CN113353690B - Novel automatic conveying and packaging production line for silica gel protective films - Google Patents

Abstract

The invention discloses a novel automatic conveying and packaging production line for a silica gel protective film, which belongs to the field of film production and comprises a base plate, wherein the base plate is fixedly connected with a building, the end of the base platform plate is provided with a discharging module, two turning corners of the base platform plate are provided with reinforcing ribs, a material film is drawn out from the port of the discharging module, a fixed shaft seat is fixedly arranged at the top end of the base plate, and one side of the fixed shaft seat is provided with a locking sheet, one side of the locking sheet is fixedly provided with a filling square rod, the expansion sliding block is connected with the torsion guide rail in a sliding way, a torsion shaft seat is fixedly arranged at the top end of the expansion sliding block, a driven plate is arranged at one side of the torsion shaft seat, a rectangular concave cavity matched with the filling square rod is arranged on the side wall of the driven plate, one side of the base plate, which is far away from the discharging module, is provided with a carrying assembly, and a discharging assembly is arranged below the carrying assembly. When the driven plate is attached to the filling square rod, the filling square rod rotates together with the locking plate and the driven plate.

Description

Novel automatic conveying and packaging production line for silica gel protective films

Technical Field

The invention relates to the field of film production, in particular to a novel automatic conveying and packaging production line for a silica gel protective film.

Background

With the development of industrial technology, the development of the existing silica gel manufacturing technology is more and more perfect, and further in order to meet the large-batch requirements of modern industry, a plurality of protective films are required to be used for wrapping the silica gel in the storage link after production, the silica gel is soft, organic components are contained in the silica gel, if the silica gel contacts air, the surface material of the silica gel product is oxidized and becomes hard, and further the protective film of the silica gel needs to hermetically encapsulate the silica gel product;

modern protective film production and processing equipment needs staff to participate, manpower is wasted very much, the existing protective film requirements are large in batch, the production is performed by manually operating the traditional simple mechanical equipment, so that the large batch requirements are difficult to meet, and the production demand can be met only by equipment with higher automation degree;

in the film production process, the temperature is very high when the protective film just comes out of the production line, hands of people are easily scalded if the protective film is manually touched, pungent smell can be emitted when the protective film is at high temperature, when the protective film is collected on a winding roller, a new winding roller needs to be replaced after one roller is full of the protective film, the discharged film needs to be cut off, and the port of the protective film is pulled to the new winding roller for winding again;

chinese patent 201110200412.6 discloses an automatic wrapping and packaging mechanism for plastic pipe protective films, which can conveniently wrap films, but needs to be manually pulled again to a new wrap roll after a new wrap roll is replaced.

Disclosure of Invention

The invention aims to provide a novel automatic conveying and packaging production line for a silica gel protective film, when the device is used, the protective film to be processed is pulled out from a discharging module, a stepping motor drives a roller set to rotate through a speed reduction belt, the roller set drives a winding roller to rotate, one roller of the roller set drives a first adjusting roller and a bevel gear set to rotate, the bevel gear set drives a square pipe to slide along a bridging guide rail in a reciprocating mode through a threaded rod, when the adhesive rod moves to be right above a cut-off piece, an electric push rod drives the adhesive rod to fall down, one side, close to the discharging module, of the cut-off piece is the front end, the adhesive rod slides to the front end of the cut-off piece to fall down to an end of a de-bonding film, then the end of the film slides to the position of a winding round shell to be attached to the winding round shell, after the winding roller is full, the adhesive rod slides to the rear end of the cut-off piece to fall down to the cut-off film, the film end is hung on the cutting piece when being cut off, and the effect of automatically drawing the film end is realized.

In order to solve the above problems, the present invention provides the following technical solutions: the novel automatic conveying and packaging production line for the silica gel protective film comprises a base plate, the base plate is fixedly connected with a building, a discharging module is arranged at the end of the base plate, reinforcing ribs are arranged at two turning corners of the base plate, a material film is pulled out of a port of the discharging module, a fixed shaft seat is fixedly mounted at the top end of the base plate, a locking sheet is mounted at one side of the fixed shaft seat, a loading square rod is fixedly mounted at one side of the locking sheet, a round rod penetrating the inner side of the fixed shaft seat is arranged at the other side of the locking sheet, a rolling round shell is sleeved on the loading square rod, two torsion guide rails are arranged at the bottom end of the base plate, an expansion sliding block is sleeved on the torsion guide rails, the expansion sliding block is in sliding connection with the torsion guide rails, a torsion shaft seat is fixedly mounted at the top end of the expansion sliding block, a driven plate is arranged at one side of the torsion shaft seat, and a rectangular cavity matched with the loading square rod is arranged on the side wall of the driven plate, one side of the base plate, which is far away from the discharging module, is provided with a carrying assembly, and a discharging assembly is arranged below the carrying assembly.

