CN204604944U - A kind of gas phase differential method saturated material shaped device - Google Patents

Abstract

The utility model relates to a kind of gas phase differential method saturated material shaped device, comprise the drawing mechanism, stretching device, heat cycles device, the first Scissoring device, baking oven, calender device, the second Scissoring device, the wrap-up that are provided with output mechanism, be connected by output mechanism except between drawing mechanism with stretching device, between all the other stream oriented devices, be equipped with transmission mechanism.Drawing mechanism also comprises frame I, recovering mechanism, guiding mechanism, and frame I is provided with elevating lever, and recovering mechanism, output mechanism and guiding mechanism are arranged in frame I from top to bottom successively.Stretching device comprises frame II, two disk cams, belt transmission mechanism, V-type grooves, V-type groove is fixed on support, disk cam is arranged on the both sides in belt transmission mechanism exit and is connected with the slope of V-type groove, and belt transmission mechanism is connected with the guide plate of V-type groove.This device can realize gas phase differential method saturated material moulding process that is brief, efficient, environmental protection.

Description

A kind of gas phase differential method saturated material shaped device

Technical field

The utility model relates to a kind of gas phase differential method saturated material shaped device.

Background technology

Plastic sheeting has developed into one of plastic products that China's output is maximum, kind is maximum, is widely used in the fields such as packaging, electronic apparatus, agricultural, building decoration and commodity.Plastic sheeting after printing as packaging, have merrily and lightheartedly transparent, moistureproof, anti-oxidant, air-tightness is good, flexible folding, smooth surface, can protect commodity, and can reproduce the advantage such as moulding, color of commodity.The processing molding method of plastic sheeting is a lot, as rolling process, the tape casting, blow moulding, pulling method etc.Wherein, gas phase differential method material made membrane and shaping quite concerned in recent years by biaxial tension, but at present how at the experimental stage, not used for industrial production, carries out the device of suitability for industrialized production to it, production line is not yet full-fledged.

Utility model content

The purpose of this utility model there are the problems referred to above for existing technology, proposes a kind ofly can realize the shaping device of gas phase differential method saturated material that is brief, efficient, environmental protection.

The purpose of this utility model realizes by following technical proposal: a kind of gas phase differential method saturated material shaped device, described shaped device comprises the drawing mechanism being provided with output mechanism, stretching device, heat cycles device, first Scissoring device, baking oven, calender device, second Scissoring device, wrap-up, between stretching device and heat cycles device, between heat cycles device and the first clipping device, between first clipping device and baking oven, between baking oven and calender device, between calender device and the second Scissoring device, transmission mechanism is provided with between second Scissoring device and wrap-up, be connected by output mechanism between drawing mechanism with stretching device.

In above-mentioned gas phase differential method saturated material shaped device, described drawing mechanism also comprises frame I, recovering mechanism, guiding mechanism, described frame I is provided with some elevating levers, and described recovering mechanism, output mechanism and guiding mechanism are slidably mounted in frame I by elevating lever from top to bottom successively.

In above-mentioned gas phase differential method saturated material shaped device, as preferably, described recovering mechanism comprises the first cylinder and the first main shaft, the axis place of described first cylinder is provided with the axis hole matched with the first main shaft, described first main shaft is arranged in the axis hole of the first cylinder, described output mechanism comprises second tin roller and the second main shaft, the axis place of described second tin roller is provided with the axis hole matched with the second main shaft, described second main shaft is arranged in the axis hole of second tin roller, and described first main shaft and the second main shaft two ends are fixed on elevating lever.

In above-mentioned gas phase differential method saturated material shaped device, as preferably, described guiding mechanism comprises the first doffer, first primary spindle, second doffer, second primary spindle, holddown groove and connecting rod, the axis place of described first doffer is provided with the axis hole matched with the first primary spindle, described first primary spindle is arranged in the axis hole of the first cylinder, the axis place of described second doffer is provided with the axis hole matched with the second primary spindle, described second primary spindle is arranged in the axis hole of second tin roller, and described first primary spindle and the second primary spindle two ends are separately fixed at the both sides of holddown groove.

In above-mentioned gas phase differential method saturated material shaped device, as preferably, described holddown groove is also provided with bolt I, a sidewall of holddown groove is connected to one end of connecting rod, the other end of connecting rod is by being arranged on being bolted on elevating lever on elevating lever.

