CN114890081B

CN114890081B - Automatic coding device for color box production

Info

Publication number: CN114890081B
Application number: CN202210605326.1A
Authority: CN
Inventors: 林奕宏; 陈斌
Original assignee: Shenzhen Voion Colour Box & Paper Co ltd
Current assignee: Shenzhen Voion Colour Box & Paper Co ltd
Priority date: 2022-05-30
Filing date: 2022-05-30
Publication date: 2024-05-28
Anticipated expiration: 2042-05-30
Also published as: CN114890081A

Abstract

The invention relates to the field of color box processing, in particular to an automatic code printing device for color box production, which comprises a bracket, a guide rail, a box buckling block, a first linear driver, a first conveyor, a second conveyor, an ink box and a printing block, wherein the bracket is arranged on the bracket; the buckle box block is internally provided with a first cavity, a stabilizing component is arranged in the first cavity, and the stabilizing component comprises an abutting rod, an opening, a transmission block and a pushing plate. The supporting rod is moved to enable the supporting rod to slide on the box buckling block, the supporting block arranged above the supporting rod is driven to support against the transmission blocks, a plurality of transmission blocks slide on the openings to push the pushing plates to clamp and sleeve the inner walls of the color boxes on the box buckling block, so that the color boxes are clamped, the supporting rod is provided with a plurality of supporting blocks which are convenient to stably move and simultaneously increase the supporting effect on the supporting block, and the plurality of openings encircle the periphery of the supporting block and are uniformly distributed so as to drive the transmission blocks which are the same in number and correspond to the driving blocks one by one to fix, strengthen and stabilize the periphery inner walls of the color boxes.

Description

Automatic coding device for color box production

Technical Field

The invention relates to the field of color box processing, in particular to an automatic coding device for color box production.

Background

The color box is a folding paper box and a fine corrugated paper box which are made of two materials, namely paperboard or fine corrugated paper board, and is formed by matching a plurality of colors, so that strong visual sense is provided for a purchaser and a user, the purchaser and the user can know the whole appearance, the color and other details of the commodity to a certain extent, the color box is usually required to print anti-counterfeiting numbers or bar codes and other information on the surface of the color box after production, the existing coding device mostly separates a plurality of unshaped folding paper boxes through a stirring roller shaft, and the unshaped folding paper boxes are transported by a conveyor for coding treatment, but the supporting effect of the conveyor may not be feasible, so that the coding effect is affected.

The existing automatic code printing device for color box production, such as a high-efficiency automatic code printing device for color box disclosed in patent number CN202120889542.4, is characterized in that a guide rail in a shape of a Chinese character 'ji' is arranged to enable a box buckling block on the color box to move obliquely on the guide rail so as to drive inverted color boxes on two side conveyors of the color box to be connected with the color boxes, so that a supporting force is provided in the printing process to prevent the influence on the printing effect, but the color box can still be sleeved on the box buckling block, and the printing positions of the color boxes on different boxes can be different due to shaking.

Disclosure of Invention

Based on this, it is necessary to provide an automatic coding device for color box production aiming at the prior art.

In order to solve the problems in the prior art, the invention adopts the following technical scheme:

An automatic code printing device for color box production comprises a bracket, a guide rail, a box buckling block, a first linear driver, a first conveyor, a second conveyor, an ink box and a printing block; the box buckling block is arranged on the guide rail and is in sliding connection with the guide rail, a first cavity is formed in the box buckling block, a stabilizing component is arranged in the first cavity, and the stabilizing component comprises an abutting rod, an opening, a transmission block and a pushing plate; the plurality of abutting rods are uniformly arranged on the buckling box block in a penetrating mode and are in sliding connection with the buckling box block, the bottom ends of the plurality of abutting rods are located on the outer side of the buckling box block, and one abutting block is arranged at the top ends of the plurality of abutting rods; the openings are uniformly distributed on the box buckling block, the openings are uniformly distributed around the abutting block, and the openings are communicated with the first cavity; the transmission blocks are arranged on the openings in the same number and in one-to-one correspondence with the openings, are connected with the openings in a sliding manner, and one end of each transmission block is attached to the abutting block; the pushing plates are arranged in four, are arranged around the abutting block and are connected with the transmission block.

