CN109248824A - Coating fluid bowl assembly and apparatus for coating - Google Patents

Abstract

The present invention relates to composite material production equipment technologies, more particularly, to a kind of coating fluid bowl assembly and apparatus for coating.The coating fluid bowl assembly, including slot ontology and oil-control component；Oil-control component includes the transfer passage connecting with slot ontology, and the lower openings of transfer passage are used to be immersed in coating fluid liquid level hereinafter, the upper opening of transfer passage is used for for stretching out coating fluid liquid level or more, transfer passage across coated product.Transfer passage keeps apart the part liquid level for being used to cloth material to be coated with remaining liquid level, in coating process, with the continuous conveying of cloth material to be coated, silicone oil in transfer passage is fewer and fewer, meanwhile being supplemented without the silicone oil of other positions liquid level, therefore the silicone oil amount in transfer passage is few, so as to reduce the silicone oil on coated product, and then avoid influence of the silicone oil to the adherence and service performance of coated product.

Description

Coating fluid bowl assembly and apparatus for coating

Technical field

The present invention relates to composite material production equipment technologies, arrange more particularly, to a kind of coating fluid bowl assembly and painting It sets.

Background technique

Coated glass fiber silica gel product is a kind of novel composite material, can bear the load of high voltage, main to apply Insulating materials is used as in electronic product.

Usual apparatus for coating includes the coating liquid bath for holding silicone fluid and the feeding dress for conveying cloth material to be coated It sets, feed device drives one end of cloth material to be coated to enter under coating fluid liquid level, after coating fluid, by the surface layer of coating fluid Slot out completes masking liquid.

The problem is that gradually migrating since coating silica gel liquid small molecular silicone oil can change over time to coating fluid Surface layer, for cloth material to be coated in coating fluid out, the silicone oil on coating fluid surface layer can make coated product surface silicone oil increase, and silicone oil increases It is mostly that coated product surface is smooth, to influence product gum adherence and service performance.

Summary of the invention

The purpose of the present invention is to provide coating fluid bowl assembly and apparatus for coating, to solve coating existing in the prior art The technical issues of liquid surface layer silicone oil causes coated product surface silicone oil to increase more.

Coating fluid bowl assembly provided by the invention, including slot ontology and oil-control component；

The oil-control component includes the transfer passage connecting with the slot ontology, and the lower openings of the transfer passage are used for Coating fluid liquid level is immersed in hereinafter, the upper opening of the transfer passage is for stretching out coating fluid liquid level or more, the conveying is logical Road is used for across coated product.

Further, the oil-control component further includes blotter coat, and the blotter coat is laid on the transfer passage.

Further, coating fluid bowl assembly includes the moving assembly that at least side of the slot ontology is arranged in, the shifting Dynamic component is connect with the transfer passage, to drive the transfer passage to move.

Optionally, the moving assembly includes moving horizontally component and vertical shift component；

The component that moves horizontally is connect with the transfer passage, to drive the transfer passage to move in the horizontal direction； The vertical shift component is connect with component is moved horizontally, vertically moving to move horizontally component described in drive.

Optionally, the component that moves horizontally includes bracket and sliding rail, and the bracket is fixedly connected with the transfer passage, The sliding rail is fixedly connected with the slot ontology, and the bracket is slidably installed on the sliding rail.

Optionally, the vertical shift component includes driving motor, gear and rack gear, and the driving motor is fixedly installed, The gear is connect with the driving motor, and the rack gear and gear engaged transmission, the sliding rail are connect with the rack gear.

Optionally, the transfer passage is arranged in prolate；

And/or the upper opening of the transfer passage is in horn-like setting.

Optionally, the blotter coat is PP knitted fabric layer or PP nonwoven layer.

Further, coating fluid bowl assembly includes frizing component, and the frizing component is movably arranged in the slot ontology, And be located at outside the transfer passage, the frizing component is used to contact with the silicon layer for being located at coating fluid liquid level.

