CN216711049U - Take-up device for desized glass fiber cloth - Google Patents

Abstract

The utility model provides a desized glass fiber cloth winding device, which relates to the field of glass fiber cloth production and comprises a workbench, a drying box, a control panel, a support plate and an extrusion assembly, wherein the extrusion assembly is arranged on one side of the top of the workbench and used for dewatering the glass fiber cloth, the drying box is fixedly connected to one side of the top of the workbench, two sides of the outer end of the drying box are respectively provided with a through groove, the control panel is fixedly connected to one side of the front surface of the drying box, and the support plate is fixedly connected to two sides of the top of the workbench, which are close to the drying box. This kind of device uses through first squeeze roll, second squeeze roll, receipts basin and receipts water tank cooperation, has solved and has caused the workstation to get wet when the transmission rolling on, can influence some problems that lead to the use of electric machine, simultaneously, through the setting of hot plate, heating rod and separation stratum reticulare, when avoiding the rolling of glass fiber cloth, contains water and can make the suction of production between the cloth layer of rolling, causes the rolling condition of fold to appear.

Description

Take-up device for desized glass fiber cloth

Technical Field

The utility model relates to the technical field of glass fiber cloth production, in particular to a take-up device for desized glass fiber cloth.

Background

The glass fiber cloth is a plain woven fabric of untwisted roving and is an important base material for manually pasting the glass fiber reinforced plastic, the strength of the glass fiber cloth is mainly in the warp and weft directions of the fabric, and the glass fiber cloth can be woven into unidirectional cloth for occasions requiring high strength in the warp direction or the weft direction, and the glass fiber cloth can be mainly used as structural materials on ships, storage tanks, cooling towers, ships, vehicles, tanks and buildings and can be arranged in the warp direction or the weft direction.

The glass fiber cloth is manufactured by processes of high-temperature melting, wire drawing, winding, weaving, slurry soaking, desizing and the like in the production of the glass fiber cloth, and after desizing is finished, the existing glass fiber cloth needs to be wound, rolled and placed through a winding device so as to be convenient for subsequent processing and use.

And current coiling mechanism twines the rolling in-process, because glass fiber cloth desizing after, its inside contains a large amount of moisture, does not handle moisture totally, causes getting wet on the workstation when the transmission rolling, can influence some circular telegram machines and use, simultaneously, during the glass fiber cloth rolling, contains water and can make and produce suction between the cloth layer of rolling, causes the rolling condition of fold to appear, consequently solves above problem and provides the coiling mechanism of a desizing back glass fiber cloth.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the background art and provides a desized glass fiber cloth winding device, which solves the problem that a workbench is wetted during transmission and winding to influence the use of a plurality of electric machines by using a first extrusion roller, a second extrusion roller, a water receiving tank and a water receiving tank in a matching way, and simultaneously avoids the situation that when the glass fiber cloth is wound, water contained in the glass fiber cloth can generate suction force between wound cloth layers to cause winding wrinkles due to the arrangement of a heating plate, a heating rod and a mesh separation layer.

In order to achieve the purpose, the utility model provides the following technical scheme that the desized glass fiber cloth winding device comprises a workbench, a drying box, a control panel, a supporting plate and an extrusion assembly, wherein the extrusion assembly is arranged on one side of the top of the workbench and used for dewatering the glass fiber cloth;

one side of the top of the workbench is fixedly connected with a drying box, two sides of the outer end of the drying box are respectively provided with a through groove, one side of the front surface of the drying box is fixedly connected with a control panel, and two supporting plates are fixedly connected to two sides of the top of the workbench, which are close to the drying box;

the extrusion assembly comprises a fixing frame, first extrusion rollers and second extrusion rollers, wherein the fixing frame is fixedly connected to one side, close to the drying box, of the top of the workbench, three first extrusion rollers are rotationally connected between the inner sides of the fixing frame through rotating rods, and three second extrusion rollers are rotationally connected to the lower sides of the first extrusion rollers through rotating rods.

Furthermore, a water receiving groove is formed in one side of the top of the workbench and is located below the first squeezing roller and the second squeezing roller, a water receiving tank is fixedly connected to one side of the bottom of the workbench, the top of the water receiving tank and the bottom of the water receiving tank are arranged in a penetrating mode, a filter screen plate is arranged inside the water receiving tank, and a drain pipe is arranged in a penetrating mode on one side of the outer end of the water receiving tank.

Furthermore, a water wiping groove is fixedly connected to one side of the outer end of the drying box, the interior of the water wiping groove is connected with a through groove at one end of the drying box, a first roller is rotatably connected to the interior of the water wiping groove through a rotating rod, and a second roller is rotatably connected to the lower portion of the first roller through a rotating rod.

