CN110482173A - The titanium dioxide conveyer system of high transfer rate - Google Patents
The titanium dioxide conveyer system of high transfer rate Download PDFInfo
- Publication number
- CN110482173A CN110482173A CN201910776606.7A CN201910776606A CN110482173A CN 110482173 A CN110482173 A CN 110482173A CN 201910776606 A CN201910776606 A CN 201910776606A CN 110482173 A CN110482173 A CN 110482173A
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- CN
- China
- Prior art keywords
- conveyer belt
- upper roller
- titanium dioxide
- transfer rate
- high transfer
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G15/00—Conveyors having endless load-conveying surfaces, i.e. belts and like continuous members, to which tractive effort is transmitted by means other than endless driving elements of similar configuration
- B65G15/60—Arrangements for supporting or guiding belts, e.g. by fluid jets
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G45/00—Lubricating, cleaning, or clearing devices
- B65G45/10—Cleaning devices
- B65G45/12—Cleaning devices comprising scrapers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G45/00—Lubricating, cleaning, or clearing devices
- B65G45/10—Cleaning devices
- B65G45/18—Cleaning devices comprising brushes
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G69/00—Auxiliary measures taken, or devices used, in connection with loading or unloading
- B65G69/18—Preventing escape of dust
- B65G69/185—Preventing escape of dust by means of non-sealed systems
- B65G69/186—Preventing escape of dust by means of non-sealed systems with aspiration means
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Rollers For Roller Conveyors For Transfer (AREA)
- Belt Conveyors (AREA)
Abstract
The present invention relates to the titanium dioxide conveyer systems of high transfer rate, are arranged on the rack, comprising: the upper roller for being fixed on the frame top, the conveyer belt being slidably connected with the upper roller, the conveyer belt and the lower roll, which roll, to be connected;Further include: buffer gear, the adsorbing mechanism outside upper roller that the anti-adhesion mechanism below the conveyer belt is set, is arranged on the rack;The anti-adhesion mechanism includes: the recycling plate immediately below conveyer belt, the scraper plate on the outside of conveyer belt turnaround section;The scraper plate outer end is connected with the first wiper;The buffer gear includes: the buffer spring between upper roller and rack;The adsorbing mechanism includes: the annular adsorption piece covered on the outside of upper roller.The present invention avoids powder from adhering on conveyer belt and recycle to adhesion powder by the way that anti-adhesion mechanism is arranged, the slight vibration of conveyer belt is absorbed by setting buffer gear to reduce powder dissipation, by flying dust near setting adsorbing mechanism cleaning upper roller to avoid powder second pollution.
Description
Technical field
The present invention relates to tranmission techniques field, the titanium dioxide conveyer system of specifically high transfer rate.
Background technique
In the transmission process of existing titanium dioxide, terminate since transmitting entrance to transmission outlet, titanium dioxide is in this process
In will appear loss.The reason of leading to this loss, this reason is caused to damage first is that titanium dioxide sheet cannot be formed as powdery
Consumption is inevitable, it is difficult to improve.The reason of leading to this loss, is second is that some uncontrollable factors in transmit process, for example operates
Fault etc., this can not eliminate and be avoided.The reason of leading to this loss third is that transmission equipment setting it is improper, entirely transmitting
Occur being lost step by step in system, loss caused by this reason can be by improving equipment and device to the entire transmission system of optimization
System is to avoid even being eliminated.With regard to the above reason three, now improve a kind of conveyer system, reduces damage of the titanium dioxide in transmit process
Consumption, improves the transfer rate of titanium dioxide.
Summary of the invention
The present invention is exactly in view of the deficienciess of the prior art, provide the titanium dioxide conveyer system of high transfer rate.
To solve the above problems, the technical solution used in the present invention is as follows:
The titanium dioxide conveyer system of high transfer rate, is arranged on the rack, comprising: be fixed on the frame top upper roller,
The conveyer belt being slidably connected with the upper roller, the conveyer belt and the lower roll, which roll, to be connected;Further include: it is arranged in the transmission
Anti-adhesion mechanism with lower section, the buffer gear being arranged on the rack, the adsorbing mechanism outside upper roller;The anti-adhesion mechanism packet
It includes: the recycling plate immediately below conveyer belt, the scraper plate on the outside of conveyer belt turnaround section;The scraper plate outer end is connected with first
Wiper;The buffer gear includes: the buffer spring between upper roller and rack;The adsorbing mechanism includes: to cover in upper roller
The annular adsorption piece in outside.
