CN217043272U - High-efficient two-sided spreading machine - Google Patents

Abstract

The invention discloses a high-efficiency double-sided glue spreader which comprises a bottom frame, wherein a host frame, a first processing table and a second processing table are fixedly mounted at the upper end of the bottom frame from left to right in sequence, a distribution box operating table is fixedly mounted at the upper end of the host frame, a release paper deviation rectifying sensor is fixedly mounted at the left part of the front end of the first processing table, a release film deviation rectifying sensor is fixedly mounted in the middle of the front end of the first processing table, a primary glue spreading mechanism is arranged at the upper end of the first processing table, a release paper unwinding mechanism and a release film unwinding mechanism are sequentially arranged at the front end of the first processing table from left to right, the release paper deviation rectifying sensor is positioned right above the release paper unwinding mechanism, and the release film deviation rectifying sensor is positioned right above the release film unwinding mechanism. The invention has the functions of constant-force unreeling, discontinuous gluing, constant reeling tension, reeling and material storage and the like, has compact structure, effectively improves the gluing efficiency and realizes the mechanical automation of the gluing process.

Description

High-efficient two-sided spreading machine

Technical Field

The utility model relates to a spreading machine technical field especially relates to a high-efficient double-sided spreading machine.

Background

The glue spreader is also called a coating machine, a spreading machine, an automatic glue sprayer and the like. A machine for applying liquid glue to textile, carton or leather surfaces, of which there are a large variety of types, such as: drum type gumming machine, double-acting gumming machine, double-station lifting gumming machine, etc. The coating machine sprays a liquid such as glue or paint onto the desired product by air pressure. The gluing equipment adopts three-axis linkage and automatic operation, and is simultaneously provided with a computer programming control path for spraying. The spraying thickness and time can be set, and the method is simple and easy to operate.

The existing double-sided glue coating machine is low in gluing efficiency and cannot realize mechanical automation of a gluing process, the existing double-sided glue coating machine lacks functions of constant-force unreeling, interrupted gluing, constant rolling tension, constant rolling material storage and the like, and cannot meet production requirements, so that the problem can be solved by the double-sided glue coating machine with the functions of constant-force unreeling, interrupted gluing, constant rolling tension, constant rolling material storage and the like.

SUMMERY OF THE UTILITY MODEL

To the problem, the utility model provides a high-efficient two-sided spreading machine has the constant force and unreels, is interrupted the function of functions such as rubber coating, rolling tension invariant, rolling stock to compact structure effectively improves rubber coating efficiency, has realized the mechanical automation of rubber coating technology.

The technical scheme of the utility model is that:

a high-efficiency double-sided glue spreader comprises a bottom frame, wherein a host frame, a first processing table and a second processing table are fixedly mounted on the upper end of the bottom frame from left to right in sequence, a distribution box operating table is fixedly mounted on the upper end of the host frame, a release paper deviation rectifying sensor is fixedly mounted on the left part of the front end of the first processing table, a release film deviation rectifying sensor is fixedly mounted in the middle of the front end of the first processing table, a primary glue spreading mechanism is arranged on the upper end of the first processing table, a release paper unwinding mechanism and a release film unwinding mechanism are sequentially arranged on the front end of the first processing table from left to right, the release paper deviation rectifying sensor is positioned right above the release paper unwinding mechanism, the release film deviation rectifying sensor is positioned right above the release film unwinding mechanism, a guide roller is fixedly mounted on the front end of the second processing table, and a secondary glue spreading mechanism and a code spraying machine are arranged on the upper end of the second processing table, bottom frame upper end right part is provided with winding mechanism, winding mechanism is located the second processing platform right-hand, the block terminal operation panel with from the type paper sensor of rectifying a deviation, from the type membrane sensor of rectifying a deviation, from the type paper unwinding mechanism, from equal electric connection between type membrane unwinding mechanism, once rubber coating mechanism, secondary rubber coating mechanism, winding mechanism, the ink jet numbering machine.

The working principle of the technical scheme is as follows:

the utility model discloses by rectifying the sensor from type paper, from type paper unwinding mechanism, rectify the sensor from type membrane and constitute from type membrane unwinding mechanism and unreel the part, constitute a rubber coating part by a rubber coating mechanism, constitute secondary rubber coating part by secondary rubber coating mechanism, constitute rolling part by winding mechanism, unreel the part with from type paper and emit from the type membrane, from type paper and pass through a rubber coating mechanism from the type membrane, a rubber coating die head is scribbled strippable glue on leaving the type membrane, once after the rubber coating from the type membrane with from the type paper complex, get into secondary rubber coating mechanism after the complex and carry out the secondary rubber coating, spout mark identification code through the ink jet numbering machine shower nozzle, the double faced adhesive that spouts the yard rubber coating and accomplish gets into winding mechanism, the automatic roll change that cuts off the double faced adhesive after the appointed meter number of winding mechanism rolling.

Unreeling the part from release paper: the release paper roll is fixed on a release paper unwinding mechanism through a first air expansion shaft, the first air expansion shaft is connected with a first magnetic powder brake through a first synchronous belt wheel and a first synchronous belt, a first tension sensor measures the release paper unwinding tension and feeds the release paper unwinding tension to a distribution box operation table, the distribution box operation table adjusts first magnetic powder brake power moment, constant tension unwinding is completed, whether the release paper unwinding position is correct is sensed by a release paper deviation correction sensor, the release paper deviation correction sensor feeds the release paper position to the distribution box operation table, the distribution box operation table controls deviation correction servo rotation of the release paper, deviation correction servo drive first ball screw rotation of the release paper, the first ball screw drives the release paper unwinding mechanism to move, and release paper is always at the same position when being unwound.

Unreeling a release film: the function of the unreeling part is the same as that of the release paper.

A primary gluing part: the primary die head moving cylinder drives the primary gluing die head to be close to the release film, the primary gluing servo drives the primary gluing roller and the composite roller to rotate through the second synchronous belt wheel and the second synchronous belt, the primary gluing roller rotates to drive the release film to move, the primary gluing solenoid valve controls the primary gluing die head to start gluing, the distribution box operating console stops gluing at a set position by controlling the primary gluing solenoid valve and the primary gluing die head, the intermittent gluing process is realized, the release film coated with primary glue is compounded with the release film and the release paper through the composite roller and the composite rubber roller, and the primary gluing process is completed after compounding.

