CN211989143U - Regenerated graphite powder purification facility - Google Patents

Abstract

The utility model relates to a regeneration graphite powder purification facility belongs to processing facility field, adopt the basin of U type, respectively install a semicircular baffle at the both ends of basin, install U type support in the bottom on basin left side, install T type support in the bottom on basin right, at the inside bottom installation spiral elevator of basin, cylindrical rinsing cylinder is installed at the rear of the inside top of basin, install the rectangle scraper blade of laminating with rinsing cylinder rear in the top behind the basin, install the hopper of trapezoidal form in the front of the top on the basin left side, regeneration graphite powder is stirred by the upset from top to bottom of rotatory elevator after getting into the basin through the hopper bottom, the weight of the binder that contains in the middle of the regeneration graphite powder is lighter than water, can float in the surface of water fast, then taken away by the surface of rotatory rinsing cylinder, then fall in the garbage bin after scraping it by the scraper blade, The rinsed graphite powder is pushed out from the discharge hole by a lifter.

Description

Regenerated graphite powder purification facility

Technical Field

The utility model relates to a regeneration graphite powder purification facility belongs to the processing facility field, and in particular to graphite powder utilizes the water float to get rid of impurity.

Background

Regenerated graphite powder and graphite powder processed by utilizing graphite waste. Because the melting point of graphite is more than 3200 ℃, most graphite manufacturers cannot realize the technology of smelting graphite, but most manufacturers use adhesives to bond graphite powder to form graphite powder and then process graphite accessories in order to produce graphite products. In the process of processing graphite accessories, part of graphite powder belongs to recycled graphite waste materials and is processed into regenerated graphite powder, and the regenerated graphite powder uses a bonding agent before the recycled graphite powder, so that impurities contained in the recycled graphite powder are more, the bonding agent contained in the recycled graphite powder needs to be removed when the recycled graphite powder is used again, otherwise, the effect of bonding again is influenced by excessive impurities, and the processed graphite accessories are changed into unqualified products. Therefore, an apparatus capable of rapidly separating impurities contained in the regenerated graphite powder is required to purify the regenerated graphite powder.

Disclosure of Invention

The utility model relates to a regeneration graphite powder purification facility has overcome above-mentioned difficulty, adopt the basin of U type, respectively install a semicircular baffle at the both ends of basin, install U type support in the bottom on basin left side, install T type support in the bottom on basin right, at the inside bottom installation spiral elevator of basin, cylindrical rinsing cylinder is installed at the rear of the inside top of basin, install the rectangle scraper blade of laminating with rinsing cylinder rear in the top behind the basin, install the hopper of trapezoidal form in the front of the top on the basin left side, regeneration graphite powder is upset about getting into the basin after the hopper bottom and is stirred, the weight of the binder that contains in the middle of the regeneration graphite powder is lighter than the quality of water, can float in the surface of water fast, then taken away by the surface of rotatory rinsing cylinder, then fall into the waste bin after scraping it by the scraper blade and fall off in, The rinsed graphite powder is pushed out from the discharge hole by a lifter.

A regenerated graphite powder purification facility is characterized by comprising a water tank, a U-shaped support, a T-shaped support, a water inlet pipe, a limiting valve, a hopper, a lifter, a rinsing roller, a scraping plate, a discharging chute, a first speed reducing motor, a second speed reducing motor, a discharging pipe, a discharging port, a water inlet valve, a limiting rod, a floater, an air switch and a power line;

the water tank is hollow U-shaped, the right side of the water tank is inclined upwards by 15-20 degrees and is transversely arranged, two semicircular baffles are respectively arranged at two ends of the water tank, a U-shaped support is vertically arranged at the bottom of the left top end, a T-shaped support is vertically arranged at the bottom of the right top end, a semicircular discharge hole is arranged at the bottom of the right side surface, a semicircular discharge chute is arranged at the right side of the discharge hole and is inclined downwards, and a long-strip-shaped rubber scraper inclined forwards by 20 degrees is arranged at the edge above the back surface of;

the limiting valve is rectangular and is vertically arranged at the position of the left height 3/4 in the water tank, a cylindrical water inlet valve is longitudinally and horizontally arranged in the middle of the upper part of the limiting valve, the front surface of the water inlet valve penetrates through the front wall of the water tank and then is connected with the cylindrical water inlet pipe through an elbow, two rectangular support lugs are longitudinally and horizontally arranged in the middle of the rear part of the limiting valve in parallel, the middles of the two support lugs are connected with the lower part of an L-shaped limiting rod through a cylindrical pin shaft, the upper part of the front surface of the limiting rod is contacted with a water outlet of the water inlet valve through a rubber pad, and a spherical floater;

