CN213133597U - Novel pug deironing device - Google Patents

Abstract

The utility model relates to a novel mud material deironing device, including the carrier bar, the adsorption plate, the negative pressure pump, the electro-magnet, bear the frame, the mud material conveyer pipe, driving motor and drive circuit, the mud material conveyer pipe inlays in bearing the frame, the carrier bar inlays in mud material conveyer pipe up end, the water conservancy diversion mouth is established to one end, and communicate with the negative pressure pump through the water conservancy diversion mouth, the other end passes through the transmission shaft and is connected with driving motor, the bearing groove is established to the carrier bar surface, adsorb outside the bearing groove cladding through the bearing groove, the electro-magnet is established to the bearing groove bottom that the adsorption plate bottom corresponds, bearing groove tank bottom equipartition thru hole, the negative pressure pump, driving motor all is connected with. The novel device can effectively meet the requirements of mud conveying operation with various lengths and different flowability on one hand; on the other hand in transportation process, can effectual realization adsorb fixedly to magnetic material such as iron fillings in the mud to can prevent to adsorb fixed magnetic impurity and sneak into the mud once more.

Description

Novel pug deironing device

Technical Field

The utility model relates to a material mixing device, in particular to a novel pug iron removal device.

Background

At present, when products such as ceramics are processed, the impurities such as iron and the like in raw material mud often need to be cleaned, aiming at the requirement, at present, one or a plurality of electromagnets with fixed structural positions are mainly added in equipment such as a mud conveying table, a conveying pipe and the like, and the purpose of separating the impurities from the mud is achieved by adsorbing and fixing the impurities in the mud through the electromagnets; on the other hand, in the operation of the traditional iron removal equipment, impurities such as iron filings adsorbed and fixed on the surface of the electromagnet cannot be cleaned and purified timely and effectively, so that the electromagnet has poor adsorption and positioning effects on magnetic magazines far away from the electromagnet, and the defect that the iron-containing impurities are mixed into mud again in the countercurrent flow is further overcome.

Therefore, in view of the current situation, a novel pug iron removal device is urgently needed to be developed so as to meet the requirement of practical use.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects existing in the prior art, the utility model provides a novel pug iron removal device, which has simple structure, high integration degree and modularization degree and site adaptive capacity cavity, and can effectively meet the requirements of pug conveying operation with various lengths and different flowability on one hand; on the other hand, in the conveying process, the magnetic materials such as scrap iron and the like in the pug can be effectively adsorbed and fixed, so that the aim of eliminating the magnetic pollutants in the pug is fulfilled.

In order to achieve the above purpose, the present invention is realized by the following technical solution:

a novel mud deironing device comprises a bearing column, an adsorption plate, a negative pressure pump, an electromagnet, a bearing frame, a mud conveying pipe, a driving motor and a driving circuit, wherein the bearing frame is of a cylindrical frame structure with a rectangular cross section, at least one mud conveying pipe is embedded in the bearing frame and is distributed in parallel with the axis of the bearing frame, the bearing column is of a cylindrical hollow cylindrical structure and is embedded on the upper end surface of the mud conveying pipe and is distributed perpendicular to the axis of the mud conveying pipe, one end of the bearing column is provided with a flow guide port and is communicated with the negative pressure pump through the flow guide port, the other end of the bearing column is connected with the driving motor through a transmission shaft and is distributed coaxially, the outer surface of the bearing column is provided with a plurality of bearing grooves which are distributed coaxially with the bearing column and are of a closed annular structure, the adsorption plate is of a circular plate-shaped structure which is distributed coaxially with the bearing column and is coated outside the bearing grooves and is abutted against, each bearing groove is connected with an adsorption plate, at least two electromagnets are arranged at the bottom of the corresponding bearing groove at the bottom of the adsorption plate, the electromagnets are uniformly distributed around the axis of the bearing groove, a plurality of through holes are uniformly distributed at the bottom of the bearing groove, the through holes are uniformly distributed around the axis of the bearing column and are communicated with the bearing column, the aperture of each through hole is 1.5-3 times of the thickness of the adsorption plate, the axes of the through holes are distributed along the diameter direction of the adsorption plate, the negative pressure pump, the driving motor and the driving circuit are all connected with the bearing frame, and the driving circuit is respectively and electrically connected with the negative pressure pump, the electromagnets and.

Furthermore, the pug conveyer pipe be in any one of column cavity structures and slot-shaped structure, and its cross section is in circular, rectangle, isosceles trapezoid, regular polygon in arbitrary one, pug conveyer pipe surface is connected through resilient cushion with bearing the frame within a definite time, and when being two and more than two, parallelly connected each other between each pug conveyer pipe to keep apart through the baffle, the baffle inlay in bearing the frame and with bear the frame within a definite time through slide rail sliding connection.

