CN103015084A - Automatic warp beaming and weft straightening setting method of glass fiber gridding cloth - Google Patents

Abstract

The invention discloses an automatic warp beaming and weft straightening setting method of glass fiber gridding cloth. The method comprises the following steps of: step 101, impregnating original high silica glass fiber gridding cloth through an impregnator to form impregnated high silica glass fiber gridding cloth; step 103, clamping one edge of the impregnated high silica glass fiber gridding cloth in the warp direction by using two annular straps which synchronously operate according to a given direction through a warp and weft finishing machine, and automatically adjusting warps and wefts of the cloth to be in a state parallel to or perpendicular to the horizontal plane by using gravity action; step 105, curing and setting the impregnated high silica glass fiber gridding cloth through a baking box; and step 107, winding the cured and set impregnated high silica glass fiber gridding cloth into a roll through a winding machine. The method has the advantages of simple structure, convenience in operation and control and capability of solving the problems of continuity, no damage and high-efficiency warp beaming and weft straightening of the glass fiber gridding cloth and derivative products thereof.

Description

The whole latitude method for shaping of the automatic warping of fiberglass gridding cloth

Technical field

The present invention relates to the fiberglass gridding cloth technical field, more particularly, relate to the whole latitude method for shaping of the automatic warping of a kind of fiberglass gridding cloth.

Background technology

In the processing procedure (processing procedures such as sour Xian, rolling) of high silica glass fiber mesh cloth after weaving, its warp, parallel generally all can produce very large inclination or distortion, and the regularity of its warp, parallel is the key factor that determines such product quality class and product applications.But, because the particularity (the extremely low and extensibility extreme difference of the intensity of the weaving structure of grid type and material itself) of high silica glass fiber mesh cloth weaving process and structure and material performance, so that warp, the parallel of itself and derived product thereof carried out continuous, high efficiency arrangement, be critical technological point and the technical bottleneck in the industry always.

Existing high silica glass fiber mesh cloth warping, whole latitude method mainly contain: two kinds of the artificial whole latitude of clearance-type warping and the whole latitudes of mechanical tentering warping.

Artificial clearance-type warping warping latitude, it generally is the square shape that the high silica glass fiber mesh cloth that becomes web-like is cut into first certain specification, behind impregnation, pouring glue, by artificial (generally needing two people to cooperate) appropriate stretching warp, parallel, be tiled on the supporting plate, put into baking box baking typing.Fiberglass gridding cloth after the arrangement of this method, the regularity of warp, parallel still can, but can not produce the web-like product, its Application Areas is restricted, and production efficiency is extremely low, and product quality is affected greatly by human factor, and bulk article quality stability can't guarantee.

The machinery stentering forming mainly is the framing shaping machine of using weaving, dyeing.This method is actually and applies certain tension force to the warp of the fiberglass gridding cloth behind the impregnation, parallel it force to be extended, to reach warp, the regular purpose of parallel, then by baking box baking typing.But since particularity---the weaving structure of grid type of high silica glass fiber mesh cloth weaving process, the extremely low and extensibility extreme difference of the intensity of material itself; This method in actual applications, often can be broken warp, the parallel of high silica glass fiber mesh cloth, can tear whole grid cloth when serious, and the product utilization rate is reduced greatly.The investment of this kind method is large, and the sexual valence ratio only has few application in the industry.

Therefore, how to realize continuously, can't harm, the operation of efficient warping, whole latitude becomes the technical problem that those skilled in the art need to be resolved hurrily.

Summary of the invention

In view of this, the invention provides the whole latitude method for shaping of the automatic warping of a kind of fiberglass gridding cloth, to realize continuously, can't harm, the operation of efficient warping, whole latitude.

