CN217073437U - Glass fiber cloth extrusion impregnation system - Google Patents

Abstract

The utility model discloses a glass fiber cloth extrusion system of containing, include: the charging basket is provided with a storage space, the lower end of the charging basket is provided with a discharge pipeline, and the storage space is connected with the discharge pipeline; the feeding device is arranged on the charging bucket; the stirring device is arranged on the charging bucket, and the stirring end of the stirring device is arranged in the material storage space; the main discharge valve is arranged on the discharge pipeline; one end of the discharging pipe group is connected with the lower end of the discharging pipeline; the other end of the discharge pipe group is connected with the liquid separating component; the drippers are uniformly arranged on the lower surface of the liquid separating component; and the extrusion roller set is arranged below the liquid distribution assembly. Through right the utility model discloses an use, can carry out the even processing that contains to glass fiber cloth fast, extrude glass fiber cloth and contain under the cooperation of dividing liquid subassembly and extrusion roller set and contain to contain for the treatment fluid coating is even, and reduction in production cost has improved and has contained the operating efficiency that soaks.

Description

Glass fiber cloth extrusion impregnation system

Technical Field

The utility model relates to a glass fiber cloth production technical field especially relates to a glass fiber cloth extrusion system that contains.

Background

The surface treating agent is an intermediate bridge for connecting the glass fiber cloth and downstream resin, plays a crucial role in the application of electronic-grade glass fiber cloth, and therefore, the quality of the glass fiber cloth surface treating agent coating has a great influence on downstream resin impregnation and heat resistance of printed circuit boards. At present, the impregnation treatment of electronic-grade glass fiber cloth is that dried bundles directly enter an impregnation tank to be subjected to surface treatment, but the surface tension of the newly dried bundles is large, so that the treatment liquid is not beneficial to being quickly spread on the cloth surface, the coating uniformity of the treatment liquid on the cloth surface is affected, and after the glass fiber cloth enters the impregnation tank to be impregnated, redundant treatment liquid is left on the surface of the glass fiber cloth, so that the treatment cost is increased.

SUMMERY OF THE UTILITY MODEL

In view of this, in order to solve the above problem, an object of the present invention is to provide a glass fiber cloth extrusion impregnation system, including:

the charging basket is provided with a storage space, the lower end of the charging basket is provided with a discharge pipeline, and the storage space is connected with the discharge pipeline;

the feeding device is arranged on the charging bucket;

the stirring device is arranged on the charging bucket, and the stirring end of the stirring device is arranged in the material storage space;

the main discharge valve is arranged on the discharge pipeline;

one end of the discharging pipe group is connected with the lower end of the discharging pipeline;

the other end of the discharge pipe group is connected with the liquid separating component;

the drippers are uniformly arranged on the lower surface of the liquid separating component;

and the extrusion roller set is arranged below the liquid distribution assembly.

In another preferred embodiment, the feeding device is a dropping funnel, a dropping end of the dropping funnel is arranged above the charging basket, and the processing liquid is injected into the dropping funnel.

In another preferred embodiment, the dispensing assembly comprises: and the liquid separation plates are arranged in parallel along the horizontal direction.

In another preferred embodiment, the discharge tube set comprises: and one end of each discharging branch pipe is connected with a discharging pipeline, and the other end of each discharging branch pipe is connected with a liquid distributing plate.

In another preferred embodiment, comprising: and each flow regulating valve is arranged on one discharging branch pipe.

In another preferred embodiment, the stirring device comprises: agitator motor, puddler and stirring fan blade, agitator motor set up directly over the storage bucket, and the puddler sets up along vertical direction, and agitator motor's output is connected to the one end of puddler, and stirring fan blade is connected to the other end of puddler.

In another preferred embodiment, each liquid distribution plate is internally provided with a cavity, each discharge branch pipe is connected with one cavity, and the lower surface of each liquid distribution plate is sequentially provided with a plurality of drippers along the length direction.

In another preferred embodiment, each dripper is associated with a cavity.

In another preferred embodiment, the set of compression rollers comprises: each first squeeze roller is arranged right below the liquid separation plate, each first squeeze roller is arranged on the upper side of the second squeeze roller, and the lower side of each first squeeze roller is squeezed with the upper side of the second squeeze roller.

In another preferred embodiment, the method further comprises: a plurality of material absorbing cotton sleeves are sleeved on each first squeezing roller and each second squeezing roller.

The utility model discloses owing to adopted above-mentioned technical scheme, make it compare the positive effect that has with prior art to be: through right the utility model discloses an use, can carry out the even processing that contains to glass fiber cloth fast, extrude glass fiber cloth and contain under the cooperation of dividing liquid subassembly and extrusion roller set and contain to contain for the treatment fluid coating is even, and reduction in production cost has improved and has contained the operating efficiency that soaks.