And a secondary gluing part: the secondary die head moving cylinder drives the secondary gluing die head to be close to the double faced adhesive tape after primary gluing, the secondary gluing servo drives the secondary gluing roller to rotate through a fourth synchronous belt wheel and a fourth synchronous belt, the secondary gluing roller rotates to drive the double faced adhesive tape after primary gluing to move, the secondary gluing solenoid valve works to control the secondary gluing die head to start gluing, the distribution box operating console stops gluing at a set position through controlling the secondary gluing solenoid valve and the secondary gluing die head to achieve a discontinuous gluing process, and the distribution box operating console controls the code spraying machine nozzle to spray a mark identification code at an appointed position.

A winding part: a rolling deviation rectifying sensor detects the position of double faced adhesive tape and feeds back the position to a distribution box operation table, the distribution box operation table controls rolling deviation rectifying servo rotation, the rolling deviation rectifying servo drives a ball screw to rotate, the ball screw drives rolling movement, the position is always the same as the position when the double faced adhesive tape is rolled, a first rolling air expanding shaft is inflated to fix a rolling tube core, a first rolling motor drives an input shaft of a magnetic powder clutch to rotate through a synchronous belt pulley and the synchronous belt, an output shaft of the magnetic powder clutch drives a first rolling air expanding shaft and the rolling tube core to rotate through the synchronous belt pulley and the synchronous belt to roll, the distribution box operation table controls the first magnetic powder clutch to enable rolling tension to be constant in the rolling process, the rolling rotation servo operation drives a rotary bearing to rotate after the rolling reaches a specified number, the rotary bearing drives a rotary part of a double-station rolling mechanism to rotate, a second rolling air expanding shaft enters a rolling station, and the second rolling air expanding shaft is inflated to fix the rolling tube core, the double faced adhesive tape passes through first double faced adhesive tape guiding axle and deposits the material roller, and it is rotatory that the material is servo to drive the material stock transmission shaft through third synchronous belt drive part, and the material stock transmission shaft drives through depositing material roller hold-in range and deposits the material roller and remove, and the material stock roller drives the double faced adhesive tape and removes and accomplish the material stock process. The cutting mechanism moving cylinder drives the double faced adhesive tape cutting mechanism to move along the cutting mechanism moving guide rail, the cutting mechanism rotating cylinder drives the double faced adhesive tape cutting mechanism to rotate around a cutting mechanism rotating shaft, the second double faced adhesive tape guide shaft presses the double faced adhesive tape to the winding tube core, the cutter moving cylinder drives the cutting blade to move to cut off the double faced adhesive tape, and the cutting mechanism moving cylinder and the cutting mechanism rotating cylinder drive the double faced adhesive tape cutting mechanism to reset. And the second winding motor drives the second winding air expansion shaft to rotate through the second magnetic powder clutch to continue winding.

In a further technical scheme, release paper unwinding mechanism includes a first mount, first mount right-hand member fixed mounting is from the paper servo of rectifying a deviation, it is from the first ball screw that the servo output end fixed mounting of rectifying a deviation from the paper, first ball screw transmission is connected with first mounting bracket, first mounting bracket left end middle part is provided with first inflatable shaft, first inflatable shaft right-hand member activity runs through first mounting bracket and extends to first mounting bracket right-hand, first mounting bracket left end upper portion fixed mounting has first tension sensor, first mounting bracket right-hand member lower part fixed mounting has first magnetic brake, first magnetic brake output and the equal fixed mounting of first inflatable shaft right-hand member have first synchronous pulley, two first synchronous pulley has cup jointed first synchronous belt jointly between the first synchronous pulley.

The release paper unwinding tension is measured through setting up first tension sensor and is fed back to block terminal operation panel, and first magnetic brake power moment is adjusted to the block terminal operation panel, accomplishes permanent tension and unreels, whether correct from the release paper unwinding position of sensor response of rectifying through setting up, through block terminal operation panel control from the servo rotation of rectifying of release paper, it is rotatory to rectify servo drive first ball from the release paper, first ball drives from the release paper unwinding mechanism removal, make and be in same position all the time when unreeling from the release paper.

In a further technical scheme, it includes the second mount to follow type membrane unwinding mechanism, second mount right-hand member fixed mounting is from type membrane rectification servo, it has second ball screw to follow type membrane rectification servo output end fixed mounting, second ball screw transmission is connected with the second mounting bracket, second mounting bracket left end middle part is provided with the second inflatable shaft, second inflatable shaft right-hand member activity runs through the second mounting bracket and extends to the second mounting bracket right-hand, second mounting bracket left end upper portion fixed mounting has second tension sensor, second mounting bracket right-hand member middle part fixed mounting has the second magnetic brake, second magnetic brake output and the equal fixed mounting of second inflatable shaft right-hand member have the second synchronous pulley, two the second hold-in range has cup jointed jointly between the second synchronous pulley.

The function of the unreeling part is the same as that of the release paper.

In a further technical scheme, the primary glue coating mechanism comprises third mounting racks, a composite rubber roll, a composite roll and a primary glue coating roll are sequentially arranged between the third mounting racks from left to right, the rear ends of the primary glue coating roller and the composite roller movably penetrate through the third mounting rack and extend to the rear of the third mounting rack, a primary gluing die head is arranged between the third mounting racks, a primary gluing electromagnetic valve is arranged at the right end of the primary gluing die head, a primary die head moving cylinder is fixedly arranged at the right part between the third mounting frames and is in transmission connection with a primary gluing die head, third mounting bracket rear end middle part fixed mounting has a rubber coating servo, the equal fixed mounting in rubber coating servo output, a rubber coating roller rear end and compound roller rear end has third synchronous pulley, and is three the third hold-in range has cup jointed jointly between the third synchronous pulley.

A die head moving cylinder is arranged to drive a primary gluing die head to be close to a release film, a gluing roller rotates to drive the release film to move, a gluing solenoid valve works to control the primary gluing die head to start gluing, and a distribution box operating platform controls the primary gluing solenoid valve and the primary gluing die head to stop gluing at a set position, so that an interrupted gluing process is realized.