For achieving the above object, the invention provides following technical scheme:

The whole latitude method for shaping of the automatic warping of a kind of fiberglass gridding cloth,

Step 101: by cement dipping machine the former cloth of high silica glass fiber mesh cloth is carried out dipping process, form the impregnation high silica glass fiber mesh cloth;

Step 103: on the wherein one side that clamps impregnation high silica glass fiber mesh cloth warp direction through the utilization of warp parallel collator by two endless belts of set direction synchronous operation, utilize Action of Gravity Field, make its warp, parallel automatically be adjusted to parallel with horizontal plane or vertical with horizontal plane state;

Step 105: the impregnation high silica glass fiber mesh cloth is cured heat treatment by baking box;

Step 107: by winder will be cured the typing the impregnation high silica glass fiber mesh cloth be wound into web-like.

Preferably, described cement dipping machine specifically comprises:

Installation frame which is provided with the installation portion for the former yardage roll of mounting glass fibrous mesh cloth;

Be arranged on the described installation frame, be used for holding the glue groove of glue;

Be arranged in the described glue groove, and be positioned at the first following guide roller of glue liquid level;

Be arranged at the second guide roller on the described installation frame;

Be arranged on the described installation frame, and two Extruded rollers of positioned opposite up and down;

Drive the first drive unit that one of them described Extruded roller rotates.

Preferably, describedly by cement dipping machine the former cloth of high silica glass fiber mesh cloth is carried out dipping process, forms the impregnation high silica glass fiber mesh cloth and be specially:

The former cloth of described high silica glass fiber mesh cloth by being immersed in the first guide roller below the glue groove glue liquid level, makes the former cloth of high silica glass fiber mesh cloth infiltrate glue, then through the second guide roller, enters Extruded roller, extrudes unnecessary glue.By chain-driving, the former cloth of traction high silica glass fiber mesh cloth moves along predetermined direction Extruded roller continuously by the first drive unit.

Preferably, be arranged at the described warp parallel collator of described cement dipping machine rear end, it comprises two spaced apart conveying rollers, tensioning has the first endless belt on the two described conveying rollers, and be arranged at the second endless belt and the 3rd endless belt by the pinch roll tensioning of described the first endless belt one side, be separated with the distance that is not more than fiberglass gridding cloth thickness between described the second endless belt and the 3rd endless belt, and the fed distance of described the first endless belt is less than the fed distance of the second endless belt and the 3rd endless belt.

Preferably, the Extruded roller that is positioned at upside can slide up and down and is arranged on the described installation frame;

The clamping cylinder that is arranged on the described installation frame links to each other with the roll shaft of the described Extruded roller that is positioned at upside.

Preferably, described the first drive unit is motor, and links to each other with the Extruded roller that is positioned at downside by driving-chain.

Preferably, described hauling machine specifically comprises drive motors, and its output shaft rotates by the described conveying roller of chain-driving and described pinch roll.

Preferably, the both sides, front and back of described baking box are equipped with the first row air port.

Preferably, the top of described baking box is provided with two second row air ports.

Preferably, described winder specifically comprises wind-up roll and drives the winding motor that described wind-up roll rotates.

Can find out that from above-mentioned technical scheme the present invention is by the dipping process of cement dipping machine, so that the former cloth of high silica glass fiber mesh cloth becomes the impregnation high silica glass fiber mesh cloth.The impregnation high silica glass fiber mesh cloth is through warp parallel collator the time, article two, by the second endless belt of set direction synchronous operation and the 3rd endless belt clamp impregnation high silica glass fiber mesh cloth warp direction wherein on one side, utilize Action of Gravity Field, make its warp, parallel automatically be adjusted to parallel with horizontal plane or vertical with horizontal plane state, its warp, the original inclination of parallel or torsional deformation are corrected, and reach warp, the parallel that we put high silica glass fiber mesh cloth in order and make its regular purpose.And after solidifying and setting, make this state be able to permanent maintenance.The impregnation high silica glass fiber mesh cloth that winder will be organized typing is wound into web-like, is beneficial to enter next process, has so far also just finished the whole latitude typing of the automatic warping of fiberglass gridding cloth.The present invention is simple in structure, controls conveniently, has solved high silica glass fiber mesh cloth and derived product is continuous, and is harmless, the difficult problem of efficient warping, whole latitude.

