CN107603325A - Coating is efficiently fixed than batch mixing production technology - Google Patents
Coating is efficiently fixed than batch mixing production technology Download PDFInfo
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- CN107603325A CN107603325A CN201710882385.2A CN201710882385A CN107603325A CN 107603325 A CN107603325 A CN 107603325A CN 201710882385 A CN201710882385 A CN 201710882385A CN 107603325 A CN107603325 A CN 107603325A
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Abstract
It is efficiently fixed than batch mixing production technology, including following production stage the present invention relates to coating:A. it is fed process, it would be desirable to which resin a, the resin b of proportioning are sequentially quantitatively delivered at adhesive stations by the hopper opened up on transfer blade, and the powder carry for needing to match extremely is located at and blows depositing in powder device at powder station;B. bonding process, while the resin a in step A is transferred to below the resin b at adhesive stations, to resin b Synchronous Heatings, resin a and resin b bond to form compound when synchronously falling;C. powder process is blown, the powder deposited in powder device is blown on compound from adhesive stations to during whereabouts and forms compo by the compound in step B;D. bag distribution packaging process, sequentially exported after the compo in step c is carried out into bag distribution packaging;Instant invention overcomes coating formula in existing production technology is uneven, the problem of undercompounding.
Description
Technical field
The present invention relates to lines on road surface coating formula mixing equipment and technology, more particularly to coating are efficiently fixed than batch mixing life
Production. art.
Background technology
Lines on road surface is an important process in road construction later stage, and needs to use largely during lines on road surface
Coating, existing lines on road surface are typically all to complete to match mixing in advance on large scale equipment with coating, are mixed in proportioning
The problem of proportioning inequality, undercompounding in journey be present.
China authorizes a Publication No. CN1380365A patent of invention, it discloses a kind of method for producing coating and sets
Standby, it is first mixed the part paint vehicle in formula with a certain kind material in vacuum emulsification kettle with the condition of setting, then is spaced
Certain time is mixed with other material successively, reduces defoamer use, is eliminated the negative effect of excessive defoamer, is improved
Quality reduces consumption;
But in actual use, the equipment has that chaotic efficiency is low, and the material packed after mixing easily goes out
Existing delamination, the material skewness of regional different material, the quality of coating when influenceing subsequently to use.
The content of the invention
An object of the present invention is in view of the deficiencies of the prior art, there is provided coating is efficiently fixed to produce work than batch mixing
Skill, by set bonding process will both resin-bondings to together, then by setting process of drying by quantitative powder and mixing
Resin mixes and then to overcome coating formula in existing production technology uneven, the problem of undercompounding.
It is as follows for above-mentioned technical problem, the technical solution adopted by the present invention:
Coating is efficiently fixed than batch mixing production technology, it is characterised in that:Including following production stage:
A. it is fed process, it would be desirable to which resin a, the resin b matched is sequentially quantitative by the hopper opened up on transfer blade
Ground is delivered at adhesive stations, and the powder carry for needing to be matched extremely is located at and blows depositing in powder device at powder station;
B. bonding process, it is right while the lower section for the resin b resin a in step A being transferred at adhesive stations
Resin b is synchronously heated, and resin a and resin b bond to form compound when synchronously falling;
C. powder process is blown, the compound in step B will blow and powder dress is deposited at powder station from adhesive stations to during whereabouts
Powder in putting is blown on compound, converges to form compo with compound;
D. bag distribution packaging process, sequentially exported after the compo that proportioning is completed in step c is carried out into bag distribution packaging.
As a preferred embodiment, the powder in the step A is deposited powder by the powder passage flow direction being opened on transfer blade and filled
That puts deposits in tube cell, completes the weight feed of powder.
As a preferred embodiment, the resin b in the step B completes heating, institute by the heating member being arranged on transfer blade
Heating member is stated as transfer blade moves back and forth, the resin b when heating member is moved to adhesive stations above the station adds
Heat.
