CN217417597U - Novel drench membrane rolling machine - Google Patents

Abstract

The utility model discloses a novel laminating rolling machine, which comprises a laminating rolling and film cutting device, wherein the laminating rolling and film cutting device comprises a film cutting mechanism, the film cutting mechanism comprises a moving component and a laminating cutting component, the moving component is used for driving the laminating cutting component to horizontally move, and the laminating cutting component is used for cutting the laminated film after rolling; the double-station laminating, winding and unwinding device comprises a turnover mechanism, wherein two groups of winding mechanisms are arranged on the turnover mechanism, and the turnover mechanism is used for driving the two groups of winding mechanisms to wind in turn. The utility model provides a novel drench membrane rolling machine, realizes drenching the not automatic roll change of slow-down of membrane.

Description

Novel drench membrane rolling machine

Technical Field

The utility model relates to a novel drench membrane rolling machine.

Background

After the laminating film is produced and molded, the laminating film needs to be wound on a reel by a winding machine to form a coiled material, so that the coiled material is convenient to store and transport. The lamination is rolled into a coil material by a mechanical mode, and the lamination is widely applied to a lamination processing production line.

At present, when a common laminating winding machine is used for laminating, only one laminating coiled material can be wound, and after the winding is completed, a winding shaft needs to be frequently replaced, so that the production efficiency is low. When the existing double-station laminating winding machine is used for winding, when one laminating coiled material reaches the set diameter, the equipment needs to reduce the speed to change the coil, so that the winding efficiency is greatly reduced, and the high-speed laminating winding requirement cannot be met.

Disclosure of Invention

The utility model aims to solve the technical problem that, overcome prior art not enough, provide a novel drench membrane rolling machine, realize drenching the not automatic roll change of slowing down of membrane.

In order to solve the technical problem, the technical scheme of the utility model is that:

the utility model provides a novel drench membrane rolling machine, it includes:

the film laminating, winding and cutting device comprises a main support, a film laminating transmission mechanism and a film cutting mechanism are arranged on the main support, the film laminating transmission mechanism is used for transmitting a laminated film to the film cutting mechanism, the film cutting mechanism is used for cutting the laminated film after the film laminating is completed, the film cutting mechanism comprises a film cutting support, a moving assembly and a film laminating and cutting assembly, the moving assembly is arranged on the main support, the moving assembly is used for driving the film cutting support to horizontally move, and the film laminating and cutting assembly is arranged on the film cutting support.

The double-station laminating, winding and unwinding device comprises a support, a turnover mechanism is arranged on the support, two groups of winding mechanisms are arranged on the turnover mechanism, and the turnover mechanism drives the two groups of winding mechanisms to wind in turn.

The film laminating and chopping assembly comprises a film chopping cylinder, a film chopping swing arm, a cutter and a backup roller, wherein two ends of the backup roller are rotatably connected with a film chopping support, two ends of the cutter are respectively connected with the film chopping swing arm, one end of the film chopping swing arm is fixedly connected with the cutter, the other end of the film chopping swing arm is rotatably connected with a piston rod of the film chopping cylinder, and the middle of the film chopping swing arm is rotatably connected with the end of the backup roller.

Further, the moving assembly comprises a moving cylinder, a sliding rail and a sliding block, a piston rod of the moving cylinder is fixedly connected with the membrane cutting support, the sliding block is arranged at the bottom of the membrane cutting support, the sliding rail is arranged on the main support, and the sliding block and the sliding rail slide in a matched mode.

Furthermore, the film chopping mechanism further comprises a third guide roller and a fourth guide roller, wherein two ends of the third guide roller are rotatably connected with the film chopping support, and two ends of the fourth guide roller are rotatably connected with the film chopping support.

Further, it includes first deflector roll and second deflector roll to drench membrane transmission device, the both ends and the main support of first deflector roll are rotated and are connected, the both ends and the main support of second deflector roll are rotated and are connected, the second deflector roll sets up the top at first deflector roll, be provided with tension control mechanism between first deflector roll and the second deflector roll.

