CN103449452A - Feeding device for conveying white carbon black raw material into kettle - Google Patents
Feeding device for conveying white carbon black raw material into kettle Download PDFInfo
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- CN103449452A CN103449452A CN2013103925885A CN201310392588A CN103449452A CN 103449452 A CN103449452 A CN 103449452A CN 2013103925885 A CN2013103925885 A CN 2013103925885A CN 201310392588 A CN201310392588 A CN 201310392588A CN 103449452 A CN103449452 A CN 103449452A
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- conveying belt
- chute
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- carbon black
- white carbon
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Abstract
The invention discloses a feeding device for conveying a white carbon black raw material into a kettle. The feeding device comprises a reaction kettle which is positioned in a pit, wherein a belt type conveying device is arranged on the ground nearby the pit; a sliding groove is obliquely formed between the belt type conveying device and the reaction kettle; the belt type conveying device comprises a conveying belt which is annularly arranged; the conveying belt comprises a conveying belt body and conveying belt stop edges which are arranged on two sides of the conveying belt body; the conveying belt body and the conveying belt stop edges on the two sides of the conveying belt body form a conveying belt with a U-shaped section; one end of the sliding groove is positioned below the conveying belt, and the other end of the sliding groove is lapped to a charging hole of the reaction kettle; a crushing device and a vibration device are arranged on the sliding groove. The feeding device for conveying the white carbon black raw material into the kettle is high in efficiency, stable and reliable, and has the time-saving and labor-saving effect.
Description
Technical field
The present invention relates to transportation art, relate in particular to a kind of pay-off that enters still for the white carbon black raw material.
Background technology
White carbon black claims again the hydration precipitated silica, is white amorphous fine powder, and have high temperature resistant, do not fire, good series of advantages such as electrical insulating property,, as the strengthening agent of rubber, be mainly that a kind of important silicon is the inorganic functional powder body material.Most domestic adopts traditional precipitator method preparation, that to take flower bulb alkali (being water glass) solution and sulfuric acid be raw material, regulate at a certain temperature pH value, obtain precipitation of silica, then wash through Filter Press from the slurry of reactor, remove sodium sulfate and impurity etc., then the filter cake obtained is liquefied as pasty slurry through high-speed stirring, be called making beating, last spraying drying, obtain silica product.
For convenient transportation, storage, usually the solid particulate that the flower bulb alkali used is dry production, become the liquid flower bulb alkali of required specification through the reactor dissolution transitions under certain temperature, pressure, in existing technique, toward adding in reactor, send flower bulb alkali by one-tenth manually, so traditional feed way, labor capacity is large, waste time and energy, cost is high, and efficiency is low.
Summary of the invention
The object of the invention is to propose a kind of efficiency high, time saving and energy saving and reliable and stable enter the pay-off of still for the white carbon black raw material.
For reaching this purpose, the present invention by the following technical solutions:
A kind of pay-off that enters still for the white carbon black raw material, comprise the reactor that is arranged in melt pit, on the ground on described melt pit side, is provided with lace conveying device, between described lace conveying device and described reactor, is tiltedly installed with chute; Wherein, described lace conveying device comprises the conveying belt that annular arranges, the conveying belt rib that described conveying belt comprises the conveying belt body and is arranged at the both sides of described conveying belt body, the described conveying belt rib of described conveying belt body and both sides forms the conveying belt in U-shaped cross section; One end of described chute is positioned at the below of described conveying belt, and the other end of described chute is overlapped on the opening for feed of described reactor, is provided with shredder assembly and vibrating device on described chute.
Wherein, on described conveying belt body, be arranged at intervals with dividing plate, the height of described dividing plate is less than the height of described conveying belt rib.
Wherein, half of the height that the height of described dividing plate is described conveying belt rib.
Wherein, described shredder assembly comprises the pressure roller between the rotating two side that is arranged at described chute and the drive unit be connected with described pressure roller, between the outside surface of described pressure roller and the surface of described chute, gap is set.
Wherein, described vibrating device is arranged at the bottom of described chute.