Description of drawings

Fig. 1 is the process chart of the whole latitude method for shaping of the automatic warping of fiberglass gridding cloth of the present invention embodiment;

The main TV structure schematic diagram of the whole latitude setting machine of the automatic warping of fiberglass gridding cloth that provides among the whole latitude method for shaping of the automatic warping of the fiberglass gridding cloth of the present invention embodiment is provided Fig. 2;

The plan structure schematic diagram of the whole latitude setting machine of the automatic warping of fiberglass gridding cloth that provides among the whole latitude method for shaping of the automatic warping of the fiberglass gridding cloth of the present invention embodiment is provided Fig. 3.

The specific embodiment

The invention discloses the whole latitude method for shaping of the automatic warping of a kind of fiberglass gridding cloth, to realize continuously, can't harm, the operation of efficient warping, whole latitude.

Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment that obtains under the creative work prerequisite.

See also Fig. 1, Fig. 2 and Fig. 3, Fig. 1 is the process chart of the whole latitude method for shaping of the automatic warping of fiberglass gridding cloth of the present invention embodiment, the main TV structure schematic diagram of the whole latitude setting machine of the automatic warping of fiberglass gridding cloth that provides among the whole latitude method for shaping of the automatic warping of the fiberglass gridding cloth of the present invention embodiment is provided Fig. 2, and the plan structure schematic diagram of the whole latitude setting machine of the automatic warping of fiberglass gridding cloth that provides among the whole latitude method for shaping of the automatic warping of the fiberglass gridding cloth of the present invention embodiment is provided Fig. 3.

The whole latitude method for shaping of the automatic warping of embodiment of the invention fiberglass gridding cloth comprises,

Step 101: dipping process;

By cement dipping machine the former cloth of high silica glass fiber mesh cloth is carried out dipping process, form the impregnation high silica glass fiber mesh cloth.

Step 103: automatically graticule arrangement;

On the wherein one side that clamps impregnation high silica glass fiber mesh cloth 07 warp direction through the utilization of warp parallel collator by two endless belts of set direction synchronous operation, utilize Action of Gravity Field, make its warp, parallel automatically be adjusted to parallel with horizontal plane or vertical with horizontal plane state.

Step 105: solidifying and setting is processed;

By baking box 12 impregnation high silica glass fiber mesh cloth 07 is cured heat treatment.

Step 107: be rolled into required web-like;

By winder 15 will be cured the typing impregnation high silica glass fiber mesh cloth 07 be wound into web-like.

Wherein, cement dipping machine is used for the former cloth 03 of high silica glass fiber mesh cloth is carried out dipping process, guaranteeing after the later stage typing, and can be so that it be in stable state.

Warp parallel collator comprises two spaced apart conveying rollers, tensioning has the first endless belt 08 on two conveying rollers, and be arranged at the second endless belt 09 and the 3rd endless belt 10 by the pinch roll tensioning of the first endless belt 08 1 sides, the second endless belt 09 and 10 of the 3rd endless belts are separated with the distance that is not more than fiberglass gridding cloth thickness, and the fed distance of the first endless belt 08 is less than the fed distance of the second endless belt 09 and the 3rd endless belt 10.

One side of impregnation high silica glass fiber mesh cloth 07 warp direction is by manually being placed on the first endless belt 08 and the second endless belt 09, and alignd in one side of high silica glass fiber mesh cloth 07 with the respective edges of the second endless belt 09, along with the first endless belt 08, the second endless belt 09 and the 3rd endless belt 10 are along the operation of the direction shown in the arrow among Fig. 1, the grasping system clamping that one side of high silica glass fiber mesh cloth 07 is constituted by the second endless belt 09 and the 3rd endless belt 10, and move to together shown in Fig. 1 reverse the section of dangling the time, the another side of impregnation high silica glass fiber mesh cloth 07 warp direction loses the first endless belt 08 support, because Action of Gravity Field, the another side of the warp direction of impregnation high silica glass fiber mesh cloth 07 is unsettled, naturally droop, the parallel of its weft direction is adjusted to and the horizontal plane plumbness automatically.Warp direction, because one side of impregnation high silica glass fiber mesh cloth 07 is by the second endless belt 09 and 10 clampings of the 3rd endless belt, and be held linear state, remaining warp is same because Action of Gravity Field all can be adjusted to the state parallel with horizontal plane accordingly automatically.So far the warp of impregnation high silica glass fiber mesh cloth 07, parallel are because Action of Gravity Field, automatically be adjusted to parallel with horizontal plane with vertical with horizontal plane state, its warp, the original inclination of parallel or torsional deformation are corrected, also just reached us and put warp, the parallel of impregnation high silica glass fiber mesh cloth 07 in order, made its regular purpose.