Further, tension control mechanism includes tensioning cylinder, tensioning swing arm and tensioning deflector roll, the both ends of tensioning deflector roll are provided with a tensioning swing arm respectively, the one end and the tensioning deflector roll of tensioning swing arm rotate to be connected, the other end and the piston rod of tensioning cylinder of tensioning swing arm link to each other, the middle part and the main support of tensioning swing arm rotate to be connected.

Further, the turnover mechanism comprises a first turnover arm, a second turnover arm, a turnover power source and a turnover shaft, wherein the first turnover arm is fixedly connected with one end of the turnover shaft, the second turnover arm is fixedly connected with the other end of the turnover shaft, and the turnover power source drives one end of the turnover shaft to rotate;

the winding mechanism comprises a winding shaft, a transmission mechanism and a winding power source, one end of the winding shaft is rotatably connected with the first overturning arm, the other end of the winding shaft is rotatably connected with the second overturning arm, and the winding power source drives the other end of the winding shaft to rotate through the transmission mechanism.

Further, the upset power supply includes upset motor and speed reducer, the upset motor links to each other with the input of speed reducer, the output of speed reducer links to each other with the axle head of trip shaft.

Furthermore, the transmission mechanism comprises a first tensioning wheel and a second tensioning wheel, the first tensioning wheel and the second tensioning wheel are both arranged on the second turnover arm, the winding power source is in transmission connection with the first tensioning wheel through a synchronous belt, the first tensioning wheel is in transmission connection with the second tensioning wheel through the synchronous belt, the shaft end of the second tensioning wheel is connected with a first plug socket, and the first plug socket is fixedly plugged with the other end of the winding shaft.

Further, the winding power source comprises a first winding motor, a second winding motor, a first chain wheel, a second chain wheel, a first driving wheel, a second driving wheel, a first driven wheel, a second driven wheel, a mandrel and a sleeve shaft;

the first winding motor is in transmission connection with a first chain wheel through a synchronous belt, the first chain wheel is in transmission connection with a first driving wheel through the synchronous belt, the first driving wheel is fixedly connected with one end of the mandrel, a first driven wheel is fixedly connected with the other end of the mandrel, the first driven wheel is in transmission connection with a first tension wheel in a group of transmission mechanisms through the synchronous belt, and the first driving wheel is used for driving the first driven wheel to rotate;

the second rolling motor passes through the hold-in range and is connected with second sprocket drive, the second sprocket passes through the hold-in range and is connected with second action wheel transmission, the one end fixed connection of second action wheel and sleeve shaft, the second is from the other end fixed connection of driving wheel and sleeve shaft, the second passes through hold-in range and another group from the driving wheel first tight pulley transmission among the drive mechanism is connected, the second action wheel is used for driving the second and rotates from the driving wheel.

Further, the dabber is arranged in the inner cavity of the sleeve shaft, the dabber is rotationally connected with the sleeve shaft through a bearing, the sleeve shaft is fixed on the support through a bearing seat, and the sleeve shaft is rotationally connected with the bearing seat through a bearing.

Further, an air cylinder is arranged on the first turnover arm, a connecting plate is connected to a piston rod of the air cylinder, a driven shaft sleeve is connected to the other end of the connecting plate, a driven shaft seat is fixedly connected to the inside of the first turnover arm, the driven shaft sleeve penetrates through the driven shaft seat, a second inserting seat is rotatably connected to the inside of the driven shaft sleeve, and the second inserting seat is fixedly inserted into one end of the winding shaft.

Further, winding mechanism still includes two sets of tensioning rollers, the one end and the first upset arm of tensioning roller rotate to be connected, the other end and the second upset arm of tensioning roller rotate to be connected.

According to the technical scheme, the utility model discloses a duplex position is drenched the rolling axle on the membrane is received unwinding device and is drenched the membrane rolling, finishes the back at a rolling axle rolling, overturns to the rolling station another empty rolling axle by tilting mechanism, then through the linkage of cutter, backup roll and empty rolling axle, makes empty rolling axle carry out the rolling when cutting off to drench the membrane, and two rolling axles use in turn, can realize drenching the automatic roll change of membrane not deceleration, drench the rolling speed of membrane and remain the high-speed state at 300m/min all the time, improved rolling work efficiency, the utility model discloses simple structure, the rolling is convenient, and it is effectual to cut the membrane.