Further, stoving incasement portion is provided with two hot plates, two the inside many heating rods of equal fixedly connected with of hot plate, many the heating rod outside all is provided with and separates the stratum reticulare.

Further, the top end of the drying box is provided with an air box in a penetrating mode, the fan is fixedly connected inside the air box, the bottom end of the air box is provided with a plurality of air outlet pipes in a penetrating mode, the air outlet pipes are located above the two heating plates, and the top end of the air box is provided with a plurality of heat dissipation ports.

Furthermore, the inside curved baffle that is provided with of stoving case, just the baffle is located the below of two hot plates.

Further, two rotate through the pivot between the backup pad and be connected with the winding roller, winding roller surface is connected with glass fiber cloth, and glass fiber cloth all runs through in stoving incasement portion through wearing a mouthful groove, one of them backup pad one side is provided with the rotating electrical machines, rotating electrical machines rotates through rotary rod and winding roller on one side and is connected, control panel equallys divide do not with rotating electrical machines, hot plate and fan electric connection.

The utility model provides a desized glass fiber cloth winding device, which has the following beneficial effects:

1. the utility model has the advantages of, through first squeeze roll, the second squeeze roll, receive the basin and receive the water tank cooperation and use, make its glass fiber cloth that will desize accomplish pass between first squeeze roll and the second squeeze roll, make in the data send process, first squeeze roll and second squeeze roll can be clean with the inside moisture extrusion that contains of glass fiber cloth, the water of extruding can drop and flow into in receiving the basin and receive the water tank and collect, avoid causing the workstation to be wet, it is wet to have solved when the transmission rolling to cause the workstation, can influence some problems that circular telegram machine used.

2. Secondly, through the setting of hot plate, heating rod and separation stratum reticulare, make its glass fiber cloth conveying get into stoving incasement portion back, open the circular telegram through control panel control heating board, heating rod work back production of heat is to its glass fiber cloth fast drying, keeps dry when reaching the glass fiber cloth rolling, dries moisture, when avoiding the glass fiber cloth rolling, contains the suction that produces between the cloth layer that water can make the rolling, causes the rolling condition of fold to appear.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic cross-sectional view of a drying box according to the present invention.

Fig. 3 is an enlarged schematic view of a portion a in fig. 1 according to the present invention.

Fig. 4 is a schematic view of the internal structure of the water wiping tank of the present invention.

Fig. 5 is a schematic top view of the heating plate of the present invention.

In FIGS. 1-5: 1. a work table; 101. a fixed mount; 102. a first squeeze roll; 103. a second squeeze roll; 104. a water collecting tank; 105. a water collecting tank; 106. a filter screen plate; 107. a drain pipe; 2. a drying box; 201. a water wiping tank; 202. a first drum; 203. a second drum; 204. heating plates; 205. a heating rod; 206. a mesh separating layer; 207. an air box; 208. a fan; 209. an air outlet pipe; 210. a heat dissipation port; 211. a baffle plate; 212; a control panel; 3. a support plate; 301. a winding roller; 302. a rotating electric machine.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b):

referring to figures 1-5 of the drawings,

the rolling device for the desized glass fiber cloth comprises a workbench 1, a drying box 2, a control panel 212, a support plate 3 and an extrusion assembly, wherein the extrusion assembly is arranged on one side of the top of the workbench 1 and used for dewatering the glass fiber cloth;

one side of the top of the workbench 1 is fixedly connected with a drying box 2, two sides of the outer end of the drying box 2 are respectively provided with a through groove, one side of the front surface of the drying box 2 is fixedly connected with a control panel 212, and two sides of the top of the workbench 1 close to the drying box 2 are fixedly connected with two support plates 3;

the extrusion assembly comprises a fixed frame 101, a first extrusion roller 102 and a second extrusion roller 103, the top of the workbench 1 is close to the fixed frame 101 fixedly connected to one side of the drying box 2, three first extrusion rollers 102 are rotatably connected between the inner sides of the fixed frame 101 through rotating rods, and three second extrusion rollers 103 are rotatably connected below the three first extrusion rollers 102 through rotating rods.

The inner walls of the water receiving tank 104 and the water receiving tank 105 are both provided with anticorrosive layers, the anticorrosive layers are formed by spraying pure acrylic acid polymer emulsion serving as a base material, and the anticorrosive layers made of the pure acrylic acid polymer emulsion have certain impermeability and corrosion resistance, so that the water receiving tank 104 and the water receiving tank 105 are prevented from being corroded by desized water, and the water receiving tank 104 and the water receiving tank 105 are prevented from being easily rusted;

the anti-corrosion layer should be a polyurethane coating with better anti-corrosion property, and then an acrylic coating with poorer anti-corrosion property, but the polyurethane coating contains a small amount of toxic substances, so that the water receiving tank 104 and the water receiving tank 105 can disperse some toxic odor when in use, so that the spraying is unsafe to use in the water receiving tank 104 and the water receiving tank 105, while the pure acrylic coating is not only nontoxic and odorless, and the anti-corrosion property of the pure acrylic coating is enough for application and use of the anti-corrosion layer.