the hopper is in a hollow trapezoid shape, the upper part and the lower part of the hopper are both provided with openings, the bottom of the hopper is arranged above the front of the left side of the water tank through a hollow triangular blanking pipe, the front of the bottom of the blanking pipe is vertically connected with the edge of the water tank, and the rear of the bottom of the blanking pipe is provided with a rectangular blanking opening;

the center of the lifter is a cylindrical middle shaft, the outer part of the lifter is a spiral blade and is transversely arranged at the bottom of the water tank, and the middle shafts at two ends of the lifter are respectively connected with the centers below the baffles at two ends of the water tank through a disc-shaped waterproof bearing seat;

the rinsing roller is hollow cylindrical and is arranged at the rear part of the upper part in the water tank, the cylindrical middle shafts at two ends are respectively connected with the center of the rear part above the baffles at two ends of the water tank through a disc-shaped waterproof bearing seat, and the middle part of the rear part is attached to the upper part of the scraper;

the first speed reducing motor is cylindrical, the left side of the first speed reducing motor is transversely arranged in the center of the back of the upper part of the right baffle of the water tank through a bolt, and a spline shaft on an output shaft on the left side penetrates through the baffle and is connected with a central shaft of the rinsing roller;

the second speed reducing motor is cylindrical, the left side of the second speed reducing motor is transversely arranged in the center below the right baffle of the water tank through a bolt, and a spline shaft on the output shaft on the left side penetrates through the baffle and is connected with a central shaft of the lifter;

the air switch is rectangular and is arranged on a power distribution cabinet of the assembly line, and the bottom of the air switch is connected with a first speed reduction motor and a second speed reduction motor through a circular power line.

Has the advantages that: in the process of processing graphite accessories, part of graphite powder belongs to recycled graphite waste materials and is processed into regenerated graphite powder, and the regenerated graphite powder uses a bonding agent before the recycled graphite powder, so that impurities contained in the recycled graphite powder are more, the bonding agent contained in the recycled graphite powder needs to be removed when the recycled graphite powder is used again, otherwise, the effect of bonding again is influenced by excessive impurities, and the processed graphite accessories are changed into unqualified products. A regenerated graphite powder purification facility adopts a U-shaped water tank, two semicircular baffles are respectively arranged at two ends of the water tank, a U-shaped support is arranged at the bottom of the left side of the water tank, a T-shaped support is arranged at the bottom of the right side of the water tank, a spiral lifter is arranged at the bottom of the inside of the water tank, a cylindrical rinsing roller is arranged at the rear part of the upper part of the inside of the water tank, a rectangular scraper plate which is attached to the rear part of the rinsing roller is arranged above the rear part of the water tank, a trapezoidal hopper is arranged at the front part of the upper part of the left side of the water tank, the regenerated graphite powder enters the water tank through the bottom of the hopper and is overturned and stirred up and down by the rotating lifter, the weight of a bonding agent contained in the regenerated graphite powder is lighter than the mass of water, the bonding agent can quickly float on the water surface and then is taken away by the surface of the rotating rinsing roller, the impurities contained in the regenerated graphite powder can be rapidly sorted out, so that the purity of the regenerated graphite powder is higher.

Drawings

FIG. 1 is a schematic diagram of a regenerated graphite powder purification facility;

FIG. 2 is a schematic structural view of a water tank, a hopper, a scraper, a discharge chute, a discharge pipe and a discharge port;

FIG. 3 is a schematic structural view of a water inlet pipe, a limit valve, a water inlet valve, a limit rod and a floater;

FIG. 4 is a schematic view of the air switch connected to the first gear motor and the second gear motor via power lines;

the marks in the above figures are a water tank 1, a U-shaped support 2, a T-shaped support 3, a water inlet pipe 4, a limiting valve 5, a hopper 6, a lifter 7, a rinsing roller 8, a scraping plate 9, a discharging chute 10, a first speed reducing motor 11, a second speed reducing motor 12, a discharging pipe 13, a discharging port 14, a water inlet valve 15, a limiting rod 16, a floater 17, an air switch 18 and a power line 19.