In a further technical scheme, the secondary glue coating mechanism comprises fourth mounting frames, a secondary glue coating roller is arranged between the fourth mounting frames, the rear end of the secondary glue coating roller movably penetrates through the fourth mounting frames and extends to the rear of the fourth mounting frames, an ink jet printer nozzle is fixedly mounted at the upper end of the fourth mounting frames and is positioned right above the secondary glue coating roller, a secondary glue coating die head is arranged in the middle between the fourth mounting frames, a secondary glue coating electromagnetic valve is fixedly mounted at the left end of the secondary glue coating die head, a secondary die head moving cylinder is fixedly mounted at the left part between the fourth mounting frames and is in transmission connection with the secondary glue coating die head, a secondary glue coating servo is fixedly mounted in the middle of the rear end of the fourth mounting frames, and fourth synchronous belt wheels are fixedly mounted at the output end of the secondary glue coating servo and the rear end of the secondary glue coating roller, and a fourth synchronous belt is sleeved between the two fourth synchronous belt wheels.

The intermittent gluing process is realized by controlling a secondary gluing electromagnetic valve and a secondary gluing die head to stop gluing at a set position through a distribution box operating platform, and the distribution box operating platform controls a spray head of a code spraying machine to spray a mark identification code at an appointed position.

In a further technical scheme, the inkjet printer nozzle is electrically connected with the inkjet printer.

The ink jet numbering machine is prior art, realizes spouting the sign indicating number through the ink jet numbering machine shower nozzle.

In a further technical scheme, the winding mechanism includes the third mount, third mount rear end fixed mounting has the rolling servo of rectifying, the rolling servo output end fixed mounting that rectifies has the third ball screw, the transmission of third ball screw is connected with the fifth mounting bracket, fifth mounting bracket upper end fixed mounting has the rolling sensor of rectifying, inside rolling stock mechanism, duplex position winding mechanism and the double faced adhesive tape cutting mechanism of having set gradually from the front to the back of fifth mounting bracket, the rolling sensor of rectifying is located the duplex position directly over the winding mechanism.

The double faced adhesive tape position is detected and is fed back to the distribution box operation panel through setting up the rolling sensor of rectifying, and the distribution box operation panel control rolling servo rotation of rectifying, the rolling servo drive ball of rectifying is rotatory, and ball drives the rolling and removes, makes when leaving the double faced adhesive tape rolling always in same position.

In a further technical scheme, the double-station winding mechanism comprises a winding rotation servo, a slewing bearing, a winding motor II, a magnetic powder clutch II, a winding motor I and a magnetic powder clutch I, wherein the winding rotation servo is in transmission connection with the slewing bearing, the winding motor II is in transmission connection with the magnetic powder clutch II, a winding air expansion shaft II is fixedly mounted at the output end of the magnetic powder clutch II, a first synchronous belt transmission part is in transmission connection between the winding motor I and the magnetic powder clutch I, a second synchronous belt transmission part is fixedly mounted at the output end of the magnetic powder clutch I, a winding air expansion shaft I is in transmission connection with the second synchronous belt transmission part, and the winding air expansion shaft I is located right above the winding air expansion shaft II.

The winding tension is constant in the winding process by setting the distribution box operating console to control the magnetic powder clutch.

In a further technical scheme, double faced adhesive tape cutting mechanism includes the fixed plate, fixed plate left end fixed mounting has cutting mechanism moving cylinder, fixed plate upper end swing joint has two cutting mechanism moving guide, fixed plate lower extreme swing joint has the cutting mechanism rotation axis, cutting mechanism rotation axis external surface fixed connection has the fly leaf, be provided with cutting mechanism revolving cylinder between fixed plate and the fly leaf jointly, fly leaf lower extreme middle part fixed mounting has first double faced adhesive tape guiding axle, fly leaf lower extreme lower part fixed mounting has cutter moving cylinder, cutter moving cylinder output end fixed mounting decides the blade.

The cutting mechanism moving cylinder is arranged to drive the double faced adhesive tape cutting mechanism to move along the cutting mechanism moving guide rail, the cutting mechanism rotating cylinder drives the double faced adhesive tape cutting mechanism to rotate around the cutting mechanism rotating shaft, the second double faced adhesive tape guide shaft compresses the double faced adhesive tape to the winding tube core, and the cutter moving cylinder drives the cutting blade to move to cut off the double faced adhesive tape.

In a further technical scheme, rolling stock mechanism is including the stock servo and stock transmission shaft, be provided with third synchronous belt drive part between servo output of stock and the stock transmission shaft rear end jointly, stock transmission shaft surface is provided with the stock roller hold-in range of two front and back symmetries, two stock roller hold-in range from left to right in proper order jointly the transmission be connected with the second double faced adhesive tape guiding axle and stock the roller.

After the rolling reaches the specified number of meters, rolling rotation servo work drives a rotary bearing to rotate, the rotary bearing drives a double-station rolling mechanism to rotate, a second rolling air expansion shaft enters a rolling station, the second rolling air expansion shaft is inflated to fix a rolling tube core, double-faced adhesive tape passes through a first double-faced adhesive tape guide shaft and a material storage roller, the material storage servo drives a material storage transmission shaft to rotate through a third synchronous belt transmission component, the material storage transmission shaft drives the material storage roller to move through a material storage roller synchronous belt, and the material storage roller drives the double-faced adhesive tape to move to complete a material storage process.

The utility model has the advantages that:

1. the unwinding tension of the release paper is measured by arranging a first tension sensor and fed back to a distribution box operating platform, the distribution box operating platform adjusts a first magnetic powder brake power moment to finish constant tension unwinding, whether the unwinding position of the release paper is correct is sensed by arranging a release paper deviation correction sensor, deviation correction servo rotation of the release paper is controlled by the distribution box operating platform, the release paper deviation correction servo drives a second ball screw to rotate, and the second ball screw drives a release paper unwinding mechanism to move, so that the release paper is always at the same position when being unwound;

2. a primary die head moving cylinder is arranged to drive a primary gluing die head to be close to a release film, a primary gluing roller rotates to drive the release film to move, a primary gluing electromagnetic valve works to control the primary gluing die head to start gluing, and a distribution box operating platform controls the primary gluing electromagnetic valve and the primary gluing die head to stop gluing at a set position, so that an intermittent gluing process is realized;

3. the intermittent gluing process is realized by controlling a secondary gluing electromagnetic valve and a secondary gluing die head to stop gluing at a set position through a distribution box operating platform, and controlling a spray head of a code spraying machine to spray a mark identification code at an appointed position through the distribution box operating platform;

4. the position of the double faced adhesive tape is detected and fed back to a distribution box operation console by arranging a winding deviation rectifying sensor, the distribution box operation console controls a winding deviation rectifying servo to rotate, the winding deviation rectifying servo drives a ball screw to rotate, and the ball screw drives a winding movement to enable the double faced adhesive tape to be always at the same position when being wound;