Baking box 12 is arranged at the rear end of warp parallel collator, is used for impregnation high silica glass fiber mesh cloth 07 solidifying and setting.Hauling machine 14 is arranged at the rear end of baking box 12, is used for keeping the continuous operation of the first endless belt 08, the second endless belt 09 and the 3rd endless belt 10.Winder 15 is arranged at the rear end of hauling machine 14, is used for impregnation high silica glass fiber mesh cloth 07 is wound into web-like.

The present invention is by the dipping process of cement dipping machine, so that the former cloth 03 of high silica glass fiber mesh cloth becomes impregnation high silica glass fiber mesh cloth 07.Impregnation high silica glass fiber mesh cloth 07 is through warp parallel collator the time, article two, by the second endless belt 09 of set direction synchronous operation and the 3rd endless belt 10 clamp impregnation high silica glass fiber mesh cloth 07 warp direction wherein on one side, utilize Action of Gravity Field, make its warp, parallel automatically be adjusted to parallel with horizontal plane or vertical with horizontal plane state, its warp, the original inclination of parallel or torsional deformation are corrected, and reach warp, the parallel that we put high silica glass fiber mesh cloth in order and make its regular purpose.And after solidifying and setting, make this state be able to permanent maintenance.The high silica glass fiber mesh cloth that winder will be organized typing is wound into web-like, is beneficial to enter next process, has so far also just finished the whole latitude typing of the automatic warping of high silica glass fiber mesh cloth.The present invention is simple in structure, controls conveniently, has solved high silica glass fiber mesh cloth and derived product is continuous, and is harmless, the difficult problem of efficient warping, whole latitude.

In order further to optimize technique scheme, the disclosed cement dipping machine of the embodiment of the invention can specifically comprise installation frame, glue groove 02, the first guide roller 01, the second guide roller 04, Extruded roller 05 and the first drive unit 06.Wherein, installation frame is provided with the installation portion for the former yardage roll of mounting glass fibrous mesh cloth, the former yardage roll of fiberglass gridding cloth is installed on this installation portion, and under the effect of external force traction, the former yardage roll of fiberglass gridding cloth can rotate, and can supply endlessly to guarantee the former cloth 03 of high silica glass fiber mesh cloth on the former yardage roll of this fiberglass gridding cloth.

Be arranged at installation frame for the glue groove 02 that holds glue, the first guide roller 01 is arranged in the glue groove 02, and be positioned at below the glue liquid level, the former cloth 03 of high silica glass fiber mesh cloth is after the former yardage roll of fiberglass gridding cloth is drawn, walk around the first guide roller 01, so that the former cloth 03 of high silica glass fiber mesh cloth is through the dipping of the glue in the glue groove 02.The second guide roller 04 is arranged on the installation frame, and Extruded roller 05 is two that arrange up and down, and all is arranged on the installation frame.The former cloth 03 of high silica glass fiber mesh cloth is then walked around the second guide roller 04 after through the first guide roller 01, is passed by two Extruded rollers 05 around rear.The first drive unit 06 is used for driving one of them Extruded roller 05 and rotates, to guarantee the continuous conveying of the former cloth 03 of high silica glass fiber mesh cloth.

The Extruded roller 05 that is positioned at upside can slide up and down and is arranged on the installation frame, and the clamping cylinder that is arranged on the installation frame links to each other with the roll shaft of the Extruded roller 05 that is positioned at upside, to adjust two distances between the Extruded roller 05.The first drive unit 06 can be motor, and links to each other with the Extruded roller 05 that is positioned at downside by driving-chain.