As a preferred embodiment, when the resin a in the step B is moved to adhesive stations under the drive of transfer blade, this turn
Plate is moved by driving the dividing plate being disposed there above to be divided into the first guide section and the second guide for exporting resin b pipeline
Section, the resin b of the second guide section quantification and resin b in the first guide section is separated.
As a preferred embodiment, when the compound in the step C falls, the powder in tube cell is deposited in air-blast device 221
It is blown under effect in the dropping channel of compound, converges quantitative powder and compound.
As a preferred embodiment, when powder is blown into the dropping channel of compound by the air-blast device, it is made by air blast
With the bonding and condensation for accelerating resin a and resin b.
As a preferred embodiment, the powder deposited in tube cell passes through the dust nozzle that is coated on the outside of the dropping channel of compound
It is scattered to be blown into dropping channel.
As a preferred embodiment, the air-blast device by the branch pipe of slide opened up along transfer blade side realize with
Deposit the connection inside tube cell or stagger.
As a preferred embodiment, the powder in the step A combines for antioxidant, light stabilizer and silane coupler
Mixed powder.
As another preferably, bonding space is formed in the top for blowing powder station in the dropping channel, thereunder shape
Into blending space.
It is another object of the present invention in view of the deficiencies of the prior art, there is provided efficiently fixed produced than batch mixing is coating
System, by setting transfer device to drive quantitative Petropols to converge with modified rosin resin, and to modification in transfer process
Rosin resin carries out heating so that Petropols are bonded together with modified rosin resin, then by setting Chui Fen mechanisms to quantify
Powder mixed with hybrid resin and then overcome lines on road surface coating ratio in blending process and be difficult to control, mixing is not
Uniformly, each region material ratio uneven the problem of influenceing the quality of line coatings during follow-up use in the compound of packing.
It is as follows for above-mentioned technical problem, the technical solution adopted by the present invention:
Coating is efficiently fixed than batch mixing production system, it is characterised in that:Including material supply portion, the material supply portion
Feeding device b including the feeding device a for supplying Petropols, for supplying modified rosin resin, for supplying powder
Feeding device c and for controlling feeding device a, feeding device b and feeding device c materials quantitative to convey backward and defeated
The transfer device heated during sending to the modified rosin resin in feeding device b;
Batch mixing part, the batch mixing part are arranged on the lower section of material supply portion, the batch mixing part include mixer with
And the Chui Fen mechanisms of mixer side are arranged on, the Petropols and complete the modified rosin heated that the transfer device conveying comes
Resin completes bonding in mixer, and the Chui Fen mechanisms are used to quantitative powder is blown into mixer and Petropols and changed
Property rosin resin mixing;And
Portioning section, the portioning section are arranged on the lower section of batch mixing part, and the portioning section is used for will be complete in mixer
Exported after into the mixing material packing of dispensing.
As a preferred embodiment, the feeding device a includes feed bin a and is arranged on feed bin a lower ends and along feed bin a length
Some passage a that direction is set;
If the feeding device b include feed bin b and be arranged on feed bin b lower ends and along feed bin b length direction set
Dry passage b, the passage b includes the first guide section and the second guide section, the first guide section and the second guide section
Between form divider passages;
If the feeding device c include feed bin c and be arranged on feed bin c lower ends and along feed bin c length direction set
Dry passage c.
As a preferred embodiment, the transfer device includes drive device, supporting plate and the drive lower edge in drive device
The transfer blade that passage a, passage b and passage c lower port and supporting plate upper surface slidably reciprocate.
As a preferred embodiment, the Chui Fen mechanisms include air-blast device and in the presence of transfer device with air-blast device
Intermittently connected deposits powder device.
As a preferred embodiment, the portioning section includes transmission belt and some packing bags being arranged in transmission belt.
As a preferred embodiment, the drive device includes support, the horizontal sliding cylinder being arranged on support, the horizontal sliding cylinder
Telescopic rod end be fixedly connected with one end of transfer blade;
The dosing hole through transfer blade is offered on the transfer blade, the side of the dosing hole is set in transfer blade upper surface
Heating member is equipped with, the side of the heating member offers powder passage, also opened in heating member and powder passage on the transfer blade
It is communicated with the inlet channel of transfer blade lower surface and side;
The first through hole connected with mixer is offered in the supporting plate, the side of the first through hole offers second
Through hole.
