and the economic benefit is improved, the grid baffle is of a round table-shaped fine grid structure, the upper end of the grid baffle is connected and fixed to the top of the inner side of the grading bin through a threaded hole, and the grid baffle wraps the outer side of the grading bin.

Preferably, in order to reduce the holistic volume of the device, realize the integration screening, reduced its shared space, practiced thrift its manufacturing cost simultaneously, improve economic benefits, the filter screen is the mesh by the network structure that from the top down increases gradually in proper order, and is lou hopper-shaped, and fixes the inside on the three screening layer of classified bin through welded connection.

Preferably, in order to reduce vibration caused by the use of the motor and prevent the damage of components caused by the vibration, the inner side of the buffer layer is attached to the motor shell in shape and is attached to the inner part of the shell through strong glue.

The utility model has the advantages that: the hydraulic classification automatic control device has reasonable design, the water suction pump is arranged in the circulation through pipe on the right side of the whole device, one end of the circulation through pipe is fixed on the through hole on the upper part of the deposition bin through welding connection, the other end of the circulation through pipe is fixed on the through hole on the left side of the feed inlet through welding connection, the residual particles in the waste materials are convenient to recycle, resources are prevented from being wasted, the time for manually cleaning the waste materials is also reduced, meanwhile, the waste materials are prevented from polluting the environment, more serious consequences are caused, the yield is improved, the filter layer is of a filter structure formed by combining activated carbon and a gauze, a metal frame is arranged around the filter layer, the filter layer is fixed inside the deposition bin through welding connection, the moisture in the waste materials is separated out, water resources are saved, meanwhile, the waste material solution is convenient to concentrate, the next classification is convenient, the working efficiency is improved, the, and its upper end is fixed at the inboard top of hierarchical storehouse through the screw hole connection, and its parcel is in the outside of hierarchical storehouse, the protection turbofan is beaten by the particulate matter in the solution when high-speed stirring and is broken, cause unnecessary loss, simultaneously also prolonged life, its economic benefits improves, the filter screen is the network structure that the mesh increases progressively from top to bottom in proper order, and is hourglass hopper-shaped, and fix in the inside of three screening layers of hierarchical storehouse through welded connection, reduce the holistic volume of the device, realize the integration screening, the space that its shared has been reduced, simultaneously practiced thrift its manufacturing cost, economic benefits improves, the shape of its inboard of buffer layer is laminated in the motor housing, and through the inside of powerful sticky subsides in the housing, reduce the vibrations that the motor brought when using, prevent that it from appearing vibrations and lead to the components and parts to damage.

Drawings

FIG. 1 is a side sectional view of the structure of the present invention;

fig. 2 is a detailed perspective view of the present invention.

In the figure: 1. the device comprises a shell, 2, a feeding hole, 3, a discharging hole, 4, a valve port, 5, a water suction pump, 6, a filter layer, 7, a deposition bin, 8, a grid baffle, 9, a grading bin, 10, a filter screen, 11, a turbofan, 12, a motor, 13 and a buffer layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, a hydraulic classification automatic control device comprises a housing 1, a feed inlet 2, a discharge outlet 3, a valve port 4, a water pump 5, a filter layer 6, a sedimentation bin 7, a grid baffle 8, a classification bin 9, a filter screen 10, a turbine fan 11, a motor 12 and a buffer layer 13, wherein the housing 1, the feed inlet 2, the discharge outlet 3, the water pump 5, the filter layer 6, the sedimentation bin 7, the grid baffle 8, the classification bin 9, the filter screen 10, the turbine fan 11, the motor 12 and the buffer layer 13 form a main body structure of the hydraulic classification automatic control device, the housing 1 is arranged at the top of the whole device and fixed on the upper surface of the classification bin 9 through welding, the feed inlet 2 is of a funnel-shaped structure and fixed at a through hole on the upper surface of the classification bin 9 through welding, the discharge outlets 3 are provided with three discharge outlets, and the upper ends thereof are fixed at the lowest end of each, the valve port 4 is arranged at the bottom of the grading bin 9 and is fixedly connected through rotation, the water suction pump 5 is arranged in the right side of the whole device, the filter layer 6 is arranged in the deposition bin 7, the deposition bin 7 is fixedly connected at the bottom of the grading bin 9 through welding, the grid baffle 8 is arranged in the grading bin 9, the grading bin 9 is composed of three screening layers and sequentially screens through different granularity sizes, the filter screen 10 is arranged in the grading bin 9, the turbine fan 11 is arranged at the top end of the inner part of the grading bin 9, the central shaft of the turbine fan is fixedly welded on the rotating shaft of the motor 12, the motor 12 is arranged at the top end of the grading bin 9 and is arranged in the buffer layer 13, the model of the motor 12 is Y-160M, and the buffer layer 13 is arranged in the shell 1.