Furthermore, the cross section of the adsorption plate is of an I-shaped plate structure, the thickness of the adsorption plate is 1-5 mm, a plurality of through holes with the aperture not smaller than 1 mm are uniformly distributed on the adsorption plate, at least one brush belt is uniformly distributed on the outer side surface of the adsorption plate, the brush belt surrounds the axis of the adsorption plate and is coated on the outer surface of the adsorption plate, and the front end surface of the brush belt is abutted against the inner surface of the pug conveying pipe and is in sliding connection with the inner surface of the pug conveying pipe.

Furthermore, the outer diameter of the bearing column is 1/5-1/4 of the height of the mud conveying pipe, the depth of a bearing groove on the outer surface of the bearing column is not less than 5 mm, the width of the bearing groove is 2-10 times of the thickness of the adsorption plate, the distance between every two adjacent bearing grooves is 1.5-3 times of the width of the bearing groove, when the number of the bearing columns in the same mud conveying pipe is two or more, the distance between every two adjacent bearing columns in the horizontal direction is 2-5 times of the diameter of the adsorption plate, and the height difference in the vertical direction is 0-2/3 of the height of the mud conveying pipe.

Further, bear frame wherein one end establish the feeding funnel to through feeding funnel and mud material conveyer pipe intercommunication, and the feeding funnel axis intersects and is 0-90 with mud material conveyer pipe axis, bear the frame other end and establish the mud auger, go out the preceding terminal surface of mud auger and inlay in mud material conveyer pipe up end and with the coaxial distribution of mud material conveyer pipe, go out mud auger and drive circuit electrical connection.

Furthermore, the driving circuit is a circuit system based on an industrial single chip microcomputer.

The novel concrete conveying device is simple in structure, high in integration degree and modularization degree, and capable of adapting to the site, and on one hand, the requirements of conveying operation of mud materials with various lengths and different flowability can be effectively met; on the other hand, in the conveying process, the magnetic materials such as scrap iron and the like in the pug can be effectively adsorbed and fixed, so that the aim of eliminating the magnetic pollutants in the pug is fulfilled.

Drawings

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic top view of a partial structure of the present invention;

FIG. 2 is a schematic view of a connection structure of a support column and an adsorption plate;

fig. 3 is a schematic structural diagram of the novel mud conveying pipe.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in figures 1-3, a novel mud deironing device comprises a bearing column 1, an adsorption plate 2, a negative pressure pump 3, an electromagnet 4, a bearing frame 5, a mud conveying pipe 6, a driving motor 7 and a driving circuit 8, wherein the bearing frame 1 is a cylindrical frame structure with a rectangular cross section, at least one mud conveying pipe 6 is embedded in the bearing frame 5 and is distributed in parallel with the axis of the bearing frame 5, the bearing column 1 is a cylindrical hollow cylindrical structure and is embedded on the upper end surface of the mud conveying pipe 6 and is distributed perpendicular to the axis of the mud conveying pipe 6, one end of the bearing column 1 is provided with a flow guide port 9 and is communicated with the negative pressure pump 3 through the flow guide port 9, the other end of the bearing column is connected with the driving motor 7 through a transmission shaft and is distributed coaxially, the outer surface of the bearing column 1 is provided with a plurality of bearing grooves 10 which are distributed coaxially with the bearing column 1 and are of a closed annular structure, the bearing groove 10 is coated outside the bearing groove 10 and is abutted against the bottom of the bearing groove 10, the outer diameter of the adsorption plate 2 is 0.8-1.5 times of the height of the mud conveying pipe 6, each bearing groove 10 is connected with one adsorption plate 2, at least two electromagnets 4 are arranged at the bottom of the corresponding bearing groove 10 at the bottom of the adsorption plate 2, the electromagnets 4 are uniformly distributed around the axis of the bearing groove 10, a plurality of through holes 11 are uniformly distributed at the bottom of the bearing groove 10, each through hole 11 is uniformly distributed around the axis of the bearing column 1 and is communicated with the bearing column 1, the aperture of each through hole 11 is 1.5-3 times of the thickness of the adsorption plate 2, the axes of the through holes are distributed along the diameter direction of the adsorption plate 2, the negative pressure pump 3, the driving motor 7 and the driving circuit 8 are connected with the bearing rack 5, and the driving circuit 8 is electrically connected.

In this embodiment, the pug conveying pipes 6 are of any one of a cylindrical cavity structure and a groove-shaped structure, and the cross section of the pug conveying pipes is of any one of a circle, a rectangle, an isosceles trapezoid and a regular polygon, the outer surfaces of the pug conveying pipes 6 are connected with the bearing rack 5 through the elastic cushion blocks 12, when the number of the pug conveying pipes is two or more, the pug conveying pipes 6 are connected in parallel and are isolated through the partition plates 13, and the partition plates 13 are embedded in the bearing rack 5 and are in sliding connection with the bearing rack 5 through the sliding rails 14.