As a preferred embodiment, the dividing plate to be slidably reciprocated along cut-off passage is additionally provided with above the transfer blade, it is right therewith
That answers is provided with the first driving lever and the second driving lever in the side of the transfer blade, and the dividing plate is in the first driving lever and the second driving lever
Drive the folding of the first guide section lower port of lower control.
As a preferred embodiment, air main and and air main that the air-blast device includes air blower, connected with air blower
Connect and have slide guide part with the one-to-one branch pipe of some transfer blades, the end set of the branch pipe, it is corresponding with paper described
The side of transfer blade offers coordinates the chute slided with slide guide part, and the slide guide part includes support block and is arranged on support block
Some disk rollers of upper and lower both sides;
It is described deposit that powder device includes connecting with second through hole deposit tube cell and be arranged on and deposit dusting for tube cell end
Head, the dust nozzle bag are attached on mixer, corresponding connected with dust nozzle some are offered on mixer to dust
Hole.
As a preferred embodiment, the spacing between the powder passage and inlet channel is d1, the passage a and passage
Spacing between b is that d2, d1 and d2 meet d1=d2.
As another preferably, the upper surface of the second guide section is provided with loading plate, and the dividing plate is slided along loading plate
Dynamic, the loading plate is fixedly connected with the second guide section, and one side end is fixedly connected with the first guide section.
Beneficial effects of the present invention:
(1) by setting transfer device below multigroup passage being arranged side by side in the present invention, and in transfer device
Dosing hole is set on transfer blade and the dividing plate to be slidably reciprocated along divider passages is set in the top of transfer blade so as to each confession
Materials quantitative in material device is transferred at one, and during transfer by the heating member of setting to one of those expect into
Row heating makes it be bonded together with another material, is then blown out quantitative powder in above gluing by the Chui Fen mechanisms of setting
The material of conjunction is mixed, and has reached well mixed effect, be not in the compound subsequently packed at one certain material it is more certain
Kind expects few situation.
(2) it is intermittently connected with the second through hole of supporting plate and passage c by being opened up on transfer blade in the present invention
Powder passage cause passage a toward in dosing hole plus during Petropols, passage c is synchronous to add quantitative powder toward depositing in tube cell
Material, and during Petropols and modified rosin resin are bonded toward whereabouts, tube cell and air-blast device company are deposited by setting
It is logical so that powder is blown into mixer, ensure that air blast is except blowing powder in addition also so that being well mixed while quantitative proportioning
Function outside also have the function that to complete bond hybrid resin cool down.
In summary, the equipment has the advantages of proportion scale is easy to control, ingredients, and the lines on road surface that is particularly suitable for use in is used
The dispensing equipment technical field of coating.
Brief description of the drawings
For the technical scheme of the clearer explanation embodiment of the present invention, required use in being described below to embodiment
Accompanying drawing be briefly described, it should be apparent that, drawings discussed below is only some embodiments of the present invention, for ability
For the those of ordinary skill in domain, on the premise of not paying creative work, it is attached other can also to be obtained according to these accompanying drawings
Figure.
Fig. 1 is the coating efficiently fixed flow chart than batch mixing production technology.
Fig. 2 is the coating efficiently fixed structural representation than batch mixing production system.
Fig. 3 is the coating efficiently fixed cut-away illustration than batch mixing production system.
Fig. 4 is transfer device and the structural representation of Chui Fen mechanisms.
Fig. 5 is cut-away illustration when passage a connects with dosing hole.
Fig. 6 is close-up schematic view when passage a connects with dosing hole.
Fig. 7 is transfer blade and the structural representation of supporting plate.
Fig. 8 is the part-structure schematic diagram of air-blast device.
Embodiment
The technical scheme in the embodiment of the present invention is clearly and completely illustrated below in conjunction with the accompanying drawings.
