CN219362663U - Glass fiber composite fabric stentering device - Google Patents

Abstract

The utility model discloses a glass fiber composite fabric expanding device, which relates to the technical field of glass fiber composite fabric manufacturing, and comprises an unreeling mechanism, wherein the unreeling mechanism is positioned at one side of a feeding end of a fabric processing equipment platform, the unreeling mechanism comprises a winding drum and a winding drum bracket, the winding drum is horizontally arranged on the winding drum bracket and used for loading a wound fabric to be processed, and the fabric to be processed on the winding drum is pulled to unreel the fabric to be processed; still include unwinding mechanism, unwinding mechanism is located between unwinding mechanism and the fabric processing equipment platform, and unwinding mechanism includes stenter roller and stenter roller support, and stenter roller horizontal installation is on the stenter roller support, and the fabric of waiting to process on the reel can be laid to the fabric processing equipment platform through the stenter roller, and the stenter roller can be used for waiting to process the fabric and expand along the breadth direction, has reduced the fabric and has appeared fold or overlap the condition, has improved fabric processingquality.

Description

Glass fiber composite fabric stentering device

Technical Field

The utility model relates to the technical field of glass fiber composite fabric manufacturing, in particular to a glass fiber composite fabric expanding device.

Background

In the production or rewinding of glass fiber composite fabrics, it is necessary to unreel and lay composite nonwoven fabrics or other wound materials on a platform of a fabric processing apparatus for subsequent processing, such as compositing different raw materials.

The existing method is that a worker manually unreels and lays the fabric on a platform of processing equipment, pulls the fabric to a traction area on the platform of the processing equipment, and pulls the fabric to the equipment for processing; however, during manual placement, the fabric may wrinkle or overlap, resulting in quality problems during subsequent processing.

Therefore, how to spread the fabric during the unreeling and laying process to reduce the occurrence of wrinkles or overlapping of the fabric is a current urgent problem to be solved.

Disclosure of Invention

The utility model aims to provide a glass fiber composite fabric stentering device, which solves the problems in the prior art, can unwind a fabric along the width direction in the process of unreeling and laying a package fabric, reduces the condition that the fabric is wrinkled or overlapped, and improves the processing quality of the fabric.

In order to achieve the above object, the present utility model provides the following solutions:

the utility model provides a glass fiber composite fabric expanding device, which comprises an unreeling mechanism, wherein the unreeling mechanism is positioned at one side of a feeding end of a fabric processing equipment platform, the unreeling mechanism comprises a reel and a reel bracket, the reel is horizontally arranged on the reel bracket and is used for loading a packaged fabric to be processed, and the fabric to be processed on the reel is pulled to unreel the fabric to be processed; the novel fabric processing device comprises a winding drum, and is characterized by further comprising an unwinding mechanism, wherein the unwinding mechanism is located between the unwinding mechanism and the fabric processing equipment platform, the unwinding mechanism comprises a stenter roller and a stenter roller support, the stenter roller is horizontally arranged on the stenter roller support, a fabric to be processed on the winding drum can be laid on the fabric processing equipment platform through the stenter roller, and the stenter roller can be used for unwinding the fabric to be processed along the width direction.

Preferably, the expanding roller comprises a mandrel and roller bodies, wherein the mandrel is fixedly arranged on the expanding roller support, the mandrel is parallel to the side edge of the feeding end of the fabric processing equipment platform, the roller bodies are rotatably sleeved on the mandrel, two roller bodies are arranged, and the two roller bodies are arranged on the mandrel in a mirror image manner by taking the plane of the perpendicular bisector of the mandrel as a mirror surface;

the roller body comprises a rolling assembly and a roller strip; the rolling assembly comprises a slideway, rollers and a fixed chain, wherein the slideway is circumferentially arranged on the mandrel in a surrounding manner, the top of the slideway is inclined towards the outer side of the mandrel, a plurality of the rollers are uniformly embedded in the slideway in the circumferential direction, all the rollers are connected through the fixed chain, and the rollers can move along the slideway; the outside of roller strip is the arc roll surface, the inboard fixed connection of roller strip is in on the fixed chain, the roller strip is provided with a plurality of, all the roller strip is followed the circumference of fixed chain evenly lays, so that the outside of roller body forms the cylinder roll surface, the roller strip with the gyro wheel one-to-one sets up, the inboard of roller strip is formed with the space that holds corresponding the gyro wheel, works as wait to process the fabric when the roller strip, can drive the roller strip is followed the slide removes, and works as when the roller strip rotates from bottom to top, the roller strip can to the outside of dabber removes, thereby drives wait to process the fabric and expand along the width direction.