As an improvement of the above technical solution, the top surface of the recycling plate is equipped with the column perpendicular to ground, the column
Including the first column and the second column, first column and second column position are corresponding, and the first column and the second intercolumniation are connected with
Bracket;The cradle top is equipped with the second wiper;First wiper and second wiper contact conveyer belt outer surface.
As an improvement of the above technical solution, the inclination angle greater than 180 degree is equipped between the scraper plate and horizontal plane;Institute
Position of the highest point of scraper plate in vertical plane is stated, below the center of circle of conveyer belt turning circle.
As an improvement of the above technical solution, the bracket is equipped with multiple leak holes;Second wiper is arranged in cradle top,
The edge of leak hole;Second wiper is equipped with multiple, and at least one second wiper is between lower roll and scraper plate.
As an improvement of the above technical solution, the buffer gear further include: buffer board, cushion dashpot;The frame top
Equipped with second support, the second support is equipped with pillar, and the top of the pillar is equipped with groove, and the bottom portion of groove is equipped with
Second seat cushion, the cushion dashpot are fixed on the top of second seat cushion;The buffer spring is mounted in cushion dashpot;It is described slow
Punching bottom is equipped with strut, and the strut is slidably connected with cushion dashpot;Upper roller is connected at the top of the buffer board.
As an improvement of the above technical solution, the post top portion is equipped with the first seat cushion, connects at the top of first seat cushion
It is connected to elastomer block, is connected with support plate at the top of the elastomer block;The support plate connects upper roller.
As an improvement of the above technical solution, the buffer gear further include: one end is fixed on the bullet at the top of the second seat cushion
Spring group;The groups of springs other end is fixed on the bottom of buffer board.
As an improvement of the above technical solution, the strut bottom is connected with fixture block, and the fixture block bottom connects buffering elastic
Spring;The sectional area of the fixture block is greater than the sectional area of strut and the area of cushion dashpot cylinder mouth.
As an improvement of the above technical solution, it is the shell for adsorbing bamboo charcoal, made of metal that the annular adsorption piece, which includes: material,
At inner casing, the shell is equipped with multiple leak holes, and described shell one end is equipped with attachment base, and the inner casing is fixed on the connection
On seat;Gap is equipped between the shell and inner casing.
As an improvement of the above technical solution, the inner wall of the inner casing is connected with the rubber pad of annular;The annular absorption
Part center is equipped with through-hole, and the through-hole and locating shaft excessively cooperate.
Compared with prior art, implementation result of the invention is as follows by the present invention:
The present invention avoids powder from adhering on conveyer belt and recycle to adhesion powder by the way that anti-adhesion mechanism is arranged, and passes through
Buffer gear is set and absorbs the slight vibration of conveyer belt to reduce powder dissipation, upper roller is cleared up by setting adsorbing mechanism and is nearby flown
Dirt is to avoid powder second pollution.The present invention improves the conveying of powder pipeline from anti-sticking, leakproof, reduction secondary pollution etc.
Efficiency.
Detailed description of the invention
Fig. 1 is the assembling schematic diagram of anti-adhesion mechanism of the present invention;
Fig. 2 is the structural schematic diagram for recycling plate;
Fig. 3 is the overlooking structure figure for recycling plate;
Fig. 4 is the assembling schematic diagram of buffer gear of the present invention;
Fig. 5 is the structural schematic diagram of buffer gear;
Fig. 6 is the cooperation schematic diagram of buffer board;
Fig. 7 is the top view of buffer gear;
Fig. 8 is the assembling schematic diagram of adsorbing mechanism of the present invention;
Fig. 9 is the structural schematic diagram of annular adsorption piece;
Figure 10 is the semi-cutaway of annular adsorption piece.
