CN116330833A

CN116330833A - Intelligent temperature-control packaging carton printing surface dryer

Info

Publication number: CN116330833A
Application number: CN202310580644.1A
Authority: CN
Inventors: 杨丽华; 张红星; 庄志; 王宝勤
Original assignee: Lianyungang Zhenyang Paper Products Co ltd
Current assignee: Lianyungang Zhenyang Paper Products Co ltd
Priority date: 2023-05-23
Filing date: 2023-05-23
Publication date: 2023-06-27
Anticipated expiration: 2043-05-23
Also published as: CN116330833B

Abstract

The invention relates to the technical field of carton drying, in particular to an intelligent temperature-controlled packaging carton printing surface dryer which comprises a fixed shell, a drying rod and a transfer assembly, wherein the transfer assembly comprises a conveyor belt, a rotating disc, a clamping structure and an air cylinder, two ends, far away from each other, of the fixed shell are fixedly provided with the conveyor belt, the rotating disc can be rotatably arranged in the fixed shell, a rotating shaft of the rotating disc is vertically arranged, the drying rod is fixedly arranged above the rotating disc, the inner clamping structure is fixedly arranged on the rotating disc, and the air cylinder is obliquely and fixedly arranged in the fixed shell. The invention reduces the time and working procedures of manually participating in feeding, reduces the occurrence probability of production danger, improves the overall working efficiency, and simultaneously avoids the situation that the packaging paper box after finishing the drying treatment cannot leave from the inside of the fixed shell by the conversion of the packaging paper box in a flat state and a square frame state and the transportation of the packaging paper box by matching with the conveying belt.

Description

Intelligent temperature-control packaging carton printing surface dryer

Technical Field

The invention relates to the technical field of carton drying, in particular to an intelligent temperature-control packaging carton printing surface dryer.

Background

In the production process of the packaging paper box, pictures or characters of related articles are printed on the surface of the paper box according to the types of the articles actually contained, so that the information of the articles contained in the paper box is publicized and explained, and in the actual production process, the printed surface of the paper box is required to be quickly dried, so that the effect of quickly and effectively reserving the printed information is achieved. When traditional drying-machine is actually dried, generally directly use the drying-machine to blow the stoving to the carton printing face, but the hot-blast unable recovery that this kind of mode was blown out, most heat energy is not make full use of, and drying efficiency is low, and the energy consumption is high, simultaneously can not better judgement stoving degree, appears drying excessively easily and leads to the condition that the printing face skinning drops.

The existing packaging paper box printing surface dryer, the fan forms the air that flows in the guiding gutter of stoving shell, and heat under the effect of electric heat pole, the steam flows and spouts to the carton printing surface through the aviation baffle from the air duct and realize the stoving operation, simultaneously under the effect of carton and backward flow shell, most hot air is in gathering in the backward flow shell, the hot air in the backward flow shell is retrieved from the backward flow and is advanced in the guiding gutter, simultaneously the electric heat pole is further heated to the steam of backward flow, improve the temperature of air current, thereby through the supporting shoe of internal expansion with inwards shrink after the temperature reaches a certain extent, supporting shoe and carton inner wall separation, the carton is realized unloading down, this scheme needs artifical manual control carton after the printing to change from the platykurtic into frame form in the use, establish the carton cover on the supporting shoe later and accomplish fixedly, whole material loading flow is comparatively loaded down with more time and needs, consequently, whole work efficiency has been reduced, there is high temperature air in the equipment inside for a long time simultaneously, the condition such as scald appears very easily in the manual work, and because the carton that just makes has the trend of recovering platykurtic supporting shoe self, the condition that only exists with the existence of the carton that can's separation with it can't appear.

Disclosure of Invention

To above-mentioned problem, provide a packing carton printing face drying-machine of intelligent accuse temperature, transport the packing carton business turn over fixed shell of flat state through the conveyer belt, make the packing carton that is in the fixed shell inside change between flat state and square frame state through interior clamping structure and rotary disk cooperation, make the packing carton that is in square frame state remove to the output department of stoving pole through the cylinder.