Further, the bottom fixed mounting of base plate has step motor, and step motor's output is provided with the output gyro wheel, the opposite side of fixed axle bed is provided with the roller train, and the round bar end fixed connection of roller train and stay, the roller train is formed by three gyro wheel combination, and one of them gyro wheel of roller train passes through speed reducing belt and output roller connects.

Further, the bottom of base plate is provided with the location carousel, and the centre of location carousel is provided with and wears the intubate, be provided with on the base plate and alternate the round bar that alternates wearing the intubate inboard, it is detachable to alternate the round bar, the bottom of expansion slider is provided with torque bearing, and torque bearing's outer loop and torsion shaft base lateral wall fixed connection, and torque bearing and the centre of interlining the round bar are provided with double-end cylinder, and one of them output of double-end cylinder alternates in torque bearing's inner ring, another output of double-end cylinder with alternate round bar swivelling joint.

Furthermore, the side walls of the positioning turntable and the base plate are both provided with traction rings, the middle of each traction ring is connected with the corresponding traction spring through the corresponding traction spring, two ends of each traction spring are provided with hooks matched with the corresponding traction rings, the side wall of the base plate is fixedly provided with a servo motor, the output end of the servo motor is provided with a rubber turntable, and the positioning turntable is provided with a corner piece attached to the rubber turntable.

Further, a bridge guide rail is fixedly mounted at the top end of the base plate, a square pipe is sleeved on the bridge guide rail and is in sliding connection with the bridge guide rail, an extension piece is arranged at the bottom end of the square pipe, an electric push rod is fixedly mounted at the top end of the extension piece, an output rod is arranged at the output end of the electric push rod, two adhesive rods are arranged at the bottom end of the output rod, a push nut is fixedly mounted at the top end of the square pipe, a lead screw penetrates through the inner side of the push nut, a bevel gear set is arranged at the end of the lead screw, a first adjusting roller is arranged on one bevel gear of the bevel gear set, a hoisting plate block is arranged on one side of the first adjusting roller, the first adjusting roller is in rotary connection with the hoisting plate block, the hoisting plate block is fixedly connected with a building, the first adjusting roller is connected with one roller of the roller set through a first driving belt, and a cutting piece is further arranged in the middle of the base plate, the bottom of the cut-off piece is fixedly connected with the top surface of the base plate through four notches, and the top end of the cut-off piece is provided with a plurality of installation flanges.

Further, the carrying assembly comprises a vertical plate, the vertical plate is fixedly connected with the building, two carrying guide rails are arranged on the side wall of the vertical plate, a carrying slide block is sleeved on each carrying guide rail, the carrying slide block is slidably connected with the carrying guide rails, a carrying platform is fixedly mounted on one side of each carrying slide block, a translation shaft seat is arranged on the side wall of each carrying platform, a movable frame is arranged on one side of each translation shaft seat, the movable frame is rotatably connected with the translation shaft seat, reset springs are arranged on the two sides of each movable frame, the other end of each reset spring is fixedly connected with the side wall of each carrying platform, a clamping finger cylinder is arranged on the side wall of each movable frame, and a clamping rod which is bent is arranged at the output end of each clamping finger cylinder.

Furthermore, one side of the clamping finger cylinder is provided with a bent round rod, the bent round rod penetrates through the movable frame, the end of the bent round rod is provided with a collision ball, one side of the vertical plate is provided with a triangular block, the triangular block is fixedly connected with the side wall of the vertical plate through a connecting column, the inclined plane of the triangular block and the collision ball are located at the same horizontal height, a threaded rod is arranged between the vertical plate and the carrying platform, a nut block matched with the threaded rod is arranged on the carrying platform, the end of the threaded rod is provided with a second adjusting roller, the second adjusting roller is rotatably connected with the side wall of the hoisting plate, and the second adjusting roller and one roller of the roller set are connected through a second driving belt.