Drawings

Fig. 1 is a schematic structural view of the novel laminating winder of the present invention;

FIG. 2 is a schematic structural view of the film laminating, rolling and cutting apparatus of the present invention;

fig. 3 is a schematic structural view of the film cutting mechanism of the present invention;

fig. 4 is a schematic structural view of the tension control mechanism of the present invention;

fig. 5 is a schematic structural view of the film coating transmission mechanism of the present invention;

fig. 6 is a schematic structural view of the laminating and cutting assembly of the present invention;

FIG. 7 is a front view of the double-station laminating, winding and unwinding device of the present invention;

FIG. 8 is a side view of FIG. 7;

fig. 9 is a schematic structural view of the turnover mechanism and the winding mechanism of the present invention;

fig. 10 is a schematic structural view of the transmission mechanism of the present invention;

fig. 11 is the connection schematic diagram of the winding shaft and the first turning arm of the present invention.

Detailed Description

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is provided in connection with the accompanying drawings.

As shown in fig. 1, this embodiment provides a novel drench membrane rolling machine, and it drenches membrane coiling and uncoiling device including drenching membrane rolling and cutting membrane equipment and duplex position.

As shown in fig. 2, the film laminating, winding and cutting apparatus of the present embodiment includes a main support 1, a film laminating transmission mechanism and a film cutting mechanism 3 are disposed on the main support 1, the film laminating transmission mechanism is configured to transmit a laminated film to the film cutting mechanism 3, and the film cutting mechanism 3 is configured to cut the laminated film after winding. The drenched film is transmitted by the drenched film transmission mechanism, and after the drenched film is fully collected on the double-station drenched film collecting and releasing device, the drenched film is cut off by the film cutting mechanism 3.

As shown in fig. 2 and 5, in particular, the film coating and conveying mechanism of the present embodiment includes a first guide roller 21 and a second guide roller 22, two ends of the first guide roller 21 are rotatably connected to the main frame 1, two ends of the second guide roller 22 are rotatably connected to the main frame 1, the second guide roller 22 is disposed above the first guide roller 21, and a tension control mechanism is disposed between the first guide roller 21 and the second guide roller 22. The film is fed into the film cutting mechanism 3 through the first guide roller 21, the tension control mechanism, the second guide roller 22 and the fifth guide roller 23.

As shown in fig. 3 and 6, specifically, the film cutting mechanism 3 of the present embodiment includes a film cutting support 31, a third guide roller 37, a fourth guide roller 38, a moving assembly and a film laminating cutting assembly, wherein the moving assembly is disposed on the main support 1, the moving assembly is used for driving the film cutting support 31 to move horizontally, the film laminating cutting assembly is disposed on the film cutting support 31, two ends of the third guide roller 37 are rotatably connected to the film cutting support 31, and two ends of the fourth guide roller 38 are rotatably connected to the film cutting support 31. The laminating and cutting assembly comprises a film cutting cylinder 33, a film cutting swing arm 34, a cutter 35 and a backup roller 36, wherein two ends of the backup roller 36 are rotatably connected with the film cutting support 31, two ends of the cutter 35 are respectively connected with the film cutting swing arm 34, one end of the film cutting swing arm 34 is fixedly connected with the cutter 35, the other end of the film cutting swing arm 34 is rotatably connected with a piston rod of the film cutting cylinder 33, shafts at two ends of the backup roller 36 are rotatably connected with the film cutting support 31 through bearings, and the middle part of the film cutting swing arm 34 is rotatably connected with the shaft end of the backup roller 36 through a bearing. The laminating enters the double-station laminating reeling and unreeling device after passing through the third guide roller 37, the fourth guide roller 38 and the backup roller 36, and after the laminating reeling is finished, the film cutting cylinder 33 contracts to drive the film cutting swing arm 34 to move, so that the cutter 35 moves upwards to cut the laminating.