In order to solve the prior art, the intelligent temperature-control packaging carton printing surface dryer comprises a fixed shell, a drying rod and a transfer assembly, wherein the transfer assembly comprises a conveying belt, a rotating disc, a clamping structure and an air cylinder, two ends, which are mutually far away, of the fixed shell are fixedly provided with the conveying belt, the conveying direction of the conveying belt is parallel to the connecting line of the two conveying belts, the conveying belt can extend to the inside of the fixed shell, the conveying belt is used for conveying a packaging carton in a flat state, the rotating disc can be rotatably arranged in the fixed shell, the rotating disc is positioned at the center of the connecting line of the two conveying belts, the rotating shaft of the rotating disc is vertically arranged, the axis of the rotating disc is coaxial with the rotating shaft of the rotating disc, the drying rod is fixedly arranged above the rotating disc, the output of stoving pole is in on the lateral wall of stoving pole and the gaseous orientation of heating of stoving pole output is perpendicular with the line of two conveyer belts, interior clamping structure is fixed to be set up on the rotary disk, interior clamping structure's quantity is two, all interior clamping structure evenly set up around the axis of rotary disk, interior clamping structure can fix the packing carton of flat state, the packing carton that interior clamping structure was fixed when the rotary plate rotated 90 will change from flat state to square frame state, and the state of every rotation 90 packing cartons of rotary plate just changes once, the cylinder slope is fixed to be set up in the inside of set casing, interior cylinder work promotes clamping structure and drives packing carton upset when packing carton is square frame state, clamping structure's upset axle level and with two interior clamping structure's line of connection parallelism.

Preferably, the inner clamping structure comprises a fixed plate, a guide strip, a fixed strip and a movable strip, wherein the fixed plate is fixedly arranged on the rotary disk, a first fixed shaft seat is fixedly arranged on the fixed plate, the axis of the first fixed shaft seat is horizontal and parallel to the connecting lines of the two inner clamping structures, one end of the guide strip is hinged to the first fixed shaft seat, one end of the fixed strip is fixedly connected with one end of the guide strip, which is hinged to the first fixed shaft seat, the fixed strip is vertically arranged with the guide strip, the connecting lines of the fixed strip and the two inner clamping structures are in the same plane, the movable strip is connected onto the guide strip in a sliding mode, the sliding direction of the movable strip is parallel to the length direction of the guide strip, and the movable strip is parallel to the fixed strip and is in the same plane with the connecting lines of the two inner clamping structures.

Preferably, the fixing plate is fixedly provided with two first fixing shaft seats, and the connecting lines of the two first fixing shaft seats on the fixing plate are perpendicular to the connecting lines of the two inner clamping structures.

Preferably, the transfer assembly further comprises an output gear and a connecting bar, the output gear can be rotatably arranged below the fixed plate, the axis of the output gear is parallel to the axis of the rotating disc, an extension rod extending to the upper portion of the fixed plate is coaxially and fixedly arranged on the output gear, the tail end of the extension rod is hinged with a threaded rod, the rotating shaft of the threaded rod is horizontally arranged, and two movable bars on the same fixed plate are synchronously moved with the connecting bar, and the connecting bar is in threaded connection with the threaded rod.

Preferably, the transfer assembly further comprises an input gear and a transfer gear, the input gear is fixedly arranged in the fixed shell, the input gear is coaxial with the rotating disc and is positioned below the rotating disc, the transfer gear can be rotatably arranged below the rotating disc, the axis of the transfer gear is parallel to the axis of the rotating disc, the input gear is meshed with the transfer gear, and the output gear is in transmission connection with the transfer gear.

Preferably, the transfer gear comprises a first gear and a second gear, the second gear is a duplex gear, the first gear and the second gear are coaxially and rotatably connected, the large gear diameter of the second gear is identical to that of the first gear, the first gear is meshed with the output gear, the first gear is connected with the small gear of the second gear through a transmission belt, the input gear is an incomplete gear, two 90-degree tooth surfaces uniformly arranged around the axis of the input gear are arranged on the input gear, the number of the input gears is two, the two input gears are coaxially arranged at intervals, the tooth surfaces of the two input gears are not overlapped, the input gear positioned above is meshed with the first gear, and the input gear positioned below is meshed with the second gear.