In above-mentioned gas phase differential method saturated material shaped device, further preferably, described output mechanism and recovering mechanism are provided with independent motor.

In above-mentioned gas phase differential method saturated material shaped device, described stretching device comprises frame II, two disk cams, belt transmission mechanism, V-type grooves, described frame II comprises the first support and the second support, also connected by some poles between first support and the second support, described V-type groove is fixed on above the first support and the second support, described two disk cams are arranged on the both sides in belt transmission mechanism exit and are connected with the slope of V-type groove, and described belt transmission mechanism is connected with the guide plate of V-type groove.

In above-mentioned gas phase differential method saturated material shaped device, as preferably, described stretching device is also provided with protector, and protector comprises guard rail and fixed bar, and described guard rail is fixedly attached on V-type groove lateral wall by fixed bar.

In above-mentioned gas phase differential method saturated material shaped device, as preferably, described disk cam comprises the column be fixedly arranged on V-type groove, the horizontal pulling plate be installed in rotation on column, above horizontal pulling plate, be movably installed with gripping layer and the saturated material sent of belt transmission mechanism between gripping layer and horizontal pulling plate, in horizontal pulling plate rotation process, gripping layer constantly near or away from horizontal pulling plate, make the gap gradual change between gripping layer and horizontal pulling plate and saturated material is first compressed, rear release, wherein, described two horizontal pulling plates are connected by synchronizing wheel.

Further preferably, described gripping layer is made up of around the compressor arm be arranged on above horizontal pulling plate some circumferential uniform ring, described disk cam also comprises and to be connected with column and to be positioned at the lock cam above gripping layer, the end face facing horizontal pulling plate at lock cam offers the groove of degree of depth gradual change, described compressor arm side by clamping rationed marketing and horizontal pulling plate hinged, opposite side is installed with the deep groove ball bearing that arrange corresponding to groove, the holddown spring resetted after making compressor arm action is provided with in the middle part of described compressor arm, the saturated material that described belt transmission mechanism is sent is between compressor arm and horizontal pulling plate, in horizontal pulling plate rotation process, deep groove ball bearing rotates in groove, compressor arm is first pressed down, after lift, make the gap gradual change between compressor arm and horizontal pulling plate and saturated material is first compressed, rear release.

In above-mentioned gas phase differential method saturated material shaped device, as preferably, described V-type groove is that upside-down trapezoid is arranged, and described V-type groove has bottom surface, symmetrically arranged two lateral plates, symmetrically arranged two slopes, and described bottom surface is connected with each lateral plates, each slope respectively.

Further preferably, bottom surface is provided with sewage draining exit, one of them lateral plates of V-type groove is provided with inlet and is positioned at the liquid outlet above inlet.

In above-mentioned gas phase differential method saturated material shaped device, as preferably, described belt transmission mechanism comprises two drive sprocket axles and two follower shafts arranging corresponding to drive sprocket axle that be arranged in parallel, driving wheel is movably installed with respectively at the two ends of drive sprocket axle, the driven pulley that arrange corresponding to driving wheel is movably installed with respectively at the two ends of follower shaft, two driving wheels that homonymy is arranged are connected by drive pulley, two driven pulleys that homonymy is arranged are connected by follower belt, and described saturated material is clamped between drive pulley and corresponding follower belt.

Further preferably, described drive sprocket axle is identical with follower shaft size, shape is identical, size is equal, and the distance between described two drive sprocket axles is greater than the length of saturated material, and the length of described drive sprocket axle is greater than the width of saturated material.

In above-mentioned gas phase differential method saturated material shaped device, as preferably, be provided with heating system and cooling system in described heat cycles device, one end is connected with the inlet in V-type groove, and the other end is then connected with external source.

In above-mentioned gas phase differential method saturated material shaped device, as preferably, described calender device comprises calendering conveying device and calender.

In above-mentioned gas phase differential method saturated material shaped device, as preferably, described transmission mechanism can be belt transmission mechanism.

Compared with prior art, the utility model has following beneficial effect:

1, the drawing mechanism in this shaped device is provided with recovering mechanism, output mechanism, guiding mechanism, recovering mechanism achieves the recycling to non-woven fabrics, and guiding mechanism can make corresponding adjustment according to the material of saturated material, size, to adapt to different processing requests; And output mechanism and recovering mechanism are provided with independent motor, the at the uniform velocity discharging of saturated material and the recovery of clout can be controlled respectively.

