CN114248978A

CN114248978A - Intelligent packaging device

Info

Publication number: CN114248978A
Application number: CN202111576849.XA
Authority: CN
Inventors: 李锋
Original assignee: Suqian Zhengfeng Packaging Materials Co ltd
Current assignee: Suqian Zhengfeng Packaging Materials Co ltd
Priority date: 2021-12-22
Filing date: 2021-12-22
Publication date: 2022-03-29
Anticipated expiration: 2041-12-22
Also published as: CN114248978B

Abstract

The invention relates to the technical field of packaging devices, in particular to an intelligent packaging device. An intelligent packaging device comprises a support frame, an air heater and a hot air transfer device. The hot air blower is arranged on the support frame, and the hot air delivery device comprises an air delivery pipe, two flow dividing pipes, a sliding part, two detection parts, a transmission mechanism, an adjusting mechanism, a plurality of air direction guide plates, an adjusting mechanism and a reset mechanism. The air delivery pipe is vertically arranged and is connected with an air outlet of the air heater. The two flow dividing pipes are symmetrically arranged at the left side and the right side of the air conveying pipe and communicated with the air conveying pipe, and the air outlet ends are oppositely arranged. The adjusting mechanism is configured to enable the plurality of wind direction guide plates to deflect when moving left and right along with the sliding piece, finally, extension lines of the plurality of wind direction guide plates are converged at one point inside a shunt pipe with smaller air outlet, wind is guided into the shunt pipe with smaller air exhaust volume, and the air inlet volume of the left shunt pipe and the right shunt pipe is balanced, so that the problem that the packaging effect is poor due to uneven heating of the film is prevented.

Description

Intelligent packaging device

Technical Field

The invention relates to the technical field of packaging devices, in particular to an intelligent packaging device.

Background

The packaging device is equipment capable of completing all or part of the product and commodity packaging process. The packaging process comprises the main procedures of filling, wrapping, sealing and the like. As one of the packaging devices, a shrink packaging machine is a machine that wraps a product with a heat shrinkable film and then heats the film to shrink the film and wrap the product. When the existing shrink packaging machine heats the outer shrink film of a commodity, the shrink film is not uniformly wrapped on the periphery of the product due to the irregularity of the product and the singleness of the heating position, so that the attractiveness of the commodity and the protection effect on the commodity are influenced.

Disclosure of Invention

The invention provides an intelligent packaging device, which aims to solve the problem that the existing packaging device is uneven in package when packaging articles.

The intelligent packaging device adopts the following technical scheme:

an intelligent packaging device comprises a support frame, an air heater and a hot air transfer device. The hot air blower is arranged on the support frame, and the hot air delivery device comprises an air delivery pipe, two flow dividing pipes, a sliding part, two detection parts, a transmission mechanism, a plurality of air direction guide plates, an adjusting mechanism and a reset mechanism.

The air delivery pipe is vertically arranged and connected with an air outlet of the air heater; the two flow dividing pipes are symmetrically arranged at the left side and the right side of the air conveying pipe and are communicated with the air conveying pipe, and the air outlet ends are oppositely arranged; the sliding piece is arranged on the air conveying pipe in a sliding way along the left and right direction and is positioned in the middle of the communication position of the air conveying pipe and the two flow dividing pipes; each detection piece is arranged in one shunt tube; the transmission mechanism connects the two detection pieces with the sliding piece so as to drive one detection piece to ascend when the wind power borne by the other detection piece descends greatly; the plurality of wind direction guide plates are arranged at intervals along the left-right direction, an air inlet channel is formed between every two adjacent wind direction guide plates, each wind direction guide plate extends along the front-back direction in an initial state, and the height in the up-down direction is greater than the width in the left-right direction; the adjusting mechanism is configured to enable the plurality of wind direction guide plates to deflect when moving left and right along with the sliding piece, and finally enable extension lines of the plurality of wind direction guide plates to be converged inside one shunt pipe with smaller air outlet; the resetting mechanism is used for prompting the detection piece to reset.