Preferably, the transfer assembly further comprises a limiting block, the limiting block is arranged on the rotating disc in a sliding mode, the sliding direction of the limiting block is parallel to the connecting line of the two inner clamping structures, the limiting block is hinged to a hinged rod, the other end of the hinged rod is hinged to the guide strip, a first elastic connecting piece is fixedly arranged on the limiting block, and the other end of the first elastic connecting piece is fixedly connected with the rotating disc.

Preferably, the fixed strip and the movable strip are both L-shaped, the connection parts of the two ends of the fixed strip and the movable strip are arc surfaces, the convex ends of the fixed strip and the movable strip are arranged at positions close to the guide strip, and the convex ends of the fixed strip and the movable strip on the same guide strip are arranged in opposite directions.

Preferably, a second fixed shaft seat is fixedly arranged at one end, close to the guide bar, of the fixed bar, the second fixed shaft seat can be hinged with the first fixed shaft seat, a positioning protrusion is fixedly arranged in the second fixed shaft seat, and a positioning hole matched with the positioning protrusion to be inserted is formed in one end, hinged to the first fixed shaft seat, of the guide bar.

Preferably, a third fixed shaft seat is fixedly arranged at one end, close to the guide bar, of the movable bar, the third fixed shaft seat is slidably sleeved on the guide bar, and two third fixed shaft seats on the same fixed plate are fixedly connected with one end of the connecting bar respectively.

Compared with the prior art, the invention has the beneficial effects that:

the invention realizes the function of transporting the packaging cartons in a flat state into and out of the fixed shell through the conveyor belt, realizes the function of converting the packaging cartons in the fixed shell between the flat state and the square frame state through the inner clamping structure and the rotating disc, and realizes the function of moving the packaging cartons in the square frame state to the output end of the drying rod through the air cylinder, thereby reducing the time and the working procedures of manually participating in feeding work, reducing the probability of production danger, improving the overall working efficiency, and simultaneously avoiding the situation that the packaging cartons after drying treatment cannot leave from the inside of the fixed shell through the conversion of the packaging cartons in the flat state and the square frame state and the conveyor belt transportation.

Drawings

Fig. 1 is a schematic perspective sectional view of an intelligent temperature-controlled packaging carton printing surface dryer.

Fig. 2 is an enlarged partial schematic view of a in fig. 1.

Fig. 3 is an enlarged partial schematic view of B in fig. 1.

Fig. 4 is a schematic perspective sectional view of a smart temperature controlled packaging carton printing surface dryer.

Fig. 5 is an enlarged partial schematic view of C in fig. 4.

Fig. 6 is a schematic perspective view of a transfer assembly of an intelligent temperature controlled packaging carton printing surface dryer.

Fig. 7 is an exploded perspective view of a transfer assembly of an intelligent temperature controlled packaging carton printing surface dryer.

Fig. 8 is an enlarged partial schematic view of D in fig. 7.

Fig. 9 is an enlarged partial schematic view of E in fig. 7.

Fig. 10 is a schematic view of the structure below the turntable in the transfer assembly.

The reference numerals in the figures are:

1-a fixed shell; 2-drying the rod; 3-a transport assembly; 31-a conveyor belt; 32-rotating disc; 33-a clamping structure; 331-a fixed plate; 3311-a first fixed shaft mount; 332-a guide bar; 3321—positioning holes; 333-securing strips; 3331-a second fixed shaft seat; 3332-positioning projections; 334-activity bar; 3341-third fixed shaft seat; 34-cylinder; 35-an output gear; 351-extension bars; 352-threaded rod; 36-connecting strips; 37-input gear; 38-a transfer gear; 381—a first gear; 382-a second gear; 383-drive belt; 39-limiting blocks; 391-hinge lever; 392-a first resilient connecting element.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