Wherein, the end that described chute is positioned at the below of described conveying belt is provided with the chute rib, and the top of described chute rib approaches the top of described conveying belt rib.
Wherein, the end that the width of described chute is overlapped in the opening for feed of described reactor by an end of the below that is positioned at described conveying belt to described chute diminishes gradually.
Wherein, described lace conveying device also comprises the inboard that is arranged at described conveying belt, for connecting and drive driving roller and the return idler of described conveying belt, the bottom of described driving roller and described return idler is provided with bearing support, the bottom of described bearing support is provided with back up pad, and the bottom of described back up pad is provided with roller.
Wherein, also be provided with drive-motor on described back up pad, be connected by belt between described drive-motor and described driving roller.
Beneficial effect of the present invention is: the pay-off that enters still for the white carbon black raw material of the present invention, by reactor is placed in melt pit, and on the ground on melt pit side, lace conveying device is set, be tiltedly installed with chute between lace conveying device and reactor, this lace conveying device comprises the conveying belt that annular arranges, the conveying belt rib that conveying belt comprises the conveying belt body and is arranged at the both sides of conveying belt body, and the conveying belt rib of conveying belt body and both sides forms the conveying belt in U-shaped cross section, one end of chute is positioned at the below of conveying belt, and the other end of chute is overlapped on the opening for feed of reactor, is provided with shredder assembly and vibrating device on chute, during work, an end by the white carbon black raw material at conveying belt is positioned on conveying belt, utilize conveying belt that the white carbon black raw material is transported to the end that conveying belt is connected with chute from this end, and make white carbon black raw material sliding to chute, and then the obliquity of process chute, automatically slide to the opening for feed of reactor, finally enter in reactor, replace manual operation by this machine conveyor belt, not only time saving and energy saving, can also effectively improve transport efficiency, during white carbon black raw material process chute, shredder assembly on chute can carry out preliminary fragmentation to the white carbon black raw material through chute, its particle size is reduced as much as possible, enter in reactor while dissolving and can accelerate its dissolution rate until the white carbon black raw material, and vibrating device can assist the white carbon black raw material that pulverized smoothly from chute landing to reactor, in addition, the pay-off that this white carbon black raw material enters still is arranged to conveying belt to be formed by conveying belt body and the conveying belt rib that is arranged at the both sides of conveying belt body the conveying belt in U-shaped cross section, when the white carbon black raw material transports on conveying belt, can not be scattering into conveying belt place in addition, play certain effect of gathering, make the white carbon black raw material all be transported to chute, improve and transport efficiency, and, an end of chute being arranged on to the below of conveying belt, when the position that the white carbon black raw material turns to from conveying belt is slided, will all wander to chute, guarantee that the white carbon black raw material can not trickle down to elsewhere, cause waste.
The accompanying drawing explanation
Fig. 1 is the structural representation that enters the pay-off of still for the white carbon black raw material of the present invention;
Fig. 2 is the conveyer belt structure schematic diagram in Fig. 1;
Fig. 3 is the sliding groove structure schematic diagram in Fig. 1;
Fig. 4 is chute and the reactor junction structural representation in Fig. 1.
In figure: the 1-melt pit; The 2-reactor; 3-ground; The 4-back up pad; The 5-conveying belt; The 6-bearing support; The 7-return idler; The 8-drive-motor; The 9-belt; The 10-chute; The 11-roller; 51-conveying belt body; 52-conveying belt rib; 101-chute rib; The 102-shredder assembly.
Embodiment
Further illustrate technical scheme of the present invention below in conjunction with accompanying drawing and by embodiment.
As shown in Figures 1 to 4, a kind of pay-off that enters still for the white carbon black raw material, comprise the reactor 2 that is arranged in melt pit 1, on the ground 3 on melt pit 1 side, is provided with lace conveying device, between lace conveying device and reactor 2, is tiltedly installed with chute 10; Wherein, lace conveying device comprises the conveying belt 5 that annular arranges, the conveying belt rib 52 that conveying belt 5 comprises conveying belt body 51 and is arranged at the both sides of conveying belt body 51, the conveying belt rib 52 of conveying belt body 51 and both sides forms the conveying belt in U-shaped cross sections; One end of chute 10 is positioned at the below of conveying belt 5, and the other end of chute 10 is overlapped on the opening for feed of reactor 2, is provided with shredder assembly and vibrating device on chute 10.
