CN210595881U - Novel high-efficient impurity remover for likepowder carbon black - Google Patents

Abstract

The utility model provides a novel high-efficient impurity remover for likepowder carbon black, get rid of jar, likepowder carbon black air current entry, likepowder carbon black air current export, impurity export, first sealed lid, rotation type impurity removal mechanism including the impurity, the utility model discloses a likepowder carbon black air current in the likepowder carbon black air current entry and the mode of baffle direct collision, reduce the velocity of flow of likepowder carbon black air current by a wide margin, rust in the likepowder carbon black air current, refractory material lose kinetic energy because of the collision, and drop to impurity removal tank bottoms under self action of gravity, the iron rust that drops is attracted by the permanent magnet in the rectangular cavity, and refractory material directly drops to the pipe in the impurity export because of nonmagnetic, and the likepowder carbon black air current that is slowed down continues to flow to likepowder carbon black air current export along hollow cylinder bottom space and hollow round platform inner space, has not had iron rust in the likepowder carbon black air current in, The refractory material realizes the high-efficiency separation of the carbon black airflow from the iron rust and the refractory material in the powdery carbon black airflow.

Description

Novel high-efficient impurity remover for likepowder carbon black

Technical Field

The utility model relates to a carbon black production technical field especially relates to novel high-efficient likepowder impurity remover for carbon black.

Background

The main bag filter, the waste gas bag filter and the reprocessing bag filter are used for collecting the powdery carbon black, the powdery carbon black enters an air conveying system pipeline through an airtight valve, iron rust contained in the powdery carbon black and refractory materials falling off from a reaction furnace are separated through an impurity remover, the powdery carbon black is crushed through a micron crusher, then the powdery carbon black is conveyed to the collecting bag filter through an air conveying fan, and the separated powdery carbon black enters a wet granulator through a powder carbon storage tank, a feeding pump and a powder carbon conveying screw to be granulated. However, the original impurity remover adopts a natural settling mode to separate iron rust contained in the powdery carbon black and refractory materials falling off from a reaction furnace, the actual separation effect is poor, the micron pulverizer is often damaged and abraded, and the impurity content in the product is increased.

Disclosure of Invention

In view of the above, it is necessary to provide a novel and efficient impurity remover for powdered carbon black.

A novel high-efficiency impurity remover for powdery carbon black comprises an impurity removing tank, a powdery carbon black airflow inlet, a powdery carbon black airflow outlet, an impurity outlet, a first sealing cover and a rotary impurity removing mechanism, wherein one end of the impurity removing tank is a hollow cylinder, the other end of the impurity removing tank is a hollow round platform, the powdery carbon black airflow inlet is arranged at one side of the impurity removing tank close to the first sealing cover, the powdery carbon black airflow outlet is arranged at the other side of the impurity removing tank close to the first sealing cover, the powdery carbon black airflow inlet and the powdery carbon black airflow outlet are oppositely arranged, the impurity outlet is arranged at the bottom of the impurity removing tank, the first sealing cover is arranged at the top of the impurity removing tank, one end of the rotary impurity removing mechanism is arranged on the surface of the first sealing cover, and the other end of the rotary impurity removing mechanism is, the rotary impurity removing mechanism comprises a rotating shaft, a flange, a first fixing block, a rotating rod, an arc-shaped chute, a bolt, a second fixing block and a baffle plate, wherein one end of the rotating shaft is arranged inside the impurity removing tank body, the other end of the rotating shaft penetrates through the central position of a first sealing cover and is arranged outside the impurity removing tank body, the flange penetrates through the rotating shaft and is arranged close to the first sealing cover, the first fixing block is arranged at the end part of one side of the rotating shaft, one end of the rotating rod is arranged at one side of the first fixing block, the other end of the rotating rod is parallel to the surface of the first sealing cover, the arc-shaped chute is arranged on the surface of the first sealing cover, bolt holes are respectively formed at the two ends of the arc-shaped chute, one end of the bolt is arranged at one side, second fixed block one end sets up in the tip of axis of rotation opposite side, the U type recess has been seted up to the second fixed block other end, baffle one end central point puts and inserts in the U type recess of the second fixed block other end, the baffle other end extends to impurity removal jar and is close to the inside of hollow round platform.