Further, the unloading subassembly includes well core plate, and well core plate's both ends all are provided with the lateral wall axle bed, and one side of lateral wall axle bed is provided with the unloading axle bed, unloading axle bed and lateral wall axle bed swivelling joint, connect through the unloading belt between the unloading axle bed, and one of them unloading axle bed is installed on the output of unloading motor, and the unloading motor is fixed on the lateral wall of one of them lateral wall axle bed, the both sides of unloading belt are provided with spacing turn-ups, and are provided with a plurality of rectangle rubber circle on the unloading belt.

The invention has the beneficial effects that:

firstly, when the device is used, the protective film to be processed can be pulled out from the discharging module, the stepping motor drives the roller train to rotate through the speed reducing belt, the roller train drives the wind-up roll to rotate, one of the roller sets drives the first adjusting roller and the bevel gear set to rotate, the bevel gear set drives the square pipe to slide along the bridging guide rail in a reciprocating mode through the threaded rod, when the adhesive rod moves to a position right above the cut-off piece, the electric push rod drives the adhesive rod to fall down, one side, close to the discharging module, of the cut-off piece is the front end, the adhesive rod slides to the end, falling down to the adhesive film, of the front end of the cut-off piece, and then the film end head slides to the position of the winding round shell to be attached, after the winding roller is filled, the adhesive rod slides to the rear end of the cutting piece to fall down to cut off the film, and the film end head is hung on the cutting piece when being cut off, so that the effect of automatically drawing the film end head is realized.

After the film is filled in the wind-up roll, two output ends of the double-head cylinder stretch, the torsion shaft base can slide to the outside along the torsion guide rail until the attaching sheet breaks away from the end of the filling square rod, then the servo motor drives the positioning turntable to rotate by a certain angle through the rubber turntable, and the torsion shaft base can break away from the processing station and avoid an operation space for subsequent processing technology.

Third, the wind-up roll is in the in-process of receiving full membrane, and the roller train also drives the threaded rod rotation through second drive belt, and threaded rod drive delivery platform slides along the delivery guide rail, and the wind-up roll is received from the ghost and is filled, and the delivery platform slides to the other end just in time from the one end of delivery guide rail, then this stroke of step motor reversal again, and the pinch finger cylinder can be held between the fingers and receive full wind-up roll and take off.

Fourthly, when the conflict ball contacted three hornblocks slope, tortuous round bar and adjustable shelf began to twist reverse downwards, then the wind-up roll can reach a rectangle rubber circle in the unloading subassembly and put in down, still has the effect of vibrations when the conflict ball was extruded by three hornblocks, and then prevents that membrane and clamp from pointing the cylinder bonding too closely, and the adjustable shelf resets through reset spring.

Drawings

Fig. 1 is a schematic view of a front view of a novel automatic conveying and packaging production line for silica gel protective films.

Fig. 2 is a schematic diagram of a novel silica gel protective film automatic conveying and packaging production line in side view.

Fig. 3 is a schematic view of a section of a novel automatic conveying and packaging production line for a silica gel protective film.

Fig. 4 is a schematic view of a novel bridge guide rail of an automatic conveying and packaging production line for silica gel protective films.

Fig. 5 is a schematic view of a second cross-sectional view of the novel automatic silica gel protective film conveying and packaging production line.

Fig. 6 is a schematic view of a third viewing angle of a section of a novel automatic conveying and packaging production line for silica gel protective films.

Fig. 7 is a schematic view of the bottom view of the novel automatic conveying and packaging production line for the silica gel protective film.

Fig. 8 is a schematic view of the novel automatic silica gel protective film conveying and packaging production line from a second bottom view.

Fig. 9 is a schematic view of a blanking assembly of the novel automatic conveying and packaging production line for the silica gel protective film.

Fig. 10 is a schematic view of a novel automatic conveying and packaging production line carrier assembly for a silica gel protective film.

Fig. 11 is a schematic view of a cut-off section of a novel automatic conveying and packaging production line for a silica gel protective film.