5. the winding tension in the winding process is constant by arranging a distribution box operating console to control the magnetic powder clutch I;

6. the cutting mechanism moving cylinder is arranged to drive the double-sided adhesive tape cutting mechanism to move along the cutting mechanism moving guide rail, the cutting mechanism rotating cylinder drives the double-sided adhesive tape cutting mechanism to rotate around a cutting mechanism rotating shaft, the second double-sided adhesive tape guiding shaft presses the double-sided adhesive tape onto the winding tube core, and the cutter moving cylinder drives the cutting blade to move to cut off the double-sided adhesive tape;

7. after the rolling reaches the specified number of meters, rolling rotation servo work drives a rotary bearing to rotate, the rotary bearing drives a double-station rolling mechanism to rotate, a second rolling air expansion shaft enters a rolling station, the second rolling air expansion shaft is inflated to fix a rolling tube core, double-faced adhesive tape passes through a first double-faced adhesive tape guide shaft and a material storage roller, the material storage servo drives a material storage transmission shaft to rotate through a third synchronous belt transmission component, the material storage transmission shaft drives the material storage roller to move through a material storage roller synchronous belt, and the material storage roller drives the double-faced adhesive tape to move to complete a material storage process.

Drawings

FIG. 1 is a schematic view of the overall structure of a high-efficiency double-sided glue spreader of the present invention;

FIG. 2 is a schematic view of a part of the structure of the high-efficiency double-sided adhesive coating machine of the present invention;

FIG. 3 is a schematic view of the overall structure of the release paper unwinding mechanism of the high-efficiency double-sided adhesive coating machine of the present invention;

FIG. 4 is a schematic view of the overall structure of the release film unwinding mechanism of the high-efficiency double-sided adhesive coating machine of the present invention;

FIG. 5 is a schematic view of the overall structure of the primary glue application mechanism of the high-efficiency double-sided glue application machine of the present invention;

FIG. 6 is a schematic view of the overall structure of the secondary gluing mechanism of the high-efficiency double-sided gluing machine of the present invention;

fig. 7 is a schematic view of the overall structure of the winding mechanism of the high-efficiency double-sided glue spreader of the present invention;

fig. 8 is a schematic view of a part of the structure of the double-station winding mechanism of the high-efficiency double-sided glue spreader of the present invention;

fig. 9 is a schematic view of a part of the structure of the double-station winding mechanism of the high-efficiency double-sided glue spreader of the present invention;

fig. 10 is a schematic view of the overall structure of the double-sided adhesive cutting mechanism of the high-efficiency double-sided adhesive coating machine of the present invention;

fig. 11 is the overall structure diagram of the winding and material storing mechanism of the high-efficiency double-sided glue spreader of the present invention.

Description of the reference numerals:

1. a bottom frame; 2. a host frame; 3. a distribution box operating table; 4. a first processing table; 5. a second processing table; 6. a deviation rectifying sensor for release paper; 7. a deviation rectifying sensor for the release film; 8. a guide roller; 9. a release paper unreeling mechanism; 10. a release film unwinding mechanism; 11. a primary gluing mechanism; 12. a secondary gluing mechanism; 13. A winding mechanism; 14. an ink jet printer; 21. a first fixing frame; 22. deviation correction servo of release paper; 23. a first ball screw; 24. a first mounting bracket; 25. a first air shaft; 26. a first timing pulley; 27. a first synchronization belt; 28. braking by first magnetic powder; 29. a first tension sensor; 31. a second fixing frame; 32. deviation rectification servo of the release film; 33. a second ball screw; 34. a second mounting bracket; 35. a second inflatable shaft; 36. a second tension sensor; 37. a second timing pulley; 38. a second synchronous belt; 39. braking by using second magnetic powder; 41. A third mounting bracket; 42. primary gluing servo; 43. a third timing pulley; 44. a third synchronous belt; 45. Primary glue spreading roller; 46. compounding the rolls; 47. compounding rubber rollers; 48. a primary die head moving cylinder; 49. a primary gluing die head; 50. a primary gluing electromagnetic valve; 51. a fourth mounting bracket; 52. secondary gluing servo; 53. A fourth timing pulley; 54. a fourth synchronous belt; 55. secondary glue spreading roller; 56. a sprayer of the ink-jet printer; 57. a secondary gluing die head; 58. a secondary gluing electromagnetic valve; 59. a secondary die head moving cylinder; 61. a third fixing frame; 62. a fifth mounting bracket; 63. a winding deviation rectifying sensor; 64. a double-sided adhesive tape cutting mechanism; 65. a double-station winding mechanism; 66. winding deviation rectifying servo; 67. a third ball screw; 68. a material winding and storing mechanism; 71. rolling and rotating servo; 72. a slew bearing; 73. a second winding motor; 74. a second magnetic powder clutch; 75. a first winding motor; 76. a magnetic powder clutch I; 77. a first timing belt transmission member; 78. a second synchronous belt transmission component; 79. winding a first air expansion shaft; 80. winding a second air expansion shaft; 81. the cutting mechanism moves the air cylinder; 82. the cutting mechanism rotates the cylinder; 83. a cutter moving cylinder; 84. cutting off a blade; 85. a first double-sided adhesive guide shaft; 86. the cutting mechanism moves the guide rail; 87. a cutting mechanism rotating shaft; 88. a fixing plate; 89. a movable plate; 91. Storing materials for servo; 92. a third synchronous belt drive component; 93. a material storage transmission shaft; 94. a second double-sided adhesive guide shaft; 95. a material storage roller; 96. the material storage roller is synchronous with the belt.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