Fig. 1 is the coating efficiently fixed flow chart than batch mixing production technology, and Fig. 2 is that coating is efficiently fixed than batch mixing production system
Structural representation, Fig. 3 are the coating efficiently fixed cut-away illustration than batch mixing production system, and Fig. 4 is transfer device and Chui Fen mechanisms
Structural representation, Fig. 5 is cut-away illustrations of passage a when connect with dosing hole, and Fig. 6 connects for passage a with dosing hole
When close-up schematic view, Fig. 7 is the structural representation of transfer blade and supporting plate, and Fig. 8 is that the part-structure of air-blast device shows
It is intended to.
Embodiment one
As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7 and Fig. 8, coating is efficiently fixed than batch mixing production technology, including
Following production stage:
A. it is fed process, it would be desirable to which resin a, the resin b matched is sequentially fixed by the hopper opened up on transfer blade 143
It is delivered at adhesive stations to amount, and the powder carry for needing to be matched extremely is located to blow and deposits powder device 222 at powder station
It is interior;
B. bonding process, it is right while the lower section for the resin b resin a in step A being transferred at adhesive stations
Resin b is synchronously heated, and resin a and resin b bond to form compound when synchronously falling;
C. powder process is blown, the compound in step B will blow and powder dress is deposited at powder station from adhesive stations to during whereabouts
The powder put in 222 is blown on compound, converges to form compo with compound;
D. bag distribution packaging process, sequentially exported after the compo that proportioning is completed in step c is carried out into bag distribution packaging.
Further, the powder in the step A deposits powder by the flow direction of powder passage 1433 being opened on transfer blade 143
Depositing in tube cell 2221 for device 222, completes the weight feed of powder.
Further, the resin b in the step B completes heating by the heating member 1432 being arranged on transfer blade 143,
The heating member 1432 moves back and forth with transfer blade 143, when heating member 1432 is moved to adhesive stations above the station
Resin b heated.
Further, when the resin a in the step B is moved to adhesive stations under the drive of transfer blade 143, the transfer
Plate 143 is by driving the dividing plate 4 that is disposed there above to be divided into the first guide section 1221 and for exporting resin b pipeline
Two guide sections 1222, the resin b of the quantification of the second guide section 1222 and the resin b in the first guide section 1221 are separated.
Further, when the compound in the step C falls, the powder in tube cell 2221 is deposited in air-blast device 221
It is blown under effect in the dropping channel of compound, converges quantitative powder and compound.
Further, when powder is blown into the dropping channel of compound by the air-blast device 221, it passes through blasting action
Accelerate resin a and resin b bonding and condensation.
Further, the powder deposited in tube cell 2221 passes through the dust nozzle that is coated on the outside of the dropping channel of compound
2222 disperse to be blown into dropping channel.
Further, the branch pipe that the air-blast device 221 is slided by the chute 1437 opened up along the side of transfer blade 143
2213 realize with depositing the connection inside tube cell 2221 or staggering.
Further, the powder in the step A combines mixed for antioxidant, light stabilizer and silane coupler
Close powder.
Further, bonding space is formed in the top for blowing powder station in the dropping channel, is formed thereunder mixed
Close space.
Embodiment two
As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7 and Fig. 8, coating is efficiently fixed than batch mixing production system, including
Material supply portion 1, the material supply portion 1 include being used to supply the feeding device a11 of Petropols, for supplying modification
The feeding device b12 of rosin resin, the feeding device c13 for supplying powder and for control feeding device a11, feed dress
The materials quantitative for putting b12 and feeding device c13 conveys and in course of conveying to the modified rosin tree in feeding device b12 backward
The transfer device 14 that fat is heated;
Batch mixing part 2, the batch mixing part 2 are arranged on the lower section of material supply portion 1, and the batch mixing part 2 includes dispensing
Bucket 21 and be arranged on the Chui Fen mechanisms 22 of the side of mixer 21, Petropols that the conveying of transfer device 14 comes and complete plus
The modified rosin resin of heat completes bonding in mixer 21, and the Chui Fen mechanisms 22 are used to quantitative powder being blown into mixer
Mixed in 21 with Petropols and modified rosin resin;And
Portioning section 3, the portioning section 3 are arranged on the lower section of batch mixing part 2, and the portioning section 3 is used for mixer
Exported after the mixing material packing of dispensing is completed in 21.