Description of reference numerals:

a base plate 1, a reinforcing rib 101, a discharging module 102, a material film 103, a fixed shaft seat 2, a roller set 201, a first driving belt 202, a second driving belt 203, a loading square rod 204, a rolling round shell 205, a locking sheet 206, a bridging guide rail 3, a twisting guide rail 4, an expanding slide block 401, a twisting shaft seat 402, a driven sheet 403, a torsion bearing 404, a double-head cylinder 405, a carrying component 5, a vertical plate 501, a carrying guide rail 502, a carrying slide block 503, a carrying platform 504, a translation shaft seat 505, a movable frame 506, a return spring 507, a clamping finger cylinder 508, a zigzag round rod 509, a collision ball 510, a threaded rod 511, a triangular block 512, a connecting column 513, a discharging component 6, a central plate 601, a side wall shaft seat 602, a discharging shaft seat 603, a discharging motor 604, a discharging belt 605, a limiting flange 606, a rectangular rubber ring 607, a hoisting plate 7, a first adjusting roller 701, a second adjusting roller 702 and a bevel gear set 8, the device comprises a screw rod 801, a push nut 802, a square tube 9, an extension piece 901, an electric push rod 902, an output rod 903, a glue rod 904, a stepping motor 10, an output roller 1001, a speed reducing belt 1002, a cutting piece 11, an installation flanging 1101, a notch 1102, a servo motor 12, a rubber turntable 1201, a positioning turntable 13, an inserting tube 1301, an inserting round rod 1302, a traction ring 1303, a traction spring 1304 and a corner piece 1305.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 and 11, the novel automatic silica gel protective film conveying and packaging production line comprises a base plate 1, the base plate 1 is fixedly connected with a building, a discharging module 102 is arranged at the end of the base plate 1, reinforcing ribs 101 are arranged at two corners of the base plate 1, a material film 103 is pulled out of a port of the discharging module 102, a fixed shaft seat 2 is fixedly arranged at the top end of the base plate 1, a locking sheet 206 is arranged at one side of the fixed shaft seat 2, a loading square rod 204 is fixedly arranged at one side of the locking sheet 206, a round rod penetrating the inner side of the fixed shaft seat 2 is arranged at the other side of the locking sheet 206, a rolling round shell 205 is sleeved on the loading square rod 204, two twisting guide rails 4 are arranged at the bottom end of the base plate 1, an expansion sliding block 401 is sleeved on the twisting guide rails 4, the expansion sliding block 401 is connected with the torsion guide rail 4 in a sliding mode, the torsion shaft seat 402 is fixedly mounted at the top end of the expansion sliding block 401, a driven plate 403 is arranged on one side of the torsion shaft seat 402, a rectangular cavity matched with the loading square rod 204 is formed in the side wall of the driven plate 403, a carrying assembly 5 is arranged on one side, away from the discharging module 102, of the base plate 1, a blanking assembly 6 is arranged below the carrying assembly 5, the torsion shaft seat 402 and the driven plate 403 can slide along the torsion guide rail 4 until the driven plate 403 is attached to the end of the loading square rod 204, two ends of the rolling round shell 205 are clamped by the driven plate 403 and the locking plate 206, and rolling operation can be implemented by rotation of the rolling round shell 205.

The bottom fixed mounting of base plate 1 has step motor 10, and step motor 10's output is provided with output roller 1001, the opposite side of fixed axle bed 2 is provided with roller set 201, roller set 201 and stay 206's pole end fixed connection, roller set 201 is formed by three gyro wheel combination, and one of them gyro wheel of roller set 201 passes through speed belt 1002 and output roller 1001 connects, and step motor 10 passes through speed belt 1002 and drives roller set 201 rotatory, and roller set 201 drives stay 206 rotatory, and then stay 206 drives and packs square pole 204 and rolling circle shell 205 rotation, and step motor 10 provides the power of rolling.

The bottom end of the base plate 1 is provided with a positioning rotary plate 13, the middle of the positioning rotary plate 13 is provided with an inserting pipe 1301, the base plate 1 is provided with an inserting round rod 1302 inserted inside the inserting pipe 1301, the inserting round rod 1302 is detachable, the bottom end of the expansion sliding block 401 is provided with a torsion bearing 404, the outer ring of the torsion bearing 404 is fixedly connected with the side wall of the torsion shaft base 402, a double-head cylinder 405 is arranged between the torsion bearing 404 and the inserting round rod 1302, one output end of the double-head cylinder 405 is inserted into the inner ring of the torsion bearing 404, the other output end of the double-head cylinder 405 is rotatably connected with the inserting round rod 1302, after the rolling round shell 205 is filled with a film, the two output ends of the double-head cylinder 405 stretch, the distance between the torsion shaft base 402 and the fixed shaft base 2 is increased, and until a driven plate 403 on one side of the torsion shaft base 402 is separated from the end of the filling square rod 204.