The pay-off that enters still for the white carbon black raw material of the present invention by reactor 2 is placed in melt pit 1, and arranges lace conveying device on the ground 3 on melt pit 1 side, between lace conveying device and reactor 2, is tiltedly installed with chute 10, this lace conveying device comprises the conveying belt 5 that annular arranges, the conveying belt rib 52 that conveying belt 5 comprises conveying belt body 51 and is arranged at the both sides of conveying belt body 51, and the conveying belt rib 52 of conveying belt body 51 and both sides forms the conveying belt in U-shaped cross sections, one end of chute 10 is positioned at the below of conveying belt 5, and the other end of chute 10 is overlapped on the opening for feed of reactor 2, is provided with shredder assembly and vibrating device in chute 10, during work, an end by the white carbon black raw material at conveying belt 5 is positioned on conveying belt 5, utilize conveying belt 5 that the white carbon black raw material is transported to the end that conveying belt 5 is connected with chute 10 from this end, and make white carbon black raw material sliding to chute 10, and then the obliquity of process chute 10, automatically slide to the opening for feed of reactor 2, finally enter in reactor 2, replace manual operation by this machine conveyor belt, not only time saving and energy saving, can also effectively improve transport efficiency, during white carbon black raw material process chute, shredder assembly in chute can carry out preliminary fragmentation to the white carbon black raw material through chute, its particle size is reduced as much as possible, enter in reactor while dissolving and can accelerate its dissolution rate until the white carbon black raw material, and vibrating device can assist the white carbon black raw material that pulverized smoothly from chute landing to reactor, in addition, the pay-off that this white carbon black raw material enters still is arranged to conveying belt 5 to be formed by conveying belt body 51 and the conveying belt rib 52 that is arranged at the both sides of conveying belt body 51 conveying belt in U-shaped cross section, when the white carbon black raw material transports on conveying belt 5, can not be scattering into conveying belt place in addition, play certain effect of gathering, make the white carbon black raw material all be transported to chute, improve and transport efficiency, and, an end of chute 10 being arranged on to the below of conveying belt 5, when the position that the white carbon black raw material turns to from conveying belt is slided, will all wander to chute 10, guarantee that the white carbon black raw material can not trickle down to elsewhere, cause waste.
Wherein, shredder assembly 102 comprises the pressure roller between the rotating two side that is arranged at chute 10 and the drive unit be connected with pressure roller, between the surface of the outside surface of pressure roller and chute 10, gap is set.Further, the surface of the outside surface of pressure roller and chute 10 approaches, but does not contact.When the particle of white carbon black raw material slides to shredder assembly 102 place of chute 10 like this; the particle of white carbon black raw material need to be through just entering reactor 2 between the surface of pressure roller and chute 10; and in the process process of shredder assembly 102; rotation through pressure roller realizes that the particle of dialogue carbon black feed stock is pulverized operation; reduce its granular size; make the particle of the white carbon black raw material entered in reactor 2 greatly reduce, and then improve dissolution rate.Further, vibrating device is arranged at the bottom of chute 10.After shredder assembly 102 pulverizes the particle of white carbon black raw material, the pulley speed of pulverous white carbon black raw material in chute 10 can slow down relatively, now, vibrating device passes through vibrotrunk, and then make the powder fast slide of the white carbon black raw material in chute 10 drop down onto reactor, avoid affecting broken speed, and then accelerate transfer rate, improve transport efficiency.
