CN213767604U - Ultra-thin glass fiber and aluminum foil compound machine - Google Patents

Abstract

The utility model discloses an ultrathin glass fiber and aluminum foil compound machine, which comprises a frame, wherein the frame is provided with a power unit, a winding unit and a plurality of unwinding units; the power unit comprises a driving wheel and a plurality of driven wheels, and the driven wheels are connected with the driving wheel through a transmission belt; the transmission belt is connected with a pinch roller which adjusts the tension of the transmission belt; the unreeling unit comprises a composite wheel, an aluminum foil air-expanding shaft and a glass fiber air-expanding shaft; the plurality of discharging units are sequentially arranged along the periphery of the transmission belt; the winding unit comprises a winding air-expanding shaft, the winding air-expanding shaft is arranged on a winding arm, and the winding arm is movably connected to the rack through a winding arm shaft. The utility model discloses avoid every group complex to interfere with each other, it is more reasonable to have a system architecture, and compound rolling efficiency is higher, a great deal of aspect's such as convenient operation technical advantage.

Description

Ultra-thin glass fiber and aluminum foil compound machine

Technical Field

The utility model relates to an ultra-thin glass fiber and aluminium foil compounding machine for compound aluminium foil and ultra-thin glass fiber.

Background

The cryogenic heat insulation material is generally formed by compounding a heat insulation glass fiber material and an aluminum foil; in order to increase the heat insulation efficiency and reduce the working strength of coating, the coating is generally compounded by multiple layers, namely 3 to 5 groups of glass fiber and aluminum foil composite materials are compounded again.

However, due to the characteristics of the material of the aluminum foil, the aluminum foil is easy to deform in the compounding process, which is not favorable for compounding multiple layers of aluminum foils. At present, due to the fact that the technology of a multi-layer compound machine in the market is immature, the compound effect is not ideal, aluminum foil wrinkles are prone to being caused, particularly, multiple groups of glass fibers and aluminum foils are compounded, each group of compounding is prone to mutual interference, and the multi-layer compound effect is affected.

For example, CN 207105820U discloses an ultra-thin glass fiber and aluminum foil combination device, wherein aluminum foil feeding rollers and glass fiber material feeding rollers in multiple combination units are alternately crossed at intervals to feed aluminum foil and glass fiber materials, and sequentially pass through a driving roller, a cylinder-close large roller and a winding mechanism; the driving rollers are used for driving the composite materials after cross compounding to advance, the number of the driving rollers is multiple, and the driving rollers are used for driving the composite units located on the same side of the winding mechanism to advance towards the winding mechanism in a resultant force mode. However, every composite unit all is provided with the driving roller, and every driving roller all has power, leads to the power between a plurality of driving rollers to be difficult to keep unanimous, leads to the aluminium foil fold easily, influences the aluminium foil roughness, and the combined material of a plurality of composite units needs compound stack in proper order, and easy mutual interference influences the compound effect of multilayer between every composite unit.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an ultra-thin glass fiber and aluminium foil compounding machine to solve above-mentioned problem.

In order to achieve the technical purpose, the technical scheme of the utility model is that:

ultra-thin glass fiber and aluminium foil compounding machine, including the frame, be provided with power unit, rolling unit and a plurality of unit of unreeling in the frame.

The power unit comprises a driving wheel and a plurality of driven wheels (arranged according to the number of the unreeling units), the driving wheel and the driven wheels are arranged on the rack, the driven wheels are connected with the driving wheel through a transmission belt, and the driving wheel is connected with a power device.

The power device is a motor.

In order to adjust driving belt tension, driving belt is connected with the pinch roller, the pinch roller sets up on the pinch arm, the pinch arm passes through pinch arm axle swing joint in the frame, and the pinch arm can rotate around the pinch arm axle, the pinch arm still swing joint has the pinch telescopic link, pinch telescopic link swing joint is in the frame. The belt pressing telescopic rod stretches and retracts, and the belt pressing arm is driven to rotate around the belt pressing arm shaft, so that the belt pressing wheel extrudes the conveying belt to adjust the tension of the conveying belt.

The belt pressing telescopic rod is an electric push rod.

The unreeling unit comprises a composite wheel, an aluminum foil air-expanding shaft and a glass fiber air-expanding shaft, the composite wheel can move along with a transmission belt, the aluminum foil air-expanding shaft and the glass fiber air-expanding shaft are arranged on the rack, the aluminum foil air-expanding shaft is used for storing an aluminum foil and carrying out emptying on an aluminum foil coil, the glass fiber air-expanding shaft is used for storing glass fibers and carrying out emptying on the glass fiber coil, the aluminum foil and the glass fibers pass through the composite wheel, and the composite wheel is used for composite aluminum foil and glass fibers.