The present invention provides a kind of apparatus for coating, including coating fluid bowl assembly provided by the invention.

Coating fluid bowl assembly provided by the invention, including slot ontology and oil-control component；The oil-control component include with it is described The transfer passage of slot ontology connection, the lower openings of the transfer passage are for being immersed in coating fluid liquid level hereinafter, the conveying The upper opening in channel is used for for stretching out coating fluid liquid level or more, the transfer passage across coated product.

During the coating fluid bowl assembly provided using invention, one end of cloth material to be coated is drawn by the opening of slot ontology Enter to the liquid level of coating fluid hereinafter, then the end of coating material is guided to enter transfer passage by the lower openings of transfer passage It is interior, then the end is drawn by the upper opening of transfer passage.Leading cloth material to be coated is by the coating fluid in transfer passage Liquid level go out coating fluid, to complete coating liquid, after being drawn by the upper opening of transfer passage, then carry out subsequent handling.

Transfer passage keeps apart the part liquid level for being used to cloth material to be coated with remaining liquid level, then transfer passage prevents Silicone oil on the liquid level for being collected at coating fluid outside transfer passage is migrated into transfer passage.In coating process, with The continuous conveying of cloth material to be coated, the silicone oil in transfer passage is fewer and fewer, meanwhile, without the silicone oil of other positions liquid level Supplement, therefore the silicone oil amount in transfer passage is few, so as to reduce the silicone oil on coated product, and then avoids silicone oil to painting The influence of the adherence and service performance of cloth product.

Detailed description of the invention

It, below will be to specific in order to illustrate more clearly of the specific embodiment of the invention or technical solution in the prior art Embodiment or attached drawing needed to be used in the description of the prior art be briefly described, it should be apparent that, it is described below Attached drawing is some embodiments of the present invention, for those of ordinary skill in the art, before not making the creative labor It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram for the coating fluid bowl assembly that one embodiment of the invention provides；

Fig. 2 is the sectional view of coating fluid bowl assembly shown in FIG. 1；

Fig. 3 is the structural schematic diagram of oil-control component in coating fluid bowl assembly shown in FIG. 1；

Fig. 4 be another embodiment of the present invention provides coating fluid bowl assembly structural schematic diagram；

Fig. 5 is the structural schematic diagram of apparatus for coating provided in an embodiment of the present invention；

Fig. 6 is the sectional view of apparatus for coating shown in fig. 5.

Appended drawing reference: 10- slot ontology；20- oil-control component；30- moves horizontally component；40- vertical shift component；50- is scraped Oily component；21- transfer passage；22- blotter coat；31- bracket；32- sliding rail；41- gear；42- rack gear；51- scraper plate；The lower part 211- Opening；212- upper opening；01- coating fluid；02- coated product；03- coating fluid bowl assembly；04- conveying device；05- coating is scraped Knife；06- cloth material to be coated；The first roller of 041-；The second roller of 042-；043- third roller.

Specific embodiment

Technical solution of the present invention is clearly and completely described below in conjunction with attached drawing, it is clear that described implementation Example is a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill Personnel's every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", "vertical", The orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" be based on the orientation or positional relationship shown in the drawings, merely to Convenient for description the present invention and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, It is constructed and operated in a specific orientation, therefore is not considered as limiting the invention.In addition, term " first ", " second ", " third " is used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be to be connected directly, the connection inside two elements can also be can be indirectly connected through an intermediary.For this field For those of ordinary skill, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.

Fig. 1 is the structural schematic diagram for the coating fluid bowl assembly that one embodiment of the invention provides；Fig. 2 is coating shown in FIG. 1 The sectional view of liquid bath component；Fig. 3 is the structural schematic diagram of oil-control component in coating fluid bowl assembly shown in FIG. 1；Fig. 4 is the present invention The structural schematic diagram for the coating fluid bowl assembly that another embodiment provides；Fig. 5 is the knot of apparatus for coating provided in an embodiment of the present invention Structure schematic diagram；Fig. 6 is the sectional view of apparatus for coating shown in fig. 5.