Preferably, the height of the baffle is not more than the height of the hollow cylinder in the impurity removal tank, the width of the baffle is less than the inner diameter of the hollow cylinder in the impurity removal tank, and the width of the baffle is more than the inner diameter of the powdery carbon black airflow inlet.

Preferably, a plurality of rectangular cavities are further arranged on the inner wall of the hollow circular truncated cone in the impurity removing tank.

Preferably, the impurity export includes pipe, circular fixed plate, the sealed lid of second, pipe one end sets up in the bottom of the tank is got rid of to impurity, circular fixed plate central point puts and has seted up circular through-hole, circular fixed plate is fixed to be set up on the pipe outer wall, circular fixed plate keeps away from one side that impurity got rid of the tank bottom and has seted up first screw thread, the second screw thread has been seted up to sealed lid one side of second, second screw thread and first screw thread phase-match, the sealed lid of second sets up in circular fixed plate one side.

Preferably, a plurality of connecting lugs are further arranged on two sides of the arc-shaped sliding groove, and circular through holes are formed in the connecting lugs.

The scheme adopts a mode that the powdery carbon black airflow in the powdery carbon black airflow inlet directly collides with the baffle plate, so that the flow speed of the powdery carbon black airflow is greatly reduced, compared with the existing impurity remover, the flow speed of the powdery carbon black airflow in the impurity removing tank is lower, the rust and the refractory material in the powdery carbon black airflow lose kinetic energy due to collision and fall to the bottom of the impurity removing tank under the action of self gravity, the falling rust is attracted by the permanent magnet in the rectangular cavity, the refractory material directly falls into the circular tube in the impurity outlet due to non-magnetism, the decelerated powdery carbon black airflow continuously flows to the powdery carbon black airflow outlet along the bottom space of the hollow cylinder and the inner space of the hollow circular truncated cone, at the moment, the powdery carbon black airflow in the powdery carbon black airflow outlet does not contain rust and the refractory material, and the efficient separation of the carbon black airflow from the rust and the refractory material in the powdery carbon black airflow, and the high-efficiency separation of the separated rust and the refractory material is realized.

Drawings

FIG. 1 is a schematic axial view of a novel high-efficiency impurity remover for powdery carbon black.

Fig. 2 is a schematic cross-sectional view of the rotary type impurity removing mechanism of fig. 1 when it is not rotated.

Fig. 3 is a schematic sectional view of the rotary type impurity removing mechanism of fig. 1 while rotating.

FIG. 4 is a schematic axial view of the rotary type impurity removing mechanism.

Fig. 5 is an isometric view of fig. 4 from another angle.