The composite wheel is arranged on the composite arm, the composite arm is movably connected to the rack through a composite arm shaft, and the composite arm can rotate around the composite arm shaft.

A plurality of unwinding units set gradually along driving belt around.

The winding unit comprises a winding air expansion shaft, the winding air expansion shaft is arranged on a winding arm, the winding arm is movably connected to the rack through a winding arm shaft, the winding arm can rotate around the winding arm shaft, and the winding air expansion shaft can move along with the transmission belt.

The composite wheels of the unreeling units are respectively compounded with aluminum foil and glass fiber, the transmission belt drives the composite material compounded by the unreeling units to advance to the rolling air inflation shaft, the composite material compounded by the unreeling units is compounded, and the rolling air inflation shaft is used for rolling the composite material compounded by the transmission belt.

In order to support the winding arm, adjust the distance of rolling physiosis axle and driving belt, conveniently load and unload the compound material and roll up, winding arm still swing joint has the rolling telescopic link, rolling telescopic link swing joint is in the frame. The winding telescopic rod stretches and retracts to drive the winding arm to rotate around the winding arm shaft, so that the composite material roll is far away from the transmission belt, and the composite material roll is convenient to load and unload.

The winding telescopic link is electric putter.

The rolling physiosis axle sets up by the action wheel, the action wheel can drive rolling physiosis axle motion.

A plurality of follow driving wheel and a plurality of unit of unreeling correspond the setting, compound round of setting is by following the driving wheel, it can drive compound round of motion to follow the driving wheel.

The utility model has the advantages of it is following:

1. the composite effect is good: the utility model discloses a compound earlier compound aluminium foil of wheel and glass fiber, rethread driving belt compound multiunit aluminium foil and glass fiber in proper order, avoid every group complex mutual interference, improve compound effect, guarantee product quality.

2. Can be compounded in multiple layers: the utility model discloses an add and unreel the unit, can realize that the multilayer is compound to adapt to various customer demands, improve market competition.

3. The rolling effect is good: the utility model discloses a rolling of driving belt drive rolling physiosis axle makes power unit, unreels unit, rolling unit power unanimous, avoids combined material lax, stabilizes the rolling effect, guarantees product quality.

4. The equipment volume is small: the utility model discloses can adjust the driving belt shape according to the actual production condition, reduce the equipment height, make things convenient for the staff operation, improve work efficiency.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

As shown in fig. 1, the ultra-thin glass fiber and aluminum foil compound machine includes a machine frame 1, wherein the machine frame 1 is provided with a power unit, a winding unit and five unwinding units 3 (the number of the unwinding units 3 can be set according to the number of the compound layers, for example, three groups of aluminum foils and glass fibers are compounded, only three unwinding units 3 can be set), and the five unwinding units are sequentially arranged along the periphery of a transmission belt 23.

The power unit includes action wheel 21 and five (set up according to unreeling unit number, also can set up to a plurality of) follow driving wheels 22, action wheel 21 with follow driving wheel 22 all sets up in frame 1, follow driving wheel 22 and action wheel 21 and pass through driving belt 23 and connect, action wheel 22 is connected with power device, power device is the motor. The motor drives the driving wheel 22 to move, and the driving wheel 22 drives the transmission belt 23 and the driven wheel 22 to move.

In order to adjust driving belt 23 tension, driving belt 23 is connected with pinch roller 24, pinch roller 24 sets up on pinch arm 25, pinch arm 25 passes through pinch arm axle 26 swing joint in frame 1, and pinch arm 25 can use pinch arm axle 26 as the centre of a circle, rotates around pinch arm axle 26, pinch arm 25 still swing joint has pinch telescopic link 27, pinch telescopic link 27 one end is connected between pinch arm axle 26 and pinch roller 24, pinch telescopic link 27 other end swing joint is in frame 1, pinch telescopic link 27 is electric putter. The belt-pressing telescopic rod 27 extends and retracts, and the belt-pressing arm 25 is driven to rotate around the belt-pressing arm shaft 26 by taking the belt-pressing arm shaft 26 as a circle center, so that the belt-pressing wheel 24 extrudes the conveying belt 23 to adjust the tension of the conveying belt 23.

Five driven wheels 22 and five unwinding units 3 are correspondingly arranged (one-to-one correspondence), the transmission belt 23 moves, and each unwinding unit 3 respectively completes the composite work.