Detailed Description

The shape and structure of the present invention will be described in detail with reference to the accompanying drawings and reference numerals:

a regenerated graphite powder purification facility is characterized by comprising a water tank 1, a U-shaped support 2, a T-shaped support 3, a water inlet pipe 4, a limit valve 5, a hopper 6, a lifter 7, a rinsing roller 8, a scraping plate 9, a discharging chute 10, a first speed reducing motor (AC380V/1-2kw)11, a second speed reducing motor (AC380V/2-3kw)12, a discharging pipe 13, a discharging port 14, a water inlet valve 15, a limit rod 16, a floater 17, an air switch (AC380V/30A)18 and a power line 19;

the water tank 1 is hollow U-shaped, the right side of the water tank is inclined upwards by 15-20 degrees and is transversely arranged, two semicircular baffles are respectively arranged at two ends of the water tank, a U-shaped support 2 is vertically arranged at the bottom of the left top end, a T-shaped support 3 is vertically arranged at the bottom of the right top end, a semicircular discharge hole 14 is arranged at the bottom of the right side face, a semicircular discharge chute 10 is arranged at the right side of the discharge hole 14 and is inclined downwards, and a long-strip-shaped rubber scraper 9 inclined forwards by 20 degrees is arranged at the edge above the back of the;

the limiting valve 5 is rectangular and is vertically arranged at the left height 3/4 in the water tank 1, a cylindrical water inlet valve 15 is longitudinally and horizontally arranged in the middle of the upper part of the limiting valve, the front surface of the water inlet valve 15 penetrates through the front wall of the water tank 1 and then is connected with a cylindrical water inlet pipe 4 through an elbow, two rectangular support lugs are longitudinally and horizontally arranged in parallel in the middle of the rear part of the limiting valve, the middle parts of the two support lugs are connected with the lower part of an L-shaped limiting rod 16 through a cylindrical pin shaft, the upper part of the front surface of the limiting rod 16 is contacted with a water outlet of the water inlet valve 15 through a rubber pad, and a spherical floater 17 is arranged at the;

the hopper 6 is in a hollow trapezoid shape, the upper part and the lower part of the hopper are both provided with openings, the bottom of the hopper is arranged above the front of the left side of the water tank 1 through a hollow triangular blanking pipe 13, the front of the bottom of the blanking pipe 13 is vertically connected with the edge of the water tank 1, and the rear of the bottom of the blanking pipe is provided with a rectangular blanking opening;

the center of the lifter 7 is a cylindrical middle shaft, the outer part of the lifter is a spiral blade and is transversely arranged at the bottom inside the water tank 1, and the middle shafts at two ends of the lifter are respectively connected with the centers below the baffles at two ends of the water tank 1 through a disc-shaped waterproof bearing seat;

the rinsing roller 8 is hollow cylindrical and is arranged at the rear part of the upper part in the water tank 1, the cylindrical middle shafts at two ends are respectively connected with the center of the rear part above the baffles at two ends of the water tank 1 through a disc-shaped waterproof bearing seat, and the middle part of the rear part is attached to the upper part of the scraper 9;

the first speed reducing motor 11 is cylindrical, the left side of the first speed reducing motor is transversely arranged in the center of the back of the upper part of the right baffle of the water tank 1 through a bolt, and a spline shaft on an output shaft on the left side penetrates through the baffle and is connected with a central shaft of the rinsing roller 8;

the second speed reducing motor 12 is cylindrical, the left side of the second speed reducing motor is transversely arranged in the center below the right baffle of the water tank 1 through a bolt, and a spline shaft on an output shaft on the left side penetrates through the baffle and is connected with a central shaft of the lifter 7;

the air switch 18 is rectangular and is arranged on a power distribution cabinet of the assembly line, and the bottom of the air switch is connected with the first speed reduction motor 11 and the second speed reduction motor 12 through a circular power line 19.