Preferably, telescopic rods which are the same as the abutting rods in number and in one-to-one correspondence are arranged below the box buckling blocks, and a sliding table and a second linear driver connected with the sliding table are arranged below the telescopic rods.

Preferably, the telescopic rod is divided into a fixed rod and a sliding rod, the fixed rod is connected with the sliding table and is provided with a first concave part which is cylindrical, a connecting rod which is coaxial with the fixed rod and is connected with the abutting rod is arranged on the first concave part, the connecting rod and the first concave part form a first sliding groove, the sliding rod is arranged inside the first sliding groove and is in sliding connection with the first sliding groove, the top end of the sliding rod is connected with the buckling box block, and the axis of the sliding rod is provided with a first through hole used for the connecting rod to penetrate.

Preferably, the top end of each connecting rod is provided with a first slot, a plurality of uniformly distributed first threaded holes are formed in the outer side of the first slot, each abutting rod bottom end is provided with a first bolt corresponding to the first slot, and the first bolts are provided with second threaded holes corresponding to the first threaded holes.

Preferably, the top end of the telescopic rod is also provided with a base connected with the telescopic rod, a plurality of second slots which are uniformly distributed are arranged on the base, and the buckling box blocks are provided with second bolts which have the same number with the second slots and are in one-to-one correspondence with the second slots.

Preferably, the cross section of the middle part of the abutting block is an inverted isosceles trapezoid, each transmission block is in a right trapezoid shape, and the inclined surface of each transmission block is abutted against the abutting block.

Preferably, the top of each transmission block is provided with a first sliding block, one side of each opening in the first cavity is provided with a second sliding groove corresponding to the first sliding block, a sliding rod penetrating through the first sliding block is further arranged in the second sliding groove, a first elastic piece is sleeved on the sliding rod, and two ends of the first elastic piece are respectively connected with the first sliding block and the inner wall of the second sliding groove.

Preferably, the transmission block is further provided with a third sliding groove, a second sliding block connected with the pushing plate is arranged in the third sliding groove, the second sliding block is in sliding connection with the third sliding groove, a second elastic piece is further arranged between the second sliding block and the third sliding groove, and the pushing plate is further provided with a layer of buffer pad made of flexible materials.

Preferably, the cushion pad is further provided with a plurality of first protrusions uniformly distributed thereon.

Preferably, both sides still are provided with and support plate around the knot box piece, and the backup pad is the fretwork form, and the middle part of backup pad is articulated with detaining the box piece, and the one end of backup pad still is articulated with the butt pole.

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

1. According to the automatic code printing device for color box production, the first cavity is formed in the box buckling block so as to facilitate installation of objects, then the abutting rod is moved so as to enable the abutting rod to slide on the box buckling block, the abutting block arranged above the abutting rod is driven to abut against the transmission blocks, the plurality of transmission blocks slide on the openings to push the pushing plates to clamp and sleeve the inner walls of the color boxes on the box buckling block, so that the color boxes are clamped, the abutting rod is provided with the plurality of abutting rods so as to facilitate stable movement of the abutting blocks and increase the supporting effect on the abutting blocks, and the plurality of openings are uniformly distributed around the periphery of the abutting block so as to drive the transmission blocks which are the same in number and correspond to the abutting blocks one by one to fix and strengthen the stabilizing effect on the inner walls around the color boxes.

2. According to the automatic code printing device for color box production, the telescopic rod is arranged, so that the color box can be prevented from being clamped by sliding when being driven by the telescopic rod and the second linear driver on the 'nearly' shaped guide rail.