In the present embodiment, on conveying belt body 51, be arranged at intervals with dividing plate, the height of dividing plate is less than the height of conveying belt rib 52.One progressive ground, half of the height that the height of dividing plate is conveying belt rib 52.Utilize dividing plate to make on conveying belt and form a plurality of compartments, while on giving conveying belt 5, pouring feed particles into, running along with conveying belt 5, feed particles will ceaselessly be poured into different compartments, guarantee the stable conveying of feed particles, also can prevent that the end that is too near to conveying belt when pouring feed particles into from causing being scattered of feed particles.
Further, the end that chute 10 is positioned at the below of conveying belt 5 is provided with chute rib 101, and the top of chute rib 101 approaches the top of conveying belt rib 52.Like this, the feed particles on conveying belt 5 flows in the process of chute 10, and some feed particles there will be the situation of collision spring, by chute rib 101, can prevent well that feed particles from, because spring skips to the outside of chute 10, reducing the waste of raw material.In addition, the width of chute 10 is overlapped in the opening for feed of reactor 2 by an end of the below that is positioned at conveying belt 5 end to chute 10 diminishes gradually, is also that the width of an end of chute 10 below that is positioned at conveying belt 5 is greater than the width of an end that chute 10 is overlapped in the opening for feed of reactor 2.Even if make this white carbon black raw material enter the raw material of pay-off on conveying belt 5 of still when more, chute 10 also can receive well, large by self end again, the constructional feature opening for feed of delivering to reactor slowly that one end is little, avoid the disposable burden that causes the opening for feed of reactor when too much raw material is delivered to the opening for feed of reactor.
The lace conveying device that this white carbon black raw material enters the pay-off of still also comprises the inboard that is arranged at conveying belt 5, for connecting and drive driving roller and the return idler 7 of conveying belt 5, the bottom of driving roller and return idler 7 is provided with bearing support 6, the bottom of bearing support 6 is provided with back up pad 4, and the bottom of back up pad 4 is provided with roller 11.Also be provided with drive-motor 8 on back up pad 4, be connected by belt 9 between drive-motor 8 and driving roller.During feeding, by drive-motor 8, drive driving roller, the driving roller driving conveying belt rotates, and then drives the return idler rotation, forms circulation and transports.When not carrying out feeding, can utilize roller 11 that this lace conveying device is moved to elsewhere, with the feeding that coordinates other reactors or move to rest area, to vacate, taken up space, the placement of other equipment when realizing prepared by white carbon black.
Know-why of the present invention has below been described in conjunction with specific embodiments.These are described is in order to explain principle of the present invention, and can not be interpreted as by any way limiting the scope of the invention.Explanation based on herein, those skilled in the art does not need to pay performing creative labour can associate other embodiment of the present invention, within these modes all will fall into protection scope of the present invention.
Claims (9)
1. a pay-off that enters still for the white carbon black raw material, comprise the reactor (2) that is arranged in melt pit (1), it is characterized in that: be provided with lace conveying device on the ground (3) on described melt pit (1) side, between described lace conveying device and described reactor (2), be tiltedly installed with chute (10); Wherein, described lace conveying device comprises the conveying belt (5) that annular arranges, the conveying belt rib (52) that described conveying belt (5) comprises conveying belt body (51) and is arranged at the both sides of described conveying belt body (51), the described conveying belt rib (52) of described conveying belt body (51) and both sides forms the conveying belt in U-shaped cross section; One end of described chute (10) is positioned at the below of described conveying belt (5), and the other end of described chute (10) is overlapped on the opening for feed of described reactor (2), and described chute is provided with shredder assembly and vibrating device on (10).
2. a kind of pay-off that enters still for the white carbon black raw material according to claim 1, it is characterized in that: be arranged at intervals with dividing plate on described conveying belt body (51), the height of described dividing plate is less than the height of described conveying belt rib (52).
3. a kind of pay-off that enters still for the white carbon black raw material according to claim 2, is characterized in that: half of the height that the height of described dividing plate is described conveying belt rib (52).
4. a kind of pay-off that enters still for the white carbon black raw material according to claim 1, it is characterized in that: described shredder assembly (102) comprises the pressure roller between the rotating two side that is arranged at described chute (10) and the drive unit be connected with described pressure roller, between the surface of the outside surface of described pressure roller and described chute (10), gap is set.