Furthermore, an insertion hole is formed in the middle of each wind direction guide plate, and a sliding protrusion is arranged on each insertion hole; the adjusting mechanism comprises a plurality of limiting tables, a plurality of inclined rods and a plurality of threaded rods; the plurality of limiting tables are arranged on the inner pipe wall of the air conveying pipe and are positioned in front of the sliding piece, each limiting table gradually extends towards one side of the sliding piece from top to bottom towards the direction close to the sliding piece, each limiting table is protruded towards the direction of the sliding piece, the thickness of the backward protrusions of the plurality of limiting tables is gradually reduced from the middle to the left side and the right side, one side of each limiting table towards the sliding piece is provided with a chute communicated with the upper side and the lower side of the limiting table, the upper end and the lower end of each chute are respectively extended with a vertical groove extending along the vertical direction, one end of each wind direction guide plate is provided with a sliding column, and each sliding column is positioned in the middle of each chute in an initial state; the plurality of inclined rods are arranged on the sliding piece, are symmetrically arranged relative to a vertical center line of the sliding piece, and are positioned on the left side of the center line along the direction seen from back to front; each threaded rod is inserted into one insertion hole and is arranged along one inclined rod in a sliding mode, a first spiral groove and a second spiral groove which are communicated with each other are formed in the outer peripheral wall of each threaded rod, the first spiral groove and the second spiral groove are right-handed in the backward and forward direction, the first spiral groove is located on one side close to the inclined rod, the thread pitch is larger than that of the second spiral groove, and in an initial state, the sliding protrusion is inserted into the connecting position of the first spiral groove and the second spiral groove; the height of the backward protrusion of the first spiral groove, the second spiral groove and each limiting table is configured to enable all the wind direction guide plates to be converged inside one shunt pipe when the wind direction guide plates move into the vertical groove through the sliding columns.

Furthermore, each detection piece is a detection plate, the detection plates are obliquely arranged and are slidably arranged in a shunt pipe along the up-down direction, sliding blocks are arranged on two sides of each detection plate, and spring mounting plates are arranged on two sides of each sliding block; the reset mechanism comprises a plurality of baffle plates, a guide plate and a plurality of first springs; the baffle plates are horizontally arranged on the inner wall of the shunt pipe and positioned at the upper side and the lower side of the spring mounting plate; one end of the first spring is connected with the spring mounting plate, and the other end of the first spring is connected with the baffle plate; the guide plate is connected with two baffles which correspond up and down, and the sliding block is arranged along the guide plate in a way of sliding up and down through the sliding groove.

Further, the sliding part comprises two sliding rods and two cross rods; the two sliding rods extend along the left-right direction, the plurality of inclined rods are arranged between the two sliding rods, a plurality of fixing blocks are mounted on the inner peripheral wall of the air delivery pipe, sliding grooves are formed in the fixing blocks, and the sliding rods are inserted into the sliding grooves and can slide along the sliding grooves in the left-right direction; the two cross rods extend along the front-back direction and are respectively arranged at two ends of the lower sliding rod; the transmission mechanism comprises a synchronous belt and a pulley, the pulley is rotatably arranged on the pipe wall of the shunt pipe, one end of the synchronous belt is connected to a cross rod, and the other end of the synchronous belt is connected with the middle of the detection plate.

Further, the support frame is including putting thing board, a supporting beam and a plurality of flexible post, puts thing board level setting, and the backup pad level sets up for install the air heater, flexible post joint support board with put the thing board, its height-adjustable.

Further, a second spring is arranged in the insertion hole in the wind direction guide plate and abuts against one end of the threaded rod.

Furthermore, the detection plate is provided with a vent, the middle part of the upper side surface is provided with a traction block, and one end of the first spring is connected with one detection plate through the traction block.

Further, the slip ring is installed to the one end of keeping away from the wind direction guide board of threaded rod, and the slip ring cup joints in an down tube, and follows the down tube slidable.

