CN213167170U - Processing equipment for splicing paperboards - Google Patents

Abstract

The utility model relates to the technical field of paperboard processing, and discloses processing equipment for paperboard splicing, which comprises a splicing rack, and a large paperboard feeding conveying line and a splicing mechanism which are positioned on the splicing rack; the splicing mechanism comprises a splicing support, a discharging transmission roller is arranged below the splicing support, and the transmission direction of the discharging transmission roller is consistent with that of the large paperboard feeding conveying line; and a small paperboard feeding conveying line is arranged between the gaps of the discharging transmission rollers, and the transmission direction of the small paperboard feeding conveying line is perpendicular to that of the discharging transmission rollers. The utility model discloses a structural design is ingenious, simple, and machining efficiency is high, has replaced manual production, makes the qualification rate of processing obtain effective the promotion.

Description

Processing equipment for splicing paperboards

Technical Field

The utility model relates to a cardboard processing technology field especially relates to a processing equipment for cardboard amalgamation.

Background

The paperboard is also called paperboard. The thick paper sheet is made up by using various paper pulps and making them be mutually interwoven. Paperboard is generally distinguished from paper by basis weight and caliper, and paper having a basis weight of greater than 250g/m and a caliper of greater than 0.5mm is generally referred to as paperboard (alternatively: paper having a caliper of greater than 0.1mm is generally referred to as paperboard; paper having a basis weight of less than 250g/m is generally referred to as paper, and paperboard having a basis weight of 250g/m or greater is referred to as paperboard).

The paperboard is applied to packaging products, and has various types and specifications such as corrugated boards, single-layer paperboards and the like according to different materials. When in use, the packaging container is processed by nailing splicing, gluing splicing and the like, thereby forming the packaging container. In practice, when the adhesive is spliced, workers manually bond the paperboards, so that the processing efficiency is low; in addition, the operating level of workers is uneven, so that the qualified rate of processed products is low.

In view of this, the utility model discloses a processing equipment for cardboard amalgamation is proposed.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a processing equipment for cardboard amalgamation, this utility model structural design is ingenious, simple, and machining efficiency is high, has replaced manual production, makes the qualification rate of processing obtain effective the promotion.

In order to achieve the above object, the utility model provides a following technical scheme:

the processing equipment for splicing the paperboards comprises a splicing rack, and a large paperboard feeding conveying line and a splicing mechanism which are positioned on the splicing rack; the splicing mechanism comprises a splicing support, a plurality of groups of discharging transmission rollers are arranged below the splicing support, and the transmission direction of the discharging transmission rollers is consistent with that of the large paperboard feeding conveying line; and a small paperboard feeding conveying line is arranged between the gaps of the discharging transmission rollers, and the transmission direction of the small paperboard feeding conveying line is perpendicular to that of the discharging transmission rollers.

This technical scheme can link together flanging machine and amalgamation equipment simply through the direction of transmission that changes big cardboard and little cardboard, realizes the continuous action of hem and amalgamation, saves process time, improves machining efficiency, has replaced manual operation simultaneously, has further improved amalgamation efficiency, can large batch input processing, and the practicality is stronger.

Furthermore, a reversing lifting structure is arranged below the blanking driving roller. The reversing lifting structure is arranged to convert the conveying direction of the small paper board during feeding into the conveying direction of the large paper board during feeding, so that the assembled body can be conveniently conveyed out.

Further, the reversing lifting structure (6) comprises a driving part (61) and a lifting part (62), the small paperboard feeding conveying line (5) is connected above the lifting part (62), and the driving part (61) drives the lifting part (62) to move up and down in the vertical direction so as to adjust the horizontal height of the small paperboard feeding conveying line relative to the blanking driving roller.

Furthermore, a large paperboard blocking structure is arranged below the blanking driving roller. The conveying position of the large paper board can be limited, so that the large paper board is arranged at the designated position to prepare for splicing.

Further, the large paper board blocking structure comprises a large paper board blocking cylinder and a large paper board blocking plate connected to the large paper board blocking cylinder.

Furthermore, the upper portion of the small paperboard feeding conveying line is located a mounting plate is arranged on the splicing support, a pressing structure is arranged on the mounting plate, and the small paperboard blocking structure and the small paperboard edge pressing structure are arranged.

Furthermore, the pressing structure comprises a pressing cylinder, a pressing guide rod and a pressing plate, wherein the pressing plate is located at the output end of the pressing cylinder and is connected to the pressing guide rod in a sliding mode.

Furthermore, the small paperboard blocking structure comprises a small paperboard blocking cylinder, a small paperboard blocking guide rod and a small paperboard blocking pressing plate, and the small paperboard blocking pressing plate is located at the output end of the small paperboard blocking cylinder and is connected to the small paperboard blocking guide rod in a sliding mode.