Specifically, as shown in fig. 3, the moving assembly of the present embodiment includes a moving cylinder 321, a sliding rail 322 and a sliding block 323, the piston rod of the moving cylinder 321 is fixedly connected to the film cutting support 31, the sliding block 323 is disposed at the bottom of the film cutting support 31, the sliding rail 322 is disposed on the main support 1, and the sliding block 323 and the sliding rail 322 slide in a matching manner. Because the size of the drenching membrane book on the rolling machine is not of the same size, therefore the cutting position of cutter 35 is also different, and through moving cylinder 321 drive cut membrane support 31 and remove, drive cutter 35 translation, can adjust the cutting position.

As shown in fig. 4, in particular, the tension control mechanism of the present embodiment includes a tensioning cylinder 41, a tensioning swing arm 42 and a tensioning guide roller 43, two ends of the tensioning guide roller 43 are respectively provided with one tensioning swing arm 42, one end of the tensioning swing arm 42 is rotatably connected with the tensioning guide roller 43, the other end of the tensioning swing arm 42 is connected with a piston rod of the tensioning cylinder 41, a rotating shaft is arranged in the middle of the tensioning swing arm 42, and the rotating shaft is rotatably connected with the main stand 1 through a bearing. The piston rods of the two tensioning cylinders 41 extend downwards at the same time to drive the tensioning swing arm 42 to act, and the tensioning swing arm 42 drives the tensioning guide roller 43 to move towards the direction far away from the first guide roller 21 and the second guide roller 22, so that the tensioning force can be increased.

As shown in fig. 7 and 8, the double-station laminating film winding and unwinding device of the embodiment includes a support 10, a turnover mechanism is arranged on the support 10, two sets of winding mechanisms are arranged on the turnover mechanism, a laminating film coiled material is wound on each winding mechanism, after the laminating film coiled material on the first winding mechanism is wound, the turnover mechanism is turned over, another winding mechanism is turned over to the winding station, and meanwhile the laminating film coiled material which is wound is replaced.

As shown in fig. 9, the turnover mechanism of this embodiment includes a first turnover arm 201, a second turnover arm 202, a turnover power source, and a turnover shaft 203, where the first turnover arm 201 is fixedly connected to one end of the turnover shaft 203, the second turnover arm 202 is fixedly connected to the other end of the turnover shaft 203, and the turnover power source drives one end of the turnover shaft 203 to rotate. The overturning power source comprises an overturning motor 302 and a speed reducer 303, the overturning motor 302 is connected with the input end of the speed reducer 303, and the output end of the speed reducer 303 is connected with the shaft end of the overturning shaft 203. During overturning, the overturning motor 302 drives the overturning shaft 203 to rotate through the speed reducer 303, and the overturning shaft 203 drives the first overturning arm 201 and the second overturning arm 202 to rotate, so that overturning of the two sets of winding mechanisms is realized.

As shown in fig. 9, the winding mechanism of this embodiment includes a winding shaft 301, a transmission mechanism and a winding power source, one end of the winding shaft 301 is rotatably connected to the first flipping arm 201, the other end of the winding shaft 301 is rotatably connected to the second flipping arm 202, and the winding power source drives the other end of the winding shaft 301 to rotate through the transmission mechanism.

As shown in fig. 10, the transmission mechanism includes a first tension roller 304 and a second tension roller 305, the first tension roller 304 and the second tension roller 305 are both disposed on the second flipping arm 202, the winding power source is in transmission connection with the first tension roller 304 through a synchronous belt, the first tension roller 304 is in transmission connection with the second tension roller 305 through a synchronous belt, a first plug-in socket 306 is connected to a shaft end of the second tension roller 305, and the first plug-in socket 306 is fixedly plugged with the other end of the winding shaft 301.