The suction pump 5 is arranged in the circulating through pipe on the right side of the whole device, one end of the circulating through pipe is fixed on a through hole on the upper part of the deposition bin 7 through welding connection, the other end of the circulating through pipe is fixed on a through hole on the left side of the feed inlet 2 through welding connection, so that the residual particles in the waste are recycled, resources are prevented from being wasted, the time for manually cleaning the waste is reduced, meanwhile, the waste is prevented from polluting the environment, more serious consequences are caused, the yield is improved, the filter layer 6 is of a filter structure formed by combining activated carbon and a gauze, a metal frame is arranged around the filter layer, the filter layer is fixed inside the deposition bin 7 through welding connection, the moisture in the waste is separated out, the water resources are saved, meanwhile, the waste solution is convenient to concentrate, the next step classification is facilitated, the working efficiency is improved, the yield is improved, and the grid baffle 8 is, and its upper end is fixed at the inboard top of hierarchical storehouse 9 through the screw hole connection, and its parcel is in hierarchical storehouse 9 outside, and the protection turbofan is broken by the particulate matter in the solution when high-speed stirring, causes the unnecessary loss, has also prolonged life simultaneously, increaseed its economic benefits, filter screen 10 is the mesh by the upper to lower network structure who progressively increases in proper order, and is lou hopper-shaped, and fixes in the inside on hierarchical storehouse 9 three screening layer through welded connection, reduces the holistic volume of the device, realizes the integration screening, has reduced its shared space, has practiced thrift its manufacturing cost simultaneously, improves economic benefits, the shape of its inboard of buffer layer 13 is laminated in motor 12 shell, and through powerful sticky subsides in the inside of shell 1, reduces the vibrations that the motor brought when using, prevents that it from appearing vibrations and lead to the components and parts to damage.

The working principle is as follows: when the hydraulic classification automatic control device is used, materials are injected from the feed port 2, the switch of the motor 12 is turned on, the materials begin to be stirred, the materials pass through the filter screen 10 according to different particle sizes and are screened out, after the materials are fully stirred, the valve port 4 is opened, the waste materials are discharged, the waste materials are injected into the deposition bin 7, after redundant moisture is removed, the water suction pump 5 is turned on, the waste materials are injected into the classification bin 9 from the feed port 2, and meanwhile, new materials are injected.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. A hydraulic classification automatic control device is characterized in that: comprises a shell (1), a feed inlet (2), a discharge outlet (3), a valve port (4), a water suction pump (5), a filter layer (6), a sedimentation bin (7), a grid baffle (8), a grading bin (9), a filter screen (10), a turbofan (11), a motor (12) and a buffer layer (13), wherein the shell (1), the feed inlet (2), the discharge outlet (3), the water suction pump (5), the filter layer (6), the sedimentation bin (7), the grid baffle (8), the grading bin (9), the filter screen (10), the turbofan (11), the motor (12) and the buffer layer (13) form a main body structure of the hydraulic grading automatic control device, the shell (1) is arranged at the top of the whole device and fixed on the upper surface of the grading bin (9) through welding connection, the feed inlet (2) is of a funnel-shaped structure and fixed at a through hole on the upper surface of the grading bin (9) through welding connection, the three discharge ports (3) are arranged, the upper ends of the three discharge ports are fixedly connected to the lowest end of each layer of the grading bin (9) in a welded mode, the valve ports (4) are arranged at the lowest end of the grading bin (9) and are fixedly connected in a rotating mode, the water suction pump (5) is arranged in the right side of the whole device, the filter layer (6) is arranged in the deposition bin (7), the deposition bin (7) is fixedly connected to the lowest end of the grading bin (9) in a welded mode, the grid baffle (8) is arranged in the grading bin (9), the grading bin (9) is composed of three screening layers, screening layers are sequentially screened according to different granularity sizes, the filter screen (10) is arranged in the grading bin (9), the turbine fan (11) is arranged at the top end of the inner portion of the grading bin (9), and the central shaft of the turbine fan is fixedly welded to the rotating shaft of the motor (12), the motor (12) is arranged at the top end of the grading bin (9) and is arranged inside the buffer layer (13), and the buffer layer (13) is arranged inside the shell (1).

2. The hydraulic classification automatic control device as claimed in claim 1, characterized in that: the suction pump (5) is arranged in a circulating through pipe on the right side of the whole device, one end of the circulating through pipe is fixed on a through hole in the upper portion of the deposition bin (7) through welding connection, and the other end of the circulating through pipe is fixed on a through hole in the left side of the feeding port (2) through welding connection.

3. The hydraulic classification automatic control device as claimed in claim 1, characterized in that: the filter layer (6) is a filter structure combined by activated carbon and gauze, metal frames are arranged around the filter layer, and the filter layer is fixed inside the deposition bin (7) through welding connection.

4. The hydraulic classification automatic control device as claimed in claim 1, characterized in that: the grid baffle (8) is of a round table-shaped fine grid structure, the upper end of the grid baffle is connected and fixed to the top of the inner side of the grading bin (9) through a threaded hole, and the grid baffle wraps the outer portion of the grading bin (9).

5. The hydraulic classification automatic control device as claimed in claim 1, characterized in that: the filter screen (10) is a mesh structure with meshes sequentially increasing from top to bottom, is funnel-shaped and is fixed inside three screening layers of the grading bin (9) through welding connection.

6. The hydraulic classification automatic control device as claimed in claim 1, characterized in that: the inner side of the buffer layer (13) is attached to the shell of the motor (12) in shape, and is attached to the inside of the shell (1) through strong glue.

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