Furthermore, a water receiving tank 104 is arranged on one side of the top of the workbench 1, the water receiving tank 104 is positioned below the first extrusion roller 102 and the second extrusion roller 103, a water receiving tank 105 is fixedly connected to one side of the bottom of the workbench 1, the top of the water receiving tank 105 is arranged to penetrate through the bottom of the water receiving tank 104, a filter screen plate 106 is arranged inside the water receiving tank 105, a drain pipe 107 is arranged on one side of the outer end of the water receiving tank 105, and the first extrusion roller 102, the second extrusion roller 103, the water receiving tank 104 and the water receiving tank 105 are matched for use, so that desized glass fiber cloth passes through the space between the first extrusion roller 102 and the second extrusion roller 103, during the transmission process, the first extrusion roller 102 and the second extrusion roller 103 can extrude water contained in the glass fiber cloth completely, the extruded water can fall into the water receiving tank 105 in the water receiving tank 104 to be collected, the workbench 1 is prevented from being wetted, and the filter screen plate 106 can prevent impurities from being mixed with the collected water, the problem of cause during transmission rolling on the workstation 1 get wet, can influence some electrified machines and use is solved.

Further, 2 outer end one sides fixedly connected with of stoving case wipes basin 201, and wipe inside and the wearing groove of 2 one ends of stoving case of basin 201 and be connected with first cylinder 202 through the bull stick rotation, first cylinder 202 below is connected with second cylinder 203 through the bull stick rotation, through wiping basin 201, the setting of first cylinder 202 and second cylinder 203, make it after glass fiber cloth is extrudeed moisture, can wipe dry moisture to the surface and the bottom of glass fiber cloth for the second time through first cylinder 202 and second cylinder 203, still there is moisture on the glass fiber cloth after avoiding the extrusion, can accelerate its stoving speed when reaching into stoving case 2 insidely.

Further, stoving case 2 is inside to be provided with two hot plates 204, many heating rods 205 of two inside equal fixedly connected with of hot plate 204, many heating rod 205 outsides all are provided with at a distance from the stratum reticulare 206, through hot plate 204, heating rod 205 and the setting that separates stratum reticulare 206, make its glass fiber cloth conveying get into stoving case 2 inside back, open the circular telegram through control panel 212 control heating plate 204, generate heat to its glass fiber cloth fast drying after heating rod 205 works, it is dry to reach when the glass fiber cloth rolling, dry moisture, when avoiding the glass fiber cloth rolling, it can make the suction that produces between the cloth layer of rolling to contain water, cause the rolling condition of fold to appear.

Further, 2 tops of stoving case run through and are provided with bellows 207, the inside fixedly connected with fan 208 of bellows 207, bellows 207 bottom all runs through and is provided with many play tuber pipes 209, and many play tuber pipes 209 all are located the top of two hot plates 204, a plurality of thermovents 210 have all been seted up on bellows 207 top, through bellows 207, fan 208 uses with the cooperation of play tuber pipe 209, in the heating, open through control panel 212 control fan 208, make 2 inside hot-blasts of stoving case blow glass fiber cloth, reach increase heat stoving area, make glass fiber cloth rapid draing.

Further, stoving case 2 is inside to be provided with curved baffle 211, and baffle 211 is located the below of two hot plates 204, is the arc form setting through baffle 211 for form a reflective effect, with the inside hot-blast circulation that produces of stoving case 2 blow, promote to glass fiber cloth fast drying handle.

Further, it is connected with winding roller 301 to rotate through the pivot between two backup pads 3, winding roller 301 surface connection has glass fiber cloth, and glass fiber cloth all runs through inside stoving case 2 through wearing a mouthful groove, wherein 3 one side of a backup pad is provided with rotating electrical machines 302, rotating electrical machines 302 one side is passed through the rotary rod and is connected with winding roller 301 rotation, control panel 212 equally divide do not with rotating electrical machines 302, hot plate 204 and fan 208 electric connection, it drives winding roller 301 and rotates to start rotating electrical machines 302 drive rotary rod through control panel 212, make winding roller 301 carry out the rolling to glass fiber cloth, and control panel 212 can control opening and closing use of hot plate 204 and fan 208 respectively.