In the drawing process device of 2, this shaped device, by omnibearing clamping bar, multipoint clamping is carried out to saturated material, ensure the uniformity that stretches and planarization; By adjusting the angle that horizontal pulling plate is rotated, control the biaxial tension sizing of saturated material in length and width

V-type groove is adopted to make stretching V-type groove in the drawing process device of 3, this shaped device, square groove is compared, the inclined-plane of V-type groove both sides adds the time of saturated material turnover heating liquid, material is more fully foamed, be conducive to the shaping of abscess in saturated material and stable, tank volume need not be increased simultaneously, save space; And the height of liquid level can regulate the time of foaming in V-type groove, thus meet the foaming requirement of different materials, simply effectively; The sewage draining exit of V-type trench bottom can get rid of the foreign material of accumulation, keeps the clean of heating liquid, ensures the quality of material.

In the drawing process device of 4, this shaped device, V-type groove side plate there is liquid entrance, be connected with heat cycles device, heat cycles device according to the signal of temperature sensor in heating liquid, can heat liquid, guarantee blowing temperature is constant, ensures the expansion rate of saturated material.

5, the baking oven in this shaped device can carry out preheating equably to saturated material in the process of transmission, effectively vapors away the moisture of material surface, and makes it have certain softening, and is conducive to flattening and calendering below.

6, the preferred belt transport of the transmission mechanism in this shaped device, identical with the belt transmission mechanism in stretching device, the belt pulley on the upside of saturated material is by driven by motor run-in synchronism, and the belt pulley of downside is driven pulley, ensures the smooth transport of saturated material; Belt quality is soft, utilizes belt to carry out clamping transport to material, can avoid producing impression to material; The both sides of material are covered by belt in the longitudinal direction, can prevent saturated material from producing fold; In addition, belt up and down, between left and right apart from the material adapting to different size can be adjusted.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model shaped device complete set of equipments.

Fig. 2 is the structural representation of drawing mechanism in the utility model one preferred embodiment.

Fig. 3 is the structural representation of stretching device in the utility model one preferred embodiment.

Fig. 4 is disk cam structural representation in Fig. 2 stretching device.

Fig. 5 is the structural representation of V-type groove in Fig. 2 stretching device.

Fig. 6 is the structural representation of belt transmission mechanism in Fig. 2 stretching device.

In figure, 1, drawing mechanism; 2, stretching device; 3, heat cycles device; 4, the first Scissoring device; 5, baking oven; 6, calender device; 7, the second Scissoring device; 8, wrap-up; 9, transmission mechanism; 10, output mechanism; 11, recovering mechanism; 12, guiding mechanism; 13, frame I; 14, elevating lever; 15, connecting rod; 16, holddown groove; 17, bolt I; 111, the first main shaft; 112, the first cylinder; 113, the second main shaft; 114, second tin roller; 115, the first primary spindle; 116, the first doffer; 117, the second primary spindle; 118, the second doffer; 21, frame II; 211, the first support; 212, the second support; 22, pole; 23, disk cam; 24, belt transmission mechanism; 25, V-type groove; 26, guard rail; 27, fixed bar; 214, deep groove ball bearing; 215, gripping layer; 216, holddown spring; 217, rationed marketing is clamped; 218, horizontal pulling plate; 219, compressor arm; 220, lock cam; 221, groove; 222, synchronizing wheel; 223, column; 232, bottom surface; 233, guide plate; 234, slope; 235, lateral plates; 236, liquid outlet; 237, inlet; 238, sewage draining exit; 240, drive sprocket axle; 241, follower shaft; 242, driving wheel; 243, driven pulley; 244, drive pulley; 245, follower belt.

Detailed description of the invention

Be below specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiments.

As shown in Figures 1 to 6, this gas phase differential method saturated material shaped device comprises the drawing mechanism 1 being provided with output mechanism 10, stretching device 2, heat cycles device 3, first Scissoring device 4, baking oven 5, calender device 6, second Scissoring device 7, wrap-up 8, between stretching device 2 and heat cycles device 3, between heat cycles device 3 and the first clipping device 4, between first clipping device 4 and baking oven 5, between baking oven 5 and calender device 6, between calender device 6 and the second Scissoring device 7, transmission mechanism 9 is provided with between second Scissoring device 7 and wrap-up 8, be connected by output mechanism 10 between drawing mechanism 1 with stretching device 2.