Referring to fig. 1 to 5, an intelligent temperature-controlled packing carton printing surface dryer comprises a fixed shell 1, a drying rod 2 and a transferring assembly 3, wherein the transferring assembly 3 comprises a conveyor belt 31, a rotating disc 32, a clamping structure 33 and an air cylinder 34, two ends of the fixed shell 1, which are far away from each other, are fixedly provided with the conveyor belt 31, the conveying direction of the conveyor belt 31 is parallel to the connecting line of the two conveyor belts 31, the conveyor belt 31 can extend to the inside of the fixed shell 1, the conveyor belt 31 is used for conveying packing cartons in a flat state, the rotating disc 32 can be rotatably arranged in the inside of the fixed shell 1, the rotating disc 32 is positioned at the connecting line center of the two conveyor belts 31, the rotating shaft of the rotating disc 32 is vertically arranged, the axis of the rotating disc 32 is coaxial with the rotating shaft of the rotating disc 32, the drying rod 2 is fixedly arranged above the rotating disc 32, the output of stoving pole 2 is in on the lateral wall of stoving pole 2 and the heating gas orientation of stoving pole 2 output is perpendicular with the line of two conveyer belts 31, interior clamping structure 33 is fixed to be set up on rotary disk 32, the quantity of interior clamping structure 33 is two, all interior clamping structure 33 evenly set up around the axis of rotary disk 32, the packing carton of flat state can be fixed to interior clamping structure 33, the packing carton that interior clamping structure 33 was fixed when the rotor plate rotated 90 changes from flat state to square frame state, and the state of every 90 packing cartons of rotor plate rotation just changes once, cylinder 34 slope fixed setting is in the inside of fixed shell 1, interior cylinder 34 work promotes clamping structure 33 and drives the packing carton upset when packing carton is square frame state, the upset axle level of clamping structure 33 and with the line parallel of two interior clamping structure 33.

Placing the packaging paper box just printed on a conveyor belt 31 which is conveyed towards the direction close to a fixed shell 1, wherein the packaging paper box is in a flat state and the printing surface is upward, the conveyor belt 31 conveys the packaging paper box in the flat state into the fixed shell 1, an inner clamping structure 33 on a rotating disc 32 fixes the packaging paper box in the flat state, then the rotating disc 32 rotates, the inner clamping structure 33 continuously expands in the packaging paper box in the flat state, when the rotating disc 32 rotates forward by 90 degrees, the packaging paper box in the flat state is changed into a square frame state, an air cylinder 34 works to push the inner clamping structure 33 to drive the packaging paper box in the square frame state to turn over, the printing surface of the packaging paper box in the square frame state faces the output end of a drying rod 2, the heating gas output by the drying rod 2 continuously dries the packaging paper box in the square frame state, the air cylinder 34 stops working after a certain period of drying, the inner clamping structure 33 drives the square frame state packaging cartons to turn over to the state that the printing surface is upwards arranged, at the moment, the rotating disc 32 rotates again, the inner clamping structure 33 continuously contracts in the square frame state packaging cartons, when the rotating disc 32 rotates forwards for 90 degrees again, the inner clamping structure 33 restores to the initial state, the square frame state packaging cartons restore to the flat state under the action of self stress, at the moment, the packaging cartons which finish drying and restore to the flat state are positioned on the other driving belt 383, the other driving belt 383 drives the packaging cartons which finish drying to move towards the direction far away from the fixed shell 1 for transportation, compared with the prior art, the driving belt 31 of the invention transports the packaging cartons in the flat state into and out of the fixed shell 1, the packaging cartons in the fixed shell 1 are converted between the flat state and the square frame state through the cooperation of the inner clamping structure 33 and the rotating disc 32, the packaging paper box in the square frame state is moved to the output end of the drying rod 2 through the air cylinder 34, so that the time and the working procedure of manual participation in feeding work are reduced, the production risk probability is reduced, the overall working efficiency is improved, and meanwhile, the situation that the packaging paper box subjected to drying treatment cannot leave from the inside of the fixed shell 1 is avoided through the transportation of the packaging paper box in the flat state and the square frame state by the conversion matching conveyor belt 31.

See fig. 3, 5 and 6-7: the inner clamping structure 33 comprises a fixed plate 331, a guide bar 332, a fixed bar 333 and a movable bar 334, wherein the fixed plate 331 is fixedly arranged on the rotary disk 32, a first fixed shaft seat 3311 is fixedly arranged on the fixed plate 331, the axis of the first fixed shaft seat 3311 is horizontal and parallel to the connecting lines of the two inner clamping structures 33, one end of the guide bar 332 is hinged to the first fixed shaft seat 3311, one end of the fixed bar 333 is fixedly connected with one end of the guide bar 332, which is hinged to the first fixed shaft seat 3311, the fixed bar 333 is vertically arranged with the guide bar 332, the connecting lines of the fixed bar 333 and the two inner clamping structures 33 are in the same plane, the movable bar 334 is slidably connected to the guide bar 332, the sliding direction of the movable bar 334 is parallel to the length direction of the guide bar 332, the movable bar 334 is parallel to the fixed bar 333, and the connecting lines of the movable bar 334 and the two inner clamping structures 33 are in the same plane.

