CN117429179B - Full degradation express delivery bag processing is with spouting seal device - Google Patents

Abstract

The invention relates to the technical field of express bag processing, and discloses a full-degradable spray printing device for express bag processing, which comprises a device shell, a conveying mechanism arranged in the device shell, and a detection mechanism, a correction mechanism and a spray printing mechanism which are sequentially arranged above the device shell through a bracket a. Utilize conveying mechanism to lead the express delivery bag, the printing opacity lamp is beaten light to the light trap and is let the probe detect, can fix a position the contained angle that takes place between express delivery bag edge and the light trap border of passing through fast, namely the offset range, when letting the express delivery bag get into correction mechanism, can utilize correction motor drive correction wheel to roll in four corners of express delivery bag, the rolling scope is decided according to the offset range that detection mechanism detected the express delivery bag, let the express delivery bag can return to the right, send into again and spout the seal operation in spouting the seal mechanism, take place fold and the problem of warping when effectively solving the soft express delivery bag correction that traditional guider leads to.

Description

Full degradation express delivery bag processing is with spouting seal device

Technical Field

The invention relates to the technical field of express bag processing, in particular to a spray printing device for full-degradable express bag processing.

Background

The fully degradable express bag is a bag-shaped packaging material for packaging and transporting articles, and is characterized in that the fully degradable express bag can be completely decomposed and degraded in natural environment, and plastic pollution to the environment is reduced. The fully degradable express bags are made of renewable raw materials, such as corn starch or sugarcane, the resources are relatively sufficient, the dependence on limited resources such as petroleum and the like is reduced, the greenhouse gas emission in the production process is also reduced, and the fully degradable express bags can be used in the fields of express, electronic commerce, logistics and the like, are different from the traditional plastic bags, and have obvious advantages in environmental protection performance.

At present, according to the requirements or design demands of customers, the full-degradable express bags are required to be printed with information such as characters, patterns or trademarks on the surfaces of the express bags, and due to the customized products, printing operation is often carried out on the full-degradable express bag finished products in a spray printing mode, but due to the fact that the full-degradable express bags are softer, inaccurate alignment is the largest problem in the guiding and delivering process, and printing deviation or incomplete characters can be caused.

In the prior art, when inaccurate alignment occurs in the spray printing and guiding process of the finished express bag product, the spray printing is realized through a guide device, such as a guide roller or a guide plate, but the fully-degradable express bag is softer, the problem that the bag body of the express bag is wrinkled and deformed is easily caused by a baffle alignment mode, the spray printing effect is affected, or manual shutdown correction is performed manually, time and labor are wasted, and inconvenience exists.

Disclosure of Invention

The invention aims to provide a spray printing device for processing a full-degradable express bag, and aims to solve the problem that the spray printing guide and the correction of the full-degradable express bag are inconvenient in the prior art.

The invention is realized in such a way that the spray printing device for processing the full-degradable express bags comprises a device shell, a conveying mechanism arranged in the device shell, and a detection mechanism, a correction mechanism and a spray printing mechanism which are sequentially arranged above the device shell through a bracket a;

the conveying mechanism is used for guiding and conveying the express bags and comprises a conveying belt, a plurality of light transmission belts are embedded in the conveying belt, and the light transmission belts are uniformly distributed on two sides of the conveying belt;

the detection mechanism comprises a detection camera bellows, two probes arranged in the detection camera bellows, and a plurality of light-transmitting lamps which are arranged in the device shell and correspond to the probes and are used for enabling light rays of the light-transmitting lamps to penetrate through the light-transmitting belt and be observed by the probes;

the correction mechanism comprises two mounting brackets, the end bearings of the two mounting brackets are connected with a driven rod, two groups of guide belts which are reversely and synchronously conveyed by the conveying belt are arranged on the driven rod, a plurality of correction assemblies are uniformly distributed on the guide belts, each correction assembly comprises correction wheels which are in surface collision with the conveying belt, each correction wheel is independently controlled to be driven to rotate, and the rolling direction of each correction wheel is perpendicular to the conveying direction of the conveying belt and is used for correcting express bags.

Preferably, the conveying mechanism further comprises a driving shaft arranged at the end part of the device shell, belt pulleys are sleeved outside the driving shafts, and the conveying belt and the light transmission belt are driven and transmitted through the belt pulleys.