Drawings

Fig. 1 is a schematic structural view of a glass fiber cloth extrusion impregnation system of the present invention;

fig. 2 is a partial schematic view of a glass fiber cloth extrusion impregnation system of the present invention;

fig. 3 is a schematic view of a liquid separation plate of a glass fiber cloth extrusion impregnation system of the present invention.

In the drawings: 1. a charging bucket; 2. a discharge pipeline; 3. a dropping funnel; 4. a stirring motor; 5. a stirring rod; 6. stirring fan blades; 7. a main discharge valve; 8. a liquid separation plate; 9. a discharge branch pipe; 10. a flow regulating valve; 11. a dripper; 12. a first squeeze roll; 13. a second squeeze roller; 14. a material sucking cotton sleeve; 15. glass fiber cloth.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

As shown in fig. 1 to 3, a glass fiber cloth extrusion impregnation system according to a preferred embodiment includes:

the material storage device comprises a material barrel 1, wherein the material barrel 1 is provided with a material storage space, the lower end of the material barrel 1 is provided with a material outlet pipeline 2, and the material storage space is connected with the material outlet pipeline 2;

the feeding device is arranged on the charging bucket 1;

the stirring device is arranged on the charging bucket 1, and the stirring end of the stirring device is arranged in the material storage space;

the main discharge valve 7, the main discharge valve 7 is arranged on the discharge pipeline 2;

one end of the discharging pipe group is connected with the lower end of the discharging pipeline 2;

the other end of the discharge pipe group is connected with the liquid separating component;

the drippers 11 are uniformly arranged on the lower surface of the liquid separating component;

and the extrusion roller set is arranged below the liquid distribution assembly.

In the in-service use process, be equipped with the pure water in the storage bucket 1, in the processing solution dripped into storage bucket 1 through dropping funnel 3, start 4 drive agitator motor stirring flabellum 6 until intensive mixing, open ejection of compact main valve 7 after the stirring is accomplished, processing solution after the stirring drips the extrusion roller set through dripper 11 on the paging subassembly, extrusion roller set extrusion glass fiber cloth 15 evenly soaks the processing solution to glass fiber cloth 15 on, the completion is to the operation of soaking on 15 surfaces of glass fiber cloth.

Further, as a preferred embodiment, the feeding device is a dropping funnel 3, a dropping end of the dropping funnel 3 is disposed above the charging basket 1, and the processing liquid is injected into the dropping funnel 3.

As a preferred embodiment, the dropping funnel 3 and the charging basket 1 are made of transparent materials, so that the residual amounts of the treatment solution and water can be observed in real time, and timely addition and adjustment can be realized.

Furthermore, as a preferred embodiment, the outer surfaces of the dropping funnel 3 and the charging basket 1 are provided with scale marks, so that the ratio of the treating fluid to the water can be conveniently adjusted.

Further, as a preferred embodiment, the liquid separation assembly comprises: a plurality of liquid separation board 8, a plurality of liquid separation board 8 all along horizontal direction parallel arrangement.

Further, as a preferred embodiment, the discharge tube group includes: a plurality of ejection of compact branch pipes 9, the ejection of compact pipeline 2 is all connected to the one end of each ejection of compact branch pipe 9, and a sepage board 8 is all connected to the other end of each ejection of compact branch pipe 9.

Further, as a preferred embodiment, the method further comprises: and each flow regulating valve 10 is arranged on one discharge branch pipe 9.

Further, as a preferred embodiment, a corresponding number of flow rate adjustment valves 10 are opened according to the thickness of the glass cloth 15 to be produced.

Further, as a preferred embodiment, the stirring device includes: agitator motor 4, puddler 5 and stirring fan blade 6, agitator motor 4 sets up directly over storage bucket 1, and agitator motor 4's output is connected to agitator motor 5 along vertical direction setting, the one end of puddler 6, and stirring fan blade 6 is connected to the other end of puddler 6.

Further, as a preferred embodiment, each liquid distribution plate 8 has a cavity inside, each discharge branch pipe 9 is connected to a cavity, and a plurality of drippers 11 are sequentially arranged on the lower surface of each liquid distribution plate 8 along the length direction.

Further, as a preferred embodiment, each dripper 11 is associated with a cavity.

Further, as a preferred embodiment, the compression roller group includes: a plurality of first squeeze rolls 12 and a plurality of second squeeze rolls 13, each first squeeze roll 12 all sets up under a liquid separation board 8, and each first squeeze roll 12 all sets up in the upside of a second squeeze roll 13, and the downside of each first squeeze roll 12 all extrudees with the upside of a second squeeze roll 13 mutually.