Further, drawing mechanism also comprises frame I 13, recovering mechanism 11, guiding mechanism 12, frame I is provided with elevating lever 14, recovering mechanism 11, output mechanism 10 and guiding mechanism 12 are movably arranged in frame I 13 by elevating lever 14 from top to bottom successively, can according to different specifications, technological requirement adjustment recovering mechanism, spacing between output mechanism and guiding mechanism.

Again further, recovering mechanism 11 comprises the first cylinder 112 and the first main shaft 111, the axis place of the first cylinder 112 is provided with the axis hole matched with the first main shaft 111, first main shaft 111 is arranged in the axis hole of the first cylinder 112, output mechanism 10 comprises second tin roller 114 and the second main shaft 113, the axis place of second tin roller 114 is provided with the axis hole matched with the second main shaft 113, second main shaft 113 is arranged in the axis hole of second tin roller 114, and the first main shaft 111 and the second main shaft 113 two ends are fixed on elevating lever 14.

Again further, guiding mechanism 10 comprises the first doffer 116, first primary spindle 115, second doffer 118, second primary spindle 117, holddown groove 16 and connecting rod 15, the axis place of the first doffer 116 is provided with the axis hole matched with the first primary spindle 115, first primary spindle 115 is arranged in the axis hole of the first cylinder 116, the axis place of the second doffer 118 is provided with the axis hole matched with the second primary spindle 117, second primary spindle 117 is arranged in the axis hole of the second doffer 118, and the first primary spindle 115 and the second primary spindle 117 two ends are separately fixed at the both sides of holddown groove 16, guiding mechanism is adjusted saturated material by the rotating speed of control first doffer 116 and the second doffer 118.

Again further, holddown groove 16 is also provided with bolt I 17, one sidewall of holddown groove 16 is connected to one end of connecting rod 15, the other end of connecting rod 15 by being arranged on elevating lever is bolted to elevating lever 14 top, ensure that guiding mechanism can make corresponding adjustment according to the material of saturated material, size, adapt to different processing requests, and saturated material is delivered to stretching device 2.

Again further, output mechanism 10 and recovering mechanism 11 are provided with independent motor, by the rotating speed of Electric Machine Control first cylinder 112 and second tin roller 114, thus can control the at the uniform velocity discharging of saturated material and the recovery of clout respectively.

Stretching device 2 comprises frame II 21, two disk cams 23, belt transmission mechanism 24, V-type grooves 25, frame II 21 comprises the first support 211 and the second support 212, also connected by some poles 22 between first support 211 and the second support 212, V-type groove 25 is fixed on above the first support 211 and the second support 212, two disk cams 23 are arranged on the both sides in belt transmission mechanism 24 exit and are connected with the slope 234 of V-type groove, and belt transmission mechanism 24 is connected with the guide plate 233 of V-type groove 25.

Further, stretching device 2 is also provided with protector, and protector comprises guard rail 26 and fixed bar 27, and guard rail 26 is fixedly attached on V-type groove 25 lateral wall by fixed bar 27.

Further, disk cam 23 comprises the column 223 be fixedly arranged on V-type groove, the horizontal pulling plate 218 be installed in rotation on column, above horizontal pulling plate, be movably installed with gripping layer 215 and the saturated material sent of belt transmission mechanism between gripping layer 215 and horizontal pulling plate 218, in horizontal pulling plate 218 rotation process, gripping layer 215 constantly near or away from horizontal pulling plate 218, make the gap gradual change between gripping layer 215 and horizontal pulling plate 218 and saturated material is first compressed, rear release; Wherein, two horizontal pulling plates 218 are connected by synchronizing wheel 222.During foaming, saturated material, between gripping layer 215 and horizontal pulling plate 218, by the gap between adjustment gripping layer 215 and horizontal pulling plate 218, and the angle that horizontal pulling plate is rotated, controls the biaxial tension ratio of saturated material at length and width.