Preferably, one side of the device shell further comprises a synchronous driving mechanism, the synchronous driving mechanism comprises a side plate, a guide rod b is arranged in the side plate, and a return spring b and a connecting block are sleeved outside the guide rod b;

the driving rod is arranged on one side of the device shell and is in gear transmission connection with the end part of the driving shaft, the rotating shaft is connected with the driving rod outside the connecting block, and the driving rod, the driving rod and the outer part of the shaft end of one driven rod are connected through a driving belt.

Preferably, a support a above the end part of the device shell is connected with a connecting rod through a rotating shaft, and the end parts of the mounting supports are connected through the rotating shaft of the connecting rod, so that the two mounting supports can be arranged in parallel with the conveying belt, and the correction components below the conveying belt can act on the surface of the conveying belt.

Preferably, ribs are arranged around the driven rods, guide wheels for driving the guide belt are sleeved outside the two ends of the driven rods, grooves corresponding to the driven rods and the ribs on the surfaces of the driven rods are formed in the inner walls of the guide wheels, the driven rods rotate to drive the guide wheels to synchronously rotate, and the guide wheels axially slide outside the driven rods.

Preferably, the correction assembly comprises two brackets b mounted on the surface of the guide belt, two correction wheels are mounted between the ends of the two brackets b through rotating shafts, and a correction motor for driving the correction wheels to rotate is mounted at the other end of the brackets b.

Preferably, a specification adjusting assembly is mounted at the top of the correcting mechanism, the specification adjusting assembly comprises brackets c mounted above the end parts of the two mounting brackets, an adjusting motor is arranged on one of the brackets c, and an output shaft of the adjusting motor is connected with an adjusting rod connected between the two brackets c through a rotating shaft;

the bottoms of the two ends of the connecting cylinder a and the connecting cylinder b are respectively provided with a deflector rod acting on the outer side of the guide wheel;

the surfaces of the two ends of the adjusting rod are respectively provided with a forward thread and a reverse thread, and the inner walls of the connecting cylinders a at the two ends of the adjusting rod are respectively provided with thread grooves meshed with the forward thread and the reverse thread.

Preferably, the mounting bracket is provided with a power-on piece, the power-on piece is provided with a contact piece, the contact piece is made of an elastic conductive metal sheet, a conductive strip which is abutted against the contact piece is glued on one side surface of the guide belt, and the conductive strip is electrically connected with each correction assembly.

Preferably, the jet printing mechanism comprises an electric telescopic cylinder arranged above the end part of the shell of the device through a bracket a, a lifting plate is connected to the telescopic end of the electric telescopic cylinder, a fan is arranged at the top of the lifting plate, a plurality of air blowing plates are arranged at the air outlet end of the fan, the air blowing plates are arranged on two sides of the bottom of the lifting plate, and air blowing openings of the air blowing plates positioned on two sides of the lifting plate are obliquely arranged outwards.

Preferably, the device further comprises a spray printing head arranged at the bottom of the lifting plate, wherein the two sides of the spray printing head are provided with abutting pieces;

the abutting piece comprises guide rods a arranged inside two sides of the lifting plate, a return spring a and guide blocks are sleeved outside the guide rods a respectively, and a roller is connected to one side of each guide block through a rotating shaft.

The invention discloses a spray printing device for processing a full-degradable express bag, which has the beneficial effects that:

1. the conveying mechanism is utilized to guide and convey the express bags, the light-transmitting lamp is used for transmitting light to the light-transmitting belt to enable the probe to detect the light, the included angle between the edge of the passing express bags and the edge of the light-transmitting belt can be rapidly positioned, namely, the offset range is formed, when the express bags enter the correction mechanism, correction wheels can be driven by the correction motor to roll on four corners (shown in fig. 6) of the express bags, the rolling range is determined according to the offset range of the express bags detected by the detection mechanism, the express bags can be corrected, and then the express bags are sent to the spray printing mechanism to be subjected to spray printing operation, so that the problems of wrinkles and deformation caused by the correction of the soft express bags due to the traditional guide device are effectively solved;

2. the two mounting brackets can be parallel to the conveying belt through the connection rod which is respectively connected with the bracket a and the mounting bracket rotating shaft, and correction components below the conveying belt are enabled to act on the surface of the conveying belt, so that the horizontal state is maintained and the correction components act on the express bags by means of gravity, the smoothness of the delivery of the express bags can be ensured, and correction wheels of the correction components can fully abut against the surface of the express bags, so that correction operation is facilitated;

the specification adjusting assembly is arranged above the correcting mechanism, and the two groups of guide belts are driven by the adjusting motor to realize interval adjustment on the driven rod, so that the position of the correcting assembly acting on the edge of the express bag according to the specification adjustment of the express bag is realized, and the universality is strong;

3. set up and spout seal mechanism, the both sides of spouting the seal head all are provided with conflict piece, utilize electric telescopic jar to promote the elevating system of lifter plate, let the gyro wheel preferentially act on the both sides of express delivery bag, and atress compression reset spring a, when letting spouting seal head and express delivery bag contact and spouting the seal, can continue to make conveying mechanism guide and send the express delivery bag, simultaneously, the fan is through blowing the aerofoil to the surface both sides of express delivery bag blow outwards, let the express delivery bag stall, the surface does not play the fold, the effect when guaranteeing to spout the seal.