In figure: 1-rack, 11-first supports, 12-second supports, 121-pillars, 1211-grooves, 13-upper rollers,
131-fixing seats, 132-support shafts, 133-locating shafts, 14-lower rolls, 2-anti-adhesion mechanisms, 21-scraper plates, 211-the first scrapes
Brush, 22-arc pressuring plates, 23-recycling plates, 231-plate ontologies, 232-leakage preventing walls, 24-columns, the 241-the first column,
242-the second column, 25-brackets, 251-leak holes, the 252-the second wiper, 26-recycling bins, 3-buffer gears, 31-bufferings
Plate, 311-struts, 312-fixture blocks, the 32-the first seat cushion, 321-elastomer blocks, 322-support plates, the 33-the second seat cushion, 34-
Cushion dashpot, 341-buffer springs, 35-groups of springs, 4-adsorbing mechanisms, 41-annular adsorption pieces, 411-shells, 4111-leakages
Hole, 4112-attachment bases, 412-inner casings, 413-gaps, 414-rubber pads, 415-through-holes, 42-Attraction blocks, 5-transmission
Band, 51-baffles, 511-adsorption nets, 6-powder.
Specific embodiment
Illustrate the contents of the present invention below in conjunction with specific embodiments.
It only include single mechanism in each installation diagram.
The titanium dioxide conveyer system of high transfer rate is arranged in rack 1, comprising: is fixed on the upper roller at 1 top of rack
13, the conveyer belt 5 being slidably connected with the upper roller 13, the conveyer belt 5 is rolled with the lower roll 14 to be connected;It is characterized in that,
Further include:
Anti-adhesion mechanism 2 below the conveyer belt 5 is set;
Buffer gear 3 in rack 1 is set;
Adsorbing mechanism 4 outside upper roller 13;
The anti-adhesion mechanism 2 includes: the recycling plate 23 immediately below conveyer belt 5, on the outside of 5 turnaround section of conveyer belt
Scraper plate 21;21 outer end of scraper plate is connected with the first wiper 211.
The buffer gear 3 includes: the buffer spring 341 between upper roller 13 and rack 1.
The adsorbing mechanism 4 includes: the annular adsorption piece 41 covered in 13 outside of upper roller.
In order to realize efficient conveying, it is desirable to reduce the loss of powder 6 during transport.The present embodiment is from three angles
Degree is to reduce this loss problem.One, prevent powder 6 from sticking on conveyer belt 5, it could not be timely when next stage should be transported to
Transmission rail is left, as conveyer belt 5 goes back, powder 6 is involved in lower roll 14, causes to be lost, and anti-adhesion mechanism 2 is arranged thus.Two,
Due to vibration being affected to powder 6 of conveyer belt 5, amount of powder 6 is caused to dissipate, buffer gear 3 is set thus, absorbs vibration
It is dynamic, play the role of the leakproof to powder 6.Three, it is mixed into due to the dust of surrounding in powder 6 to be conveyed, leads to secondary pollution, shadow
The quality for ringing conveying powder 6 is provided with adsorbing mechanism 4 to reduce transfer efficiency thus, to the flying dust in addition to powder 6 into
Row adsorption treatment avoids being mixed into powder 6.
Wherein, anti-adhesion mechanism 2 is swept down unsegregated powder 6 by the first wiper 211 on scraper plate 21, is failed under sweeping
Powder 6 enters back into recycling 23 range of plate, falls on recycling plate 23, subsequent still recyclable.Buffer gear 3 mainly passes through buffering
Spring 341 realizes the effect for absorbing vibration.Adsorbing mechanism 4 passes through annular adsorption piece 41 and inhales drifting along near upper roller, flying dust etc.
It receives.
Specifically, in anti-adhesion mechanism 2.
Fig. 1 is the assembling schematic diagram of transmitting device of the present invention, as shown in Figure 1.The top surface of the recycling plate 23 is equipped with
Perpendicular to the column 24 on ground, the column 24 includes the first column 241 and the second column 242, first column 241 and described second
242 position of column is corresponding, and is connected with bracket 25 between the first column 241 and the second column 242;Second is equipped at the top of the bracket 25 to scrape
Brush 252;First wiper 211 and second wiper 252 contact 5 outer surface of conveyer belt.
Scraper plate 21 is set in the position that powder 6 to be fallen, will be failed to leave the powder for transmitting belt surface with the first wiper 211
6 scrape, and powder is made not stick in the outer surface of conveyer belt 5.When having the powder for failing to be scraped off surface by the second wiper 252
It can be scraped again.Powder 6 is gradually reduced by the first wiper 211 and the second wiper 252, is avoided powder and involved in lower roll 14,
Improve the service performance of transmission device.First column 241 and the second column 242 are set, intermediate position is vacated, convenient for what is be scraped
Powder 6 is fallen on recycling plate 23, and hence into recycling bins 26, setting in this way would not stop powder 6 under recycling plate 23
It is sliding.