As shown in Figure 1 to Figure 3, the present invention provides a kind of coating fluid bowl assembly, including slot ontology 10 and oil-control component 20；Control Oily component 20 includes the transfer passage 21 connecting with slot ontology 10, and the lower openings 211 of transfer passage 21 are for being immersed in coating 01 liquid level of liquid is hereinafter, the upper opening 212 of transfer passage 21 is for stretching out 01 liquid level of coating fluid or more, and transfer passage 21 is for wearing Cross coated product 02.

During using coating fluid bowl assembly provided in this embodiment, by one end of cloth material 06 to be coated by slot ontology 10 Opening be introduced to coating fluid 01 liquid level hereinafter, then guide coating material the end by transfer passage 21 lower openings 211 enter in transfer passage 21, then the end is drawn by the upper opening 212 of transfer passage 21.Leading cloth material to be coated 06 Coating fluid 01 is gone out by the liquid level for the coating fluid 01 being located in transfer passage 21, so that the coating of coating fluid 01 is completed, by transfer passage After 21 upper opening 212 is drawn, then carry out subsequent handling.

In the present embodiment, transfer passage 21 keeps apart the part liquid level for being used to cloth material 06 to be coated with remaining liquid level Come, then transfer passage 21 prevents the silicone oil on the liquid level for being collected at coating fluid 01 outside transfer passage 21 to transfer passage Migration in 21.In coating process, with the continuous conveying of cloth material 06 to be coated, silicone oil is constantly pulled away, and is located at transfer passage 21 Interior silicone oil is fewer and fewer, meanwhile, it is supplemented without the silicone oil of other positions liquid level, therefore the silicone oil amount in transfer passage 21 is few, from And the silicone oil on coated product 02 can be reduced, and then avoid silicone oil to the adherence of coated product 02 and service performance It influences.

It should be noted that realize there are many mode of movement for guiding cloth material 06 to be coated to move, for example, by manually, It can also be using the conveying device in apparatus for coating, such as motor, roller existing structure.

Wherein, the structure type of slot ontology 10 can be a variety of, such as: rectangle, triangle, circle or abnormity etc..

Optionally, as shown in Fig. 2, the trapezoidal setting of slot ontology 10, and the area of section on the top of slot ontology 10 is greater than slot The area of section of the lower part of ontology 10, the coating fluid 01 that this structure increase receives on coated product 02 are applied what scraper scraped 01 area of coating fluid, avoids the coating fluid scraped 01 from dropping onto outside slot ontology 10, pollutes and wastes.

The structure type of transfer passage 21 can be a variety of, such as: the section of transfer passage 21 is rounded, rectangle or different Shape etc..

Optionally, as shown in figure 3, transfer passage 21 is arranged in prolate, that is, transfer passage 21 is arranged in a long strip shape, and defeated Send the width in channel 21 smaller for its length.Wherein, the width of the width of transfer passage 21 and cloth material 06 to be coated It being adapted, that is to say, that the width of transfer passage 21 allows cloth material 06 to be coated to pass through slightly larger than the width of material on foot, Generation friction will not be contacted with coating material again.

In the present embodiment, the transfer passage 21 of prolate shape can further reduce the coating fluid 01 in transfer passage 21 Liquid level area is further reduced silicone oil amount, so that silicone oil be avoided to generate adverse effect to coated product 02.

Specifically, the distance between flat tube inner wall is 5mm~100mm, for example, 5mm, 8mm, 9mm or 10mm etc. should Section any value.

Flat tube height is 50mm~500mm, such as: appoint in the section such as 50mm, 100mm, 250mm, 400mm or 500mm One value.

The shape of the upper opening 212 of transfer passage 21 all can be a variety of, such as: in rectangle, circle or abnormity etc..