Preferably, the stent roller support comprises two first vertical supports, and the mandrel is fixedly connected between the two first vertical supports.

Preferably, the height of the top of the roller body is matched with the height of the fabric processing equipment platform.

Preferably, two sets of rolling assemblies are arranged on each roller body, and the two sets of rolling assemblies are respectively positioned at positions close to two ends of the corresponding roller strip.

Preferably, the winding drum comprises a rotating shaft and a winding drum body, the rotating shaft is rotatably installed on the winding drum support, the rotating shaft is parallel to the mandrel, and the winding drum body is fixedly sleeved on the rotating shaft.

Preferably, the spool support comprises two second vertical supports, and the rotating shaft is rotatably connected between the two second vertical supports.

Preferably, when the roll body is sleeved with the wound fabric to be processed, the top height of the fabric to be processed is lower than the top height of the roll body.

Compared with the prior art, the utility model has the following technical effects:

the utility model provides a glass fiber composite fabric stentering device, which comprises an unwinding mechanism and an unwinding mechanism, wherein the unwinding mechanism is positioned at one side of a feeding end of a fabric processing equipment platform, and the unwinding mechanism is positioned between the unwinding mechanism and the fabric processing equipment platform, wherein the unwinding mechanism comprises a stentering roller and a stentering roller bracket, and a fabric to be processed loaded on a winding drum of the unwinding mechanism is pulled to be paved on the fabric processing equipment platform through the stentering roller, so that the fabric to be processed can be unwound along the width direction through the stentering roller, the phenomenon that the fabric is wrinkled or overlapped is reduced, and the fabric processing quality is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a front view of a glass fiber composite fabric stenter device according to an embodiment of the present utility model;

FIG. 2 is a left side view of a glass fiber composite fabric stenter device according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a stent roll according to an embodiment of the present utility model;

FIG. 4 is a schematic view in the direction A in FIG. 3;

fig. 5 is a schematic diagram of direction B in fig. 3.

In the figure: 100-fabrics to be processed, 101-fabric processing equipment platforms, 11-reels, 12-reel supports, 21-stenter rolls, 22-stenter roll supports, 31-mandrels, 32-roll bodies, 321-roll bars, 33-rolling assemblies, 331-slideways, 332-rollers and 333-fixed chains.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model aims to provide a glass fiber composite fabric stentering device, which solves the problems in the prior art, can unwind a fabric in the width direction in the process of unreeling and laying a package fabric, reduces the condition that the fabric is wrinkled or overlapped, and improves the processing quality of the fabric.

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description.

As shown in fig. 1-2, the present embodiment provides a glass fiber composite fabric expanding device, which includes an unreeling mechanism, the unreeling mechanism is located at one side of a feeding end of a fabric processing device platform 101, the unreeling mechanism includes a reel 11 and a reel bracket 12, the reel 11 is horizontally installed on the reel bracket 12 and is used for loading a packaged fabric to be processed 100, and the fabric to be processed 100 on the reel 11 is pulled to be able to unreel the fabric to be processed 100; still include unwinding mechanism, unwinding mechanism is located between unwinding mechanism and the fabric processing equipment platform 101, and unwinding mechanism includes stenter roller 21 and stenter roller support 22, and stenter roller 21 horizontal installation is on stenter roller support 22, and the fabric 100 that waits to process on the reel 11 can be laid to fabric processing equipment platform 101 through stenter roller 21 on, and stenter roller 21 can be followed the width direction and spread to the fabric 100 that waits to process, has reduced the fabric and has appeared fold or overlap the condition, has improved fabric processingquality.