The invention has the beneficial effects that: according to the invention, the two shunt pipes are arranged, so that hot air can be blown to two sides of an object conveniently, the packaging film is symmetrically shrunk, and the phenomenon that the film is shrunk unevenly due to heating of one side is avoided. Through setting up the slider, two detection pieces, drive mechanism, adjustment mechanism, a plurality of wind direction guide boards, adjustment mechanism and canceling release mechanical system, if then make a plurality of wind direction guide boards take place to deflect when the difference is great from two shunt tubes exhaust hot air volume, guide in the less shunt tubes of wind volume with hot-blast wind direction, and finally make the extension line of a plurality of wind direction guide boards all assemble in the less inside one point of a shunt tubes of air-out, guide wind to the less shunt tubes of volume of airing exhaust in, with the balanced intake of controlling two shunt tubes that gets into, prevent that the film from being heated unevenly and lead to the relatively poor problem of packing effect to appear.

According to the invention, by configuring the screw pitches of the first spiral groove and the second spiral groove, the protruding degree of the limiting table and the inclined direction of the inclined rod, when the plurality of wind direction guide plates slide to the vertical groove through the sliding column, the intersection point of the extension lines of the plurality of wind direction guide plates is positioned at one point inside the branch pipe with smaller wind output, so that the guiding of wind at the position with small wind output is accelerated, the wind input into the branch pipe is increased, and the wind input into the left branch pipe and the right branch pipe is balanced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of an intelligent packaging device of the present invention;

FIG. 2 is a partial cross-sectional view of an embodiment of the smart packaging device of FIG. 1;

FIG. 3 is an enlarged view of FIG. 2 at A;

FIG. 4 is a schematic view of a portion of another side of the embodiment of the intelligent packaging device of FIG. 1;

FIG. 5 is an enlarged view of FIG. 4 at B;

FIG. 6 is an enlarged view at C of FIG. 4;

FIG. 7 is a schematic structural view of a threaded rod of an embodiment of the intelligent packaging device of the present invention;

FIG. 8 is a schematic view of the structure of the detection board of the embodiment of the intelligent packing device of the invention;

fig. 9 is a schematic view showing an operating state of the slider, the diagonal member and the adjusting plates according to the embodiment of the intelligent packing apparatus of the present invention.

In the figure: 1. a storage plate; 11. a telescopic column; 12. a support beam; 2. a hot air blower; 31. a wind delivery pipe; 32. a shunt tube; 33. a vertical slot; 34. a limiting table; 35. a fixed block; 36. a baffle plate; 37. detecting a plate; 38. a pulley post; 39. a chute; 41. a slide bar; 42. a diagonal bar; 43. a cross bar; 5. a threaded rod; 51. a slip ring; 52. a first helical groove; 53. a second helical groove; 6. a wind direction guide plate; 61. a sliding post; 7. a synchronous belt; 71. a pulley; 8. detecting a plate; 81. a sliding groove; 82. a spring mounting plate; 83. a traction block; 9. a first spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. For ease of understanding, the direction toward the user is defined as front and the direction away from the user is defined as back.

As shown in fig. 1 to 9, an embodiment of an intelligent packaging device of the present invention includes a supporting frame, a hot air blower 2 and a hot air delivery device. The air heater 2 is arranged on the support frame, and the hot air transfer device comprises an air delivery pipe 31, two shunt pipes 32, a sliding part, two detection parts, a transmission mechanism, a plurality of wind direction guide plates 6, an adjusting mechanism and a reset mechanism.