3. The automatic code printing device for color box production provided by the invention moves on the 'nearly' -shaped guide rail through the telescopic rod, and the sliding rod and the fixed rod slide to enable the box buckling block and the fixed rod to move relatively, so that the connecting rod drives the abutting rod to move downwards relative to the box buckling block, and the abutting block is driven to move, the first concave part is used for forming a first sliding groove with the connecting rod to facilitate the sliding rod to move, and the first through hole is used for facilitating the connecting rod to slide.

4. The automatic code printing device for color box production provided by the invention has the advantages that the connecting rod is convenient to connect with the abutting rod through the first slot and the first bolt, and then the connecting effect of the two brackets is enhanced through the external screw penetrating through the first threaded hole and the second threaded hole.

5. The automatic code printing device for color box production provided by the invention is convenient to install and detach the box buckling block through the second slot and the second bolt after being connected with the telescopic rod through the base.

6. The cross section of the middle part of the abutting block is in an inverted isosceles trapezoid shape, and then each driving block is in a right trapezoid shape, and the inclined surface of each driving block is abutted against the abutting block, so that the abutting block can be conveniently driven to push the driving block and the driving effect between the abutting block and the driving block can be improved when the abutting rod moves.

7. The automatic coding device for color box production provided by the invention has the advantages that the transmission effect of the transmission block is enhanced through the first sliding block and the second sliding groove, the supporting effect of the transmission block is enhanced through the sliding rod, and finally, the transmission block can be driven to reset through the elasticity under the condition that the abutting rod is reset through the elasticity of the second elastic piece.

8. According to the automatic code printing device for color box production, the transmission block is added to drive the pushing plate to move on the third sliding groove through the third sliding groove, the second sliding block and the second elastic piece, the elastic force provided by the second elastic piece is used for buffering, so that the color box is prevented from being damaged, and then the buffer effect of the color box when the color box is abutted is further improved through the buffer pad formed by a flexible material layer arranged on the pushing plate.

9. The invention provides an automatic coding device for color box production, which is capable of preventing the color box from moving by enhancing friction force between the first protruding part and the color box.

10. The automatic coding device for color box production provided by the invention drives one end of the supporting rod to move by abutting against the rod, and the middle part is hinged with the box buckling block, so that the front end of the automatic coding device moves upwards to push the paper board to rise, and the paper board is prevented from influencing transmission.

Drawings

FIG. 1 is a perspective view of the present application;

FIG. 2 is a second perspective view of the present application;

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

FIG. 4 is a front view of the present application;

FIG. 5 is a cross-sectional view at section B-B of FIG. 4;

FIG. 6 is a perspective view of a stabilizing assembly of the present application;

FIG. 7 is a partial enlarged view at C of FIG. 6;

FIG. 8 is a front view of a stability assembly of the present application;

FIG. 9 is a cross-sectional view at section D-D of FIG. 8;

FIG. 10 is an enlarged partial view at E of FIG. 9;

The reference numerals in the figures are:

1-a bracket;

2-a guide rail;

3-buckling the box blocks; 3 a-a first cavity; 3a 1-a second chute; 3a 2-a slide rod; 3a 3-a first elastic member; 3 b-a telescopic rod; 3b 1-a fixed rod; 3b 2-slide bar; 3b 3-a first recess; 3b 4-connecting rod; 3b 5-a first chute; 3b 6-a first through hole; 3b 7-a first slot; 3 c-a sliding table; 3 d-a second linear drive; 3 e-a base; 3e 1-a second slot; 3 f-a second latch; 3 g-supporting plate;

4-an abutment bar; 4 a-an abutment block; 4 b-a first plug;

5-opening;

6, a transmission block; 6 a-a first slider; 6 b-a third chute; 6b 1-a second slider; 6b 2-a second elastic member;

7-pushing plates; 7 a-cushion pad.

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.