The side walls of the positioning rotary table 13 and the base table plate 1 are both provided with traction rings 1303, the middles of the two traction rings 1303 are connected through traction springs 1304, hooks matched with the traction rings 1303 are arranged at two ends of each traction spring 1304, a servo motor 12 is fixedly arranged on the side wall of the base table plate 1, a rubber rotary table 1201 is arranged at the output end of the servo motor 12, a corner piece 1305 attached to the rubber rotary table 1201 is arranged on the positioning rotary table 13, then the servo motor 12 drives the positioning rotary table 13 to rotate for a certain angle through the rubber rotary table 1201, the torsion shaft base 402 can be separated from a processing station to avoid an operation space for a subsequent processing technology, when the positioning rotary table 13 needs to be reset, the output end of the servo motor 12 releases a load, the traction springs 1304 automatically drag the positioning rotary table 13 to return to an original angular position, and one output end of the double-head air cylinder 405 is positioned at the center of the positioning rotary table 13, and the positioning rotary disc 13 does not influence the double-head air cylinder 405 in the twisting process.

The top end of the base plate 1 is also fixedly provided with a bridging guide rail 3, the bridging guide rail 3 is sleeved with a square pipe 9, the square pipe 9 is connected with the bridging guide rail 3 in a sliding manner, the bottom end of the square pipe 9 is provided with an extension sheet 901, the top end of the extension sheet 901 is fixedly provided with an electric push rod 902, the output end of the electric push rod 902 is provided with an output rod 903, the bottom end of the output rod 903 is provided with two adhesive rods 904, the top end of the square pipe 9 is fixedly provided with a push nut 802, the inner side of the push nut 802 is inserted with a screw rod 801, the end head of the screw rod 801 is provided with a bevel gear set 8, one bevel gear of the bevel gear set 8 is provided with a first adjusting roller 701, one side of the first adjusting roller 701 is provided with a hoisting plate 7, the first adjusting roller 701 is connected with the hoisting plate 7 in a rotating manner, the hoisting plate 7 is fixedly connected with a building, and one of the first adjusting roller 701 is connected with one of the roller sets 201 through a first driving belt 202, the middle of the base plate 1 is also provided with a cutting blade 11, the bottom end of the cutting blade 11 is fixedly connected with the top surface of the base plate 1 through four notches 1102, the top end of the cutting blade 11 is provided with a plurality of installation flanges 1101, when the roller set 201 drives the winding round shell 205 to rotate, one roller of the roller set 201 drives the first adjusting roller 701 and the bevel gear set 8 to rotate, the bevel gear set 8 drives the square pipe 9 to slide along the bridging guide rail 3 in a reciprocating manner through the lead screw 801, when the adhesive rod 904 moves to be right above the cutting blade 11, the electric push rod 902 drives the adhesive rod 904 to fall down, one side of the cutting blade 11 close to the discharging module 102 is the front end, the adhesive rod 904 slides to the front end of the cutting blade 11 to fall down to remove the end of the adhesive film, then the film end slides to the position of the winding round shell 205 to be attached, after the winding round shell 205 is filled, the adhesive rod 904 slides to the rear end of the cutting blade 11 to fall down to remove the cutting film, the film end is hung on the cutting piece 11 when being cut off, so that the effect of automatically drawing the film end is realized, manual operation is saved, and safety is also improved.

The carrying assembly 5 comprises an upright plate 501, the upright plate 501 is fixedly connected with a building, two carrying guide rails 502 are arranged on the side wall of the upright plate 501, a carrying sliding block 503 is sleeved on the carrying guide rails 502, the carrying sliding block 503 is slidably connected with the carrying guide rails 502, a carrying platform 504 is fixedly mounted on one side of the carrying sliding block 503, a translation shaft seat 505 is arranged on the side wall of the carrying platform 504, a movable frame 506 is arranged on one side of the translation shaft seat 505, the movable frame 506 is rotatably connected with the translation shaft seat 505, return springs 507 are arranged on two sides of the movable frame 506, the other end of each return spring 507 is fixedly connected with the side wall of the carrying platform 504, a finger clamping cylinder 508 is arranged on the side wall of the movable frame 506, and a bent clamping rod is arranged at the output end of the finger clamping cylinder 508.