In the figure: the device comprises an impurity removing tank 10, a hollow cylinder 11, a hollow circular truncated cone 12, a rectangular cavity 13, a powdery carbon black airflow inlet 20, a powdery carbon black airflow outlet 30, an impurity outlet 40, a circular tube 41, a circular fixing plate 42, a second sealing cover 43, a first sealing cover 50, a rotating shaft 61, a flange 62, a first fixing block 63, a rotating rod 64, an arc-shaped sliding groove 65, a connecting lug 651, a bolt 66, a second fixing block 67 and a baffle 68.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Referring to fig. 1 to 5, the utility model provides a novel high-efficient impurity remover for powdery carbon black, which comprises an impurity removing tank 10, a powdery carbon black airflow inlet 20, a powdery carbon black airflow outlet 30, an impurity outlet 40, a first sealing cover 50 and a rotary impurity removing mechanism, wherein one end of the impurity removing tank 10 is a non-magnetic rigid hollow cylinder 11, the other end of the impurity removing tank 10 is a non-magnetic rigid hollow circular table 12, the powdery carbon black airflow inlet 20 is arranged at one side of the impurity removing tank 10 close to the first sealing cover 50, the powdery carbon black airflow inlet 20 is a non-magnetic rigid hollow circular pipe, the powdery carbon black airflow outlet 30 is arranged at the other side of the impurity removing tank 10 close to the first sealing cover 50, the powdery carbon black airflow outlet 30 is a non-magnetic rigid hollow circular pipe, and the powdery carbon black airflow inlet 20 is arranged opposite to the powdery carbon black airflow outlet 30, the impurity outlet 40 is arranged at the bottom of the impurity removing tank 10 and used for cleaning iron rust and refractory materials accumulated at the bottom of the impurity removing tank 10 gradually, the first sealing cover 50 is arranged at the top of the impurity removing tank 10, the first sealing cover 50 is a non-magnetic rigid circular plate, the first sealing cover 50 is fixedly arranged on the side wall at the top end of the impurity removing tank 10 through an external bolt, one end of the rotary impurity removing mechanism is arranged on the surface of the first sealing cover 50, the other end of the rotary impurity removing mechanism is arranged inside the impurity removing tank 10, the rotary impurity removing mechanism comprises a rotating shaft 61, a flange 62, a first fixing block 63, a rotating rod 64, an arc-shaped sliding groove 65, a bolt 66, a second fixing block 67 and a baffle 68, one end of the rotating shaft 61 is arranged inside the impurity removing tank 10, and the other end of the rotating shaft 61 passes through the center of the first sealing cover, the flange 62 penetrates through the rotating shaft 61 and is arranged close to the first sealing cover 50, the first fixing block 63 is arranged at the end part of one side of the rotating shaft 61, the first fixing block 63 is a rigid cylinder, one end of the rotating rod 64 is arranged at one side of the first fixing block 63, the other end of the rotating rod 64 is parallel to the surface of the first sealing cover 50, the rotating rod 64 is a rigid square tube or a rigid round tube, the arc-shaped sliding groove 65 is arranged on the surface of the first sealing cover 50, bolt holes are respectively formed at two ends of the arc-shaped sliding groove 65, the arc-shaped sliding groove 65 is a rigid sliding groove, one end of the bolt 66 is arranged at one side of a round hole which is pre-arranged on the rotating rod 64, the other end of the bolt 66 is arranged at the other side of the round hole which is pre-arranged on the rotating rod 64, the other end of the bolt 66, second fixed block 67 one end sets up in the tip of axis of rotation 61 opposite side, second fixed block 67 is non-magnetic rigidity rectangular block, U type recess has been seted up to the second fixed block 67 other end, baffle 68 one end central point puts and inserts in the U type recess of the second fixed block 67 other end, the connected mode in U type groove is the welding in baffle 68 and the second fixed block 67, or through outside bolt, nut with baffle 68 one end fixed set up in the U type groove of second fixed block 67, the baffle 68 other end extends to impurity removal jar 10 and is close to the inside of hollow round platform 12, baffle 68 has great surface area to make likepowder carbon black air current entry 20 get rid of the likepowder carbon black air current of jar 10 inside transport and baffle 68 complete, abundant collision to impurity.

According to the scheme, rotating shafts 61 are arranged on two sides, close to the sealing covers, of the impurity removing tank 10, rotating rods 64 are further arranged on first fixing blocks 63 of the rotating shafts 61, arc-shaped sliding grooves 65 are further arranged on the surfaces of the sealing covers below the rotating rods 64, the angle between two ends of each arc-shaped sliding groove 65 and the central line of the rotating shaft 61 is 90 degrees, when the rotating rods 64 do not rotate, the rotating angles are 0 degree, at the moment, baffle plates 68 are parallel to the direction of a powdery carbon black airflow inlet 20 and the direction of a powdery carbon black airflow outlet 30 and are only suitable for the situation that no impurities exist in the powdery carbon black airflow, and when impurities such as iron rust and refractory materials exist in the powdery carbon black airflow, external force needs to be applied to the rotating rods 64 to enable the other ends of the rotating rods 64 to rotate from one ends of the arc-shaped sliding grooves 65 to the other ends of, the baffle 68 is fixedly arranged in the U-shaped groove of the second fixing block 67, the baffle 68 synchronously rotates 90 degrees under the rotation action of the rotating shaft 61, the angle is a working angle, so that the baffle 68 is perpendicular to the direction of the powdery carbon black airflow inlet 20 and the direction of the powdery carbon black airflow outlet 30, the powdery carbon black airflow in the powdery carbon black airflow inlet 20 has higher speed, after the powdery carbon black airflow completely collides with the baffle 68, the speed is greatly reduced, particularly, the reduction range of the speed of iron rust and refractory materials carried in the powdery carbon black airflow is larger, the powdery carbon black airflow drops towards the bottom of the impurity removal tank 10 under the action of gravity, the inner wall of the hollow circular table 12 in the impurity removal tank 10 is also provided with a rectangular cavity 13, the rectangular cavity 13 is filled with permanent magnets, so that the mixture of the iron rust and the refractory materials dropping to the bottom of the impurity removal tank 10 is separated, and the iron rust is adsorbed around the rectangular cavity 13, the refractory material continuously drops to the bottom of the impurity removing tank 10 due to non-magnetism, and gradually accumulates in the cavity of the circular tube 41 in the impurity outlet 40 after dropping.