Drawings

Fig. 1 is a schematic diagram of a spray printing device for processing a fully degradable express bag according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a detection mechanism of a spray printing device for processing a fully-degradable express bag according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a correction mechanism of a fully-degradable spray printing device for processing express bags, which is provided by the embodiment of the invention;

fig. 4 is a schematic diagram of a partial enlarged structure at a position a in fig. 3 of a fully-degradable spray printing device for processing express bags according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a jet printing mechanism of a jet printing device for processing a fully degradable express bag according to an embodiment of the present invention;

fig. 6 is a schematic diagram of an express bag correction state of a fully-degradable spray printing device for processing express bags according to an embodiment of the invention.

Description of the drawings

1. A device housing; 2. a conveying mechanism; 3. a detection mechanism; 4. a correction mechanism; 5. a jet printing mechanism; 6. a specification adjustment assembly; 7. a synchronous driving mechanism;

11. a bracket a;

21. a drive shaft; 22. a conveyor belt; 23. a light transmitting belt;

31. detecting a camera bellows; 32. a probe; 33. a light-transmitting lamp;

41. a mounting bracket; 42. a connecting rod; 43. a driven rod; 44. a guide wheel; 45. a guide belt; 451. a conductive strip; 46. a correction assembly; 47. a power-on member; 471. a contact;

461. a bracket b; 462. a correction wheel; 463. correcting the motor;

51. an electric telescopic cylinder; 52. a lifting plate; 53. a blower; 531. a blowing plate; 54. a jet printing head; 55. a contact member; 551. a guide rod a; 552. a return spring a; 553. a guide block; 554. a roller;

61. a bracket c; 62. adjusting a motor; 63. an adjusting rod; 64. a connecting cylinder a; 65. a connecting cylinder b; 66. a connecting rod; 67. a deflector rod;

71. a side plate; 72. a guide rod b; 73. a return spring b; 74. a connecting block; 741. a transmission rod; 75. a driving rod; 76. a driving belt.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

The implementation of the present invention will be described in detail below with reference to specific embodiments.

In this embodiment:

referring to FIG. 1, a preferred embodiment of the present invention is provided.

The spray printing device for processing the full-degradable express bags comprises a device shell 1, a conveying mechanism 2 arranged in the device shell 1, and a detecting mechanism 3, a correcting mechanism 4 and a spray printing mechanism 5 which are sequentially arranged above the device shell 1 through a bracket a 11;

the conveying mechanism 2 is used for guiding and conveying express bags, the conveying mechanism 2 comprises a conveying belt 22, a plurality of light transmission belts 23 are embedded in the conveying belt 22, and the light transmission belts 23 are uniformly distributed on two sides of the conveying belt 22;

the detection mechanism 3 comprises a detection camera bellows 31 and two probes 32 arranged in the detection camera bellows 31, and further comprises a plurality of light-transmitting lamps 33 arranged in the device shell 1 and corresponding to the probes 32, wherein the light-transmitting lamps 33 are used for allowing light rays of the light-transmitting lamps 33 to penetrate through the light-transmitting belt 23 and be observed by the probes 32, the detection camera bellows 31 can reduce the light rays of the light-transmitting belt 23 above the light-transmitting lamps 33, and the probes 32 can quickly capture the light rays penetrating through the light-transmitting belt 23, so that when an express bag passes through, the edges of the express bag and the light rays penetrating through the light-transmitting belt 23 are more obvious;

the correction mechanism 4 comprises two mounting brackets 41, the end bearings of the two mounting brackets 41 are connected with a driven rod 43, two groups of guide belts 45 which are reversely and synchronously conveyed by the conveying belt 22 are arranged on the driven rod 43, a plurality of correction assemblies 46 are uniformly distributed on the guide belts 45, each correction assembly 46 comprises a correction wheel 462 which is in contact with the surface of the conveying belt 22, each correction wheel 462 is independently controlled to rotate, and the rolling direction of the correction wheel 462 is perpendicular to the guide direction of the conveying belt 22 and is used for correcting express bags.