The embodiment is as follows:

as shown in fig. 1-11, a high-efficiency double-sided glue spreader comprises a bottom frame 1, wherein a host frame 2, a first processing table 4 and a second processing table 5 are fixedly installed at the upper end of the bottom frame 1 from left to right in sequence, a distribution box operating table 3 is fixedly installed at the upper end of the host frame 2, a release paper deviation-correcting sensor 6 is fixedly installed at the left part of the front end of the first processing table 4, a release film deviation-correcting sensor 7 is fixedly installed at the middle part of the front end of the first processing table 4, a primary glue spreading mechanism 11 is arranged at the upper end of the first processing table 4, a release paper unwinding mechanism 9 and a release film unwinding mechanism 10 are sequentially installed at the front end of the first processing table 4 from left to right, the release paper deviation-correcting sensor 6 is positioned right above the release paper unwinding mechanism 9, the release film deviation-correcting sensor 7 is positioned right above the release film unwinding mechanism 10, a guide roller 8 is fixedly installed at the front end of the second processing table 5, the utility model discloses a plastic film coating machine, including second processing platform 5, bottom frame 1, distribution box operation panel 3, first rubber coating mechanism 11, secondary rubber coating mechanism 12, winding mechanism 13, the equal electric connection between second processing platform 5 upper end is provided with secondary rubber coating mechanism 12 and ink jet numbering machine 14, 1 upper end right part of bottom frame is provided with winding mechanism 13, winding mechanism 13 is located second processing platform 5 right-hand, distribution box operation panel 3 with from type paper deviation correcting sensor 6, from type membrane deviation correcting sensor 7, from type paper unwinding mechanism 9, from type membrane unwinding mechanism 10, a rubber coating mechanism 11, secondary rubber coating mechanism 12, winding mechanism 13, ink jet numbering machine 14.

The working principle of the technical scheme is as follows:

the utility model discloses by rectifying sensor 6 from type paper, from type paper unwinding mechanism 9, rectify sensor 7 from type membrane and constitute from type membrane unwinding mechanism 10 and unreel the part, constitute a rubber coating part by a rubber coating mechanism 11, constitute secondary rubber coating part by secondary rubber coating mechanism 12, constitute the rolling part by winding mechanism 13, unreel the part from type paper with emit from the type membrane, from type paper with pass through a rubber coating mechanism 11 from the type membrane, a rubber coating die head 49 coats strippable glue on from the type membrane, after once rubber coating from the type membrane with from the type paper complex, get into secondary rubber coating mechanism 12 after the complex and carry out the secondary rubber coating, spout mark identification code through ink jet numbering machine shower nozzle 56, the double faced adhesive that the rubber coating spouts a yard completion gets into winding mechanism 13, automatic roll change that cuts off the double faced adhesive after the appointed meter number of winding mechanism 13 rolling.

Unreeling part from release paper: the release paper roll is fixed on a release paper unreeling mechanism 9 through a first air swelling shaft 25, the first air swelling shaft 25 is connected with a first magnetic powder brake 28 through a first synchronous belt wheel 26 and a first synchronous belt 27, a first tension sensor 29 measures release paper unreeling tension and feeds the release paper unreeling tension to a distribution box operation table 3, the distribution box operation table 3 adjusts the first magnetic powder brake 28 kinetic moment to complete constant tension unreeling, a release paper deviation correction sensor 6 senses whether the release paper unreeling position is correct or not, the release paper deviation correction sensor 6 feeds the release paper position to the distribution box operation table 3, the distribution box operation table 3 controls a release paper deviation correction servo 22 to rotate, the release paper deviation correction servo 22 drives a first ball screw 23 to rotate, the first ball screw 23 drives the release paper unreeling mechanism 9 to move, and the release paper is always located at the same position when unreeling.

Unreeling the part from a release film: the function of the unreeling part is the same as that of the release paper.

A primary gluing part: the primary die head moving cylinder 48 drives the primary gluing die head 49 to be close to the release film, the primary gluing servo 42 drives the primary gluing roller 45 and the composite roller 46 to rotate through the second synchronous belt wheel 37 and the second synchronous belt 38, the primary gluing roller 45 drives the release film to move, the primary gluing solenoid valve 50 controls the primary gluing die head 49 to start gluing in operation, the distribution box operating platform 3 stops gluing at a set position by controlling the primary gluing solenoid valve 50 and the primary gluing die head 49 to realize an intermittent gluing process, the release film which is glued once is combined with the release paper through the composite roller 46 and the composite rubber roller 47, and the primary gluing process is completed after the combination.

And a secondary gluing part: the secondary die head moving cylinder 59 drives the secondary gluing die head 57 to be close to the double-sided adhesive tape after primary gluing, the secondary gluing servo 52 drives the secondary gluing roller 55 to rotate through the fourth synchronous belt wheel 53 and the fourth synchronous belt 54, the secondary gluing roller 55 rotates to drive the double-sided adhesive tape after primary gluing to move, the secondary gluing solenoid valve 58 works to control the secondary gluing die head 57 to start gluing, the distribution box operating platform 3 stops gluing at a set position through controlling the secondary gluing solenoid valve 58 and the secondary gluing die head 57 to realize an intermittent gluing process, and the distribution box operating platform 3 controls the inkjet printer nozzle 56 to spray a mark identification code at a specified position.

A winding part: the winding deviation-rectifying sensor 63 detects the position of the double faced adhesive tape and feeds back the position to the distribution box operating platform 3, the distribution box operating platform 3 controls the winding deviation-rectifying servo 66 to rotate, the winding deviation-rectifying servo 66 drives the ball screw to rotate, the ball screw drives the winding movement to enable the double faced adhesive tape to be always at the same position when being wound, the winding air-expanding shaft I79 is inflated to fix the winding tube core, the winding motor I75 drives the input shaft of the magnetic powder clutch I76 to rotate through the synchronous belt pulley and the synchronous belt, the output shaft of the magnetic powder clutch I76 drives the winding air-expanding shaft I79 and the winding tube core to rotate through the synchronous belt pulley and the synchronous belt to wind, the distribution box operating platform 3 controls the magnetic powder clutch I76 to enable the winding tension to be constant in the winding process, the winding rotation servo 71 works to drive the rotary bearing 72 to rotate after the winding reaches a specified number, and the rotary bearing 72 drives the double-station winding mechanism 65 to rotate partially, the second winding air expansion shaft 80 enters a winding station, the second winding air expansion shaft 80 is inflated to fix a winding tube core, the double faced adhesive tape passes through the first double faced adhesive tape guide shaft 85 and the material storage roller 95, the material storage servo 91 drives the material storage transmission shaft 93 to rotate through the third synchronous belt transmission component 92, the material storage transmission shaft 93 drives the material storage roller 95 to move through the material storage roller synchronous belt 96, and the material storage roller 95 drives the double faced adhesive tape to move to complete the material storage process. The cutting mechanism moving cylinder 81 drives the double-sided tape cutting mechanism 64 to move along the cutting mechanism moving guide rail 86, the cutting mechanism rotating cylinder 82 drives the double-sided tape cutting mechanism 64 to rotate around the cutting mechanism rotating shaft 87, the second double-sided tape guide shaft 94 presses the double-sided tape onto the winding tube core, the cutter moving cylinder 83 drives the cutting blade 84 to move to cut off the double-sided tape, and the cutting mechanism moving cylinder 81 and the cutting mechanism rotating cylinder 82 drive the double-sided tape cutting mechanism 64 to reset. The second winding motor 73 drives the second winding air expansion shaft 80 to rotate through the second magnetic powder clutch 74 to continue winding.