Unreel unit 3 and include composite wheel 31, aluminium foil physiosis axle 34 and glass fiber physiosis axle 35 set up in frame 1, aluminium foil physiosis axle 34 is used for storing the aluminium foil and carries out the blowing to the aluminium foil book, glass fiber physiosis axle 35 is used for storing glass fiber and carries out the blowing to the glass fiber book, composite wheel 31 sets up and is being followed other 22 of driving wheels, and composite wheel 31 hugs closely from driving wheel 22 setting, composite wheel 31 can follow and follow the motion of driving wheel 22 (driving belt 23), and composite wheel 31 and follow and pass through aluminium foil and glass fiber between 22 (driving belt 23), and aluminium foil and glass fiber pass through composite wheel 31, composite wheel 31 aluminium foil and glass fiber follow driving wheel 22 (driving belt 23) and provide power for composite wheel 31.

In order to facilitate the penetration of composite materials (aluminum foil and glass fibers), the distance between the composite wheel 31 and the transmission belt 23 is adjusted, the composite wheel 31 is arranged on a composite arm 32, the composite arm 32 is movably connected to the frame 1 through a composite arm shaft 33, the composite arm 32 can rotate around the composite arm shaft 33 by taking the composite arm shaft 33 as a circle center, and the composite arm shaft 33 is a connecting piece such as a bolt. When the device is used, the composite arm shaft 33 is detached, the distance between the composite arm 32 and the transmission belt 23 is increased, after the device penetrates through materials to be compounded (aluminum foil and glass fibers), the distance between the composite arm 32 and the transmission belt 23 is reduced, the composite wheel 31 is attached to the transmission belt 23, the composite arm shaft 33 is fastened, and the position of the composite wheel 31 is fixed, so that the material penetrating is completed.

The rolling unit includes rolling physiosis axle 51, rolling physiosis axle 51 sets up by the action wheel 21, the action wheel 21 can support rolling physiosis axle 51, and action wheel 21 (driving belt 23) can drive rolling physiosis axle 51 and move. The winding air inflation shaft 51 is arranged on the winding arm 52, the winding arm 52 is movably connected to the rack 1 through a winding arm shaft 53, and the winding arm 52 can rotate around the winding arm shaft 53. When the composite material unwinding device is used, the transmission belt 23 drives the composite material after the unwinding unit 3 is compounded to advance to the winding air inflation shaft 51, the winding air inflation shaft 51 moves along with the driving wheel 21 (the transmission belt 23), and the composite material driven by the transmission belt 23 is wound.

In order to support the winding arm, adjust the distance of rolling physiosis axle and driving belt, conveniently load and unload the compound material and roll up, winding arm 52 still swing joint has rolling telescopic link 54, rolling telescopic link 54 one end swing joint is between rolling physiosis axle 51 and rolling arm axle 53, rolling telescopic link 54 other end swing joint is in frame 1, rolling telescopic link 54 is electric putter. During the use, rolling telescopic link 43 is flexible, and drive winding arm 52 rotates around winding arm axle 53, increases the distance between rolling physiosis axle 51 and the driving belt 23 (action wheel 21), makes the compound material roll keep away from driving belt 23 to make things convenient for the staff to load and unload the compound material and roll. The winding arm 52 can be provided with a balancing weight, and a winding air expansion shaft 51 is additionally arranged to be beneficial to winding.

The aluminum foil air-inflation shafts 34 and the glass fiber air-inflation shafts 35 of the five unreeling units 3 are respectively provided with an aluminum foil roll and an ultrathin glass fiber roll, the aluminum foil air-inflation shafts 34 are inflated to fix the aluminum foil roll, the glass fiber air-inflation shafts 35 are inflated to fix the ultrathin glass fiber roll, the reeling air-inflation shafts 51 are provided with material collecting reels, and the reeling air-inflation shafts 51 are inflated to fix the reeling air-inflation shafts 51; respectively disassembling five composite arm shafts 33, increasing the distance between a composite arm 32 and a transmission belt 23, drawing foil rolls, glass fibers and front-end composite materials (if any) to pass between a composite wheel 31 and the transmission belt 23 (a driven wheel 22), reducing the distance between the composite wheel 31 and the transmission belt 23 after the foil rolls, the glass fibers and the front-end composite materials pass, and fastening the composite arm shafts 33 to fix the position of the composite wheel 31 after the composite wheel 31 is tightly attached to the transmission belt 23 (the driven wheel 22); after the composite material respectively passes through the five unreeling units 3 and the transmission belt 23, the composite material is pulled to pass through the space between the reeling air expanding shaft 51 and the transmission belt 23 (the driving wheel 21), the material receiving reel on the reeling air expanding shaft 51 is lapped on the transmission belt 23, the transmission belt 23 is started, the aluminum foil air expanding shaft 34, the glass fiber air expanding shaft 35, the composite wheel 31 and the reeling air expanding shaft 51 rotate along with the transmission belt 23, the transmission belt 23 drives the composite material compounded by the unreeling units 3 to advance towards the reeling air expanding shaft 51, and in the movement process of the transmission belt 23, the composite wheels 31 are matched with the transmission belt 23 to compound the composite material compounded by the unreeling units 3, and the material receiving reel on the reeling air expanding shaft 51 is used for winding a plurality of groups of compounded composite materials.