So, describedly by cement dipping machine the former cloth of high silica glass fiber mesh cloth is carried out dipping process, the formation high silica glass fiber mesh cloth is specially: the former cloth 03 of high silica glass fiber mesh cloth, by being immersed in the first guide roller 01 below the glue groove 02 glue liquid level, make the former cloth 03 of high silica glass fiber mesh cloth infiltrate glue, then through the second guide roller 05, enter Extruded roller 05, extrude unnecessary glue.By chain-driving, the former cloth of traction high silica glass fiber mesh cloth 03 moves along predetermined direction Extruded roller 05 continuously, finishes thus the immersing glue process of the former cloth 03 of high silica glass fiber mesh cloth by the first drive unit 06.The state of extruding the former cloth 03 of high silica glass fiber mesh cloth of unnecessary glue through Extruded roller 05 becomes the impregnation high silica glass fiber mesh cloth 07 through gluing.

Described baking box 12 rear ends arrange hauling machine 14, and hauling machine 14 can specifically comprise drive motors, and its output shaft rotates by the described conveying roller of chain-driving and described pinch roll.The both sides, front and back of baking box 12 are equipped with first row air port 16, are used for getting rid of the waste gas of baking box 12 imports and outlet; The top of baking box 12 is provided with two second row air ports 17, is used for getting rid of the waste gas in the baking box 12.

The adjustment of the travel line speed of Extruded roller 05 and the first ring-type guipure 08, the second endless belt 09 and the 3rd endless belt 10 with can realize by the Frequency Converter Control motor synchronously.Chain-driving is passed through by the drive motors of hauling machine 14 in the first ring-type guipure 08, the second endless belt 09 and the 3rd endless belt 10, moves continuously along the direction shown in the arrow among Fig. 1.When design, an end of the first ring-type guipure 08 is coaxial with an end of the second endless belt 09, and the motion of the second endless belt 09 has also just driven the operation of the first ring-type guipure 08.And the linear velocity of the first ring-type guipure 08, the second endless belt 09 and the 3rd endless belt 10 is configured to the synchronous operation condition.

The state that quilt has been corrected the impregnation high silica glass fiber mesh cloth 07 behind warp, the parallel becomes regular impregnation high silica glass fiber mesh cloth 11, and passes through baking box 12 with the second endless belt 09 and the 3rd endless belt 10.In baking box 12, finish the curing of institute's dip-coating glue, regular impregnation high silica glass fiber mesh cloth 11 is finalized the design.After having gone out baking box 12, the state of regular impregnation high silica glass fiber mesh cloth 11 becomes the high silica glass fiber mesh cloth 13 that is organized typing, continues to move to the clamping that breaks away from the second endless belt 09 and the 3rd endless belt 10.The impregnation high silica glass fiber mesh cloth 13 that winder 15 will be organized typing is wound into web-like, is beneficial to enter next process.So far also just finished the whole latitude typing of the automatic warping of fiberglass gridding cloth.

Between cement dipping machine and warp parallel collator, have a breeze way, make between the buffering area that provides certain when adjusting synchronous regime between the second endless belt 09 and the 3rd endless belt 10.

Between hauling machine 14 and winder 15, also have a breeze way, make between the buffering area that provides certain when adjusting synchronous regime between the second endless belt 09 and the 3rd endless belt 10 and the winder 15.

Each embodiment adopts the mode of going forward one by one to describe in this specification, and what each embodiment stressed is and the difference of other embodiment that identical similar part is mutually referring to getting final product between each embodiment.

To the above-mentioned explanation of the disclosed embodiments, make this area professional and technical personnel can realize or use the present invention.Multiple modification to these embodiment will be apparent concerning those skilled in the art, and General Principle as defined herein can in the situation that does not break away from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention will can not be restricted to these embodiment shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. the whole latitude method for shaping of the automatic warping of fiberglass gridding cloth is characterized in that,

Step 101: by cement dipping machine the former cloth of high silica glass fiber mesh cloth is carried out dipping process, form the impregnation high silica glass fiber mesh cloth;

Step 103: on the wherein one side that clamps impregnation high silica glass fiber mesh cloth warp direction through the utilization of warp parallel collator by two endless belts of set direction synchronous operation, utilize Action of Gravity Field, make its warp, parallel automatically be adjusted to parallel with horizontal plane or vertical with horizontal plane state;

Step 105: the impregnation high silica glass fiber mesh cloth is cured heat treatment by baking box;

Step 107: by winder will be cured the typing the impregnation high silica glass fiber mesh cloth be wound into web-like.