The inclination angle greater than 180 degree is equipped between the scraper plate 21 and horizontal plane.The highest point of the scraper plate 21 is vertical
Position in face, positioned at conveyer belt 5 turn circle the center of circle below.In this way, powder 6 is most of when by scraper plate 21
It is blocked in 21 upper surface of scraper plate, accumulation would not be formed.After powder 6 is blocked, it can glide along the outer surface of scraper plate 21, after
It is continuous to enter subsequent processing.Powder 6 is fallen gradually to be increased since turning, and the horizontal position in the center of circle of turning falls efficiency and reaches
Peak, conveyer belt 5, which is further continued for movement, just will appear adhesion phenomenon, therefore scraper plate 21 is arranged in the center of circle hereinafter, scraper plate is avoided to influence
To normally falling for powder 6.
Fig. 2 is the structural schematic diagram for recycling plate, and Fig. 3 is the overlooking structure figure for recycling plate, as shown in Figures 2 and 3, the branch
Frame 25 is equipped with multiple leak holes 251.The setting of second wiper 252 is at 25 top of bracket, the edge of leak hole 251.Second wiper
252 are equipped with multiple, and at least one second wiper 252 is between lower roll 14 and scraper plate 21.Leak hole 251 is set and helps powder
Sink, avoid accumulating, influences the use of the second wiper 252.Before the adhesion powder 6 for failing to be cleaned enters lower roll 14, utilize
Second wiper 252 is cleared up strike off again, and powder 6 is avoided to be involved in lower roll 14 as far as possible.Here the first wiper 211 and the second wiper
252 bristles softer using quality, reduce influence of the wiper to 5 rate travel of conveyer belt.It is few using the second wiper more than 252 times
Amount strikes off powder 6.
Specifically, in buffer gear 3.
Fig. 4 is the assembling schematic diagram of buffer gear of the present invention;Fig. 5 is the structural schematic diagram of buffer gear, such as Fig. 4 and
Shown in Fig. 5, the buffer gear 3 further include: buffer board 31, cushion dashpot 34;Second support 12, institute are equipped at the top of the rack 1
Second support 12 is stated equipped with pillar 121, the top of the pillar 121 is equipped with groove 1211,1211 bottom of the groove installation
There is the second seat cushion 33, the cushion dashpot 34 is fixed on the top of second seat cushion 33;The buffer spring 341 is mounted on buffering
In cylinder 34;31 bottom of buffer board is equipped with strut 311, and the strut 311 is slidably connected with cushion dashpot 34;The buffer board 31
Top is connected with upper roller 13.
Pillar 121 is used to support upper roller 13, changes the purely mechanic connection of script, and buffer gear 3 is added, slight for absorbing
Vibration.Buffer board 31 supports the lower surface of upper roller 13, and in 13 slight vibration of upper roller, buffer board 31 can be with the vibration of upper roller 13
It moves up and down, flexible adjustment is carried out by the buffer spring 341 in cushion dashpot 34, absorbs vibration indirectly.Pay attention in this way
It is the vibration being directed to be set so not instead of not significantly, slight vibration by a small margin.It is arranged by this buffering, is alleviated
Vibrate the influence to powder delivery object.The powder material leakage that angle by reducing concussion avoids.
Fig. 7 is the top view of buffer gear, as shown in fig. 7, the first seat cushion 32 is installed at the top of the pillar 121, it is described
It is connected with elastomer block 321 at the top of first seat cushion 32, is connected with support plate 322 at the top of the elastomer block 321.The support plate 322
Connect upper roller 13.On the basis of spring buffer, then a kind of elastic connection is set, support plate 322 is the higher plate of rigidity, elasticity
Vibration can be absorbed in block 321, and the first seat cushion 32 reduces upper roller using the preferable material of elasticity, preferably rubber, in this way setting
13 with the Mechanical Contact of pillar 121.Possess better rigidity relative to buffer spring 341, in order to play the branch to upper roller 13
Support effect.
Fig. 6 is the cooperation schematic diagram of buffer board, as shown in fig. 6, the buffer gear 3 further include: one end is fixed on second
The groups of springs 35 at 33 top of seat cushion.35 other end of groups of springs is fixed on the bottom of buffer board 31.It is supported using groups of springs 35
Buffer board 31 further strengthens supporting role of the buffer board 31 to upper roller 13, while buffer gear 3 being made to be integrated with better elasticity
Performance is shunk, and improves the stability of buffer gear 3.