When the utility model is used, firstly, the desized glass fiber cloth sequentially passes through the first squeezing roller 102, the second squeezing roller 103, the water wiping tank 201, the first roller 202, the second roller 203, the through slot and the heating plate 204, the glass fiber cloth is placed on the winding roller 301, the control panel 212 starts the rotating motor 302 to drive the rotating rod to drive the winding roller 301 to rotate, so that the winding roller 301 winds the glass fiber cloth, in the transmission process, the first squeezing roller 102 and the second squeezing roller 103 can squeeze the water contained in the glass fiber cloth completely, the squeezed water can fall into the water collecting tank 104 to be collected, the workbench 1 is prevented from being wetted, meanwhile, after the glass fiber cloth is squeezed, the surface and the bottom of the glass fiber cloth can be wiped for the second time through the first roller 202 and the second roller 203, the water is prevented from being still existing on the squeezed glass fiber cloth, finally, the conveying of glass fiber cloth gets into stoving case 2 inside back, open through control panel 212 control heating board 204 and fan 208, heating rod 205 produces the heat after the work and dries its glass fiber cloth fast, it is dry to keep when reaching the glass fiber cloth rolling, dry moisture, and in the time of heating, fan 208 makes inside the production of stoving case 2 hot-blast to blow to glass fiber cloth, reach increase heat stoving area, make glass fiber cloth fast drying, when avoiding the glass fiber cloth rolling, it can make to produce suction between the cloth layer of rolling to contain water, cause the rolling condition that the fold appears.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make several variations and modifications without departing from the concept of the present invention, and these should be considered as the protection scope of the present invention, which will not affect the effect of the implementation of the present invention and the utility of the patent.

Claims (7)

1. A desized glass fiber cloth winding device is characterized by comprising a workbench, a drying box, a control panel, a supporting plate and an extrusion assembly, wherein the extrusion assembly is arranged on one side of the top of the workbench and used for dewatering glass fiber cloth;

one side of the top of the workbench is fixedly connected with a drying box, two sides of the outer end of the drying box are respectively provided with a through groove, one side of the front surface of the drying box is fixedly connected with a control panel, and two supporting plates are fixedly connected to two sides of the top of the workbench, which are close to the drying box;

the extrusion assembly comprises a fixing frame, first extrusion rollers and second extrusion rollers, wherein the fixing frame is fixedly connected to one side, close to the drying box, of the top of the workbench, three first extrusion rollers are rotationally connected between the inner sides of the fixing frame through rotating rods, and three second extrusion rollers are rotationally connected to the lower sides of the first extrusion rollers through rotating rods.

2. The desized glass fiber cloth winding device according to claim 1, wherein a water collecting tank is arranged on one side of the top of the workbench and is located below the first extrusion roller and the second extrusion roller, a water collecting tank is fixedly connected to one side of the bottom of the workbench, the top of the water collecting tank and the bottom of the water collecting tank are arranged in a penetrating manner, a filter screen plate is arranged in the water collecting tank, and a drain pipe is arranged on one side of the outer end of the water collecting tank in a penetrating manner.

3. The desized glass fiber cloth winding device as claimed in claim 1, wherein a water wiping tank is fixedly connected to one side of the outer end of the drying box, the interior of the water wiping tank is connected with a through groove at one end of the drying box, a first roller is rotatably connected to the interior of the water wiping tank through a rotating rod, and a second roller is rotatably connected to the lower side of the first roller through a rotating rod.

4. The desized glass fiber cloth winding device as claimed in claim 1, wherein two heating plates are arranged inside the drying box, a plurality of heating rods are fixedly connected inside the two heating plates, and a mesh separation layer is arranged outside the heating rods.

5. The take-up device for desized glass fiber cloth according to claim 1, wherein a wind box is arranged at the top end of the drying box in a penetrating manner, a fan is fixedly connected inside the wind box, a plurality of wind outlet pipes are arranged at the bottom end of the wind box in a penetrating manner, the wind outlet pipes are arranged above the two heating plates, and a plurality of heat dissipation ports are formed at the top end of the wind box.

6. The desized glass fiber cloth winding device according to claim 5, wherein an arc-shaped baffle is arranged inside the drying box, and the baffle is positioned below the two heating plates.

7. The take-up device for desized glass fiber cloth according to claim 1, wherein a winding roller is rotatably connected between the two support plates through a rotating shaft, the outer surface of the winding roller is connected with the glass fiber cloth, and the glass fiber cloth penetrates through the drying box through a through slot, one of the support plates is provided with a rotating motor on one side, one side of the rotating motor is rotatably connected with the winding roller through a rotating rod, and the control panel is electrically connected with the rotating motor, the heating plate and the fan respectively.

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