2. the whole latitude method for shaping of the automatic warping of fiberglass gridding cloth according to claim 1 is characterized in that described cement dipping machine specifically comprises:

Installation frame which is provided with the installation portion for the former yardage roll of mounting glass fibrous mesh cloth;

Be arranged on the described installation frame, be used for holding the glue groove (02) of glue;

Be arranged in the described glue groove (02), and be positioned at following the first guide roller (01) of glue liquid level;

Be arranged at the second guide roller (04) on the described installation frame;

Be arranged on the described installation frame, and two Extruded rollers (05) of positioned opposite up and down;

Drive the first drive unit (06) that one of them described Extruded roller (05) rotates.

3. the whole latitude method for shaping of the automatic warping of fiberglass gridding cloth according to claim 2 is characterized in that, describedly by cement dipping machine the former cloth of high silica glass fiber mesh cloth is carried out dipping process, forms the impregnation high silica glass fiber mesh cloth and is specially:

The former cloth of described high silica glass fiber mesh cloth (03), by being immersed in following the first guide roller (01) of glue groove (02) glue liquid level, make the former cloth of high silica glass fiber mesh cloth (03) infiltrate glue, then through the second guide roller (04), enter Extruded roller (05), extrude unnecessary glue.By chain-driving, the traction former cloth of high silica glass fiber mesh cloth (03) moves along predetermined direction Extruded roller (05) continuously by the first drive unit (06).

4. the whole latitude method for shaping of the automatic warping of fiberglass gridding cloth according to claim 1 is characterized in that:

Be arranged at the described warp parallel collator of described cement dipping machine rear end, it comprises two spaced apart conveying rollers, tensioning has the first endless belt (08) on the two described conveying rollers, and be arranged at the second endless belt (09) and the 3rd endless belt (10) by the pinch roll tensioning of described the first endless belt (08) one side, be separated with the distance that is not more than fiberglass gridding cloth thickness between described the second endless belt (09) and the 3rd endless belt (10), and the fed distance of described the first endless belt (08) is less than the fed distance of the second endless belt (09) and the 3rd endless belt (10).

5. the whole latitude method for shaping of the automatic warping of fiberglass gridding cloth according to claim 3 is characterized in that, the Extruded roller (05) that is positioned at upside can slide up and down and is arranged on the described installation frame;

The clamping cylinder that is arranged on the described installation frame links to each other with the roll shaft of the described Extruded roller (05) that is positioned at upside.

6. the whole latitude method for shaping of the automatic warping of fiberglass gridding cloth according to claim 5 is characterized in that, described the first drive unit (06) is motor, and links to each other with the Extruded roller that is positioned at downside (05) by driving-chain.

7. the whole latitude method for shaping of the automatic warping of each described fiberglass gridding cloth according to claim 1-6, it is characterized in that, described baking box (12) rear end arranges hauling machine (14), described hauling machine (14) specifically comprises drive motors, and its output shaft rotates by the described conveying roller of chain-driving and described pinch roll.

8. the whole latitude method for shaping of the automatic warping of fiberglass gridding cloth according to claim 7 is characterized in that, the both sides, front and back of described baking box (12) are equipped with first row air port (16).

9. the whole latitude method for shaping of the automatic warping of fiberglass gridding cloth according to claim 8 is characterized in that, the top of described baking box (12) is provided with two second row air ports (17).

10. the whole latitude method for shaping of the automatic warping of fiberglass gridding cloth according to claim 7 is characterized in that, described winder (15) specifically comprises wind-up roll and drives the winding motor that described wind-up roll rotates.

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