The fixed bars 333 and the movable bars 334 are inserted into the inside of the flat state packing cartons when the flat state packing cartons are transported by the conveyor belt 31 and enter the inside of the fixed case 1, the movable bars 334 are moved along the length direction of the guide bars 332 when the rotating disc 32 rotates, the interval between the fixed bars 333 and the movable bars 334 is increased to expand the flat state packing cartons, when the rotating disc 32 rotates forward by 90 degrees, the flat state packing cartons are converted into square frame state packing cartons, and then the cylinder 34 works to push the square frame state packing cartons to turn over, compared with the prior art, the state of the packing cartons can be changed by the cooperation of the guide bars 332, the fixed bars 333 and the movable bars 334, so that the dried packing cartons can be transported to the outside of the fixed case 1 by the conveyor belt 31.

See fig. 3, 5 and 10: two first fixing shaft bases 3311 are fixedly arranged on the fixing plate 331, and the connecting lines of the two first fixing shaft bases 3311 on the fixing plate 331 are perpendicular to the connecting lines of the two inner clamping structures 33.

The packing carton moving to the flat state inside the fixed case 1 is inserted by the two fixed bars 333 and the two movable bars 334, and four supporting points exist inside the packing carton in the square state, compared with the prior art, the invention limits the number and positions of the fixed bars 333 and the movable bars 334 on each fixed plate 331, thereby ensuring that the packing carton in the square state does not move randomly.

See fig. 1 and 6-10: the transfer assembly 3 further comprises an output gear 35 and a connecting bar 36, the output gear 35 can be rotatably arranged below the fixed plate 331, the axis of the output gear 35 is parallel to the axis of the rotating disc 32, an extension rod 351 extending to the upper side of the fixed plate 331 is coaxially and fixedly arranged on the output gear 35, the tail end of the extension rod 351 is hinged with a threaded rod 352, the rotating shaft of the threaded rod 352 is horizontally arranged, two movable bars 334 on the same fixed plate 331 and the connecting bar 36 are kept to synchronously move, and the connecting bar 36 is in threaded connection with the threaded rod 352.

When the rotary disc 32 rotates, the output gear 35 also continuously rotates, the extension rod 351 drives the threaded rod 352 which is coaxial with the extension rod 351 to simultaneously rotate, the connecting bar 36 moves along the vertical direction, the two movable bars 334 also simultaneously move, when the air cylinder 34 pushes the packaging paper box in a square frame state to turn over, the threaded rod 352 also rotates around the end part of the extension rod 351, compared with the prior art, the connecting bar 36 and the threaded rod 352 cooperate to enable the connecting bar 36 to drive the two movable bars 334 on the same fixed plate 331 to simultaneously move, so that the stability of the fixed packaging paper box in the conversion state is ensured.

See fig. 1 and 6-10: the transfer assembly 3 further comprises an input gear 37 and a transfer gear 38, the input gear 37 is fixedly arranged in the fixed shell 1, the input gear 37 is coaxial with the rotary disk 32, the input gear 37 is located below the rotary disk 32, the transfer gear 38 is rotatably arranged below the rotary disk 32, the axis of the transfer gear 38 is parallel to the axis of the rotary disk 32, the input gear 37 is meshed with the transfer gear 38, and the output gear 35 is in transmission connection with the transfer gear 38.

When the rotary disk 32 rotates, the input gear 37 is fixed, the transit gear 38 rotates due to meshing with the input gear 37, and the output gear 35 in transmission connection with the middle gear also rotates, compared with the prior art, the input gear 37 and the transit gear 38 cooperate to rotate the output gear 35, so that the synchronism between the rotation of the output gear 35 and the rotation of the rotary disk 32 is ensured.