311 bottom of strut is connected with fixture block 312, and 312 bottom of fixture block connects buffer spring 341.The fixture block
312 sectional area is greater than the area of the 34 cylinder mouth of sectional area and cushion dashpot of strut 311.Buffer board 31 is consolidated using fixture block 312
Position, when being moved to cylinder mouth, fixture block 312 can not realize clamping positioning, strut 311 is avoided to deviate from cushion dashpot 34 by cylinder mouth
Range.
It should be noted that the upper roller 13 includes: to be fixed on the fixing seat 131 at 12 top of second support, described in connection
The support shaft 132 of fixing seat 131 is fixed on the locating shaft 133 at 121 top of pillar.The support shaft 132 and the locating shaft
133 elastic connections.The purely mechanic contact for reducing upper roller 13 is conducive to the steady of lifting system convenient for the absorption of vibrations of locating shaft 133
It is qualitative.
Specifically, in adsorbing mechanism 4.
Fig. 8 is the assembling schematic diagram of adsorbing mechanism of the present invention, and Fig. 9 is the structural schematic diagram of annular adsorption piece, such as Fig. 8
With shown in Fig. 9, it be the absorption shell 411 of bamboo charcoal, inner casing 412 made of metal that the annular adsorption piece 41, which includes: material, described
Shell 411 is equipped with multiple leak holes 4111, and described 411 one end of shell is equipped with attachment base 4112, and the inner casing 412 is fixed on described
On attachment base 4112.Gap 413 is equipped between the shell 411 and inner casing 412.
The position of abrasion and fugitive dust is located near upper roller 13, does not contact this position with conveyer belt 5 using locating shaft 133
Relationship is set, annular adsorption piece 41 is set on locating shaft 133.Shell 31 uses adsorptivity bamboo charcoal, and dust is passed through leak hole 4111
It sucks in gap 413, is kept here dust by the purification function of bamboo charcoal, avoid in air that there are flying dust, to the powder on conveyer belt 5
Cause secondary pollution in end.It is not provided with hole on inner casing 412, and material uses metalwork, consolidates the connection with locating shaft 133, simultaneously
Locating shaft 133 inside protection.
Figure 10 is the semi-cutaway of annular adsorption piece, and as shown in Figure 10, the inner wall of the inner casing 412 is connected with the rubber of annular
Pad 414.41 center of annular adsorption piece is equipped with through-hole 415, and the through-hole 415 and locating shaft 133 excessively cooperate.Rubber pad
The further anti-attrition of 414 energy and the connection for reinforcing annular adsorption piece 41 and locating shaft 133.Excessively cooperation is then that can be reduced annular absorption
The shaking of part 41 mitigates abrasion.
In addition to the above setting, adsorption net 51 is fixed on the 5 both sides lateral wall of conveyer belt.Utilize adsorption net 51
Simple process is from the powder for leaving 5 range of conveyer belt and will be from below close to the fugitive dust of conveyer belt 5.Reduce the powder that air flies
Dirt.
1 bottom of rack is fixed with first support 11, is fixed with lower roll 14 in the first support 11.Described first
Attraction block 42 is connected on 11 inner sidewall of frame.The fugitive dust that rack 1 bottom and ground are handled using Attraction block 42, avoids conveyer belt 5
Upper adhering contaminant.Here, Attraction block 42 and adsorption net 51 are all made of the bamboo charcoal of purification function, other are with adsorbing powder dust function
The object of energy.
The top surface of the adsorption net 51 is lower than the top surface of conveyer belt 5.Setting avoids adsorption net 51 to still in conveyer belt 5 in this way
On powder impact, allow 51 processing fugitive dusts of adsorption net.
Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art
Mind and range.In this way, if these modifications and changes of the present invention belongs to the range of the claims in the present invention and its equivalent technologies
Within, then the present invention is also intended to include these modifications and variations.
Claims (10)
1. the titanium dioxide conveyer system of high transfer rate is arranged on rack (1), comprising: be fixed on upper at the top of the rack (1)
Roller (13), the conveyer belt (5) being slidably connected with the upper roller (13), the conveyer belt (5) and the lower roll (14) roll and connect;
It is characterized by further comprising:
The anti-adhesion mechanism (2) being arranged below the conveyer belt (5);
The buffer gear (3) being arranged on rack (1);
The adsorbing mechanism (4) external positioned at upper roller (13);
The anti-adhesion mechanism (2) includes: the recycling plate (23) immediately below conveyer belt (5), is located at outside conveyer belt (5) turnaround section
The scraper plate (21) of side;Scraper plate (21) outer end is connected with the first wiper (211);
The buffer gear (3) includes: the buffer spring (341) between upper roller (13) and rack (1);
The adsorbing mechanism (4) includes: the annular adsorption piece (41) covered on the outside of upper roller (13).