A zigzag round rod 509 is arranged on one side of the finger clamping cylinder 508, the zigzag round rod 509 penetrates through the movable frame 506, a collision ball 510 is arranged at the end of the zigzag round rod 509, a triangular block 512 is arranged on one side of the upright plate 501, the triangular block 512 is fixedly connected with the side wall of the upright plate 501 through a connecting column 513, the inclined surface of the triangular block 512 and the collision ball 510 are positioned on the same horizontal height, a threaded rod 511 is arranged between the upright plate 501 and the carrying platform 504, a nut block matched with the threaded rod 511 is arranged on the carrying platform 504, a second adjusting roller 702 is arranged at the end of the threaded rod 511, the second adjusting roller 702 is rotatably connected with the side wall of the hoisting plate 7, one of the second adjusting roller 702 and the roller set 201 is connected through a second driving belt 203, the roller set 201 drives the threaded rod 511 to rotate through the second driving belt 203 in the process of film rolling of the rolling shell 205, the threaded rod 511 drives the carrying platform 504 to slide along the carrying guide rail 502, the rolling round shell 205 is fully rolled from the empty shell, the carrying platform 504 just slides to the other end from one end of the carrying guide rail 502, then the stepping motor 10 reverses the stroke again, the rolling round shell 205 fully rolled up can be pinched by the clamping finger cylinder 508 to be taken down, when the collision ball 510 contacts the slope of the triangular block 512, the zigzag round rod 509 and the movable frame 506 start to twist downwards, the collision ball 510 has a vibration effect when being extruded by the triangular block 512, further, the film and the clamping finger cylinder 508 are prevented from being bonded too tightly, and the movable frame 506 is reset through the reset spring 507.

The blanking assembly 6 comprises a central plate 601, two ends of the central plate 601 are provided with side wall shaft seats 602, one side of each side wall shaft seat 602 is provided with a blanking shaft seat 603, each blanking shaft seat 603 is rotatably connected with the corresponding side wall shaft seat 602 through a blanking belt 605, one blanking shaft seat 603 is mounted at the output end of a blanking motor 604, the blanking motor 604 is fixed on the side wall of one side wall shaft seat 602, two sides of the blanking belt 605 are provided with limiting flanges 606, each blanking belt 605 is provided with a plurality of rectangular rubber rings 607, then the rolling round shell 205 can reach one rectangular rubber ring 607 in the blanking assembly 6 to be thrown in, the rolling round shell 205 can be conveyed to the outer side of the device, and the material conveying process is also cooled.

Finally, the torsion shaft base 402 and the driven plate 403 can slide along the torsion guide rail 4, when the driven plate 403 is attached to the end of the loading square rod 204, the two ends of the rolling round shell 205 are clamped by the driven plate 403 and the locking plate 206, the rolling operation can be implemented by the rotation of the rolling round shell 205, the step motor 10 drives the roller set 201 to rotate through the speed reduction belt 1002, the roller set 201 drives the locking plate 206 to rotate, the locking plate 206 drives the loading square rod 204 and the rolling round shell 205 to rotate, the step motor 10 provides rolling power, after the rolling round shell 205 is filled with films, the two output ends of the double-head cylinder 405 stretch, the distance between the torsion shaft base 402 and the fixed shaft base 2 increases until the driven plate 403 on one side of the torsion shaft base 402 is separated from the end of the loading square rod 204, then the servo motor 12 drives the positioning turntable 13 to rotate by a certain angle through the rubber turntable, and the torsion shaft base 402 is separated from the processing station, avoiding an operation space for a subsequent processing technology, when the positioning rotary disc 13 needs to be reset, the output end of the servo motor 12 releases a load, the traction spring 1304 automatically pulls the positioning rotary disc 13 to restore to the original angle position, one output end of the double-head cylinder 405 is positioned at the position of the circle center of the positioning rotary disc 13, then the positioning rotary disc 13 does not influence the double-head cylinder 405 in the twisting process, the roller set 201 drives the rolling round shell 205 to rotate, one roller of the roller set 201 drives the first adjusting roller 701 and the bevel gear set 8 to rotate, the bevel gear set 8 drives the square tube 9 to slide along the bridging guide rail 3 in a reciprocating mode through the screw rod 801, when the adhesive rod 904 moves right above the cutting piece 11, the electric push rod 902 drives the adhesive rod 904 to fall down, one side of the cutting piece 11 close to the discharging module 102 is the front end, the adhesive rod 904 slides to the front end of the cutting piece 11 to fall down to the end of the adhesive film, then the film end slides to the position of the rolling round shell 205 to be attached, after the rolling round shell 205 is full, the adhesive rod 904 slides to the rear end of the cutting piece 11 to drop to cut off the film, the film end is hung on the cutting piece 11 when being cut off, the effect of automatically pulling the film end is realized, the manual operation is saved, and the safety is also increased, in the process of fully rolling the film, the roller set 201 also drives the threaded rod to rotate through the second driving belt 203, the threaded rod 511 drives the carrying platform 504 to slide along the carrying guide rail 502, the rolling round shell 205 is fully rolled from the empty shell, the carrying platform 504 just slides from one end to the other end of the carrying guide rail 502, then the stepping motor 10 reverses the stroke, the finger clamping cylinder 508 pinches the fully rolled round shell 205, when the collision ball 510 contacts the slope of the triangular block 512, the zigzag round rod 509 and the movable frame 506 start to turn downwards, conflict ball 510 still has the effect of vibrations when being extruded by triangle block 512, and then prevents that membrane and clamp finger cylinder 508 from gluing too closely, and adjustable shelf 506 resets through reset spring 507, and then rolling circle shell 205 can reach a rectangle rubber circle 607 in unloading subassembly 6 and put in, and rolling circle shell 205 can be carried the outside of device, and the in-process of material transport is also cooled off.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (8)