The scheme adopts the mode that the powdery carbon black airflow in the powdery carbon black airflow inlet 20 directly collides with the baffle 68, so that the flow speed of the powdery carbon black airflow is greatly reduced, compared with the existing impurity remover, the flow speed of the powdery carbon black airflow in the impurity removing tank 10 is lower, the rust and the refractory material in the powdery carbon black airflow lose kinetic energy due to collision and fall to the bottom of the impurity removing tank 10 under the action of self gravity, the falling rust is attracted by the permanent magnet in the rectangular cavity 13, the refractory material directly falls into the circular tube 41 in the impurity outlet 40 due to non-magnetism, the decelerated powdery carbon black airflow continuously flows to the powdery carbon black airflow outlet 30 along the bottom space of the hollow cylinder 11 and the inner space of the hollow circular table 12, at the moment, no iron or refractory material exists in the powdery carbon black airflow outlet 30, and the carbon black airflow and the rust airflow in the powdery carbon black airflow are enabled to continuously, The high-efficiency separation of the refractory material also realizes the high-efficiency separation of the separated rust and the refractory material.

Further, the height of the baffle 68 is not greater than the height of the hollow cylinder 11 in the impurity removing tank 10, the width of the baffle 68 is smaller than the inner diameter of the hollow cylinder 11 in the impurity removing tank 10, the width of the baffle 68 is greater than the inner diameter of the powdery carbon black airflow inlet 20, so that the baffle 68 in the impurity removing tank 10 has a larger surface area, the powdery carbon black airflow conveyed from the powdery carbon black airflow inlet 20 to the inside of the impurity removing tank 10 sufficiently collides with the baffle 68, rust and refractory materials carried in the powdery carbon black airflow fall to the bottom of the impurity removing tank 10, and carbon black in the decelerated powdery carbon black airflow is light in weight and still has a certain speed, and will continue to flow to the powdery carbon black airflow outlet 30.

Further, still be provided with a plurality of not have magnetic rigidity rectangle cavity 13 on the inner wall of hollow round platform 12 in the jar 10 is got rid of to impurity, be provided with the permanent magnet in the rectangle cavity 13 for adsorb the iron rust in the impurity gets rid of jar 10.

Specifically, the rectangular cavity 13 is nonmagnetic, and the permanent magnet is arranged in the rectangular cavity 13, so that rust adsorbed by the permanent magnet is accumulated on the outer surface of the rectangular cavity 13, and the rust can be removed from the rectangular cavity 13 through a certain external force.

Further, impurity export 40 includes pipe 41, circular fixed plate 42, the sealed lid 43 of second, 41 one end of pipe sets up in impurity removal jar 10 bottom, pipe 41 is the non-magnetic rigidity body, circular through-hole has been seted up to circular fixed plate 42 central point, circular fixed plate 42 sets up on 41 outer walls of pipe through modes such as welding are fixed, circular fixed plate 42 keeps away from one side that impurity removed jar 10 bottom and has seted up first screw thread, the second screw thread has been seted up to the sealed lid 43 one side of second, second screw thread and first screw thread phase-match, the sealed lid 43 of second sets up in circular fixed plate 42 one side to it is fixed firm with the 41 other end of pipe to make the sealed lid 43 of second.