Again further, gripping layer 215 is made up of around the compressor arm 219 be arranged on above horizontal pulling plate 218 some circumferential uniform ring, disk cam 23 also comprises and to be connected with column 223 and to be positioned at the lock cam 220 above gripping layer 215, the end face facing horizontal pulling plate at lock cam offers the groove 221 of degree of depth gradual change, compressor arm 219 side is hinged with horizontal pulling plate 218 by clamping rationed marketing 217, opposite side is installed with the deep groove ball bearing 214 that arrange corresponding to groove 221, the holddown spring 216 resetted after making compressor arm action is provided with in the middle part of compressor arm 219, the saturated material that belt transmission mechanism 24 is sent is between compressor arm 219 and horizontal pulling plate 218, in horizontal pulling plate rotation process, deep groove ball bearing 214 rotates in groove 221, compressor arm 219 is first pressed down, after lift, make the gap gradual change between compressor arm and horizontal pulling plate and saturated material is first compressed, rear release.

Further, V-type groove 25 is arranged in upside-down trapezoid, and V-type groove has bottom surface 232, symmetrically arranged two lateral plates 235, symmetrically arranged two slopes 234, and bottom surface 232 is connected with each lateral plates 235, each slope 234 respectively.Compared with square groove, the slope of V-type groove 25 both sides adds the time of saturated material turnover heating liquid, and saturated material is fully foamed, and is conducive to the shaping and stable of abscess in saturated material, need not increases tank volume simultaneously, save space.In V-type groove, the height of liquid level can regulate the time of foaming, thus meets the foaming requirement of different materials, simply effectively.

Again further, bottom surface 232 is provided with sewage draining exit 238, the liquid outlet 236 one of them lateral plates of V-type groove being provided with inlet 237 and being positioned at above inlet.The sewage draining exit 238 of V-type groove face can get rid of the foreign material of accumulation, keeps the clean of heating liquid, ensures the quality of saturated material.V-type groove side plate there is liquid entrance, is connected with heat cycles device, can ensure that blowing temperature is constant, ensure the foaming quality of micropore saturated material.

Further, belt transmission mechanism 24 comprises two drive sprocket axles 240 and two follower shafts 241 arranging corresponding to drive sprocket axle that be arranged in parallel, driving wheel 242 is movably installed with respectively at the two ends of drive sprocket axle 240, the driven pulley 243 that arrange corresponding to driving wheel 242 is movably installed with respectively at the two ends of follower shaft 241, two driving wheels 242 that homonymy is arranged are connected by drive pulley 244, two driven pulleys 243 that homonymy is arranged are connected by follower belt 245, and saturated material is clamped between drive pulley 244 and corresponding follower belt 245.Saturated material is in transmitting procedure, and the belt pulley on the upside of saturated material is by driven by motor run-in synchronism, and the belt pulley of downside is driven pulley, can ensure saturated material smooth transport.Belt quality is soft, utilizes belt to carry out clamping transport to saturated material, can avoid producing impression to saturated material.The both sides of saturated material are covered by belt in the longitudinal direction, can prevent saturated material from producing fold.

Again further, drive sprocket axle 240 is identical with follower shaft 241 size, shape is identical, size is equal, and the distance between two drive sprocket axles 240 is greater than the length of saturated material, and the length of drive sprocket axle 240 is greater than the width of saturated material.Disk cam arrival end is different with the belt transmission mechanism rotating speed of the port of export, is determined, avoid that saturated material is piled up in transportation, fold by the expansion ratio on saturated material length direction.Diameter in the middle part of belt pulley slightly larger than both sides, to prevent saturated material sideslip.Pulley position is adjustable, not only can clamping belt, can change the distance of upper and lower two belts simultaneously.Therefore, according to the different-thickness of saturated material, suitable clamping force can be applied to it.

Further, be provided with heating system and cooling system in heat cycles device 3, one end is connected with V-type groove inlet, and the other end is then connected with external source.

Further, calender device 6 comprises calendering conveying device and calender.

Further, transmission mechanism 9 is belt transmission mechanism, and belt transport utilizes upper and lower two belts to clamp saturated material, transmit, and utilizes the elasticity of belt to avoid chucking power and produces impression to saturated material, and two belt transports also ensure that stationarity simultaneously; In addition, belt up and down, between left and right apart from the material adapting to different size can be adjusted.