As shown in fig. 1 to 10, the present application provides:

An automatic code printing device for color box production comprises a bracket 1, a guide rail 2, a box buckling block 3, a first linear driver, a first conveyor, a second conveyor, an ink box and a printing block; the box buckling block 3 is arranged on the guide rail 2 and is in sliding connection with the guide rail 2, a first cavity 3a is formed in the box buckling block 3, a stabilizing component is arranged in the first cavity 3a, and the stabilizing component comprises an abutting rod 4, an opening 5, a transmission block 6 and a pushing plate 7; the plurality of abutting rods 4 are uniformly arranged on the box buckling block 3 in a penetrating mode and are in sliding connection with the box buckling block 3, the bottom ends of the plurality of abutting rods 4 are located on the outer side of the box buckling block 3, and one abutting block 4a is arranged at the top ends of the plurality of abutting rods 4; the openings 5 are provided with a plurality of openings and are uniformly distributed on the box buckling block 3, the plurality of openings 5 are uniformly distributed around the abutting block 4a, and the plurality of openings 5 are communicated with the first cavity 3 a; the transmission blocks 6 and the openings 5 are arranged on the openings 5 in the same number and in one-to-one correspondence, the transmission blocks 6 are connected with the openings 5 in a sliding manner, and one end of each transmission block is attached to the corresponding abutting block 4a; the pushing plates 7 are provided with four, and the four pushing plates 7 are provided around the abutting block 4a and connected with the transmission block 6.

Based on the above embodiments, the technical problem to be solved by the present application is how to facilitate the color box to stably prevent the printing positions from being different. For this reason, as shown in fig. 1 to 10, the present application facilitates the installation of the object by providing the first cavity 3a inside the buckle box block 3, and then by moving the abutting rod 4 so that the abutting rod 4 slides on the buckle box block 3, thereby driving the abutting block 4a provided above to abut against the transmission block 6, causing the plurality of transmission blocks to slide on the opening 5 to push the pushing plate 7 to clamp the inner wall of the color box sleeved on the buckle box block 3, thereby clamping the color box, the abutting rod 4 is provided with a plurality of abutting rods for facilitating the stable movement of the abutting block 4a while increasing the supporting effect on the abutting block 4a, the plurality of openings 5 encircle the even distribution all around of leaning on piece 4a then in order to drive with its quantity the same and the transmission piece 6 of one-to-one is fixed reinforcing stabilization effect to various box inner wall all around, it is provided with two at least to need to say that push plate 7, thereby two push plates 7 need mutually perpendicular be convenient for promote various box inner wall and fix, but preferably still set up to four prevent various box atress too big and lead to deformation, just draw two push plates 7 in the picture simultaneously and lean on opening 5 and transmission piece 6 of piece 4a left and right sides, first conveyer, the second conveyer, first linear drive, ink horn and printing piece are prior art so not drawn in the picture.

Further:

the telescopic rods 3b which are the same as the abutting rods 4 in number and correspond to each other one by one are arranged below the box buckling blocks 3, and a sliding table 3c and a second linear driver 3d connected with the sliding table 3c are arranged below the telescopic rods 3 b.

Based on the above embodiments, the technical problem to be solved by the present application is how to reduce the complexity of the structure of the coding device. For this reason, as shown in fig. 2, the telescopic rod 3b is provided in the present application, so that the telescopic rod 3b and the second linear actuator 3d can be prevented from being locked by sliding when the telescopic rod is driven by the telescopic rod 3b and the second linear actuator 3d on the "table" shaped guide rail 2, and it is to be noted that the second linear actuator 3d is a screw rod sliding table.

Further:

The telescopic rod 3b is divided into a fixed rod 3b1 and a sliding rod 3b2, the fixed rod 3b1 is connected with the sliding table 3c, a first cylindrical concave part 3b3 is arranged on the fixed rod 3b1, a connecting rod 3b4 coaxial with the fixed rod 3b1 and connected with the abutting rod 4 is arranged on the first concave part 3b3, the connecting rod 3b4 and the first concave part 3b3 form a first sliding groove 3b5, the sliding rod 3b2 is arranged inside the first sliding groove 3b5 and is in sliding connection with the first sliding groove 3b5, the top end of the sliding rod 3b2 is connected with the buckling box block 3, and a first through hole 3b6 used for the penetrating of the connecting rod 3b4 is arranged in the axis of the sliding rod 3b 2.