Specifically, when the fire-resistant material in the circular tube 41 is full, the second sealing cover 43 is unscrewed to enable the fire-resistant material to slide from the other end of the circular tube 41 to the outer bin body, after the fire-resistant material is completely removed, rust on the outer surface of the rectangular cavity 13 on the inner wall of the hollow circular truncated cone 12 is removed by an external tool, and after the rust is completely removed, the second sealing cover 43 is screwed down to continue to be used next time.

Further, still be provided with a plurality of engaging lugs 651 on the arc spout 65 both sides, engaging lug 651 is the rigid plate body, and has seted up the chamfer in the one end that the engaging lug 651 was kept away from arc spout 65, circular through-hole has been seted up to engaging lug 651 for set up outside bolt, nut, with firm the setting in first sealed lid 50 surface of engaging lug 651, so that do not take place relative displacement when making the bolt 66 other end slide in arc spout 65, and then ensure that impurity gets rid of in the jar 10 baffle 68 rotation angle and do not squint.

The embodiment of the utility model provides a module or unit in the device can merge, divide and delete according to actual need.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (5)

1. The utility model provides a novel high-efficient impurity remover for likepowder carbon black which characterized in that: get rid of jar, likepowder carbon black air current entry, likepowder carbon black air current export, impurity export, first sealed lid, rotation type impurity removal mechanism including impurity, the one end of jar is got rid of to impurity is hollow cylinder, the impurity is got rid of the jar other end and is hollow round platform, likepowder carbon black air current entry sets up in the one side that the jar is close to first sealed lid is got rid of to impurity, likepowder carbon black air current export sets up in the opposite side that the jar is close to first sealed lid is got rid of to impurity, likepowder carbon black air current entry with likepowder carbon black air current export sets up relatively, impurity export sets up in the tank bottoms portion is got rid of to impurity, first sealed lid sets up in the tank tops portion is got rid of to impurity, rotation type impurity removal mechanism one end sets up in first sealed lid surface, rotation, The impurity removing tank comprises a flange, a first fixing block, a rotating rod, an arc-shaped sliding groove, a bolt, a second fixing block and a baffle plate, wherein one end of the rotating shaft is arranged inside the impurity removing tank body, the other end of the rotating shaft penetrates through the central position of the first sealing cover and is arranged outside the impurity removing tank body, the flange penetrates through the rotating shaft and is arranged close to the first sealing cover, the first fixing block is arranged at the end part of one side of the rotating shaft, one end of the rotating rod is arranged at one side of the first fixing block, the other end of the rotating rod is parallel to the surface of the first sealing cover, the arc-shaped sliding groove is arranged on the surface of the first sealing cover, bolt holes are respectively formed at the two ends of the arc-shaped sliding groove, one end of the bolt is arranged at one side of a round hole which, the U-shaped groove has been seted up to the second fixed block other end, baffle one end central point puts and inserts in the U-shaped groove of the second fixed block other end, the baffle other end extends to the inside that the jar is close to hollow round platform is got rid of to impurity.

2. The new and efficient impurity remover for powdered carbon black according to claim 1, wherein: the baffle height is not more than the height that the jar hollow cylinder was got rid of to impurity, the baffle width is less than the internal diameter that the jar hollow cylinder was got rid of to impurity, the baffle width is greater than the internal diameter of likepowder carbon black air current entry.

3. The new and efficient impurity remover for powdered carbon black according to claim 2, wherein: the inner wall of the hollow round table in the impurity removing tank is also provided with a plurality of rectangular cavities.

4. The new and efficient impurity remover for powdered carbon black according to claim 1, wherein: the impurity export includes pipe, circular fixed plate, the sealed lid of second, pipe one end sets up in the bottom of the tank is got rid of to impurity, circular fixed plate central point puts and has seted up circular through-hole, circular fixed plate is fixed to be set up on the pipe outer wall, circular fixed plate is kept away from one side that impurity got rid of the tank bottom and has been seted up first screw thread, the second screw thread has been seted up to sealed lid one side of second, second screw thread and first screw thread phase-match, the sealed lid of second sets up in circular fixed plate one side.

5. The new and efficient impurity remover for powdered carbon black according to claim 1, wherein: a plurality of connecting lugs are further arranged on two sides of the arc-shaped sliding groove, and circular through holes are formed in the connecting lugs.

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