In another embodiment, the release paper unwinding mechanism 9 includes a first fixing frame 21, a release paper deviation rectifying servo 22 is fixedly mounted at the right end of the first fixing frame 21, a first ball screw 23 is fixedly installed at the output end of the release paper deviation rectifying servo 22, the first ball screw 23 is in transmission connection with a first mounting frame 24, a first air expansion shaft 25 is arranged in the middle of the left end of the first mounting frame 24, the right end of the first air expansion shaft 25 movably penetrates through the first mounting frame 24 and extends to the right of the first mounting frame 24, a first tension sensor 29 is fixedly arranged at the upper part of the left end of the first mounting frame 24, a first magnetic powder brake 28 is fixedly arranged at the lower part of the right end of the first mounting frame 24, the output end of the first magnetic powder brake 28 and the right end of the first air expansion shaft 25 are both fixedly provided with a first synchronous belt pulley 26, and a first synchronous belt 27 is sleeved between the two first synchronous belt pulleys 26. It feeds back to block terminal operation panel 3 to measure from type paper unwinding tension through setting up first tension sensor 29, block terminal operation panel 3 adjusts first magnetic brake 28 moment of power, accomplish the constant tension and unreel, whether correct from type paper unwinding position is responded to from the sensing of type paper sensor 6 of rectifying a deviation through setting up, it is rotatory from type paper servo 22 of rectifying a deviation to control through block terminal operation panel 3, it is rotatory to drive first ball 23 from type paper servo 22 of rectifying a deviation, first ball 23 drives from type paper unwinding mechanism 9 removal, make all the time at same position when unreeling from type paper.

In another embodiment, the release film unwinding mechanism 10 includes a second fixing frame 31, a release film deviation rectifying servo 32 is fixedly arranged at the right end of the second fixing frame 31, a second ball screw 33 is fixedly arranged at the output end of the release film deviation rectifying servo 32, the second ball screw 33 is connected with a second mounting rack 34 in a transmission way, a second air expansion shaft 35 is arranged in the middle of the left end of the second mounting rack 34, the right end of the second air inflation shaft 35 movably penetrates through the second mounting rack 34 and extends to the right of the second mounting rack 34, a second tension sensor 36 is fixedly arranged at the upper part of the left end of the second mounting rack 34, a second magnetic powder brake 39 is fixedly arranged at the middle part of the right end of the second mounting rack 34, and a second synchronous belt wheel 37 is fixedly mounted at the output end of the second magnetic powder brake 39 and at the right end of the second air expansion shaft 35, and a second synchronous belt 38 is sleeved between the second synchronous belt wheels 37. The function of the unreeling part is the same as that of the release paper.

In another embodiment, the primary gluing mechanism 11 includes a third mounting frame 41, a composite rubber roller 47, a composite roller 46 and a primary gluing roller 45 are sequentially arranged between the third mounting frame 41 from left to right, the rear ends of the primary gluing roller 45 and the composite roller 46 are movably penetrated through the third mounting frame 41 and extend to the rear of the third mounting frame 41, a primary gluing die 49 is arranged between the third mounting frame 41, a primary gluing solenoid valve 50 is arranged at the right end of the primary gluing die 49, a primary die moving cylinder 48 is fixedly arranged at the right part between the third mounting frame 41, the primary die moving cylinder 48 is in transmission connection with the primary die 49, a primary gluing servo 42 is fixedly arranged at the middle part of the rear end of the third mounting frame 41, and third synchronous belt wheels 43 are fixedly arranged at the output end of the primary gluing servo 42, the rear end of the primary gluing roller 45 and the rear end of the composite roller 46, a third timing belt 44 is sleeved between the three third timing pulleys 43. The primary gluing die head 49 is driven to be close to the release film by the primary die head moving cylinder 48, the primary gluing roller 45 rotates to drive the release film to move, the primary gluing solenoid valve 50 works to control the primary gluing die head 49 to start gluing, and the distribution box operating platform 3 controls the primary gluing solenoid valve 50 and the primary gluing die head 49 to stop gluing at a set position, so that an intermittent gluing process is realized.

In another embodiment, the secondary glue coating mechanism 12 includes a fourth mounting frame 51, a secondary glue coating roller 55 is arranged between the fourth mounting frame 51, the rear end of the secondary glue coating roller 55 movably penetrates through the fourth mounting frame 51 and extends to the rear of the fourth mounting frame 51, an ink jet printer nozzle 56 is fixedly mounted at the upper end of the fourth mounting frame 51, the ink jet printer nozzle 56 is located right above the secondary glue coating roller 55, a secondary glue coating die head 57 is arranged at the middle part between the fourth mounting frame 51, a secondary glue coating electromagnetic valve 58 is fixedly mounted at the left end of the secondary glue coating die head 57, a secondary die head moving cylinder 59 is fixedly mounted at the left part between the fourth mounting frame 51, the secondary die head moving cylinder 59 is in transmission connection with the secondary glue coating die head 57, a secondary glue coating servo 52 is fixedly mounted at the middle part of the rear end of the fourth mounting frame 51, a fourth synchronous belt pulley 53 is fixedly mounted at both the output end of the secondary glue coating servo 52 and the rear end of the secondary glue coating roller 55, a fourth timing belt 54 is commonly sleeved between the two fourth timing pulleys 53. The intermittent gluing process is realized by controlling the secondary gluing electromagnetic valve 58 and the secondary gluing die head 57 to stop gluing at the set position through the distribution box operating platform 3, and the distribution box operating platform 3 controls the ink jet printer nozzle 56 to spray the mark identification code at the designated position.

In another embodiment, the inkjet printer head 56 is electrically connected to the inkjet printer 14. The inkjet printer 14 is prior art and implements inkjet printing via inkjet printer head 56.