Optionally, as shown in figure 3, the upper opening 212 of transfer passage 21 is in horn-like setting, when transfer passage 21 is whole When flat for length, the upper opening 212 of transfer passage 21 is in Duckbill type, and the upper opening 212 of this structure expands area, is improved The coating fluid 01 scraped on coated product 02 drops onto the probability in transfer passage 21.On the one hand, the coating fluid scraped 01 siliceous oil mass is few, on the other hand, when transfer passage 21 is located at the edge of slot ontology 10, can avoid the coating fluid 01 scraped It falls on outside slot ontology 10, to avoid polluting and waste.

As shown in Figure 1 to Figure 3, on above-described embodiment basis, further, oil-control component 20 further includes blotter coat 22, blotter coat 22 is laid on transfer passage 21.

In the present embodiment, blotter coat 22 is laid on transfer passage 21, blotter coat 22 can be small point by 01 surface of coating fluid Sub- silicone oil is effectively adsorbed, to largely reduce the amount of silicone oil, is more advantageous to cloth material 06 to be coated and is coated with, be more advantageous to obtain Quality product.

Blotter coat 22 is laid on the outer wall of transfer passage 21, adsorbs to the silicone oil on the liquid level of most of area, Largely reduce the silicone oil of coating fluid 01.

The material of blotter coat 22 can be a variety of, such as: gauze, cotton or nylon etc..

Optionally, blotter coat 22 is PP knitted fabric layer or PP nonwoven layer, and intensity is high, and oil absorption is big.

As shown in Figure 1, further, coating fluid bowl assembly includes being arranged in slot ontology on above-described embodiment basis The moving assembly of 10 at least side, moving assembly are connect with transfer passage 21, to drive transfer passage 21 to move.

In the present embodiment, setting moving assembly can realize the movement to transfer passage 21, enable transfer passage 21 in slot Ontology 10 carries out position change within the scope of covering, and to meet different demands, improves the flexibility of coating fluid bowl assembly And practicability.

Wherein, moving assembly can in one direction move transfer passage 21, can also be multiple by being arranged Moving assembly realization is moved in the multiple directions such as both direction or three directions.

Optionally, moving assembly includes moving horizontally component 30 and vertical shift component 40；Move horizontally component 30 with it is defeated Channel 21 is sent to connect, to drive transfer passage 21 to move in the horizontal direction；Vertical shift component 40 connects with component 30 is moved horizontally It connects, it is vertically moving to move horizontally component 30 with drive.

In the present embodiment, moves horizontally component 30 and be able to drive transfer passage 21 and moved in the horizontal direction, thus The position in the horizontal direction of transfer passage 21 is set to be adjusted.Vertical shift component 40, which is able to drive, to be moved horizontally component and exists It is moved on vertical direction, to drive transfer passage 21 to move in the vertical direction, to make transfer passage 21 in short transverse On be adjusted, be adjusted so as to realize according to the height change of 01 liquid level of coating fluid, to reach preferable coating Effect, e.g., when the liquid level of coating fluid 01 is dropped to oil reservoir disengaging is applied, so that it may which the height for adjusting transfer passage 21 makes oil suction Layer 22 is contacted with coating fluid 01, is adsorbed to realize to the silicone oil on surface layer.

Wherein, there are many structure types for moving horizontally component 30, such as: moving horizontally component 30 includes connecting rod and cunning The one end in road, connecting rod is fixedly connected with transfer passage 21, and pulley is arranged in the other end, and pulley is slidably installed in slideway.

Optionally, as shown in Figure 1, moving horizontally component 30 includes bracket 31 and sliding rail 32, bracket 31 and transfer passage 21 It is fixedly connected, sliding rail 32 is fixedly connected with slot ontology 10, and bracket 31 is slidably installed on sliding rail 32.

In the present embodiment, bracket 31 erects transfer passage 21, so as to make transfer passage 21 in the outstanding of slot ontology 10 Sky setting.Using this moving structure, structure is simple, to reduce the production cost of 01 slot of coating fluid.