See fig. 1 and 6-10: the transfer gear 38 includes a first gear 381 and a second gear 382, the second gear 382 is a duplex gear, the first gear 381 and the second gear 382 are coaxially and rotatably connected, the large gear diameter of the second gear 382 is the same as that of the first gear 381, the first gear 381 is meshed with the output gear 35, the first gear 381 is connected with the small gear of the second gear 382 through a transmission belt 383, the input gear 37 is an incomplete gear, two 90-degree tooth surfaces uniformly arranged around the axis of the input gear 37 are arranged on the input gear 37, the number of the input gears 37 is two, the two input gears 37 are coaxially arranged at intervals, the tooth surfaces of the two input gears 37 are not coincident, the input gear 37 at the upper part is meshed with the first gear 381, and the input gear 37 at the lower part is meshed with the second gear 382.

The rotating disk 32 drives the fixed plate 331 to rotate forward from a position close to the conveyor belt 31, at this time, the first gear 381 rotates forward due to meshing with the upper input gear 37, the output gear 35 meshing with the first gear 381 rotates reversely, the connecting bar 36 moves vertically, when the rotating disk 32 rotates 90 ° and continues to rotate, the first gear 381 does not mesh with the upper input gear 37 any more, the second gear 382 meshes with the lower input gear 37, the second gear 382 rotates forward, the output gear 35 connected with the second gear 382 through the conveyor belt 383 rotates forward, and the connecting bar 36 moves downward in the vertical direction, compared with the prior art, the first gear 381, the second gear 382 and the input gear 37 of the present invention define shapes and positional relationships, so that the output gear 35 can rotate forward and reverse regularly.

See fig. 1 and 6-10: the transfer assembly 3 further comprises a limiting block 39, the limiting block 39 is slidably arranged on the rotating disc 32, the sliding direction of the limiting block 39 is parallel to the connecting line of the two inner clamping structures 33, a hinge rod 391 is hinged to the limiting block 39, the other end of the hinge rod 391 is hinged to the guide strip 332, a first elastic connecting piece 392 is fixedly arranged on the limiting block 39, and the other end of the first elastic connecting piece 392 is fixedly connected with the rotating disc 32.

When the cylinder 34 pushes the square frame state packaging paper box to turn over, the limiting block 39 moves to a position close to the center of the rotating disc 32, the first elastic connecting piece 392 is compressed, when the moving end of the cylinder 34 contracts, the first elastic connecting piece 392 releases the compression state to push the limiting block 39 to move away from the direction of the center of the rotating disc 32, the limiting block 39 cooperates with the hinge strip to enable the guide strip 332 to be vertically arranged, and compared with the prior art, the limiting block 39, the hinge rod 391 and the first elastic connecting piece 392 push the guide strip 332 to turn over, so that the dried packaging paper box is prevented from being influenced by heated air.

See fig. 6-7: the fixed bars 333 and the movable bars 334 are all L-shaped, the connection parts of the two ends of the fixed bars 333 and the movable bars 334 are arc surfaces, the convex ends of the fixed bars 333 and the movable bars 334 are arranged at positions close to the guide bars 332, and the convex ends of the fixed bars 333 and the movable bars 334 on the same guide bar 332 are arranged in opposite directions.

The movement of the packing carton in a flat state is stopped when the packing carton contacts the cambered surfaces of the fixed bars 333 and the movable bars 334, and the moving end of the air cylinder 34 contacts the convex end of the fixed bars 333 when moving, compared with the prior art, the fixed bars 333 and the movable bars 334 of the invention define shapes, so that the moving end of the air cylinder 34 cannot damage the packing carton.

See fig. 6-9: the fixed strip 333 is fixedly provided with a second fixed shaft seat 3331 at one end close to the guide strip 332, the second fixed shaft seat 3331 can be hinged with the first fixed shaft seat 3311, a positioning protrusion 3332 is fixedly arranged in the second fixed shaft seat 3331, and a positioning hole 3321 for inserting the positioning protrusion 3332 is formed in one end, hinged on the first fixed shaft seat 3311, of the guide strip 332.

When the fixing bar 333 needs to be replaced, the hinge connection between the second fixing shaft seat 3331 and the first fixing shaft seat 3311 is released, a new fixing bar 333 is taken out, the positioning protrusion 3332 of the new fixing bar 333 is inserted into the positioning hole 3321, and then the hinge connection between the second fixing shaft seat 3331 and the first fixing shaft seat 3311 is completed again.