The above-mentioned embodiment does not limit the utility model in any way, and all the technical solutions that adopt the mode of equivalent replacement or equivalent transform to obtain all fall within the protection scope of the utility model.

Claims (8)

1. The ultrathin glass fiber and aluminum foil compound machine is characterized by comprising a rack (1), wherein a power unit, a winding unit and a plurality of unwinding units (3) are arranged on the rack (1);

the power unit comprises a driving wheel (21) and a plurality of driven wheels (22), the driving wheel (21) and the driven wheels (22) are both arranged on the rack (1), the driven wheels (22) are connected with the driving wheel (21) through a transmission belt (23), and the driving wheel (21) is connected with a power device;

the transmission belt (23) is connected with a belt pressing wheel (24), the belt pressing wheel (24) is arranged on a belt pressing arm (25), the belt pressing arm (25) is movably connected to the rack (1) through a belt pressing arm shaft (26), and the belt pressing arm (25) can rotate around the belt pressing arm shaft (26);

the belt pressing arm (25) is also movably connected with a belt pressing telescopic rod (27), and the belt pressing telescopic rod (27) is movably connected to the rack (1);

the unreeling unit (3) comprises a composite wheel (31), an aluminum foil air-expanding shaft (34) and a glass fiber air-expanding shaft (35), the composite wheel (31) can move along with a transmission belt (23), the aluminum foil air-expanding shaft (34) and the glass fiber air-expanding shaft (35) are arranged on the rack (1), the aluminum foil air-expanding shaft (34) is used for storing aluminum foils and discharging aluminum foil rolls, the glass fiber air-expanding shaft (35) is used for storing glass fibers and discharging glass fiber rolls, the aluminum foils and the glass fibers pass through the composite wheel (31), and the composite wheel (31) is used for compounding the aluminum foils and the glass fibers;

the plurality of unreeling units (3) are sequentially arranged along the periphery of the transmission belt (23);

the winding unit comprises a winding air inflation shaft (51), the winding air inflation shaft (51) is arranged on a winding arm (52), the winding arm (52) is movably connected to the rack (1) through a winding arm shaft (53), the winding arm (52) can rotate around the winding arm shaft (53), and the winding air inflation shaft (51) can move along with the transmission belt (23);

aluminum foil and glass fiber are compounded respectively on composite wheels (31) of a plurality of unreeling units (3), the composite material after the unreeling units (3) are compounded is driven by a transmission belt (23) to advance to a rolling air inflation shaft (51) and is compounded with the composite material after the unreeling units (3) are compounded, and the rolling air inflation shaft (51) is used for rolling the composite material after the transmission belt is compounded.

2. The ultra-thin glass fiber and aluminum foil combination machine of claim 1, wherein: the power device is a motor.

3. The ultra-thin glass fiber and aluminum foil combination machine of claim 1, wherein: the belt pressing telescopic rod (27) is an electric push rod.

4. The ultra-thin glass fiber and aluminum foil combination machine of claim 1, wherein: the composite wheel (31) is arranged on a composite arm (32), the composite arm (32) is movably connected to the rack (1) through a composite arm shaft (33), and the composite arm (32) can rotate around the composite arm shaft (33).

5. The ultra-thin glass fiber and aluminum foil combination machine of claim 1, wherein: the winding arm (52) is also movably connected with a winding telescopic rod (54), and the winding telescopic rod (54) is movably connected to the rack (1).

6. The ultra-thin glass fiber and aluminum foil combination machine of claim 5, wherein: the winding telescopic rod (54) is an electric push rod.

7. The ultra-thin glass fiber and aluminum foil combination machine of claim 1, wherein: the winding air inflation shaft (51) is arranged beside the driving wheel (21), and the driving wheel (21) can drive the winding air inflation shaft (51) to move.

8. The ultra-thin glass fiber and aluminum foil combination machine of claim 1, wherein: a plurality of follow driving wheel (22) and a plurality of unreeling unit (3) correspond the setting, compound wheel (31) set up by following driving wheel (22), follow driving wheel (22) and can drive compound wheel (31) motion.

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