Referring to fig. 3-4, the conveying mechanism 2 further comprises a driving shaft 21 installed at the end of the device casing 1, pulleys are sleeved outside the driving shafts 21, and the conveying belt 22 and the light-transmitting belt 23 are driven and driven by the pulleys;

the device comprises a device shell 1, a synchronous driving mechanism 7, a driving rod 75 and a rotating shaft, wherein the synchronous driving mechanism 7 comprises a side plate 71, a guide rod b72 is arranged in the side plate 71, a return spring b73 and a connecting block 74 are sleeved outside the guide rod b72, the driving rod 75 is arranged on one side of the device shell 1 and is in gear transmission connection with the end part of the driving shaft 21, the rotating shaft is connected with a driving rod 741 outside the connecting block 74, the driving rod 75, the driving rod 741 and the shaft end outside of one driven rod 43 are connected through a driving belt 76, the driving shaft 21 drives the driving rod 75 to rotate through a gear, the driving rod 75 drives the driven rod 43 to reversely and synchronously rotate by the driving belt 76, the conveying belt 22 and the guide belt 45 can synchronously guide and further push the express bags to be conveyed, meanwhile, the return spring b73 and the connecting block 74 are arranged, the driving rod 741 is arranged on the connecting block 74, and when the express bags with thicker spray printing are, the correcting mechanism 4 can be lifted up, the driving belt 76 is kept in a tensioned state through the driving rod 741, and is not easy to be broken.

Further, the support a11 above the end of the device housing 1 is connected with the connecting rod 42 through the rotating shaft, the end of the mounting support 41 is connected through the rotating shaft of the connecting rod 42, so that the two mounting supports 41 can be parallel to the conveying belt 22, and the correction component 46 below the conveying belt 22 is enabled to act on the surface of the conveying belt 22, keep a horizontal state and act on the express bag by means of gravity, so that the smoothness of the delivery of the express bag can be ensured, and the correction wheel 462 of the correction component 46 can fully abut against the surface of the express bag, thereby facilitating correction operation.

As shown in fig. 3, ribs are disposed around two driven rods 43, guide wheels 44 for driving the guide belt 45 are sleeved outside two ends of the driven rods 43, grooves corresponding to the driven rods 43 and the ribs on the surfaces of the driven rods are formed in the inner walls of the guide wheels 44, rotation of the driven rods 43 is used for driving the guide wheels 44 to rotate synchronously, and the guide wheels 44 slide axially outside the driven rods 43;

simultaneously, the specification adjusting part 6 is installed at the top of correction mechanism 4, specification adjusting part 6 is including installing two support c61 of installing support 41 tip top, one of them be provided with accommodate motor 62 on the support c61, accommodate motor 62's output shaft has the regulation pole 63 of pivot connection between two supports c61, connect section of thick bamboo a64 has all been cup jointed to adjust pole 63's both ends outside, install connecting rod 66 on the section of thick bamboo a64 to install connecting cylinder b65 through connecting rod 66, connecting cylinder a64 and connecting cylinder b 65's both ends bottom all are provided with the driving lever 67 that acts on the outside of guide pulley 44, the screw thread groove with forward thread and reverse thread engagement has been seted up respectively to the connecting cylinder a64 inner wall at its both ends, and in this way, when the correction of the express delivery bag memory of different specifications is required, only need drive through accommodate pole 63 rotation through accommodate motor 62, and then drive its both ends forward thread and reverse thread connection's connecting cylinder a64 realize reverse synchronous transmission, connecting cylinder a64 can drive connecting rod 66 and act on both sides of guide pulley 44, can be adjusted along with the driving lever 67 with the effect of the guide pulley 46 at both ends, can be adjusted together by the driving lever 67.

As shown in fig. 3, the correction assembly 46 includes two brackets b461 mounted on the surface of the guide belt 45, two correction wheels 462 are mounted between the ends of the two brackets b461 through a rotating shaft, and a correction motor 463 for driving the correction wheels 462 to rotate is mounted at the other end of the bracket b461, an energizing member 47 is disposed on the mounting bracket 41, a contact 471 is mounted on the energizing member 47, the contact 471 is made of an elastic conductive metal sheet, a conductive strip 451 abutting against the contact 471 is glued on one side surface of the guide belt 45, the conductive strip 451 is electrically connected with each correction assembly 46, each correction wheel 462 is driven by an independent correction motor 463, and the correction motor 463 is controlled by the contact 471 and the electric signal to drive the correction wheel 462 to realize step-by-step reciprocating rotation, so as to realize the offset adjustment operation of the express bag.