As shown in fig. 11, a cylinder 61 is arranged on the first overturning arm, a connecting plate 62 is connected to a piston rod of the cylinder 61, the other end of the connecting plate 62 is connected with a driven shaft sleeve 63, a driven shaft sleeve 64 is fixedly connected to the first overturning arm, the driven shaft sleeve 63 penetrates through the driven shaft sleeve 64, a second inserting seat 65 is rotatably connected to the driven shaft sleeve 63, an air expanding shaft 66 is inserted into the end of the second inserting seat 65, the end of the air expanding shaft 66, which is inserted into the second inserting seat 65, is a square head, the air expanding shaft 66 is rotatably connected with the driven shaft sleeve 63 through a bearing, and the second inserting seat 65 is fixedly inserted into one end of the winding shaft.

Both ends of the winding shaft 301 are inserted into the insertion seats, the winding power source drives the first tensioning wheel 304 to rotate through the synchronous belt, the first tensioning wheel 304 drives the second tensioning wheel 305 to rotate through the synchronous belt, the second tensioning wheel 305 drives the first insertion seat 306 to rotate, the first insertion seat 306 drives the winding shaft 301 to rotate, and therefore rotation of the winding shaft 301 is achieved, and the winding shaft 301 starts to wind and spray the film. After the winding of the film-coated coiled material on the winding shaft 301 is finished, the cylinder 61 contracts to drive the driven shaft sleeve 63 to move in the driven shaft seat 64, and then the second inserting seat 65 is driven to move, so that the shaft end of the winding shaft 301 is separated from the second inserting seat 65, the winding shaft 301 filled with the film can be taken down, the empty winding shaft 301 is inserted, and the cylinder 61 stretches out to drive the second inserting seat 65 to be fixedly inserted into the shaft end of the winding shaft 301. The shaft end of the winding shaft 301 spliced with the second splicing seat 65 is a square head, and the shaft end of the winding shaft 301 spliced with the first splicing seat 306 is a round head.

As shown in fig. 7, 8 and 10, the winding power source includes a first winding motor 3001, a second winding motor 3002, a first sprocket 3003, a second sprocket 3004, a first driving wheel 3005, a second driving wheel 3006, a first driven wheel 3007, a second driven wheel 3008, a mandrel 3009 and a shaft sleeve 3010. Two motors are adopted as a winding power source, and one motor drives one group of transmission mechanisms.

First rolling motor 3001 is connected with first sprocket 3003 transmission through the hold-in range, first sprocket 3003 is connected with first action wheel 3005 transmission through the hold-in range, first action wheel 3005 and dabber 3009's one end fixed connection, first driven wheel 3007 and dabber 3009's the other end fixed connection, first driven wheel 3007 is connected with the first tight pulley 304 transmission among a set of drive mechanism through the hold-in range, first action wheel 3005 is used for driving first driven wheel 3007 and rotates, first driven wheel 3007 drives its first tight pulley 304 rotation in a set of drive mechanism that corresponds again, first tight pulley 304 drives the rotation of second tight pulley 305.

The second winding motor 3002 is in transmission connection with a second chain wheel 3004 through a synchronous belt, the second chain wheel 3004 is in transmission connection with a second driving wheel 3006 through the synchronous belt, the second driving wheel 3006 is in fixed connection with one end of the shaft sleeve 3010, the second driven wheel 3008 is in fixed connection with the other end of the shaft sleeve 3010, the second driven wheel 3008 is in transmission connection with a first tension wheel 304 in another group of transmission mechanism through the synchronous belt, and the second driving wheel 3006 is used for driving the second driven wheel 3008 to rotate. The transmission principle of the second winding motor 3002 is the same as that of the first winding motor 3001.

The mandrel 3009 is located in an inner cavity of the shaft sleeve 3010, the mandrel 3009 is rotatably connected with the shaft sleeve 3010 through a bearing, the shaft sleeve 3010 is fixed on the support 10 through a bearing seat 3011, and the shaft sleeve 3010 is rotatably connected with the bearing seat 3011 through a bearing.

As shown in fig. 7, in order to ensure the tension of the laminated film during the winding process, the winding mechanism of this embodiment further includes two sets of tension rollers 40, one end of each tension roller 40 is rotatably connected to the first turning arm 201, and the other end of each tension roller 40 is rotatably connected to the second turning arm 202.