Gas phase differential method saturated material in such as Fig. 1 to 6 device in a shaping method, described forming method comprises the steps:

Raw material is peeled off: be placed on drawing mechanism by the raw material after the process of the gas phase differential method, described raw material is rolled into by one deck saturated material and one deck auxiliary material, by raw material delamination, auxiliary material are drawn manually or automatically to recovering mechanism, starter motor, auxiliary material, by recovering mechanism the automatic recovery, obtain saturated material;

Saturated material adjusts: saturated material exports by output mechanism thickness, the width that guiding mechanism adjusts material to;

Saturated material stretches: be delivered between the compressor arm of disk cam and horizontal pulling plate by the saturated material after adjustment by belt transmission mechanism, and in horizontal pulling plate rotation process, gripping layer is by constantly close or carry out drawing and setting away from horizontal pulling plate to saturated material;

Cutting: the saturated material of the dimensionally stable after drawing and setting is delivered to the first Scissoring device by belt transmission mechanism and carries out cutting, crops irregular for saturated material edge place, ensures carrying out smoothly of following process;

Post processing: the saturated material after cutting is delivered in baking oven and carries out preheating, effectively vapor away the moisture on saturated material surface, be delivered in calender device after saturated material is softening and carry out rolling, shaping, saturated material after calendering is delivered to the second Scissoring device and carries out second time cutting, finally the saturated material after cutting is delivered to wrap-up rolling.

In above-mentioned forming method, when the saturated material after adjustment is sent to disk cam by belt transmission mechanism, the lock cam of disk cam maintains static, motor is rotated by belt drive synchronizing wheel, synchronizing wheel drives horizontal pulling plate to rotate by bearing holder (housing, cover) and thrust bearing, synchronizing wheel drives horizontal pulling plate to rotate by bearing holder (housing, cover) and thrust bearing, and horizontal pulling plate constantly rotates; When saturated material enters stretching device, saturated material is between compressor arm and horizontal pulling plate, deep groove ball bearing rotates in the groove of lock cam with horizontal pulling plate, because the degree of depth of groove constantly changes, under the acting in conjunction of deep groove ball bearing and holddown spring, distance between compressor arm end and horizontal pulling plate also changes thereupon, and deep groove ball bearing drives compressor arm to press down, and clamps saturated material; Horizontal pulling plate continues to rotate, saturated material is brought in high-temp liquid, saturated material starts foaming, on microcosmic, bubble starts nucleation and growth, macroscopically saturated material volume starts to increase, under the biaxial tension of disk cam and the heating acting in conjunction of high-temp liquid, saturated material rapid spatial expansion, completes foaming process.Along with the degree of depth of groove is deepened gradually, deep groove ball bearing is lifted, under the effect of holddown spring, compressor arm is propped up, and saturated material is released, then by belt transmission mechanism foaming after material delivery to outside V-type groove, enter downstream cutting operation.

Further, saturated material stretching step also comprises heating process, described heating process be saturated material stretch before pre-heating process or be Synchronous Heating technique when saturated material stretches.

Again further, described heating process is heat in liquid heat medium saturated material being sent into V-type groove, and heat cycles device carries out heat cycles to the liquid heat medium in V-type groove.When saturated material is delivered in V-type tank liquid, heat cycles device carries out heat cycles according to the signal of temperature sensor in heating liquid to the liquid in V-type groove, ensures the constant and water cleaning of fluid temperature, and ensures the expansion rate of saturated material.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Claims (10)

1. a gas phase differential method saturated material shaped device, it is characterized in that, described shaped device comprises the drawing mechanism being provided with output mechanism, stretching device, heat cycles device, first Scissoring device, baking oven, calender device, second Scissoring device, wrap-up, between stretching device and heat cycles device, between heat cycles device and the first clipping device, between first clipping device and baking oven, between baking oven and calender device, between calender device and the second Scissoring device, transmission mechanism is provided with between second Scissoring device and wrap-up, be connected by output mechanism between drawing mechanism with stretching device.

2. gas phase differential method saturated material shaped device according to claim 1, it is characterized in that, described drawing mechanism also comprises frame I, recovering mechanism, guiding mechanism, described frame I is provided with some elevating levers, and described recovering mechanism, output mechanism and guiding mechanism are slidably mounted in frame I by elevating lever from top to bottom successively.