When the facility for purifying the regenerated graphite powder is used, a worker firstly connects a water inlet pipe with a tap water pipe, then opens a faucet, tap water flows into a water tank through the water inlet pipe and a water inlet valve, the floater slowly floats up after the tap water entering the water tank slowly rises, the floater lifts up the rear part of a limiting rod to force a rubber pad in front of the limiting rod to block a water outlet of the water inlet valve after the floater floats to 3/4 positions above the water tank, so that the water inlet valve stops supplying water into the water tank, at the moment, the worker places a rectangular waste material box right below the bottom of the water tank, then opens an air switch, a first speed reduction motor drives a rinsing roller to slowly rotate clockwise, a second speed reduction motor drives a lifter to slowly rotate anticlockwise, the worker opens a crusher and a discharge conveying belt of the crusher to slowly feed crushed regenerated graphite powder into a hopper, and a second speed reduction motor, The regenerated graphite powder slowly flows into the water tank through a discharging pipe at the bottom of the hopper and falls into the water bottom, the regenerated graphite powder entering the water tank is stirred up and down by a spiral blade of a lifter, because the weight of a binder contained in the regenerated graphite powder is lighter than the mass of water and is insoluble in water, the binder can quickly float on the water surface, under the action of clockwise rotation of a rinsing roller, part of water on the upper part inside the water tank can be attached to the surface of the rinsing roller, the water attached to the surface of the rinsing roller can simultaneously and uninterruptedly bring the floating binder onto the rinsing roller, the water and the binder attached to the surface of the rinsing roller are scraped by a scraper when the rinsing roller rotates to the rear part, then the water and the binder fall into a waste box along the rear part of the water tank, the lifter can slowly lift the regenerated graphite powder to the right position of a discharge port while stirring the regenerated graphite powder at the bottom of the water tank, and then the regenerated graphite, The purified regenerated graphite powder is fed into a feeding conveyer belt of the dryer through a discharging chute and is dried in the dryer.

The foregoing is merely a general disclosure of the invention and is not intended to limit the invention in any way; those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the scope of the invention as defined by the appended claims.

Claims (1)

1. A regenerated graphite powder purification facility is characterized by comprising a water tank, a U-shaped support, a T-shaped support, a water inlet pipe, a limiting valve, a hopper, a lifter, a rinsing roller, a scraping plate, a discharging chute, a first speed reducing motor, a second speed reducing motor, a discharging pipe, a discharging port, a water inlet valve, a limiting rod, a floater, an air switch and a power line;

the water tank is hollow U-shaped, the right side of the water tank is inclined upwards by 15-20 degrees and is transversely arranged, two semicircular baffles are respectively arranged at two ends of the water tank, a U-shaped support is vertically arranged at the bottom of the left top end, a T-shaped support is vertically arranged at the bottom of the right top end, a semicircular discharge hole is arranged at the bottom of the right side surface, a semicircular discharge chute is arranged at the right side of the discharge hole and is inclined downwards, and a long-strip-shaped rubber scraper inclined forwards by 20 degrees is arranged at the edge above the back surface of;

the limiting valve is rectangular and is vertically arranged at the position of the left height 3/4 in the water tank, a cylindrical water inlet valve is longitudinally and horizontally arranged in the middle of the upper part of the limiting valve, the front surface of the water inlet valve penetrates through the front wall of the water tank and then is connected with the cylindrical water inlet pipe through an elbow, two rectangular support lugs are longitudinally and horizontally arranged in the middle of the rear part of the limiting valve in parallel, the middles of the two support lugs are connected with the lower part of an L-shaped limiting rod through a cylindrical pin shaft, the upper part of the front surface of the limiting rod is contacted with a water outlet of the water inlet valve through a rubber pad, and a spherical floater;

the hopper is in a hollow trapezoid shape, the upper part and the lower part of the hopper are both provided with openings, the bottom of the hopper is arranged above the front of the left side of the water tank through a hollow triangular blanking pipe, the front of the bottom of the blanking pipe is vertically connected with the edge of the water tank, and the rear of the bottom of the blanking pipe is provided with a rectangular blanking opening;

the center of the lifter is a cylindrical middle shaft, the outer part of the lifter is a spiral blade and is transversely arranged at the bottom of the water tank, and the middle shafts at two ends of the lifter are respectively connected with the centers below the baffles at two ends of the water tank through a disc-shaped waterproof bearing seat;

the rinsing roller is hollow cylindrical and is arranged at the rear part of the upper part in the water tank, the cylindrical middle shafts at two ends are respectively connected with the center of the rear part above the baffles at two ends of the water tank through a disc-shaped waterproof bearing seat, and the middle part of the rear part is attached to the upper part of the scraper;

the first speed reducing motor is cylindrical, the left side of the first speed reducing motor is transversely arranged in the center of the back of the upper part of the right baffle of the water tank through a bolt, and a spline shaft on an output shaft on the left side penetrates through the baffle and is connected with a central shaft of the rinsing roller;

the second speed reducing motor is cylindrical, the left side of the second speed reducing motor is transversely arranged in the center below the right baffle of the water tank through a bolt, and a spline shaft on the output shaft on the left side penetrates through the baffle and is connected with a central shaft of the lifter;

the air switch is rectangular and is arranged on a power distribution cabinet of the assembly line, and the bottom of the air switch is connected with a first speed reduction motor and a second speed reduction motor through a circular power line.

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