The utility model discloses a theory of operation as follows:

as shown in fig. 1, at this time, the laminated film enters the winding shaft 301 located above from the backup roller 36, the winding shaft 301 rotates to wind, when the roll diameter of the roll reaches the set size, the moving assembly pushes the laminated film cutting assembly to approach the roll, and at this time, the turnover mechanism turns over counterclockwise to turn over the empty winding shaft 301 below to the top, and the roll turns over to the bottom.

Then, the moving assembly pushes the cutter 35 and the backup roller 36 to approach the empty winding shaft 301 until the film coated on the backup roller 36 is attached to the empty winding shaft 301, and the cutter 35 moves upwards to cut off the film coated from the lower part, at this time, because the film coated on the backup roller 36 is already attached to the empty winding shaft 301, the empty winding shaft 301 rotates to start winding, and automatic roll changing is realized.

The above-mentioned embodiments further explain in detail the technical problems, technical solutions and advantages solved by the present invention, and it should be understood that the above only is a specific embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides a novel drench membrane rolling machine which characterized in that, it includes:

the film laminating, winding and cutting device comprises a film cutting mechanism (3), wherein the film cutting mechanism (3) comprises a moving component and a film laminating and cutting component, the moving component is used for driving the film laminating and cutting component to horizontally move, and the film laminating and cutting component is used for cutting the laminated film after winding is completed;

the double-station laminating, winding and unwinding device comprises a turnover mechanism, wherein two groups of winding mechanisms are arranged on the turnover mechanism, and the turnover mechanism is used for driving the two groups of winding mechanisms to wind in turn.

2. The novel laminating winder as claimed in claim 1, wherein: the double-station laminating, film-winding and unwinding device comprises a support (10), the turnover mechanism is arranged on the support (10) and comprises a first turnover arm (201), a second turnover arm (202), a turnover power source and a turnover shaft (203), the first turnover arm (201) is fixedly connected with one end of the turnover shaft (203), the second turnover arm (202) is fixedly connected with the other end of the turnover shaft (203), and the turnover power source drives one end of the turnover shaft (203) to rotate;

the winding mechanism comprises a winding shaft (301), a transmission mechanism and a winding power source, one end of the winding shaft (301) is rotatably connected with the first overturning arm (201), the other end of the winding shaft (301) is rotatably connected with the second overturning arm (202), and the winding power source drives the other end of the winding shaft (301) to rotate through the transmission mechanism.

3. The novel laminating winder as claimed in claim 2, wherein: the overturning power source comprises an overturning motor (302) and a speed reducer (303), the overturning motor (302) is connected with the input end of the speed reducer (303), and the output end of the speed reducer (303) is connected with the shaft end of the overturning shaft (203).

4. The novel laminating winder as claimed in claim 2, wherein: the transmission mechanism comprises a first tensioning wheel (304) and a second tensioning wheel (305), the first tensioning wheel (304) and the second tensioning wheel (305) are both arranged on a second overturning arm (202), the winding power source is in transmission connection with the first tensioning wheel (304) through a synchronous belt, the first tensioning wheel (304) is in transmission connection with the second tensioning wheel (305) through the synchronous belt, the shaft end of the second tensioning wheel (305) is connected with a first plug socket (306), and the first plug socket (306) is fixedly connected with the other end of the winding shaft (301) in a plug-in mode.

5. The novel laminating winder of claim 4, wherein: the winding power source comprises a first winding motor (3001), a second winding motor (3002), a first chain wheel (3003), a second chain wheel (3004), a first driving wheel (3005), a second driving wheel (3006), a first driven wheel (3007), a second driven wheel (3008), a mandrel (3009) and a shaft sleeve (3010);

the first winding motor (3001) is in transmission connection with a first chain wheel (3003) through a synchronous belt, the first chain wheel (3003) is in transmission connection with a first driving wheel (3005) through the synchronous belt, the first driving wheel (3005) is fixedly connected with one end of a mandrel (3009), a first driven wheel (3007) is fixedly connected with the other end of the mandrel (3009), the first driven wheel (3007) is in transmission connection with a first tension wheel (304) in a group of transmission mechanisms through the synchronous belt, and the first driving wheel (3005) is used for driving the first driven wheel (3007) to rotate;