5. a kind of pay-off that enters still for the white carbon black raw material according to claim 1, it is characterized in that: described vibrating device is arranged at the bottom of described chute (10).
6. a kind of pay-off that enters still for the white carbon black raw material according to claim 1, it is characterized in that: the end that described chute (10) is positioned at the below of described conveying belt (5) is provided with chute rib (101), and the top of described chute rib (101) approaches the top of described conveying belt rib (52).
7. a kind of pay-off that enters still for the white carbon black raw material according to claim 1 is characterized in that: the end that the width of described chute (10) is overlapped in the opening for feed of described reactor (2) by an end to the described chute (10) of the below that is positioned at described conveying belt (5) diminishes gradually.
8. a kind of pay-off that enters still for the white carbon black raw material according to claim 1, it is characterized in that: described lace conveying device also comprises the inboard that is arranged at described conveying belt (5), for connecting and drive driving roller and the return idler (7) of described conveying belt (5), the bottom of described driving roller and described return idler (7) is provided with bearing support (6), the bottom of described bearing support (6) is provided with back up pad (4), and the bottom of described back up pad (4) is provided with roller (11).
9. a kind of pay-off that enters still for the white carbon black raw material according to claim 8 is characterized in that: also be provided with drive-motor (8) on described back up pad (4), be connected by belt (9) between described drive-motor (8) and described driving roller.
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CN201310392588.5A CN103449452B (en) | 2013-09-02 | 2013-09-02 | Feeding device for conveying white carbon black raw material into kettle |
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CN201310392588.5A CN103449452B (en) | 2013-09-02 | 2013-09-02 | Feeding device for conveying white carbon black raw material into kettle |
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CN103449452A true CN103449452A (en) | 2013-12-18 |
CN103449452B CN103449452B (en) | 2015-05-27 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105215799A (en) * | 2015-10-30 | 2016-01-06 | 际华三五三四制衣有限公司 | A kind of centerless grinder discharging machine |
CN105381844A (en) * | 2015-11-30 | 2016-03-09 | 徐州工程学院 | Rotary tooth type material crushing device |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20080108006A1 (en) * | 2004-08-02 | 2008-05-08 | Karl Laaber | Feeding Device for a Belt-Type Sintering Machine |
CN202482076U (en) * | 2012-02-15 | 2012-10-10 | 蚌埠市万科硅材料科技有限公司 | Feeding device for conveying white carbon black raw material into kettle |
CN103183196A (en) * | 2013-03-27 | 2013-07-03 | 天津津济工程勘察设计咨询有限公司 | Vertical telescopic baffle edge conveyor |
CN203513293U (en) * | 2013-09-02 | 2014-04-02 | 无锡恒诚硅业有限公司 | Feeding device for feeding white carbon black raw material into reaction kettle |
-
2013
- 2013-09-02 CN CN201310392588.5A patent/CN103449452B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20080108006A1 (en) * | 2004-08-02 | 2008-05-08 | Karl Laaber | Feeding Device for a Belt-Type Sintering Machine |
CN202482076U (en) * | 2012-02-15 | 2012-10-10 | 蚌埠市万科硅材料科技有限公司 | Feeding device for conveying white carbon black raw material into kettle |
CN103183196A (en) * | 2013-03-27 | 2013-07-03 | 天津津济工程勘察设计咨询有限公司 | Vertical telescopic baffle edge conveyor |
CN203513293U (en) * | 2013-09-02 | 2014-04-02 | 无锡恒诚硅业有限公司 | Feeding device for feeding white carbon black raw material into reaction kettle |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105215799A (en) * | 2015-10-30 | 2016-01-06 | 际华三五三四制衣有限公司 | A kind of centerless grinder discharging machine |
CN105381844A (en) * | 2015-11-30 | 2016-03-09 | 徐州工程学院 | Rotary tooth type material crushing device |
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CN103449452B (en) | 2015-05-27 |
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