See fig. 6-9: a third fixed shaft seat 3341 is fixedly arranged at one end of the movable strip 334 close to the guide strip 332, the third fixed shaft seat 3341 is slidably sleeved on the guide strip 332, and two third fixed shaft seats 3341 on the same fixed plate 331 are respectively and fixedly connected with one end of the connecting strip 36.

When the connecting bar 36 moves, the movable bar 334 is driven to move by the third fixed shaft seat 3341, and the third fixed shaft seat 3341 does not collide with the hinge bar when moving, compared with the prior art, the movable bar 334 of the invention is connected with the guide bar 332 and the connecting bar 36 by the third fixed shaft seat 3341, thereby avoiding the collision between the movement of the movable bar 334 and the hinge bar 391.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. The intelligent temperature-control packaging carton printing surface dryer comprises a fixed shell (1), a drying rod (2) and a transfer assembly (3), and is characterized in that the transfer assembly (3) comprises a conveying belt (31), a rotating disc (32), a clamping structure (33) and an air cylinder (34);

two ends of the fixed shell (1) which are far away from each other are fixedly provided with a conveyor belt (31), the conveying direction of the conveyor belt (31) is parallel to the connecting line of the two conveyor belts (31), the conveyor belt (31) can extend to the inside of the fixed shell (1), and the conveyor belt (31) is used for conveying the packaging cartons in a flat state;

the rotary disc (32) can be rotatably arranged in the fixed shell (1), the rotary disc (32) is positioned at the center of a connecting line of the two conveying belts (31), the rotary shaft of the rotary disc (32) is vertically arranged, the axis of the rotary disc (32) is coaxial with the rotary shaft of the rotary disc (32), the drying rod (2) is fixedly arranged above the rotary disc (32), the output end of the drying rod (2) is positioned on the side wall of the drying rod (2), and the heating gas output by the drying rod (2) faces to be perpendicular to the connecting line of the two conveying belts (31);

the inner clamping structures (33) are fixedly arranged on the rotating disc (32), the number of the inner clamping structures (33) is two, all the inner clamping structures (33) are uniformly arranged around the axis of the rotating disc (32), the inner clamping structures (33) can fix the packaging cartons in a flat state, the packaging cartons fixed by the inner clamping structures (33) are changed from the flat state to a square frame state when the rotating disc rotates by 90 degrees, and the state of the packaging cartons changes once when the rotating disc rotates by 90 degrees;

the cylinder (34) is obliquely and fixedly arranged in the fixed shell (1), when the packaging paper box is in a square frame state, the inner cylinder (34) works to push the inner clamping structure (33) to drive the packaging paper box to turn over, and the turning shaft of the clamping structure (33) is horizontal and parallel to the connecting lines of the two inner clamping structures (33).

2. The intelligent temperature-controlled packaging carton printing surface dryer according to claim 1, wherein the inner clamping structure (33) comprises a fixed plate (331), a guide bar (332), a fixed bar (333) and a movable bar (334);

fixed plate (331) is fixed to be set up on rotary disk (32), fixed first fixed axle bed (3311) of being provided with on fixed plate (331), the axis level of first fixed axle bed (3311) and the connecting line parallel with two interior clamping structure (33), the one end of gib block (332) is articulated with first fixed axle bed (3311), the one end fixed connection on first fixed axle bed (3311) of gib block (333) is articulated with gib block (332), fixed strip (333) are perpendicular to gib block (332) and fixed strip (333) are in the coplanar with the connecting line of two interior clamping structure (33), movable strip (334) can be slided and connect on gib block (332), the slip direction of movable strip (334) is parallel with the length direction of gib block (332), movable strip (334) are parallel with fixed strip (333) and movable strip (334) are in the coplanar with the connecting line of two interior clamping structure (33).

3. The intelligent temperature-controlled packaging carton printing surface dryer according to claim 2, wherein two first fixed shaft seats (3311) are fixedly arranged on the fixed plate (331), and a connecting line of the two first fixed shaft seats (3311) on the fixed plate (331) is perpendicular to a connecting line of the two inner clamping structures (33).