Wherein it is possible to be driven by manpower, optionally, using electric telescopic rod or motor, gear and rack gear group Part is driven；Or electromagnet is set in one end of sliding rail 32, permanent magnet is set on bracket 31, electric control electricity can be passed through The magnetism of magnet, by the way that identical charges repel each other, the separate realization that there is a natural attraction between the sexes pushes or pulls that bracket 31 slides in sliding rail 32 etc..

Moving horizontally component 30 can be set one, that is, the side of slot ontology 10 is arranged in, optionally, in 10 phase of slot ontology Pair two sides be respectively provided with and move horizontally component 30, can make the movement of transfer passage 21 more steady in this way.In particular, working as transfer passage 21 when being prolate shape, and in side, control transfer passage 21 is mobile, easily leads to the inclination of transfer passage 21 or shakes, along transfer passage 21 length direction moves horizontally component 30 in being respectively provided with for transfer passage 21, then substantially increases the movement of transfer passage 21 Stationarity.

There are many structure types of vertical shift component 40, such as: vertical shift component 40 includes pedestal, sliding block and electronic Telescopic rod, pedestal are arranged in a long strip shape and are vertically arranged, and sliding slot is arranged on pedestal, and sliding block is fixed on guide rail, electric telescopic rod Band movable slider slides up and down in sliding slot.

Optionally, as shown in Figure 1, vertical shift component 40 includes driving motor, gear 41 and rack gear 42, driving motor is solid Fixed setting, gear are connect with driving motor, and rack and pinion engaged transmission, sliding rail 32 is connect with rack gear.

It is reliably efficient by gear drive in the present embodiment, keep mobile transfer passage 21 convenient and efficient, further improves The practicability of coating fluid bowl assembly.

As shown in figure 4, further, coating fluid bowl assembly includes frizing component, frizing on above-described embodiment basis Component is movably arranged in slot ontology 10, and is located at outside transfer passage 21, and frizing component is used for and is located at 01 liquid level of coating fluid Silicon layer contact.

In the present embodiment, frizing component is set in slot ontology 10, the silicone oil on the surface layer of coating fluid 01 can be scraped Oil is further reduced the silicone oil amount of coating fluid 01 so that silicone oil be removed, to further be conducive to the coating that high-quality is made Product 02.

Wherein, the structure type of frizing component can be a variety of, such as: frizing component includes turning with the inner wall of slot ontology 10 The wiper of dynamic connection, wiper can rotate in the horizontal direction, so that the surface layer of sweeping coating fluid 01, silicone oil is scraped to slot ontology 10 edge, people can be adsorbed by oil-Absorbing Sheets to by the silicone oil scraped to 10 edge of slot ontology, or directly adopt spoon The tools such as son take the silicone oil of accumulation away.

For another example: frizing component includes the scraper plate 51 being slidably installed on slot ontology 10, and scraper plate 51 can be along the width of slot ontology 10 Direction or length direction sliding are spent, in sliding process, the silicone oil on 01 surface layer of coating fluid is scraped to the edge of slot ontology 10, people Can be adsorbed by oil-Absorbing Sheets to by the silicone oil scraped to 10 edge of slot ontology, or directly adopt the tools such as spoon for heap Long-pending silicone oil is taken away.

As shown in Figure 5 and Figure 6, the present invention provides a kind of apparatus for coating, including coating fluid bowl assembly 03 provided by the invention. Further include the conveying device for feeding, and the pairs of coating blade 05 of 10 top of slot ontology is set.Conveying device 04 is wrapped Include the first roller 041 being arranged in outside slot ontology 10 and the second roller 042 that 10 bottom of slot ontology is set and pairs of the Three rollers 043,211 face of lower openings of third roller 043 and transfer passage 21, the second roller are positioned close to slot ontology side The position on edge.