Further, the feeding device a11 includes feed bin a111 and is arranged on feed bin a111 lower ends and along feed bin
Some passage a112 that a111 length direction is set;
The feeding device b12 includes feed bin b121 and is arranged on feed bin b121 lower ends and along feed bin b121 length side
Include the first guide section 1221 and the second guide section 1222, institute to some passage b122, the passage b122 of setting
State formation divider passages 1223 between the first guide section 1221 and the second guide section 1222;
The feeding device c13 includes feed bin c131 and is arranged on feed bin c131 lower ends and along feed bin c131 length side
To some passage c132 of setting.
Further, as shown in Fig. 2 the transfer device 14 includes drive device 141, supporting plate 142 and driven
Along passage a112, passage b122 and passage c132 lower port and supporting plate 142 under the drive of device 141
The transfer blade 143 that upper surface slidably reciprocates.
Further, as shown in figure 3, the Chui Fen mechanisms 22 include air-blast device 221 and the work in transfer device 14
Powder device 222 is deposited with lower and intermittently connected air-blast device 221.
By setting transfer device 14 below multigroup passage being arranged side by side, and in the transfer blade of transfer device 14
Dosing hole 1431 is set on 143 and the dividing plate 4 to be slidably reciprocated along divider passages 1223 is set in the top of transfer blade 143, is made
Materials quantitative in each feeding device must be transferred at one, and during transfer by the heating member of setting to wherein
A material carry out heating and it is bonded together with another material, then by the Chui Fen mechanisms 22 of setting by quantitative powder
Blow out and mixed in the material above bonded, reached well mixed effect, be not in one in the compound subsequently packed
Locate the few situation of certain more material of certain material.
Further, the portioning section 3 includes transmission belt 31 and some packing bags 32 being arranged in transmission belt 31.
Further, as shown in figure 4, the drive device 141 includes support 1411, the horizontal sliding being arranged on support 1411
Cylinder 1412, the telescopic rod end of the horizontal sliding cylinder 1412 are fixedly connected with one end of transfer blade 143;
The dosing hole 1431 through transfer blade 143 is offered on the transfer blade 143, the side of the dosing hole 1431 exists
The upper surface of transfer blade 143 is provided with heating member 1432, and the side of the heating member 1432 offers powder passage 1433, described turn
Move on plate 143 and with powder passage 1433 be further opened with connecting the air inlet of the lower surface of transfer blade 143 and side in heating member 1432 and lead to
Road 1434;
The first through hole 1421 connected with mixer 21 is offered in the supporting plate 142, the first through hole 1421
Side offers the second through hole 1422.
Further, the air-blast device 221 include air blower 2211, the air main 2212 that is connected with air blower 2211 with
And connected with air main 2212 and with the one-to-one branch pipe 2213 of some transfer blades 143, the end set of the branch pipe 2213
There is slide guide part 2214, in the side of the transfer blade 143 offer corresponding with paper coordinates the chute slided with slide guide part 2214
1437, the slide guide part 2214 includes support block 2215 and is arranged on some disk rollers 2216 of support block both sides about 2215;
It is described deposit that powder device 222 includes connecting with second through hole 1422 deposit tube cell 2221 and be arranged on and deposit tube cell
The dust nozzle 2222 of 2221 ends, the bag of dust nozzle 2222 is attached on mixer 21, corresponding to be opened on mixer 21
Provided with some powder injection holes 211 connected with dust nozzle 2222.
Further, the spacing between the powder passage 1433 and inlet channel 1434 is d1, the passage a112
Spacing between passage b122 is that d2, d1 and d2 meet d1=d2.