the second winding motor (3002) is in transmission connection with a second chain wheel (3004) through a synchronous belt, the second chain wheel (3004) is in transmission connection with a second driving wheel (3006) through the synchronous belt, the second driving wheel (3006) is fixedly connected with one end of a shaft sleeve (3010), the second driven wheel (3008) is fixedly connected with the other end of the shaft sleeve (3010), the second driven wheel (3008) is in transmission connection with a first tensioning wheel (304) in another group of transmission mechanisms through the synchronous belt, and the second driving wheel (3006) is used for driving the second driven wheel (3008) to rotate;

dabber (3009) are arranged in the inner chamber of axle sleeve (3010), dabber (3009) rotate with axle sleeve (3010) through the bearing and are connected, axle sleeve (3010) are fixed on support (10) through bearing frame (3011), axle sleeve (3010) rotate with bearing frame (3011) through the bearing and are connected.

6. The novel laminating winder as claimed in claim 2, wherein: be provided with cylinder (61) on first upset arm (201), be connected with connecting plate (62) on the piston rod of cylinder (61), the other end of connecting plate (62) is connected with passive axle sleeve (63), fixedly connected with passive axle bed (64) in first upset arm (201), passive axle bed (64) are run through in passive axle sleeve (63), passive axle sleeve (63) internal rotation is connected with second plug socket (65), second plug socket (65) are pegged graft fixedly with the one end of rolling axle (301).

7. The novel drench membrane rolling machine of claim 1 characterized in that: the film laminating, winding and cutting device comprises a main support (1), wherein a film laminating transmission mechanism is arranged on the main support (1), the film cutting mechanism (3) is arranged on the main support (1), and the film laminating transmission mechanism is used for transmitting a laminated film to the film cutting mechanism (3);

the film cutting mechanism (3) further comprises a film cutting support (31), the film spraying and cutting assembly is arranged on the film cutting support (31) and comprises a film cutting cylinder (33), a film cutting swing arm (34), a cutter (35) and a backup roller (36), two ends of the backup roller (36) are rotatably connected with the film cutting support (31), two ends of the cutter (35) are respectively connected with the film cutting swing arm (34), one end of the film cutting swing arm (34) is fixedly connected with the cutter (35), the other end of the film cutting swing arm (34) is rotatably connected with a piston rod of the film cutting cylinder (33), and the middle of the film cutting swing arm (34) is rotatably connected with the end of the backup roller (36).

8. The novel laminating winder of claim 7, wherein: the movable assembly is arranged on the main support (1), the movable assembly comprises a movable air cylinder (321), a sliding rail (322) and a sliding block (323), a piston rod of the movable air cylinder (321) is fixedly connected with the film cutting support (31), the sliding block (323) is arranged at the bottom of the film cutting support (31), the sliding rail (322) is arranged on the main support (1), and the sliding block (323) and the sliding rail (322) slide in a matched mode.

9. The novel laminating winder of claim 7, wherein:

the film coating transmission mechanism comprises a first guide roller (21) and a second guide roller (22), two ends of the first guide roller (21) are rotatably connected with the main support (1), two ends of the second guide roller (22) are rotatably connected with the main support (1), the second guide roller (22) is arranged above the first guide roller (21), and a tension control mechanism is arranged between the first guide roller (21) and the second guide roller (22);

the film chopping support (31) is provided with a third guide roller (37) and a fourth guide roller (38), two ends of the third guide roller (37) are rotatably connected with the film chopping support (31), and two ends of the fourth guide roller (38) are rotatably connected with the film chopping support (31).

10. The novel laminating winder of claim 9, wherein: tension control mechanism includes tensioning cylinder (41), tensioning swing arm (42) and tensioning deflector roll (43), the both ends of tensioning deflector roll (43) are provided with a tensioning swing arm (42) respectively, the one end and the tensioning deflector roll (43) of tensioning swing arm (42) rotate and are connected, the other end and the piston rod of tensioning cylinder (41) of tensioning swing arm (42) link to each other, the middle part and the main support (1) of tensioning swing arm (42) rotate and are connected.

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