In this embodiment, the stenter roller 21 includes a mandrel 31 and roller bodies 32, the mandrel 31 is fixedly installed on the stenter roller support 22, the mandrel 31 is parallel to the side edge of the feeding end of the fabric processing equipment platform 101, the roller bodies 32 are rotatably sleeved on the mandrel 31, the two roller bodies 32 are arranged, and the two roller bodies 32 are mirror images and are arranged on the mandrel 31 by taking the plane of the perpendicular bisector of the mandrel 31 as a mirror surface; the roller body 32 includes a rolling assembly 33 and a roller bar 321; as shown in fig. 4-5, the rolling assembly 33 includes a slide 331, rollers 332 and a fixed chain 333, the slide 331 is circumferentially and circumferentially arranged on the mandrel 31, the top of the slide 331 is inclined towards the outer side of the mandrel 31, i.e. the highest point of the slide 331 is far away from the perpendicular bisector of the mandrel 31, the lowest point of the slide 331 is close to the perpendicular bisector of the mandrel 31, a plurality of rollers 332 are uniformly embedded in the slide 331 along the circumferential direction, all the rollers 332 are connected through the fixed chain 333, and the rollers 332 can move along the slide 331; the outside of roller 321 is the arc roll surface, the inboard fixed connection of roller 321 is on fixed chain 333, roller 321 is provided with a plurality of, all roller 321 evenly lays along the circumference of fixed chain 333, so that the outside of roller body 32 forms the cylinder roll surface, roller 321 and gyro wheel 332 one-to-one set up, the inboard of roller 321 is formed with the space that holds corresponding gyro wheel 332, when waiting to process fabric 100 through roller 321, can drive roller 321 and follow slide 331 and remove, and when roller 321 from bottom to top rotates, roller 321 can be moved to the outside of dabber 31, thereby drive waiting to process fabric 100 and expand along the width direction.

When the fabric to be processed 100 is pulled by a worker to pass through the roller body 32, so that the fabric to be processed 100 is contacted with the roller surface of the roller body 32, the mandrel 31 is fixed, the surface of the fabric to be processed 100 is rough, friction force between the fabric to be processed 100 and the roller surface of the roller body 32 can drive the roller body 32 to rotate relative to the mandrel 31, namely, a plurality of roller strips 321 distributed on a fixed chain 333 in a spoke shape roll along a slideway 331 on the mandrel 31 through a roller 332, the rotation of the roller body 32 on the mandrel 31 is realized, as shown in fig. 3, along with the rotation, the two roller bodies 32 slide leftwards and rightwards respectively, namely, the roller strips 321 rotate from bottom to top, and simultaneously, the top of the slideway 331 is inclined towards the outer side of the mandrel 31, the slideway 331 is gradually outwards offset, the roller strips 321 can move outwards towards the outer side of the mandrel 31, the plurality of roller strips 321 are continuously moved outwards so as to drive the fabric to be processed 100 to outwards spread in the width direction, the effect of spreading width is realized, the fabric to be processed 100 is reduced, and the situation that the fabric to be processed 100 is flatly placed on a fabric processing platform 101 is realized; when the fabric 100 to be processed is pulled to a traction area on the platform manually and enters the equipment for subsequent processing through traction, for example, when raw materials for producing the glass fiber composite fabric are compounded, the flatly unfolded raw materials facilitate the compounding process, and the processing quality of the fabric is improved.

In this embodiment, the stent roller support 22 includes two first vertical supports, and a mandrel 31 is fixedly connected between the two first vertical supports.

In this embodiment, the height of the top of the roller body 32 matches the height of the fabric processing apparatus platform 101, facilitating the placement of the fabric 100 to be processed on the fabric processing apparatus platform 101 by a worker via a stenter roller.

In this embodiment, two sets of rolling assemblies 33 are disposed on each roller body 32, and the two sets of rolling assemblies 33 are respectively located at positions near two ends of the corresponding roller strips 321, and each roller strip 321 is rotationally connected with the mandrel 31 through the two sets of rolling assemblies 33, so that the stability of rotation is enhanced.

It should be noted that in the present embodiment, four sets of rolling assemblies 33 are provided, that is, four sets of slides 331 are provided, two sets of slides 331 are provided on the left and right sides of the mandrel 31 based on the perpendicular bisectors, and the two sets of slides 331 on the left side and the two sets of slides 331 on the right side are mirror images based on the plane of the perpendicular bisectors of the mandrel 31, wherein the two sets of slides 331 on the left side of the perpendicular bisectors are all inclined to the left, and the two sets of slides 331 on the right side of the perpendicular bisectors are all inclined to the right.

In this embodiment, the spool 11 includes a rotating shaft and a spool body, the rotating shaft is rotatably mounted on the spool support 12, the rotating shaft is parallel to the mandrel 31, and the spool body is fixedly sleeved on the rotating shaft.