What deserves to be explained is by opening up the second through hole 1422 and passage with supporting plate 142 on transfer blade 143
When powder passage 1433 intermittently connected c132 make it that passage a112 adds Petropols toward dosing hole 1431 is interior, passage
C132 synchronous past deposit adds quantitative powder in tube cell 2221, and is bonded in Petropols and modified rosin resin toward whereabouts
During, tube cell 2221 is deposited by setting and connected with air-blast device 221 so that powder is blown into mixer 21, and it is fixed to ensure that
Also to be well mixed while amount proportioning, air blast in addition also has the hybrid resin to completing bonding in addition to the function of blowing powder
The effect cooled down.
Further, the upper surface of the second guide section 1222 is provided with loading plate 5, and the dividing plate 4 is along loading plate 5
Slide, the loading plate 5 is fixedly connected with the second guide section 1222, and one side end is fixedly connected with the first guide section 1221.
Embodiment two
As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7 and Fig. 8, wherein identical with embodiment two or corresponding portion
Part uses and two corresponding reference of embodiment, for simplicity, hereafter only description and the distinctive points of embodiment two.The implementation
The difference of example three and embodiment two is:Further, the top of the transfer blade 143 is additionally provided with along cut-off passage
1223 dividing plates 4 to slidably reciprocate, it is corresponding that the first driving lever 1435 and second group are provided with the side of the transfer blade 143
Bar 1436, the dividing plate 4 control the lower port of the first guide section 1221 under the drive of the first driving lever 1435 and the second driving lever 1436
Folding.
Pass through and cut-off passage 1223 and dividing plate 4 be set so that transfer blade 143 back and forth handling material when can pass through first group
The driving lever 1436 of bar 1435 and second is slided to control the lower port of the first guide section 1221 with dynamic dividing plate 4 along cut-off passage 1223
Folding so that dosing hole 1431 can stop that the material of the first guide section 1221 continues down when being moved to the second guide 1222 lower end of section
Fall, the modified rosin resin matched every time is exactly the amount in the second guide section 1222, ensure that the reasonable of proportioning.
The course of work:Feed bin a111, feed bin b121 and feed bin c131 transfer oil resin, modified rosin resin separately down
And powder, the mobilization plate 143 of horizontal sliding cylinder 1412 slide along supporting plate 142, when dosing hole 1431 and passage a112 connect
When logical, passage c132 connects with the through hole 1422 of powder passage 1433 and second, and it is fixed that Petropols are fallen into through passage a112
In metering-orifice 1431, powder falls into and deposited in tube cell 2221 through passage c132 powders passage 1433 and the second through hole 1422, fills up
Deposit in tube cell 2221;
Then, the mobilization plate 143 of horizontal sliding cylinder 1412 moves backward, when dosing hole 1431 be moved to mixer 21 and
When second guide section 1222 connects, the branch pipe 2213 of air-blast device 221 connects with the through hole 1422 of inlet channel 1434 and second,
The powder in tube cell 2221 is deposited under wind-force effect through being mixed in dust nozzle 2222 and the penetrating mixer 21 of powder injection hole 211 with resin
Compound completes mixing, and mixed material drops down onto along under mixer 21 completes packing output in the packing bag 32 in transmission belt 31.
In the description of the invention, it is to be understood that the orientation or position relationship of the instruction such as term " front and rear ", " left and right "
Based on orientation shown in the drawings or position relationship, to be for only for ease of the description present invention and simplifying description, rather than instruction or
Imply that signified equipment or part there must be specific orientation, with specific azimuth configuration and operation, therefore it is not intended that
Limitation to invention.
Certainly in the technical program, those skilled in the art is it should be appreciated that term " one " is interpreted as " at least
One " or " one or more ", i.e., in one embodiment, the quantity of an element can be one, and in other implementation
In example, the quantity of the element can be multiple, and term " one " is it is not intended that limitation to quantity.
The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto,
The change or replacement that any one skilled in the art can readily occur under the technical clarification of the present invention, should all contain
Cover within protection scope of the present invention.Therefore, protection scope of the present invention should be defined by the protection domain of claims.