The air delivery pipe 31 is vertically arranged and connected with an air outlet of the air heater 2. The two shunt tubes 32 are symmetrically arranged on the left side and the right side of the air conveying tube 31 and communicated with the air conveying tube 31, the air outlet ends are oppositely arranged, hot air discharged from the air heater 2 enters the air conveying tube 31 and then enters the two shunt tubes 32, the hot air is discharged from the air outlet of the shunt tubes 32, and a packaging film on an article between the two air outlets is heated. The sliding member is slidably installed in the ductus 31 in the left-right direction at the middle of the place where the ductus 31 communicates with the two branch pipes 32. Each of the sensing members is disposed in one of the shunt tubes 32 to sense the magnitude of the wind. The transmission mechanism connects the two detection pieces with the sliding piece so as to drive one detection piece to ascend when the wind power borne by the other detection piece descends greatly. A plurality of wind direction guide boards 6 set up along left right direction interval, and form inlet air channel between every two adjacent wind direction guide boards 6, and every wind direction guide board 6 extends along the fore-and-aft direction under the initial condition, and the height in upper and lower direction is greater than the width of left and right sides direction. The adjusting mechanism is configured to cause the plurality of wind direction guide plates 6 to deflect when moving left and right along with the sliding part, and finally, extension lines of the plurality of wind direction guide plates 6 are all converged inside one division pipe 32 with smaller air outlet, so that the wind is guided into one division pipe 32 with smaller air outlet amount, and the air inlet amount entering the left division pipe 32 and the right division pipe 32 is balanced. The resetting mechanism is used for prompting the detection piece to reset.

In this embodiment, an insertion hole is provided in the middle of each wind direction guide plate 6, and a sliding protrusion is installed on the hole wall of the insertion hole. The adjustment mechanism includes a plurality of stop blocks 34, a plurality of diagonal rods 42, and a plurality of threaded rods 5. The limiting tables 34 are mounted on the inner pipe wall of the air delivery pipe 31 and located in front of the sliding piece, one side, facing the sliding piece, of each limiting table 34 extends towards the direction close to the sliding piece gradually from top to bottom, each limiting table 34 protrudes towards the direction of the sliding piece, the thickness, protruding towards the left side and the right side, of each limiting table 34 gradually decreases from the middle, inclined grooves 39 communicated with the upper side and the lower side of each limiting table 34 are formed in one side, facing the sliding piece, of each inclined groove 39, vertical grooves 33 extending along the vertical direction extend from the upper end and the lower end of each inclined groove 39, sliding columns 61 are mounted at one ends of each wind direction guide plate 6, each sliding column 61 is located in the middle of each inclined groove 39 in the initial state, and each sliding column 61 is arranged in a vertically sliding mode along each inclined groove 39. A plurality of diagonal rods 42 are mounted to the slider, the plurality of diagonal rods 42 are symmetrically arranged about a vertical center line of the slider, upper ends of the plurality of diagonal rods 42 on a left side of the center line in a direction seen from the rear to the front are on a right side of lower ends, and upper ends of the plurality of diagonal rods 42 on a right side of the center line are on a left side of lower ends. Each threaded rod 5 is inserted into one insertion hole, and is arranged along a diagonal rod 42 in a slidable manner, a first spiral groove 52 and a second spiral groove 53 which are communicated are arranged on the outer peripheral wall of each threaded rod 5, the first spiral groove 52 and the second spiral groove 53 are right-handed in the backward-forward direction, the first spiral groove 52 is positioned on one side close to the diagonal rod 42, the thread pitch is larger than that of the second spiral groove 53, in the initial state, a sliding protrusion is inserted into the joint of the first spiral groove 52 and the second spiral groove 53, when the wind direction guide plate 6 and the corresponding threaded rod 5 slide upwards along the diagonal rod 42 and the diagonal groove 39, because the threaded rod 5 does not rotate, the wind direction guide plate 6 is enabled to rotate to slide along the corresponding first spiral groove 52 or the second spiral groove 53 through the sliding protrusion. The height of the first spiral groove 52, the second spiral groove 53 and the backward projection of each stopper 34 is configured such that the extension lines of the plurality of wind direction guide plates 6 are converged inside one shunt tube 32 when all the wind direction guide plates 6 are moved into the vertical groove 33 by the sliding post 61.