Further, the spool support 12 includes two second vertical supports, and a rotating shaft is rotatably connected between the two second vertical supports.

In this embodiment, when the rolled fabric to be processed 100 is fixedly sleeved on the drum body, the top of the fabric to be processed 100 is lower than the top of the drum body 32, so that the operator can conveniently pull the fabric to be processed 100 from the drum body to the drum body 32.

The principles and embodiments of the present utility model have been described in detail with reference to specific examples, which are provided to facilitate understanding of the method and core ideas of the present utility model; also, it is within the scope of the present utility model to be modified by those of ordinary skill in the art in light of the present teachings. In view of the foregoing, this description should not be construed as limiting the utility model.

Claims (8)

1. The device comprises an unreeling mechanism, wherein the unreeling mechanism is positioned at one side of a feeding end of a fabric processing equipment platform, the unreeling mechanism comprises a reel and a reel bracket, the reel is horizontally arranged on the reel bracket and used for loading a packaged fabric to be processed, and the fabric to be processed on the reel is pulled to unreel the fabric to be processed; the method is characterized in that: the novel fabric processing device comprises a winding drum, and is characterized by further comprising an unwinding mechanism, wherein the unwinding mechanism is located between the unwinding mechanism and the fabric processing equipment platform, the unwinding mechanism comprises a stenter roller and a stenter roller support, the stenter roller is horizontally arranged on the stenter roller support, a fabric to be processed on the winding drum can be laid on the fabric processing equipment platform through the stenter roller, and the stenter roller can be used for unwinding the fabric to be processed along the width direction.

2. The glass fiber composite web stent of claim 1, wherein: the expanding roller comprises a mandrel and roller bodies, wherein the mandrel is fixedly arranged on a expanding roller support, the mandrel is parallel to the side edge of the feeding end of the fabric processing equipment platform, the roller bodies are rotatably sleeved on the mandrel, two roller bodies are arranged, and the two roller bodies are arranged on the mandrel in a mirror image manner by taking the plane of the perpendicular bisector of the mandrel as a mirror surface;

the roller body comprises a rolling assembly and a roller strip; the rolling assembly comprises a slideway, rollers and a fixed chain, wherein the slideway is circumferentially arranged on the mandrel in a surrounding manner, the top of the slideway is inclined towards the outer side of the mandrel, a plurality of the rollers are uniformly embedded in the slideway in the circumferential direction, all the rollers are connected through the fixed chain, and the rollers can move along the slideway; the outside of roller strip is the arc roll surface, the inboard fixed connection of roller strip is in on the fixed chain, the roller strip is provided with a plurality of, all the roller strip is followed the circumference of fixed chain evenly lays, so that the outside of roller body forms the cylinder roll surface, the roller strip with the gyro wheel one-to-one sets up, the inboard of roller strip is formed with the space that holds corresponding the gyro wheel, works as wait to process the fabric when the roller strip, can drive the roller strip is followed the slide removes, and works as when the roller strip rotates from bottom to top, the roller strip can to the outside of dabber removes, thereby drives wait to process the fabric and expand along the width direction.

3. The glass fiber composite web stent of claim 2, wherein: the stenter roller support comprises two first vertical supports, and the mandrel is fixedly connected between the two first vertical supports.

4. The glass fiber composite web stent of claim 2, wherein: the top height of the roller body is matched with the height of the fabric processing equipment platform.

5. The glass fiber composite web stent of claim 2, wherein: the rolling assemblies of each roller body are provided with two groups, and the two groups of rolling assemblies are respectively positioned at positions close to two ends of the corresponding roller strip.

6. The glass fiber composite web stent of any one of claims 2-5, wherein: the winding drum comprises a rotating shaft and a winding drum body, the rotating shaft is rotatably installed on the winding drum support, the rotating shaft is parallel to the mandrel, and the winding drum body is fixedly sleeved on the rotating shaft.

7. The glass fiber composite web stent of claim 6, wherein: the reel bracket comprises two second vertical supports, and the rotating shafts are connected between the two second vertical supports in a rotating mode.

8. The glass fiber composite web stent of claim 6, wherein: when the winding drum body is sleeved with the wound fabric to be processed, the top height of the fabric to be processed is lower than that of the roller body.