Claims (10)
1. coating is efficiently fixed than batch mixing production technology, it is characterised in that:Including following production stage:
A. it is fed process, it would be desirable to which resin a, the resin b matched is sequentially quantitative by the hopper opened up on transfer blade (143)
Ground is delivered at adhesive stations, and the powder carry for needing to be matched extremely is located to blow and deposits powder device (222) at powder station
It is interior;
B. bonding process, while the lower section for the resin b resin a in step A being transferred at adhesive stations, to the tree
Fat b is synchronously heated, and resin a and resin b bond to form compound when synchronously falling;
C. powder process is blown, the compound in step B will blow and powder device is deposited at powder station from adhesive stations to during whereabouts
(222) powder in is blown on compound, converges to form compo with compound;
D. bag distribution packaging process, sequentially exported after the compo that proportioning is completed in step c is carried out into bag distribution packaging.
2. coating according to claim 1 is efficiently fixed than batch mixing production technology, it is characterised in that the powder in the step A
Material deposits the depositing in tube cell (2221) of powder device (222) by the powder passage (1433) that is opened on transfer blade (143) flow direction, complete
Into the weight feed of powder.
3. coating according to claim 1 is efficiently fixed than batch mixing production technology, it is characterised in that the tree in the step B
Fat b completes heating by the heating member (1432) being arranged on transfer blade (143), and the heating member (1432) is with transfer blade
(143) move back and forth, the resin b when heating member (1432) is moved to adhesive stations above the station is heated.
4. coating according to claim 3 is efficiently fixed than batch mixing production technology, it is characterised in that the tree in the step B
When fat a is moved to adhesive stations under the drive of transfer blade (143), what the transfer blade (143) was disposed there above by driving
Dividing plate (4) will be divided into the first guide section (1221) and the second guide section (1222) for exporting resin b pipeline, and second is led
The resin b and the resin b in the first guide section (1221) of material section (1222) quantification are separated.
5. coating according to claim 1 is efficiently fixed than batch mixing production technology, it is characterised in that mixed in the step C
When closing material whereabouts, the powder deposited in tube cell (2221) is blown into the dropping channel of compound in the presence of air-blast device (221),
Converge quantitative powder and compound.
6. coating according to claim 5 is efficiently fixed than batch mixing production technology, it is characterised in that the air-blast device 221
When powder is blown into the dropping channel of compound, it accelerates resin a and resin b bonding and condensation by blasting action.
7. coating according to claim 5 is efficiently fixed than batch mixing production technology, it is characterised in that described to deposit tube cell (2221)
Interior powder disperses to be blown into dropping channel by being coated on the dust nozzle 2222 on the outside of the dropping channel of compound.
8. coating according to claim 5 is efficiently fixed than batch mixing production technology, it is characterised in that the air-blast device
(221) branch pipe (2213) slided by the chute (1437) opened up along transfer blade (143) side is realized and deposits tube cell
(2221) internal connection or stagger.
9. coating according to claim 1 is efficiently fixed than batch mixing production technology, it is characterised in that the powder in the step A
Expect the mixed powder combined for antioxidant, light stabilizer and silane coupler.
10. coating according to claim 1 is efficiently fixed than batch mixing production technology, it is characterised in that in the dropping channel
Bonding space is formed in the top for blowing powder station, forms blending space thereunder.
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CN1380365A (en) * | 2001-04-12 | 2002-11-20 | 上海威宇机电制造有限公司 | Paint production method and equipment |
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CN201130053Y (en) * | 2007-11-30 | 2008-10-08 | 刘蓁蓁 | Apparatus for evaluating weight of mixed material |
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CN2037698U (en) * | 1988-10-04 | 1989-05-17 | 北京市天龙股份有限公司 | Line marking vehicle adopting heat-dessolved spray |
CN1380365A (en) * | 2001-04-12 | 2002-11-20 | 上海威宇机电制造有限公司 | Paint production method and equipment |
CN2618943Y (en) * | 2002-12-06 | 2004-06-02 | 薛丹 | Automatic marker |
CN201130053Y (en) * | 2007-11-30 | 2008-10-08 | 刘蓁蓁 | Apparatus for evaluating weight of mixed material |
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