In this embodiment, an intelligence packing plant still includes a plurality of perpendicular grooves 33, and every perpendicular groove 33 extends along vertical direction, and sets up respectively in the upper and lower both ends of chute 39, and communicates with chute 39 to when the great promotion of wind-force detects a removal great distance, can make wind direction guide board 6 pass through sliding column 61 and continue to slide along chute 39 and get into in the perpendicular groove 33, and do not change wind direction guide board 6's deflection angle.

In this embodiment, each detection member is a detection plate 8, the detection plate 8 is disposed obliquely and slidably in the up-down direction in one of the flow dividing tubes 32, and sliding blocks are mounted on both sides of the detection plate, and spring mounting plates 82 are mounted on both sides of the sliding blocks. The return mechanism includes a plurality of flapper plates 36, a guide plate 37, and a plurality of first springs 9. Baffles 36 are mounted horizontally to the inner wall of the shunt tube 32, on both the upper and lower sides of the spring mounting plate 82. The first spring 9 has one end connected to the spring mounting plate 82 and the other end connected to the stopper 36. The guide plate 37 is connected to the two vertically corresponding stoppers 36, and the slide block is vertically slidably disposed along the guide plate 37 via a slide groove 81, so that the detection plate 8 is reset when the force for moving the detection member upward or downward is lost, and the slide member is reset.

In this embodiment, the slider comprises two slide bars 41 and two cross bars 43. Both slide bars 41 all extend along left and right directions, a plurality of down tube 42 set up between two slide bars 41, install a plurality of fixed blocks 35 on the internal perisporium of defeated tuber pipe 31, be provided with sliding tray 81 in the fixed block 35, slide bar 41 inserts in sliding tray 81, and along sliding tray 81 in the right and left direction slidable. The two cross bars 43 extend in the front-rear direction and are respectively disposed at both ends of the lower slide bar 41. The transmission mechanism comprises a synchronous belt 7 and a pulley 71, wherein the pulley 71 is rotatably arranged on the pipe wall of the shunt pipe 32, specifically, a pulley column 38 is arranged on the pipe wall of the shunt pipe 32, and the pulley is rotatably arranged on the pulley column 38. One end of the synchronous belt 7 is connected with a cross rod 43, and the other end of the synchronous belt is connected with the middle part of the detection plate 8.

In this embodiment, the support frame is including putting thing board 1, a supporting beam 12 and a plurality of flexible post 11, puts 1 horizontal settings of thing board for place the article of treating the packing, a supporting beam 12 is used for installing air heater 2, and flexible post 11 joint support board with put thing board 1, its height-adjustable, with the article of adaptation equidimension not.

In this embodiment, a second spring is arranged in the insertion hole in the wind direction guide plate 6, and the second spring abuts against one end of the threaded rod 5, so that the wind direction guide plate 6 and the threaded rod 5 are not stressed to cause the threaded rod 5 and the wind direction guide plate 6 to reset.

In this embodiment, the detecting plate 8 is provided with a vent, the middle of the upper side surface is provided with a traction block 83, and one end of the spring is connected with one detecting plate 8 through the traction block 83.

In this embodiment, a sliding ring 51 is installed at one end of the threaded rod 5 away from the wind direction guide plate 6, and the sliding ring 51 is sleeved on one of the diagonal rods 42 and is slidable along the diagonal rod 42.

When the packaging box is used, articles to be packaged are placed on the object placing plate 1, the height of the telescopic column 11 is adjusted, the positions of the articles are adjusted, the articles are located between the two shunt pipes 32, and the air outlets of the shunt pipes 32 are aligned to the center positions of the articles. A film of suitable size is fitted over the article. Then, the air heater 2 is turned on to supply hot air of a suitable temperature into the air duct 31. The film begins to shrink gradually to wrap the article completely.