Based on the above described embodiments, the technical problem the present application is intended to solve is how to facilitate the transmission against the rod 4. For this reason, as shown in fig. 2 and 5, the present application moves on the "table" shaped guide rail 2 through the telescopic rod 3b, and the sliding rod 3b2 slides with the fixed rod 3b1, so that the buckle box block 3 moves relatively with the fixed rod 3b1, so that the connecting rod 3b4 drives the abutting rod 4 to move downward relative to the buckle box block 3, so as to drive the abutting block 4a to move, the first recess 3b3 is to form a first chute 3b5 with the connecting rod 3b4 to facilitate the sliding rod 3b2 to move, and the first through hole 3b6 is to facilitate the sliding of the connecting rod 3b 4.

Further:

The top of each connecting rod 3b4 is provided with a first slot 3b7 and a plurality of evenly distributed first threaded holes are arranged on the outer side of the first slot 3b7, the bottom end of each propping rod 4 is provided with a first bolt 4b corresponding to the first slot 3b7, and the first bolt 4b is provided with a second threaded hole corresponding to the first threaded hole.

Based on the above-described embodiments, the technical problem to be solved by the present application is how to strengthen the connecting effect between the connecting rod 3b4 and the abutment rod 4. For this reason, as shown in fig. 5 and 9, the present application facilitates the connection of the connection rod 3b4 with the abutment rod 4 through the first insertion slot 3b7 and the first insertion pin 4b, and then enhances the connection effect of the brackets 1 of the two by providing external screws through the first screw hole and the second screw hole.

Further:

The top of telescopic link 3b still is provided with the base 3e rather than being connected, is provided with a plurality of evenly distributed's second slot 3e1 on the base 3e, is provided with the second bolt 3f the same and the one-to-one of second slot 3e1 quantity on the knot box piece 3.

Based on the above embodiments, the technical problem to be solved by the present application is how to facilitate the replacement of the buckle box block 3 so as to process different color boxes. For this reason, as shown in fig. 6 and 7, the present application facilitates the installation and removal of the buckle box 3 through the second socket 3e1 and the second plug pin 3f after the connection with the telescopic rod 3b by providing one base 3 e.

Further:

The cross section of the abutting block 4a from the middle part is an inverted isosceles trapezoid, each transmission block 6 is in a right trapezoid shape, and the inclined surface of each transmission block 6 is abutted against the abutting block 4 a.

Based on the above embodiment, the technical problem the present application intends to solve is how to facilitate pushing the transmission block 6 against the block 4 a. For this reason, as shown in fig. 9, the cross section of the middle part of the abutting block 4a is an inverted isosceles trapezoid, and then each driving block 6 is in a right trapezoid shape, and the inclined surface of each driving block 6 is abutted against the abutting block 4a, so that the abutting block 4a is driven to push the driving block 6 and the driving effect between the two is improved when the abutting rod 4 moves, and the cross section of the abutting block 4a from the middle part is an isosceles trapezoid which is vertically cut vertically and transversely and uniformly inverted transversely, and meanwhile, the cross section of the abutting block 4a is also an isosceles trapezoid for matching the moving track of the abutting rod 4.

Further:

The top of every transmission piece 6 is provided with first slider 6a, and the inside one side that is located every opening 5 of first cavity 3a all is provided with a second spout 3a1 that corresponds with first slider 6a, still is provided with the litter 3a2 of wearing to establish first slider 6a in the second spout 3a1, and the cover is equipped with first elastic component 3a3 on the litter 3a2, and the both ends of first elastic component 3a3 are connected with first slider 6a and second spout 3a1 inner wall respectively.