Further, as a preferred embodiment, a plurality of first squeeze rolls 12 and a plurality of second squeeze rolls 13 are arranged in a staggered manner along the length direction of the glass cloth 15. Further, the staggered arrangement specifically means: the axes of the first extrusion rollers 12 are on the same horizontal plane, the axes of the second extrusion rollers 13 are on the same horizontal plane, the height of the axes of the first extrusion rollers 12 is greater than that of the axes of the second extrusion rollers 13, a first gap is formed between every two adjacent first extrusion rollers 12, a second gap is formed between every two adjacent second extrusion rollers 13, each first gap faces the upper surface of one second extrusion roller 13, and each second gap faces the lower surface of one first extrusion roller 12.

Further, as a preferred embodiment, as shown in fig. 2, in the above-mentioned staggered arrangement, the leftmost one of the first extrusion rollers 12 protrudes to the left from the leftmost one of the second extrusion rollers 13, and correspondingly, the rightmost one of the second extrusion rollers 13 protrudes to the right from the rightmost one of the first extrusion rollers 12.

Further, as a preferred embodiment, the method further comprises: the cloth guide device comprises a first cloth guide roller and a second cloth guide roller, wherein a squeezing roller group is arranged between the first cloth guide roller and the second cloth guide roller, and the center position of the first cloth guide roller, the center position of the squeezing roller group and the center position of the second cloth guide roller are at the same horizontal height. Further, the glass fiber cloth 15 is conveyed to a position between contact surfaces where the first squeezing rollers 12 and the second squeezing rollers 13 are abutted through the first cloth guide roller, and then conveyed through the second cloth guide roller to be processed in the next step.

Further, as a preferred embodiment, the method further comprises: a plurality of material absorbing cotton sleeves 14 are sleeved on each first squeezing roller 12 and each second squeezing roller 13.

The above is merely an example of the preferred embodiments of the present invention, and the embodiments and the protection scope of the present invention are not limited thereby.

The utility model discloses still have following embodiment on above-mentioned basis:

the utility model discloses a further embodiment, the below of extrusion roller set sets up a holding tank, and the processing liquid of drippage is collected to the holding tank, carries out centralized processing, sanitary environmental protection.

The above is only a preferred embodiment of the present invention, and not intended to limit the scope of the invention, and it should be appreciated by those skilled in the art that various equivalent substitutions and obvious changes made in the specification and drawings should be included within the scope of the present invention.

Claims (10)

1. The utility model provides a glass fiber cloth extrusion system of soaking which characterized in that includes:

the charging basket is provided with a storage space, the lower end of the charging basket is provided with a discharge pipeline, and the storage space is connected with the discharge pipeline;

the feeding device is arranged on the charging bucket;

the stirring device is arranged on the charging bucket, and the stirring end of the stirring device is arranged in the material storage space;

the main discharge valve is arranged on the discharge pipeline;

one end of the discharging pipe group is connected with the lower end of the discharging pipeline;

the other end of the discharge pipe group is connected with the liquid separating component;

the drippers are uniformly arranged on the lower surface of the liquid separating component;

and the extrusion roller set is arranged below the liquid distribution assembly.

2. The fiberglass cloth extrusion impregnation system of claim 1, wherein the feeding device is a dropping funnel, a dropping end of the dropping funnel is disposed above the charging basket, and the dropping funnel is filled with a treatment liquid.

3. The fiberglass cloth extrusion impregnation system of claim 1, wherein said liquid separation assembly comprises: and the liquid separation plates are arranged in parallel along the horizontal direction.

4. The fiberglass cloth extrusion impregnation system of claim 3, wherein the discharge tube set comprises: and one end of each discharging branch pipe is connected with the discharging pipeline, and the other end of each discharging branch pipe is connected with the liquid separating plate.

5. The fiberglass cloth extrusion impregnation system of claim 4, further comprising: and each flow regulating valve is arranged on one discharge branch pipe.

6. The fiberglass cloth extrusion impregnation system according to claim 1, wherein said stirring device comprises: agitator motor, puddler and stirring fan blade, agitator motor set up in directly over the storage bucket, the puddler sets up along vertical direction, the one end of puddler is connected agitator motor's output, the other end of puddler is connected stirring fan blade.

7. The system for extruding and impregnating glass fiber cloth according to claim 4, wherein each of said liquid-separating plates has a cavity therein, and each of said discharging branch pipes is connected to one of said cavities.

8. The system for extruding and impregnating glass fiber cloth according to claim 7, wherein each of said drippers is connected to one of said cavities, and a plurality of said drippers are sequentially arranged on the lower surface of each of said liquid distribution plates along the length direction.

9. The fiberglass cloth extrusion impregnation system of claim 3, wherein the extrusion roller set comprises: the liquid separating plate comprises a plurality of first squeezing rollers and a plurality of second squeezing rollers, wherein each first squeezing roller is arranged under the liquid separating plate and is arranged on the upper side of one second squeezing roller, and the lower side of each first squeezing roller is squeezed with the upper side of one second squeezing roller.

10. The fiberglass cloth extrusion impregnation system of claim 9, further comprising: and each first extrusion roller and each second extrusion roller are respectively sleeved with one material suction cotton sleeve.

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