3. gas phase differential method saturated material shaped device according to claim 2, it is characterized in that, described recovering mechanism comprises the first cylinder and the first main shaft, the axis place of described first cylinder is provided with the axis hole matched with the first main shaft, described first main shaft is arranged in the axis hole of the first cylinder, described output mechanism comprises second tin roller and the second main shaft, the axis place of described second tin roller is provided with the axis hole matched with the second main shaft, described second main shaft is arranged in the axis hole of second tin roller, and described first main shaft and the second main shaft two ends are fixed on elevating lever.

4. gas phase differential method saturated material shaped device according to claim 2, it is characterized in that, described guiding mechanism comprises the first doffer, first primary spindle, second doffer, second primary spindle, holddown groove and connecting rod, the axis place of described first doffer is provided with the axis hole matched with the first primary spindle, described first primary spindle is arranged in the axis hole of the first cylinder, the axis place of described second doffer is provided with the axis hole matched with the second primary spindle, described second primary spindle is arranged in the axis hole of the second doffer, and described first primary spindle and the second primary spindle two ends are separately fixed at the both sides of holddown groove.

5. gas phase differential method saturated material shaped device according to claim 1, it is characterized in that, described stretching device comprises frame II, two disk cams, belt transmission mechanism, V-type grooves, described frame II comprises the first support and the second support, also connected by some poles between first support and the second support, described V-type groove is fixed on above the first support and the second support, described two disk cams are arranged on the both sides in belt transmission mechanism exit and are connected with the slope of V-type groove, and described belt transmission mechanism is connected with the guide plate of V-type groove.

6. gas phase differential method saturated material shaped device according to claim 1 or 5, it is characterized in that, described stretching device is also provided with protector, and protector comprises guard rail and fixed bar, and described guard rail is fixedly attached on V-type groove lateral wall by fixed bar.

7. gas phase differential method saturated material shaped device according to claim 5, it is characterized in that, described disk cam comprises the column be fixedly arranged on V-type groove, be installed in rotation on the horizontal pulling plate on column, above horizontal pulling plate, be movably installed with gripping layer and the saturated material sent of belt transmission mechanism between gripping layer and horizontal pulling plate, in horizontal pulling plate rotation process, gripping layer constantly near or away from horizontal pulling plate, make the gap gradual change between gripping layer and horizontal pulling plate and saturated material is first compressed, rear release, described two horizontal pulling plates are connected by synchronizing wheel.

8. gas phase differential method saturated material shaped device according to claim 7, it is characterized in that, described gripping layer is made up of around the compressor arm be arranged on above horizontal pulling plate some circumferential uniform ring, described disk cam also comprises and to be connected with column and to be positioned at the lock cam above gripping layer, the end face facing horizontal pulling plate at lock cam offers the groove of degree of depth gradual change, described compressor arm side by clamping rationed marketing and horizontal pulling plate hinged, opposite side is installed with the deep groove ball bearing that arrange corresponding to groove, the holddown spring resetted after making compressor arm action is provided with in the middle part of described compressor arm, the saturated material that described belt transmission mechanism is sent is between compressor arm and horizontal pulling plate, in horizontal pulling plate rotation process, deep groove ball bearing rotates in groove, compressor arm is first pressed down, after lift, make the gap gradual change between compressor arm and horizontal pulling plate and saturated material is first compressed, rear release.

9. gas phase differential method saturated material shaped device according to claim 5, it is characterized in that, described V-type groove is that upside-down trapezoid is arranged, described V-type groove has bottom surface, symmetrically arranged two lateral plates, symmetrically arranged two slopes, and described bottom surface is connected with each lateral plates, each slope respectively; A lateral plates is provided with inlet and is positioned at the liquid outlet above inlet wherein.

10. gas phase differential method saturated material shaped device according to claim 5, it is characterized in that, described belt transmission mechanism comprises two drive sprocket axles and two follower shafts arranging corresponding to drive sprocket axle that be arranged in parallel, driving wheel is movably installed with respectively at the two ends of drive sprocket axle, the driven pulley that arrange corresponding to driving wheel is movably installed with respectively at the two ends of follower shaft, two driving wheels that homonymy is arranged are connected by drive pulley, two driven pulleys that homonymy is arranged are connected by follower belt, described saturated material is clamped between drive pulley and corresponding follower belt.