In use, the beginning of cloth material 06 to be coated is by the first roller to second for apparatus for coating provided in this embodiment Roller, then coating blade is reached by transfer passage 21 by the second roller, the first roller and the second roller give cloth material to be coated 06 with guiding, and according to 02 thickness of coated product of setting, coating blade scrapes off extra coating fluid 01 to be met the requirements The coated product 02 of thickness.

In the process, leading cloth material to be coated 06 is gone out to be coated with by the liquid level for the coating fluid 01 being located in transfer passage 21 Liquid 01 after being drawn by the upper opening 212 of transfer passage 21, then carries out subsequent handling to complete the coating of coating fluid 01.Conveying Channel 21 keeps apart the part liquid level for being used to cloth material 06 to be coated with remaining liquid level, then transfer passage 21, which prevents, is located at The silicone oil on the liquid level for being collected at coating fluid 01 outside transfer passage 21 is migrated into transfer passage 21.In coating process, with The continuous conveying of cloth material 06 to be coated, the silicone oil in transfer passage 21 is fewer and fewer, meanwhile, without other positions liquid level Silicone oil supplement, therefore the silicone oil amount in transfer passage 21 is few, so as to reduce the silicone oil on coated product 02, and then avoids Influence of the silicone oil to the adherence and service performance of coated product 02.

Apparatus for coating provided in this embodiment can obtain that silicone oil amount is few, and service performance is good, the good quality product of adherence.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention., rather than its limitations；To the greatest extent Pipe present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: its according to So be possible to modify the technical solutions described in the foregoing embodiments, or to some or all of the technical features into Row equivalent replacement；And these are modified or replaceed, various embodiments of the present invention technology that it does not separate the essence of the corresponding technical solution The range of scheme.

Claims (10)

1. a kind of coating fluid bowl assembly characterized by comprising slot ontology and oil-control component；

The oil-control component includes the transfer passage connecting with the slot ontology, and the lower openings of the transfer passage are for submerging In coating fluid liquid level hereinafter, the upper opening of the transfer passage is used for stretching out coating fluid liquid level or more, the transfer passage In across coated product.

2. coating fluid bowl assembly according to claim 1, which is characterized in that the oil-control component further includes blotter coat, institute Blotter coat is stated to be laid on the transfer passage.

3. coating fluid bowl assembly according to claim 1 or 2, which is characterized in that including the slot ontology is arranged in extremely The moving assembly of few side, the moving assembly are connect with the transfer passage, to drive the transfer passage to move.

4. coating fluid bowl assembly according to claim 3, which is characterized in that the moving assembly includes moving horizontally component With vertical shift component；

The component that moves horizontally is connect with the transfer passage, to drive the transfer passage to move in the horizontal direction；It is described Vertical shift component is connect with component is moved horizontally, and it is vertically moving to move horizontally component with drive.

5. coating fluid bowl assembly according to claim 4, which is characterized in that the component that moves horizontally includes bracket and cunning Rail, the bracket are fixedly connected with the transfer passage, and the sliding rail is fixedly connected with the slot ontology, and the bracket is slidably installed in On the sliding rail.

6. coating fluid bowl assembly according to claim 5, which is characterized in that the vertical shift component includes driving electricity Machine, gear and rack gear, driving motor fixed setting, the gear are connect with the driving motor, the rack gear with it is described Gear engaged transmission, the sliding rail are connect with the rack gear.

7. according to claim 1, coating fluid bowl assembly described in 4 or 5, which is characterized in that the transfer passage is set in prolate It sets；

And/or the upper opening of the transfer passage is in horn-like setting.

8. coating fluid bowl assembly according to claim 2, which is characterized in that the blotter coat is PP knitted fabric layer or PP Nonwoven layer.

9. coating fluid bowl assembly according to claim 1, which is characterized in that including frizing component, the frizing component is living It is dynamic to be arranged in the slot ontology, and be located at outside the transfer passage, the frizing component is used for and is located at coating fluid liquid level Silicon layer contact.

10. a kind of apparatus for coating, which is characterized in that including coating fluid bowl assembly as claimed in any one of claims 1-9 wherein.