It should be noted that the cross section of the adsorption plate 2 is in an i-shaped plate structure, the thickness of the adsorption plate is 1-5 mm, a plurality of through holes 11 with the aperture not smaller than 1 mm are uniformly distributed on the adsorption plate 2, at least one brush belt 15 is uniformly distributed on the outer side surface of the adsorption plate 2, the brush belt 15 surrounds the axis of the adsorption plate 2 and is coated on the outer surface of the adsorption plate 2, and the front end surface of the brush belt 15 abuts against and is in sliding connection with the inner surface of the pug conveying pipe 6.

It should be noted that the outer diameter of the load-bearing column 1 is 1/5-1/4 of the height of the slurry conveying pipe 6, the depth of the load-bearing grooves 10 on the outer surface of the load-bearing column 1 is not less than 5 mm, the width is 2-10 times of the thickness of the adsorption plate 2, the distance between two adjacent load-bearing grooves 10 is 1.5-3 times of the width of the load-bearing grooves 10, and when two or more load-bearing columns 1 are arranged in the same slurry conveying pipe 6, the distance between two adjacent load-bearing columns 1 in the horizontal direction is 2-5 times of the diameter of the adsorption plate 2, and the height difference in the vertical direction is 0 to 2/3 of the height of the slurry conveying pipe.

In this embodiment, bear frame 5 wherein one end establish feeding funnel 16 to communicate with pug conveyer pipe 6 through feeding funnel 16, and 16 axes of feeding funnel intersect and be 0-90 with the 6 axes of pug conveyer pipe, bear frame 5 other end and establish mud auger 17, go out mud auger 17 preceding terminal surface inlay in pug conveyer pipe 6 up end and with the coaxial distribution of pug conveyer pipe 6, go out mud auger 17 and 8 electrical connections of drive circuit.

Further preferably, the driving circuit 8 is a circuit system based on an industrial single chip microcomputer.

This is novel in the concrete implementation, the axis is to constituting the neotype carrier post of cost, adsorption plate, negative pressure pump, electro-magnet, bear the frame, the pug conveyer pipe, driving motor and drive circuit assemble, then will assemble this novel through bearing the frame after fixing at appointed operating position to make and bear frame one end and pass through feeding funnel and outside material source intercommunication, the other end is through going out mud auger and outside pug application apparatus intercommunication, at last with drive circuit and outside power supply system electrical connection, can accomplish the novel assembly of cost.

Accomplish this novel assembly back and can carry out the pug and carry and the deironing operation, during the operation, the pug is at first carried to this novel pug transfer pipe through the feeding funnel, the pug flows along pug transfer pipe axis direction under its self drive effort, each bearing post rotatory motion in the drive electrode drive pug transfer pipe simultaneously, and the electro-magnet operation on each bearing post of drive, it is rotatory through the adsorption plate of being connected with the bearing post, carry for the pug provides auxiliary driving power, satisfy the needs that the pug was carried.

In addition, when the bearing column and the adsorption plate connected with the bearing column rotate, part of the adsorption plate positioned below the axis of the bearing column is embedded in the pug conveying pipe and is embedded in the pug conveying pipe, magnetic materials such as scrap iron and the like in the pug are adsorbed and fixed on the side surface of the adsorption plate through the magnetic force of the electromagnet, then when the adsorption plate positioned in the pug rotates to the position above the axis of the bearing column, the adsorption plate adsorbed with magnetic impurities is separated from the pug, and the magnetic materials positioned on the side surface of the adsorption plate above the axis of the bearing column flow into the bearing column through the flow guide opening along with air flow under the negative pressure environment formed by the negative pressure pump, so that the surface of the adsorption plate is cleaned and the magnetic materials are adsorbed circularly, the magnetic materials adsorbed and fixed are prevented from being separated from the adsorption plate by factors such as the friction of the pug and are mixed into the absorption plate again to cause, meanwhile, the magnetic impurities entering the bearing column are discharged from the bearing column under the drive of the negative pressure pump, so that the continuous cleaning and deironing operation can be realized.

Meanwhile, when the iron is removed, the air flow generated by the negative pressure pump and used for cleaning magnetic impurities can be simultaneously taken away from the preheating zone of the electromagnet during the process that the air flow enters the bearing column through the bronze drum diversion port, so that the running temperature of the electromagnet is reduced, and the stability and the reliability of the continuous running of the electromagnet are improved.