2. the titanium dioxide conveyer system of high transfer rate according to claim 1, which is characterized in that recycling plate (23)
Top surface is equipped with the column (24) perpendicular to ground, and the column (24) includes the first column (241) and the second column (242), and described the
One column (241) is corresponding with the second column (242) position, and is connected with bracket between the first column (241) and the second column (242)
(25);The second wiper (252) are equipped at the top of the bracket (25);First wiper (211) and second wiper (252) connect
Touch conveyer belt (5) outer surface.
3. the titanium dioxide conveyer system of high transfer rate according to claim 2, which is characterized in that the scraper plate (21) and water
Interplanar is equipped with the inclination angle greater than 180 degree;Position of the highest point of the scraper plate (21) in vertical plane is located at transmission
Below the center of circle of band (5) turning circle.
4. the titanium dioxide conveyer system of high transfer rate according to claim 2, which is characterized in that set on the bracket (25)
There are multiple leak holes (251);Second wiper (252) setting is at the top of bracket (25), the edge of leak hole (251);Second wiper
(252) it is equipped with multiple, and at least one second wiper (252) is located between lower roll (14) and scraper plate (21).
5. the titanium dioxide conveyer system of high transfer rate according to claim 1, which is characterized in that the buffer gear (3)
Further include: buffer board (31), cushion dashpot (34);Second support (12) are equipped at the top of the rack (1), the second support (12)
It is equipped with pillar (121), the top of the pillar (121) is equipped with groove (1211), and groove (1211) bottom is equipped with the
Two seat cushions (33), the cushion dashpot (34) are fixed on the top of second seat cushion (33);The buffer spring (341) is mounted on
In cushion dashpot (34);Buffer board (31) bottom is equipped with strut (311), and the strut (311) and cushion dashpot (34) sliding connect
It connects;Upper roller (13) are connected at the top of the buffer board (31).
6. the titanium dioxide conveyer system of high transfer rate according to claim 5, which is characterized in that pillar (121) top
Portion is equipped with the first seat cushion (32), is connected with elastomer block (321) at the top of first seat cushion (32), elastomer block (321) top
Portion is connected with support plate (322);The support plate (322) connects upper roller (13).
7. the titanium dioxide conveyer system of high transfer rate according to claim 5, which is characterized in that the buffer gear (3)
Further include: one end is fixed on the groups of springs (35) at the top of the second seat cushion (33);Groups of springs (35) other end is fixed on buffering
The bottom of plate (31).
8. the titanium dioxide conveyer system of high transfer rate according to claim 5, which is characterized in that strut (311) bottom
Portion is connected with fixture block (312), and fixture block (312) bottom connects buffer spring (341);The sectional area of the fixture block (312) is big
In the sectional area of strut (311) and the area of cushion dashpot (34) cylinder mouth.
9. the titanium dioxide conveyer system of high transfer rate according to claim 1, which is characterized in that the annular adsorption piece
It (41) include: material is to adsorb inner casing (412) made of the shell (411) of bamboo charcoal, metal, the shell (411) is equipped with more
A leak hole (4111), described shell (411) one end are equipped with attachment base (4112), and the inner casing (412) is fixed on the attachment base
(4112) on;Gap (413) are equipped between the shell (411) and inner casing (412).
10. the titanium dioxide conveyer system of high transfer rate according to claim 9, which is characterized in that the inner casing (412)
Inner wall is connected with the rubber pad (414) of annular;Annular adsorption piece (41) center is equipped with through-hole (415), the through-hole (415)
Excessively cooperate with locating shaft (133).
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CN201910776606.7A CN110482173B (en) | 2019-08-22 | 2019-08-22 | Titanium white powder conveying system with high conveying rate |
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Cited By (1)
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CN111619906A (en) * | 2020-05-26 | 2020-09-04 | 莆田市城厢区诚味食品有限公司 | Tunnel quick-freezing packaging production line for modulated oil-consuming beef willows |
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