Referring to fig. 5, the jet printing mechanism 5 includes an electric telescopic cylinder 51 installed above the end of the device housing 1 through a bracket a11, a lifting plate 52 is connected to a telescopic end of the electric telescopic cylinder 51, a fan 53 is installed at the top of the lifting plate 52, a plurality of air blowing plates 531 are installed at an air outlet end of the fan 53, the air blowing plates 531 are arranged on two sides of the bottom of the lifting plate 52, air outlets of the air blowing plates 531 located on two sides of the lifting plate 52 are inclined outwards, the jet printing mechanism further includes a jet printing head 54 installed on the bottom of the lifting plate 52, abutting pieces 55 are respectively provided with abutting pieces 55, guide rods a551 are respectively sleeved with a reset spring a552 and a guide block 553, rollers 554 are connected to one side of the guide blocks 553 in a rotating manner, the electric telescopic cylinder 51 is utilized to push the lifting operation of the lifting plate 52, the rollers 554 are preferentially used on two sides of an express bag, the reset springs 552 are compressed under the force, the jet printing head 54 is contacted with the express bag, and the two sides of the express bag are enabled to pass through the air blowing plates 53, and the surface of the express bag is not flattened, and the outward surface of the express bag is guaranteed.

The delivery mechanism 2 is used for guiding the express delivery bag, the light-transmitting lamp 33 is used for transmitting light to the light-transmitting belt 23 to enable the probe 32 to detect, the included angle between the edge of the passing express delivery bag and the edge of the light-transmitting belt 23, namely the offset range, can be rapidly positioned, when the express delivery bag enters the correction mechanism 4, the correction motor 463 can be used for driving the correction wheels 462 to act on four corners (shown in fig. 6) of the express delivery bag to roll, when the express delivery bag is offset along the conveying direction, the correction wheels 462 close to one side of the conveying direction roll along the offset direction, and the correction wheels 462 far away from one side of the conveying direction roll along the opposite direction, so that the express delivery bag can be corrected, the rolling range is determined according to the offset range of the express delivery bag detected by the detection mechanism 3, the express delivery bag can be corrected, and then the express delivery bag is sent into the jet printing mechanism 5 to be subjected to jet printing operation, and the problem that the flexible express delivery bag caused by the traditional guide device is corrected is effectively solved;

the connecting rods 42 are respectively connected with the support a11 and the rotating shafts of the mounting supports 41, so that the two mounting supports 41 can be arranged in parallel with the conveying belt 22, and the correction assemblies 46 arranged below the conveying belt 22 are enabled to act on the surface of the conveying belt 22, so that the horizontal state is maintained, the correction assemblies act on the express bags by means of gravity, the smoothness of the delivery of the express bags can be ensured, and the correction wheels 462 of the correction assemblies 46 can be fully abutted against the surface of the express bags, so that correction operation is convenient;

the specification adjusting assembly 6 is arranged above the correcting mechanism 4, and the two groups of guide belts 45 are driven by the adjusting motor 62 to realize interval adjustment on the driven rod 43, so that the position of the correcting assembly 46 acting on the edge of the express bag according to the specification adjustment of the express bag is realized, and the universality is strong;

set up spouts seal mechanism 5, the both sides of spouting seal head 54 all are provided with conflict piece 55, utilize the lift operation of electronic flexible jar 51 promotion lifter plate 52, let gyro wheel 554 preferentially act on the both sides of express delivery bag, and atress compression reset spring a552, when letting spouting seal head 54 and express delivery bag contact carry out spouting seal, can continue to make conveying mechanism 2 guide and send the express delivery bag, simultaneously, fan 53 is through blowing the air deflector 531 outwards bloies to the surface both sides of express delivery bag, let the express delivery bag stall, the surface does not play the fold, the effect when guaranteeing spouting seal.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (6)