If the air outlet air volume on the left side is large, the acting force on the detection plate 8 on the left side is large, the detection plate 8 on the left side can move downwards, and the synchronous belt 7 on the left side drives the sliding piece to move leftwards. The threaded rod 5 at the left in the middle of the slider slides upward along the diagonal rod 42 through the slide ring 51, and the wind direction guide plate 6 and the threaded rod 5 are away from each other by the inclined groove 39, so that the threaded rod 5 protrudes outward relative to the wind direction guide plate 6, and since the threaded rod 5 does not rotate relative to the diagonal rod 42, the wind direction guide plate 6 rotates clockwise as viewed from the rear to the front along the second spiral groove 53 on the diagonal rod 42 by the sliding protrusion. The threaded rod 5 at the right of the slider slides downwards along the diagonal rod 42 through the sliding ring 51, and the wind direction guide plate 6 and the threaded rod 5 approach each other under the action of the inclined groove 39, because the threaded rod 5 does not rotate relative to the diagonal rod 42, the wind direction guide plate 6 rotates anticlockwise when viewed from the back to the front along the first spiral groove 52 on the diagonal rod 42, because the pitch of the second spiral groove 53 is smaller than that of the first spiral groove 52, the angle of rotation of the wind direction guide plate 6 at the left at the middle of the slider is larger than that of the wind direction guide plate 6 at the right at the middle of the slider, and finally, through the arrangement of the first spiral groove 52, the second spiral groove 53 and the protruding thickness of the limit table 34, when the plurality of wind directions 6 all slide to the vertical groove 33 through the sliding column 61, the intersection point of the extension lines of the plurality of wind direction guide plates 6 is positioned inside the shunt tube 32 at the right, so as to increase the air intake entering the right branch pipe 32 to balance the air volume entering the left branch pipe 32 and the right branch pipe 32.

If the air outlet air output on the right side is large, the acting force on the detection plate 8 on the right side is large, the detection plate 8 on the right side can move downwards, and the synchronous belt 7 on the right side drives the sliding piece to move rightwards. The threaded rod 5 located at the right of the middle of the slider slides upward along the diagonal rod 42 through the slide ring 51, and the wind direction guide plate 6 and the threaded rod 5 are moved away from each other by the inclined groove 39, so that the threaded rod 5 protrudes outward relative to the wind direction guide plate 6, and since the threaded rod 5 does not rotate relative to the diagonal rod 42, the wind direction guide plate 6 rotates clockwise as viewed from the rear to the front along the second spiral groove 53 on the diagonal rod 42 by the slide projection. The threaded rod 5 at the left of the slider slides downwards along the diagonal rod 42 through the sliding ring 51, and the wind direction guide plate 6 and the threaded rod 5 approach each other under the action of the inclined groove 39, because the threaded rod 5 does not rotate relative to the diagonal rod 42, the wind direction guide plate 6 rotates anticlockwise when viewed from the back to the front along the first spiral groove 52 on the diagonal rod 42, because the pitch of the second spiral groove 53 is smaller than that of the first spiral groove 52, the angle of rotation of the wind direction guide plate 6 at the right of the middle of the slider is larger than that of rotation of the wind direction guide plate 6 at the left of the middle of the slider, and finally, through the arrangement of the first spiral groove 52, the second spiral groove 53 and the protruding thickness of the limit table 34, when the plurality of wind direction guide plates 6 all slide to the vertical groove 33 through the sliding column 61, the intersection point of the extension lines of the plurality of wind direction guide plates 6 is positioned inside the shunt tube 32 at the left, so as to increase the air intake entering the left branch pipe 32 to balance the air volume entering the left branch pipe 32 and the right branch pipe 32.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides an intelligence packing plant which characterized in that: comprises a supporting frame, an air heater and a hot air transfer device; the hot air blower is arranged on the support frame, and the hot air delivery device comprises an air delivery pipe, two flow dividing pipes, a sliding part, two detection parts, a transmission mechanism, a plurality of air direction guide plates, an adjusting mechanism and a reset mechanism;