1. Novel automatic packing production line that carries of silica gel protection film, its characterized in that: the device comprises a base plate (1), a discharging module (102) is arranged at the end of the base plate (1), a material film (103) is pulled out of a port of the discharging module (102), a fixed shaft seat (2) is fixedly arranged at the top end of the base plate (1), a locking sheet (206) is arranged at one side of the fixed shaft seat (2), a filling square rod (204) is fixedly arranged at one side of the locking sheet (206), a round rod inserted into the inner side of the fixed shaft seat (2) is arranged at the other side of the locking sheet (206), a rolling round shell (205) is sleeved on the filling square rod (204), a stepping motor (10) is fixedly arranged at the bottom end of the base plate (1), an output roller (1001) is arranged at the output end of the stepping motor (10), a roller group (201) is arranged at the other side of the fixed shaft seat (2), and the roller group (201) is formed by combining three rollers, one roller of the roller group (201) is connected with an output roller (1001) through a speed reducing belt (1002), the roller group (201) is fixedly connected with the end of a round rod of a locking sheet (206), a bridging guide rail (3) is also fixedly installed at the top end of the base plate (1), a square pipe (9) is sleeved on the bridging guide rail (3), an extension sheet (901) is arranged at the bottom end of the square pipe (9), an electric push rod (902) is fixedly installed at the top end of the extension sheet (901), an output rod (903) is arranged at the output end of the electric push rod (902), two adhesive rods (904) are arranged at the bottom end of the output rod (903), a pushing nut (802) is fixedly installed at the top end of the square pipe (9), a lead screw (801) is inserted into the inner side of the pushing nut (802), a bevel gear group (8) is arranged at the end of the lead screw (801), and a first adjusting roller (701) is arranged on one bevel gear of the bevel gear group (8), one side of the first adjusting roller (701) is provided with a hoisting plate block (7), the hoisting plate block (7) is fixedly connected with a building, the first adjusting roller (701) is connected with one roller of the roller group (201) through a first driving belt (202), a cut-off piece (11) is further arranged in the middle of the base plate (1), one side, far away from the discharging module (102), of the base plate (1) is provided with a carrying assembly (5), and a discharging assembly (6) is arranged below the carrying assembly (5).

2. The automatic conveying and packaging production line for the novel silica gel protective film as claimed in claim 1, is characterized in that: the base plate (1) is fixedly connected with a building, reinforcing ribs (101) are arranged at two turning corners of the base plate (1), two torsion guide rails (4) are arranged at the bottom end of the base plate (1), an expansion sliding block (401) is sleeved on each torsion guide rail (4), the expansion sliding block (401) is in sliding connection with the torsion guide rails (4), a torsion shaft seat (402) is fixedly installed at the top end of each expansion sliding block (401), a driven plate (403) is arranged on one side of each torsion shaft seat (402), and a rectangular cavity matched with a filling square rod (204) is arranged on the side wall of each driven plate (403).