4. A smart temperature controlled packaging carton printing surface dryer according to claim 3, characterized in that the transfer assembly (3) further comprises an output gear (35) and a connecting bar (36);

the output gear (35) can be rotatory setting in the below of fixed plate (331), the axis of output gear (35) is parallel with the axis of rotary disk (32), coaxial fixed extension pole (351) that are provided with on output gear (35) and extend to fixed plate (331) top, the end of extension pole (351) articulates there is threaded rod (352), the rotation axis level setting of threaded rod (352), two movable strips (334) on same fixed plate (331) keep synchronous motion with connecting strip (36), connecting strip (36) and threaded rod (352) threaded connection.

5. The intelligent temperature-controlled packaging carton printing surface dryer according to claim 4, wherein the transfer assembly (3) further comprises an input gear (37) and a transfer gear (38);

the input gear (37) is fixedly arranged in the fixed shell (1), the input gear (37) is coaxial with the rotary disk (32) and the input gear (37) is positioned below the rotary disk (32), the transfer gear (38) is rotatably arranged below the rotary disk (32), the axis of the transfer gear (38) is parallel to the axis of the rotary disk (32), the input gear (37) is meshed with the transfer gear (38), and the output gear (35) is in transmission connection with the transfer gear (38).

6. The intelligent temperature controlled packaging carton printing surface dryer of claim 5, wherein the transfer gear (38) comprises a first gear (381) and a second gear (382);

the second gear (382) is a duplex gear, the first gear (381) and the second gear (382) are coaxially and rotatably connected, the large gear diameter of the second gear (382) is the same as that of the first gear (381), the first gear (381) is meshed with the output gear (35), the first gear (381) is connected with the small gear of the second gear (382) through a transmission belt (383), the input gear (37) is an incomplete gear, two 90-degree tooth surfaces uniformly arranged around the axis of the input gear (37) are arranged on the input gear (37), the number of the input gears (37) is two, the two input gears (37) are coaxially arranged at intervals, the tooth surfaces of the two input gears (37) are not coincident, the input gear (37) above is meshed with the first gear (381), and the input gear (37) below is meshed with the second gear (382).

7. The intelligent temperature-controlled packaging carton printing surface dryer according to claim 6, wherein the transfer assembly (3) further comprises a limiting block (39);

the limiting block (39) is arranged on the rotating disc (32) in a sliding mode, the sliding direction of the limiting block (39) is parallel to the connecting line of the two inner clamping structures (33), the limiting block (39) is hinged with a hinged rod (391), the other end of the hinged rod (391) is hinged with the guide strip (332), a first elastic connecting piece (392) is fixedly arranged on the limiting block (39), and the other end of the first elastic connecting piece (392) is fixedly connected with the rotating disc (32).

8. The intelligent temperature-controlled packaging carton printing surface dryer of claim 7, wherein the fixed strip (333) and the movable strip (334) are all L-shaped, the connection parts of the two ends of the fixed strip (333) and the movable strip (334) are cambered surfaces, the protruding ends of the fixed strip (333) and the movable strip (334) are arranged at positions close to the guide strip (332), and the protruding ends of the fixed strip (333) and the movable strip (334) on the same guide strip (332) are arranged in opposite directions.

9. The intelligent temperature-controlled packaging carton printing surface dryer according to claim 8, wherein a second fixing shaft seat (3331) is fixedly arranged at one end, close to the guide strip (332), of the fixing strip (333), the second fixing shaft seat (3331) can be hinged with the first fixing shaft seat (3311), a positioning protrusion (3332) is fixedly arranged in the second fixing shaft seat (3331), and a positioning hole (3321) for inserting the positioning protrusion (3332) is formed in one end, hinged to the first fixing shaft seat (3311), of the guide strip (332).

10. The intelligent temperature-controlled packaging carton printing surface dryer according to claim 9, wherein a third fixed shaft seat (3341) is fixedly arranged at one end, close to the guide strip (332), of the movable strip (334), the third fixed shaft seat (3341) is slidably sleeved on the guide strip (332), and two third fixed shaft seats (3341) on the same fixed plate (331) are fixedly connected with one end of the connecting strip (36) respectively.