Based on the above embodiment, the technical problem to be solved by the present application is how to facilitate the resetting of the transmission block 6. For this purpose, as shown in fig. 9 and 10, the present application strengthens the driving effect of the driving block 6 through the first sliding block 6a and the second sliding groove 3a1, then strengthens the supporting effect of the driving block 6 through the sliding rod 3a2, and finally enables the driving block 6 to return through the elastic force of the second elastic member 6b2 under the condition of returning against the rod 4.

Further:

The transmission block 6 is also provided with a third chute 6b, a second sliding block 6b1 connected with the pushing plate 7 is arranged in the third chute 6b, the second sliding block 6b1 is in sliding connection with the third chute 6b, a second elastic piece 6b2 is also arranged between the second sliding block and the third chute 6b, and a layer of buffer pad 7a made of flexible materials is also arranged on the pushing plate 7.

Based on the above embodiments, the technical problem to be solved by the present application is how to enhance the buffering effect to prevent damage caused by excessive stress of the color box. Therefore, as shown in fig. 3, the present application can increase the driving block 6 to drive the pushing plate to move on the third sliding groove 6b through the third sliding groove 6b, the second sliding block 6b1 and the second elastic member 6b2, and the elastic force provided by the second elastic member 6b2 buffers the color box to prevent the color box from being damaged, and then further increases the buffering effect when the color box is abutted through arranging a layer of buffer pad 7a made of flexible material on the pushing plate, and it is required to be noted that the pushing distance between the abutting rod 4 and the driving block 6 is not great, so that different paper boxes need to be replaced or adjusted.

Further:

the cushion 7a is further provided with a plurality of first protrusions uniformly distributed.

Based on the above embodiments, the technical problem to be solved by the present application is how to further prevent the color box from sliding. For this reason, as shown in fig. 3, the present application prevents the movement thereof by enhancing the friction force with the color cartridge by the first protrusion 7a 1.

Further:

Both sides still are provided with and detain box piece 3 front and back with backup pad 3g, and backup pad 3g is the fretwork form, and backup pad 3 g's middle part is articulated with detaining box piece 3, and backup pad 3 g's one end still is articulated with support pole 4.

Based on the above embodiments, the technical problem to be solved by the present application is how to support the cardboard for sealing on both sides of the carton from affecting the transport. For this reason, as shown in fig. 9, the present application moves one end of the supporting bar by abutting against the bar 4, and moves the front end of the box-shaped block 3 upward to push the cardboard upward to prevent it from affecting the transmission because the middle part thereof is hinged with the box-shaped block.

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. An automatic code printing device for color box production comprises a bracket (1), a guide rail (2), a box buckling block (3), a first linear driver, a first conveyor, a second conveyor, an ink box and a printing block; the method is characterized in that: the box buckling block (3) is arranged on the guide rail (2) and is in sliding connection with the guide rail (2), a first cavity (3 a) is formed in the box buckling block (3), a stabilizing component is arranged in the first cavity (3 a), and the stabilizing component comprises an abutting rod (4), an opening (5), a transmission block (6) and a pushing plate (7); the plurality of the propping rods (4) are uniformly arranged on the buckling box block (3) in a penetrating mode and are in sliding connection with the buckling box block (3), the bottom ends of the plurality of the propping rods (4) are located on the outer side of the buckling box block (3), and one propping block (4 a) is arranged at the top ends of the plurality of the propping rods (4); the openings (5) are arranged in a plurality and uniformly distributed on the box buckling block (3), the openings (5) are uniformly distributed around the abutting block (4 a), and the openings (5) are communicated with the first cavity (3 a); the transmission blocks (6) and the openings (5) are arranged on the openings (5) in the same number and in one-to-one correspondence, the transmission blocks (6) are in sliding connection with the openings (5), and one end of each transmission block is attached to the corresponding abutting block (4 a); the pushing plates (7) are four, and the four pushing plates (7) are arranged around the abutting block (4 a) and are connected with the transmission block (6);

The transmission block (6) is further provided with a third sliding groove (6 b), a second sliding block (6 b 1) connected with the pushing plate (7) is arranged in the third sliding groove (6 b), the second sliding block (6 b 1) is in sliding connection with the third sliding groove (6 b), a second elastic piece (6 b 2) is further arranged between the second sliding block and the third sliding groove, and a layer of buffer pad (7 a) made of flexible materials is further arranged on the pushing plate (7).