In another embodiment, the winding mechanism 13 includes a third fixing frame 61, a winding deviation rectifying servo 66 is fixedly mounted at the rear end of the third fixing frame 61, a third ball screw 67 is fixedly mounted at an output end of the winding deviation rectifying servo 66, the third ball screw 67 is connected with a fifth mounting frame 62 in a transmission manner, a winding deviation rectifying sensor 63 is fixedly mounted at the upper end of the fifth mounting frame 62, a winding material storing mechanism 68, a double-station winding mechanism 65 and a double-sided adhesive tape cutting mechanism 64 are sequentially arranged in the fifth mounting frame 62 from front to back, and the winding deviation rectifying sensor 63 is located over the double-station winding mechanism 65. Detect the double faced adhesive tape position through setting up rolling sensor 63 and feed back to block terminal operation panel 3, block terminal operation panel 3 control rolling servo 66 rotation of rectifying, and rolling servo 66 that rectifies drives ball and rotates, and ball drives the rolling and removes, makes all the time in same position when leaving the double faced adhesive tape rolling.

In another embodiment, the double-station rolling mechanism 65 comprises a rolling rotation servo 71, a rotary bearing 72, a second rolling motor 73, a second magnetic powder clutch 74, a first rolling motor 75 and a first magnetic powder clutch 76, the rolling rotation servo 71 is in transmission connection with a rotary bearing 72, the second rolling motor 73 is in transmission connection with the second magnetic powder clutch 74, the second winding motor 73 is in transmission connection with the second magnetic powder clutch 74, the second winding air expansion shaft 80 is fixedly installed at the output end of the second magnetic powder clutch 74, a first synchronous belt transmission part 77 is connected between the first winding motor 75 and the first magnetic powder clutch 76 in a transmission way, the output end of the first magnetic powder clutch 76 is fixedly provided with a second synchronous belt transmission component 78, the second synchronous belt transmission component 78 is in transmission connection with a first winding air expansion shaft 79, and the first winding air expansion shaft 79 is located right above a second winding air expansion shaft 80. The first magnetic powder clutch 76 is controlled by arranging the distribution box operating platform 3 to enable the winding tension to be constant in the winding process.

In another embodiment, the double-sided adhesive tape cutting mechanism 64 includes a fixed plate 88, a cutting mechanism moving cylinder 81 is fixedly mounted at the left end of the fixed plate 88, two cutting mechanism moving guide rails 86 are movably connected to the upper end of the fixed plate 88, a cutting mechanism rotating shaft 87 is movably connected to the lower end of the fixed plate 88, a movable plate 89 is fixedly connected to the outer surface of the cutting mechanism rotating shaft 87, a cutting mechanism rotating cylinder 82 is commonly disposed between the fixed plate 88 and the movable plate 89, a first double-sided adhesive guiding shaft 85 is fixedly mounted at the middle of the lower end of the movable plate 89, a cutter moving cylinder 83 is fixedly mounted at the lower end of the movable plate 89, and a cutting blade 84 is fixedly mounted at the output end of the cutter moving cylinder 83. The cutting mechanism moving cylinder 81 is arranged to drive the double-sided adhesive tape cutting mechanism 64 to move along the cutting mechanism moving guide rail 86, the cutting mechanism rotating cylinder 82 drives the double-sided adhesive tape cutting mechanism 64 to rotate around the cutting mechanism rotating shaft 87, the second double-sided adhesive tape guide shaft 94 presses the double-sided adhesive tape onto the winding tube core, and the cutter moving cylinder 83 drives the cutting blade 84 to move to cut off the double-sided adhesive tape.

In another embodiment, the rolling and stock mechanism 68 includes a stock servo 91 and a stock transmission shaft 93, a third synchronous belt transmission component 92 is commonly disposed between the output end of the stock servo 91 and the rear end of the stock transmission shaft 93, two stock roller synchronous belts 96 which are symmetrical front and back are disposed on the outer surface of the stock transmission shaft 93, and the two stock roller synchronous belts 96 are sequentially and commonly connected with a second double-sided adhesive guide shaft 94 and a stock roller 95 in a transmission manner from left to right. After the winding reaches a specified number of meters, the winding rotation servo 71 works to drive the rotary bearing 72 to rotate, the rotary bearing 72 drives the rotary part of the double-station winding mechanism 65 to rotate, the winding air-expanding shaft II 80 enters the winding station, the winding air-expanding shaft II 80 is inflated to fix a winding pipe core, the double faced adhesive tape passes through the first double faced adhesive tape guide shaft 85 and the material storage roller 95, the material storage servo 91 drives the material storage transmission shaft 93 to rotate through the third synchronous belt transmission part 92, the material storage transmission shaft 93 drives the material storage roller 95 to move through the material storage roller synchronous belt 96, and the material storage roller 95 drives the double faced adhesive tape to move to complete the material storage process.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the scope of the present invention.

Claims (10)

1. A high-efficiency double-sided glue spreader comprises a bottom frame and is characterized in that a host frame, a first processing table and a second processing table are fixedly mounted on the upper end of the bottom frame from left to right in sequence, a distribution box operating table is fixedly mounted on the upper end of the host frame, a release paper deviation rectifying sensor is fixedly mounted on the left portion of the front end of the first processing table, a release film deviation rectifying sensor is fixedly mounted in the middle of the front end of the first processing table, a primary glue spreading mechanism is arranged on the upper end of the first processing table, a release paper unwinding mechanism and a release film unwinding mechanism are sequentially arranged on the front end of the first processing table from left to right, the release paper deviation rectifying sensor is positioned right above the release paper unwinding mechanism, the release film deviation rectifying sensor is positioned right above the release film unwinding mechanism, a guide roller is fixedly mounted on the front end of the second processing table, a secondary glue spreading mechanism and a code spraying machine are arranged on the upper end of the second processing table, bottom frame upper end right part is provided with winding mechanism, winding mechanism is located the right-hand side of second processing platform, the block terminal operation panel with from the type paper sensor of rectifying, from the type membrane sensor of rectifying, from the type paper unwinding mechanism, from the type membrane unwinding mechanism, once rubber coating mechanism, secondary rubber coating mechanism, winding mechanism, equal electric connection between the ink jet numbering machine.