1. The spray printing device for processing the full-degradable express bags is characterized by comprising a device shell, a conveying mechanism arranged in the device shell, and a detection mechanism, a correction mechanism and a spray printing mechanism which are sequentially arranged above the device shell through a bracket a;

the conveying mechanism is used for guiding and conveying the express bags and comprises a conveying belt, a plurality of light transmission belts are embedded in the conveying belt, and the light transmission belts are uniformly distributed on two sides of the conveying belt;

the detection mechanism comprises a detection camera bellows, two probes arranged in the detection camera bellows, and a plurality of light-transmitting lamps which are arranged in the device shell and correspond to the probes and are used for enabling light rays of the light-transmitting lamps to penetrate through the light-transmitting belt and be observed by the probes;

the correction mechanism comprises two mounting brackets, end bearings of the two mounting brackets are connected with driven rods, two groups of guide belts which are reversely and synchronously conveyed with the conveying belts are arranged on the driven rods, a plurality of correction assemblies are uniformly distributed on the guide belts and comprise correction wheels which are in contact with the surfaces of the conveying belts, each correction wheel is independently controlled to drive and rotate, and the rolling direction of each correction wheel is perpendicular to the conveying direction of the conveying belt and is used for correcting express bags;

ribs are arranged around the two driven rods, guide wheels for driving the guide belt are sleeved outside the two ends of the driven rods, grooves corresponding to the driven rods and the ribs on the surfaces of the driven rods are formed in the inner walls of the guide wheels, the driven rods rotate to drive the guide wheels to synchronously rotate, and the guide wheels axially slide outside the driven rods;

the correction assembly comprises two brackets b arranged on the surface of the guide belt, two correction wheels are arranged between the end parts of the two brackets b through rotating shafts, and the other end of the bracket b is provided with a correction motor for driving the correction wheels to rotate;

the top of the correcting mechanism is provided with a specification adjusting component, the specification adjusting component comprises brackets c arranged above the end parts of the two mounting brackets, one bracket c is provided with an adjusting motor, and an output shaft of the adjusting motor is connected with an adjusting rod connected between the two brackets c through a rotating shaft;

the bottoms of the two ends of the connecting cylinder a and the connecting cylinder b are respectively provided with a deflector rod acting on the outer side of the guide wheel;

the surfaces of the two ends of the adjusting rod are respectively provided with a forward thread and a reverse thread, and the inner walls of the connecting cylinders a at the two ends of the adjusting rod are respectively provided with thread grooves meshed with the forward thread and the reverse thread;

the mounting bracket is provided with a power-on piece, the power-on piece is provided with a contact piece, the contact piece is made of elastic conductive metal sheets, a conductive strip which is abutted against the contact piece is glued on one side surface of the guide belt, and the conductive strip is electrically connected with each correction component.

2. The spray printing device for processing the fully-degradable express bags according to claim 1, wherein the conveying mechanism further comprises a driving shaft arranged at the end part of the device shell, belt pulleys are sleeved outside the driving shafts, and the conveying belt and the light transmission belt are driven and transmitted through the belt pulleys.

3. The spray printing device for processing the full-degradable express bags according to claim 2, wherein one side of the device shell further comprises a synchronous driving mechanism, the synchronous driving mechanism comprises a side plate, a guide rod b is arranged in the side plate, and a return spring b and a connecting block are sleeved outside the guide rod b;

the driving rod is arranged on one side of the device shell and is in gear transmission connection with the end part of the driving shaft, the rotating shaft is connected with the driving rod outside the connecting block, and the driving rod, the driving rod and the outer part of the shaft end of one driven rod are connected through a driving belt.

4. The spray printing device for processing the fully-degradable express bags according to claim 1, wherein a bracket a above the end part of the device shell is connected with a connecting rod through a rotating shaft, the end parts of the mounting brackets are connected through the rotating shaft of the connecting rod, the two mounting brackets are used for enabling the two mounting brackets to be arranged in parallel with the conveying belt, and the correction assemblies below the conveying belt are enabled to act on the surface of the conveying belt.

5. The spray printing device for processing the full-degradable express bags according to claim 1, wherein the spray printing mechanism comprises an electric telescopic cylinder arranged above the end part of the device shell through a bracket a, a lifting plate is connected to the telescopic end of the electric telescopic cylinder, a fan is arranged at the top of the lifting plate, a plurality of air blowing plates are arranged at the air outlet end of the fan, the air blowing plates are arranged on two sides of the bottom of the lifting plate, and air blowing openings of the air blowing plates positioned on two sides of the lifting plate are obliquely arranged outwards.

6. The spray printing device for processing the full-degradable express bags according to claim 5, further comprising a spray printing head arranged at the bottom of the lifting plate, wherein both sides of the spray printing head are provided with abutting pieces;

the abutting piece comprises guide rods a arranged inside two sides of the lifting plate, a return spring a and guide blocks are sleeved outside the guide rods a respectively, and a roller is connected to one side of each guide block through a rotating shaft.