3. The automatic conveying and packaging production line for the novel silica gel protective film as claimed in claim 2, is characterized in that: the bottom of base plate (1) is provided with location carousel (13), and the centre of location carousel (13) is provided with and pierces through intubate (1301), be provided with on base plate (1) and alternate in the round bar (1302) that pierces through intubate (1301) inboard, it is detachable to alternate round bar (1302), the bottom of expansion slider (401) is provided with torque bearing (404), and torque bearing's (404) outer loop and torsion pedestal (402) lateral wall fixed connection, and torque bearing's (404) and the centre of alternating round bar (1302) are provided with double-end cylinder (405), and one of them output of double-end cylinder (405) alternates in torque bearing's (404) inner ring, and another output and the round bar (1302) swivelling joint of double-end cylinder (405).

4. The automatic conveying and packaging production line for the novel silica gel protective film as claimed in claim 3, is characterized in that: all be provided with traction ring (1303) on the lateral wall of location carousel (13) and base platform board (1), and connect through traction spring (1304) in the middle of two traction rings (1303), the both ends of traction spring (1304) are provided with and draw ring (1303) assorted couple, fixed mounting has servo motor (12) on the lateral wall of base platform board (1), rubber carousel (1201) are installed to the output of servo motor (12), be provided with on location carousel (13) and the corner piece (1305) of laminating mutually with rubber carousel (1201).

5. The automatic conveying and packaging production line for the novel silica gel protective film as claimed in claim 1, is characterized in that: the bottom end of the cutting piece (11) is fixedly connected with the top surface of the base plate (1) through four notches (1102), and the top end of the cutting piece (11) is provided with a plurality of installation flanges (1101).

6. The automatic conveying and packaging production line for the novel silica gel protective film as claimed in claim 1, is characterized in that: the carrying assembly (5) comprises an upright plate block (501), the upright plate block (501) is fixedly connected with a building, two carrying guide rails (502) are arranged on the side wall of the vertical plate (501), a carrying sliding block (503) is sleeved on the carrying guide rails (502), the carrying sliding block (503) is connected with the carrying guide rails (502) in a sliding manner, a carrying platform (504) is fixedly arranged on one side of the carrying sliding block (503), a translation shaft seat (505) is arranged on the side wall of the carrying platform (504), a movable frame (506) is arranged on one side of the translation shaft seat (505), the movable frame (506) is rotatably connected with the translation shaft seat (505), return springs (507) are arranged on both sides of the movable frame (506), the other end heads of the return springs (507) are fixedly connected with the side wall of the carrying platform (504), the side wall of the movable frame (506) is provided with a clamping finger cylinder (508), and the output end of the clamping finger cylinder (508) is provided with a bent clamping rod.

7. The automatic conveying and packaging production line for the novel silica gel protective film as claimed in claim 6, is characterized in that: one side of the finger clamping cylinder (508) is provided with a zigzag round rod (509), the zigzag round rod (509) passes through the movable frame (506), the end of the zigzag round rod (509) is provided with a collision ball (510), one side of the vertical plate (501) is provided with a triangular block (512), the triangular block (512) is fixedly connected with the side wall of the vertical plate (501) through a connecting column (513), the inclined plane of the triangular block (512) and the interference ball (510) are positioned on the same horizontal height, a threaded rod (511) is arranged between the vertical plate (501) and the carrying platform (504), a nut block matched with the threaded rod (511) is arranged on the carrying platform (504), the end of the threaded rod (511) is provided with a second adjusting roller (702), the second adjusting roller (702) is rotationally connected with the side wall of the hoisting plate block (7), and the second adjusting roller (702) and one of the rollers of the roller group (201) are connected through a second driving belt (203).

8. The automatic conveying and packaging production line for the novel silica gel protective film as claimed in claim 1, is characterized in that: unloading subassembly (6) are including well core plate (601), and the both ends of well core plate (601) all are provided with lateral wall axle bed (602), and one side of lateral wall axle bed (602) is provided with unloading axle bed (603), unloading axle bed (603) and lateral wall axle bed (602) swivelling joint, connect through unloading belt (605) between unloading axle bed (603), and one of them unloading axle bed (603) is installed on the output of unloading motor (604), and unloading motor (604) are fixed on the lateral wall of one of them lateral wall axle bed (602), the both sides of unloading belt (605) are provided with spacing turn-ups (606), and are provided with a plurality of rectangle rubber circle (607) on unloading belt (605).

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