2. The efficient double-sided adhesive coating machine according to claim 1, wherein the release paper unwinding mechanism comprises a first fixing frame, a release paper deviation rectifying servo is fixedly arranged at the right end of the first fixing frame, a first ball screw is fixedly arranged at the output end of the release paper deviation rectifying servo, the first ball screw is connected with a first mounting rack in a transmission way, a first air expansion shaft is arranged in the middle of the left end of the first mounting rack, the right end of the first air expansion shaft movably penetrates through the first mounting rack and extends to the right of the first mounting rack, the upper part of the left end of the first mounting rack is fixedly provided with a first tension sensor, a first magnetic powder brake is fixedly mounted on the lower portion of the right end of the first mounting frame, first synchronous belt wheels are fixedly mounted at the output end of the first magnetic powder brake and the right end of the first air expansion shaft, and a first synchronous belt is sleeved between the first synchronous belt wheels.

3. The efficient double-sided glue spreader as recited in claim 1, wherein the release film unwinding mechanism comprises a second fixing frame, a release film deviation-rectifying servo is fixedly arranged at the right end of the second fixing frame, a second ball screw is fixedly arranged at the output end of the release film deviation-rectifying servo, the second ball screw is connected with a second mounting rack in a transmission way, a second air expansion shaft is arranged in the middle of the left end of the second mounting rack, the right end of the second air expansion shaft movably penetrates through the second mounting rack and extends to the right of the second mounting rack, a second tension sensor is fixedly arranged at the upper part of the left end of the second mounting rack, the middle of the right end of the second mounting rack is fixedly provided with a second magnetic powder brake, the output end of the second magnetic powder brake and the right end of the second air expansion shaft are fixedly provided with second synchronous belt wheels, and a second synchronous belt is sleeved between the second synchronous belt wheels.

4. The efficient double-sided glue spreader as claimed in claim 1, wherein the primary glue spreading mechanism comprises third mounting frames, composite glue rollers, composite rollers and primary glue spreading rollers are sequentially arranged between the third mounting frames from left to right, the rear ends of the primary glue spreading rollers and the composite rollers movably penetrate through the third mounting frames and extend to the rear sides of the third mounting frames, primary glue spreading dies are arranged between the third mounting frames, primary glue spreading solenoid valves are arranged at the right ends of the primary glue spreading dies, primary die moving cylinders are fixedly arranged at the right parts between the third mounting frames and are in transmission connection with the primary glue spreading dies, primary glue spreading servos are fixedly arranged at the middle parts of the rear ends of the third mounting frames, third synchronous belt pulleys are fixedly arranged at the output ends of the primary glue spreading servos, the rear ends of the primary glue spreading rollers and the rear ends of the composite rollers, and a third synchronous belt is sleeved among the three third synchronous belt wheels.

5. The efficient double-sided glue spreader as claimed in claim 1, wherein the secondary glue spreading mechanism comprises fourth mounting frames, a secondary glue spreading roller is arranged between the fourth mounting frames, the rear end of the secondary glue spreading roller movably penetrates through the fourth mounting frames and extends to the rear of the fourth mounting frames, an ink jet printer nozzle is fixedly mounted at the upper end of the fourth mounting frames and is positioned right above the secondary glue spreading roller, a secondary glue spreading die head is arranged in the middle between the fourth mounting frames, a secondary glue spreading solenoid valve is fixedly mounted at the left end of the secondary glue spreading die head, a secondary die head moving cylinder is fixedly mounted at the left part between the fourth mounting frames and is in transmission connection with the secondary glue spreading die head, a secondary glue spreading servo is fixedly mounted at the middle part of the rear end of the fourth mounting frames, and fourth synchronous pulleys are fixedly mounted at the output end of the secondary glue spreading servo and the rear end of the secondary glue spreading roller, and a fourth synchronous belt is sleeved between the two fourth synchronous belt wheels.

6. The efficient double-sided gumming machine as claimed in claim 5, wherein the inkjet printer head is electrically connected with the inkjet printer.

7. The efficient double-sided glue spreader according to claim 1, wherein the winding mechanism comprises a third fixing frame, the rear end of the third fixing frame is fixedly provided with a winding deviation-rectifying servo, the winding deviation-rectifying servo output end of the third ball screw is fixedly provided with a third ball screw, the third ball screw is connected with a fifth mounting frame in a transmission manner, the upper end of the fifth mounting frame is fixedly provided with a winding deviation-rectifying sensor, the fifth mounting frame is internally provided with a winding material storage mechanism, a double-station winding mechanism and a double-sided adhesive tape cutting mechanism from front to back in sequence, and the winding deviation-rectifying sensor is located over the double-station winding mechanism.

8. The efficient double-sided glue spreader according to claim 7, wherein the double-station winding mechanism comprises a winding and rotating servo, a slewing bearing, a second winding motor, a second magnetic powder clutch, a first winding motor and a first magnetic powder clutch, the winding and rotating servo is in transmission connection with the slewing bearing, the second winding motor is in transmission connection with the second magnetic powder clutch, a second winding air expansion shaft is fixedly mounted at the output end of the second magnetic powder clutch, a first synchronous belt transmission part is in transmission connection between the first winding motor and the first magnetic powder clutch, a second synchronous belt transmission part is fixedly mounted at the output end of the first magnetic powder clutch, the second synchronous belt transmission part is in transmission connection with the first winding air expansion shaft, and the first winding air expansion shaft is located right above the second winding air expansion shaft.

9. The efficient double-sided glue spreader according to claim 7, wherein the double-sided glue cutting mechanism comprises a fixed plate, a cutting mechanism moving cylinder is fixedly mounted at the left end of the fixed plate, two cutting mechanism moving guide rails are movably connected to the upper end of the fixed plate, a cutting mechanism rotating shaft is movably connected to the lower end of the fixed plate, a movable plate is fixedly connected to the outer surface of the cutting mechanism rotating shaft, a cutting mechanism rotating cylinder is jointly arranged between the fixed plate and the movable plate, a first double-sided glue guide shaft is fixedly mounted in the middle of the lower end of the movable plate, a cutter moving cylinder is fixedly mounted on the lower portion of the lower end of the movable plate, and a cutting blade is fixedly mounted at the output end of the cutter moving cylinder.

10. A high-efficient two-sided spreading machine according to claim 7, characterized in that, rolling stock mechanism includes stock servo and stock transmission shaft, be provided with third synchronous belt drive part between stock servo output end and the stock transmission shaft rear end jointly, stock transmission shaft surface is provided with two symmetrical stock roller hold-in ranges from front to back, two stock roller hold-in ranges from left to right are connected with second double faced adhesive guiding axle and stock roller in proper order the common transmission.

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