The novel concrete conveying device is simple in structure, high in integration degree and modularization degree, and capable of adapting to the site, and on one hand, the requirements of conveying operation of mud materials with various lengths and different flowability can be effectively met; on the other hand, in the conveying process, the magnetic materials such as scrap iron and the like in the pug can be effectively adsorbed and fixed, so that the aim of eliminating the magnetic pollutants in the pug is fulfilled.

Those skilled in the art should understand that the present invention is not limited by the above embodiments. The foregoing embodiments and description have been made only for the purpose of illustrating the principles of the invention. The present invention can be further modified and improved without departing from the spirit and scope of the present invention. Such changes and modifications are intended to be within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a novel pug deironing device which characterized in that: the novel mud deironing device comprises a bearing column, an adsorption plate, a negative pressure pump, an electromagnet, a bearing frame, a mud conveying pipe, a driving motor and a driving circuit, wherein the bearing frame is of a cylindrical frame structure with a rectangular cross section, at least one mud conveying pipe is embedded in the bearing frame and is distributed in parallel with the axis of the bearing frame, the bearing column is of a cylindrical hollow cylindrical structure and is embedded in the upper end surface of the mud conveying pipe and is distributed perpendicular to the axis of the mud conveying pipe, one end of the bearing column is provided with a flow guide port and is communicated with the negative pressure pump through the flow guide port, the other end of the bearing column is connected with the driving motor through a transmission shaft and is distributed coaxially, the outer surface of the bearing column is provided with a plurality of bearing grooves which are distributed coaxially with the bearing column and are of a closed annular structure, the adsorption plate is of a circular plate-shaped structure which is distributed coaxially with the bearing, the adsorption plate external diameter is 0.8-1.5 times of pug conveyer pipe height, and every bearing groove all is connected with an adsorption plate, at least two electro-magnets are established to the bearing groove bottom that the adsorption plate bottom corresponds, the electro-magnet encircles bearing groove axis equipartition, a plurality of thru holes of bearing groove tank bottom equipartition, and each thru hole encircles bearing post axis equipartition and communicates with the bearing post, and the thru hole aperture is 1.5-3 times of adsorption plate thickness, and the thru hole axis distributes along adsorption plate diametric (al) direction, negative pressure pump, driving motor and drive circuit all are connected with the bearing frame, just drive circuit respectively with negative pressure pump, electro-magnet, driving motor electrical connection.

2. The novel pug iron removal device of claim 1, which is characterized in that: the mud material conveyer pipe be any one in column cavity structures and slot-shaped structure, and its cross section is arbitrary one in circular, rectangle, isosceles trapezoid, regular polygon, be connected through the cushion between mud material conveyer pipe surface and the frame of bearing, and when being two and more than two, each mud material conveyer pipe is parallelly connected each other to keep apart through the baffle, the baffle inlay in bearing the frame and with bear the frame between through slide rail sliding connection.

3. The novel pug iron removal device of claim 1, which is characterized in that: the cross section of the adsorption plate is of an I-shaped plate structure, the thickness of the adsorption plate is 1-5 mm, a plurality of through holes with the aperture not smaller than 1 mm are uniformly distributed on the adsorption plate, at least one brush belt is uniformly distributed on the outer side surface of the adsorption plate, the brush belt surrounds the axis of the adsorption plate and is coated on the outer surface of the adsorption plate, and the front end surface of the brush belt abuts against the inner surface of the mud conveying pipe and is in sliding connection with the inner surface of the mud conveying pipe.

4. The novel pug iron removal device of claim 1, which is characterized in that: the outer diameter of the bearing column is 1/5-1/4 of the height of the mud conveying pipe, the depth of a bearing groove on the outer surface of the bearing column is not less than 5 mm, the width of the bearing groove is 2-10 times of the thickness of the adsorption plate, the distance between every two adjacent bearing grooves is 1.5-3 times of the width of the bearing groove, when the bearing columns in the same mud conveying pipe are two or more than two, the distance between every two adjacent bearing columns in the horizontal direction is 2-5 times of the diameter of the adsorption plate, and the height difference in the vertical direction is 0-2/3 of the height of the mud conveying pipe.

5. The novel pug iron removal device of claim 1, which is characterized in that: bear frame wherein one end establish the feeding funnel to through feeding funnel and pug conveyer pipe intercommunication, and the feeding funnel axis intersects with pug conveyer pipe axis and is 0-90, bear the frame other end and establish the mud auger, go out the mud auger preceding terminal surface inlay in pug conveyer pipe up end and with the coaxial distribution of pug conveyer pipe, go out mud auger and drive circuit electrical connection.

6. The novel pug iron removal device of claim 1, which is characterized in that: the driving circuit is a circuit system based on an industrial single chip microcomputer.

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