2. The intelligent packaging device of claim 1, wherein: the middle part of each wind direction guide plate is provided with an insertion hole, and a sliding bulge is arranged on the insertion hole; the adjusting mechanism comprises a plurality of limiting tables, a plurality of inclined rods and a plurality of threaded rods; the plurality of limiting tables are arranged on the inner pipe wall of the air conveying pipe and are positioned in front of the sliding piece, each limiting table gradually extends towards one side of the sliding piece from top to bottom towards the direction close to the sliding piece, each limiting table is protruded towards the direction of the sliding piece, the thickness of the backward protrusions of the plurality of limiting tables is gradually reduced from the middle to the left side and the right side, one side of each limiting table towards the sliding piece is provided with a chute communicated with the upper side and the lower side of the limiting table, the upper end and the lower end of each chute are respectively extended with a vertical groove extending along the vertical direction, one end of each wind direction guide plate is provided with a sliding column, and each sliding column is positioned in the middle of each chute in an initial state; the plurality of inclined rods are arranged on the sliding piece, are symmetrically arranged relative to a vertical center line of the sliding piece, and are positioned on the left side of the center line along the direction seen from back to front; each threaded rod is inserted into one insertion hole and is arranged along one inclined rod in a sliding mode, a first spiral groove and a second spiral groove which are communicated with each other are formed in the outer peripheral wall of each threaded rod, the first spiral groove and the second spiral groove are right-handed in the backward and forward direction, the first spiral groove is located on one side close to the inclined rod, the thread pitch is larger than that of the second spiral groove, and in an initial state, the sliding protrusion is inserted into the connecting position of the first spiral groove and the second spiral groove; the height of the backward protrusion of the first spiral groove, the second spiral groove and each limiting table is configured to enable all the wind direction guide plates to be converged inside one shunt pipe when the wind direction guide plates move into the vertical groove through the sliding columns.

3. The intelligent packaging device of claim 1, wherein: each detection piece is a detection plate, the detection plates are obliquely arranged and are arranged in a shunt pipe in a sliding mode in the up-down direction, sliding blocks are arranged on two sides of each detection plate, and spring mounting plates are arranged on two sides of each sliding block; the reset mechanism comprises a plurality of baffle plates, a guide plate and a plurality of first springs; the baffle plates are horizontally arranged on the inner wall of the shunt pipe and positioned at the upper side and the lower side of the spring mounting plate; one end of the first spring is connected with the spring mounting plate, and the other end of the first spring is connected with the baffle plate; the guide plate is connected with two baffles which correspond up and down, and the sliding block is arranged along the guide plate in a way of sliding up and down through the sliding groove.

4. The intelligent packaging device of claim 3, wherein: the sliding part comprises two sliding rods and two cross rods; the two sliding rods extend along the left-right direction, the plurality of inclined rods are arranged between the two sliding rods, a plurality of fixing blocks are mounted on the inner peripheral wall of the air delivery pipe, sliding grooves are formed in the fixing blocks, and the sliding rods are inserted into the sliding grooves and can slide along the sliding grooves in the left-right direction; the two cross rods extend along the front-back direction and are respectively arranged at two ends of the lower sliding rod; the transmission mechanism comprises a synchronous belt and a pulley, the pulley is rotatably arranged on the pipe wall of the shunt pipe, one end of the synchronous belt is connected to a cross rod, and the other end of the synchronous belt is connected with the middle of the detection plate.

5. The intelligent packaging device of claim 1, wherein: the support frame is including putting thing board, a supporting beam and a plurality of flexible post, puts the setting of thing board level, and the backup pad level sets up for install the air heater, flexible post joint support board with put the thing board, its height-adjustable.

6. The intelligent packaging device of claim 2, wherein: and a second spring is arranged in the insertion hole in the wind direction guide plate and is abutted against one end of the threaded rod.

7. The intelligent packaging device of claim 3, wherein: the detecting plate is provided with a vent, the middle part of the upper side surface is provided with a traction block, and one end of the first spring is connected with one detecting plate through the traction block.

8. The intelligent packaging device of claim 2, wherein: the slip ring is installed to the one end of keeping away from wind direction guide board of threaded rod, and the slip ring cup joints in an down tube, and follows the down tube slidable.