2. The automatic coding device for color box production according to claim 1, wherein telescopic rods (3 b) which are the same as the abutting rods (4) in number and correspond to each other one by one are arranged below the box buckling blocks (3), and a sliding table (3 c) and a second linear driver (3 d) connected with the sliding table (3 c) are arranged below the telescopic rods (3 b).

3. The automatic coding device for color box production according to claim 2, wherein the telescopic rod (3 b) is divided into a fixed rod (3 b 1) and a sliding rod (3 b 2), the fixed rod (3 b 1) is connected with the sliding table (3 c) and is provided with a cylindrical first concave part (3 b 3) thereon, the first concave part (3 b 3) is provided with a connecting rod (3 b 4) coaxial with the fixed rod (3 b 1) and connected with the abutting rod (4), the connecting rod (3 b 4) and the first concave part (3 b 3) form a first sliding groove (3 b 5), the sliding rod (3 b 2) is arranged inside the first sliding groove (3 b 5) and is in sliding connection with the first sliding groove (3 b 5), the top end of the sliding rod (3 b 2) is connected with the box buckling block (3), and the axis of the sliding rod (3 b 2) is provided with a first through hole (3 b 6) for the connecting rod (3 b 4) to penetrate through.

4. The automatic code printing device for color box production according to claim 3, wherein a first slot (3 b 7) is arranged at the top end of each connecting rod (3 b 4), a plurality of uniformly distributed first threaded holes are formed in the outer side of each first slot (3 b 7), a first bolt (4 b) corresponding to the first slot (3 b 7) is arranged at the bottom end of each abutting rod (4), and a second threaded hole corresponding to the first threaded hole is formed in each first bolt (4 b).

5. The automatic code printing device for color box production according to claim 4, wherein the top end of the telescopic rod (3 b) is further provided with a base (3 e) connected with the telescopic rod, a plurality of second slots (3 e 1) which are uniformly distributed are arranged on the base (3 e), and the box buckling blocks (3) are provided with second bolts (3 f) which are the same in number with the second slots (3 e 1) and are in one-to-one correspondence.

6. The automatic code printing device for color box production according to claim 4, wherein the cross section of the abutting block (4 a) from the middle part is an inverted isosceles trapezoid, each transmission block (6) is in a right trapezoid shape, and the inclined surface of each transmission block (6) is abutted against the abutting block (4 a).

7. The automatic code printing device for color box production according to claim 1, wherein a first sliding block (6 a) is arranged at the top end of each transmission block (6), a second sliding groove (3 a 1) corresponding to the first sliding block (6 a) is arranged at one side of each opening (5) inside each first cavity (3 a), a sliding rod (3 a 2) penetrating through the first sliding block (6 a) is further arranged in each second sliding groove (3 a 1), a first elastic piece (3 a 3) is sleeved on each sliding rod (3 a 2), and two ends of each first elastic piece (3 a 3) are connected with the inner walls of the first sliding blocks (6 a) and the second sliding grooves (3 a 1) respectively.

8. An automatic coding device for color box production according to claim 1, characterized in that the buffer pad (7 a) is further provided with a plurality of first protruding parts which are uniformly distributed.

9. The automatic coding device for color box production according to claim 1, wherein the front side and the rear side of the box buckling block (3) are further provided with a supporting plate (3 g), the supporting plate (3 g) is hollow, the middle part of the supporting plate (3 g) is hinged with the box buckling block (3), and one end of the supporting plate (3 g) is further hinged with the abutting rod (4).