Furthermore, the cross section of the small paperboard blocking pressing plate is in an inverted U shape, and the small paperboard blocking pressing plate spans the small paperboard feeding conveying line. When the small paper board blocking pressing plate falls down, the small paper board passing through the small paper board feeding conveying line is intercepted, and the small paper board is located at the designated position.

Furthermore, little cardboard blank pressing structure includes the blank pressing cylinder, blank pressing guide arm and blank pressing board, the blank pressing board is located the output of blank pressing cylinder and sliding connection be in on the blank pressing guide arm.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1) the utility model discloses a change the transmission direction of big cardboard and little cardboard and can link together flanging machine and amalgamation equipment simply, realize the continuous action of hem and amalgamation, save process time, improve machining efficiency, replaced manual operation simultaneously, further improved amalgamation efficiency, can large batch input processing, the practicality is stronger.

2) The utility model discloses all be provided with at the transmission direction of big cardboard and little cardboard and block the structure, can fix a position big cardboard and little cardboard in the assigned position, effectively improved the yield of amalgamation.

3) The utility model discloses in set up little cardboard blank pressing structure, can flatten little cardboard earlier before the amalgamation, realize the pre-compaction simultaneously, help the pressfitting concatenation of pressing mechanism.

Drawings

FIG. 1 is a perspective view of the present invention of a processing apparatus for splicing paper boards;

FIG. 2 is a schematic view of a partial structure of the processing equipment for splicing the paper boards according to the present invention;

figure 3 is the left side view of the utility model discloses a processing equipment for cardboard amalgamation.

In the figure: the large paperboard feeding conveyor line comprises a splicing frame 1, a large paperboard feeding conveyor line 2, a splicing mechanism 3, a splicing support 31, a mounting plate 32, a discharging transmission roller 4, a small paperboard feeding conveyor line 5, a reversing lifting structure 6, a driving part 61, a lifting part 62, a large paperboard blocking structure 7, a large paperboard blocking cylinder 71, a large paperboard blocking plate 72, a laminating structure 8, a laminating cylinder 81, a laminating guide rod 82, a pressing plate 83, a small paperboard blocking structure 9, a small paperboard blocking cylinder 91, a small paperboard blocking guide rod 92, a small paperboard blocking pressing plate 93, a small paperboard pressing structure 10, a pressing cylinder 101, a pressing guide rod 102 and a pressing plate 103.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, other embodiments obtained by a person of ordinary skill in the art without creative work all belong to the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Referring to fig. 1-3, the present invention provides a processing apparatus for splicing paper boards, which is used for bonding a large paper board and a small paper board for a packing box, and before bonding, the large paper board needs to be coated with a film, and the small paper board needs to be folded. The large paperboard splicing machine comprises a splicing rack 1, a large paperboard feeding conveying line 2 and a splicing mechanism 3, wherein the large paperboard feeding conveying line and the splicing mechanism are positioned on the splicing rack 1; the splicing mechanism 3 comprises a splicing support 31, a plurality of groups of blanking driving rollers 4 are arranged below the splicing support 31, and the transmission direction of the blanking driving rollers 4 is consistent with that of the large paperboard feeding conveying line 2; be provided with little cardboard material loading transfer chain 5 between the clearance of unloading driving roller 4, the transmission direction of little cardboard material loading transfer chain 5 with the transmission direction mutually perpendicular of unloading driving roller 4. The utility model discloses a change the transmission direction of big cardboard and little cardboard and can link together flanging machine and amalgamation equipment simply, realize the continuous action of hem and amalgamation, save process time, improve machining efficiency, replaced manual operation simultaneously, further improved amalgamation efficiency, can large batch input processing, the practicality is stronger.

In this embodiment, the large paper board feeding line 2 includes a large paper board conveying belt, and the large paper board conveying belt is operated by a motor-driven driving roller.

Wherein, amalgamation mechanism 3 is provided with multiunit unloading driving roller 4 including amalgamation support 31 below amalgamation support 31, and the direction of transmission of unloading driving roller 4 is unanimous with the direction of transmission of big cardboard material loading transfer chain 2, after big cardboard and little cardboard amalgamation are accomplished, is used for transporting away the carton after the amalgamation, leaves amalgamation mechanism 3. Under the normal use condition, the horizontal plane at unloading driving roller 4 place is less than the horizontal plane at little cardboard material loading transfer chain 5 place can ensure the transport mutually noninterfere of two directions.

In addition, be provided with little cardboard material loading transfer chain 5 between the clearance of multiunit unloading driving roller 4, the direction of transmission of little cardboard material loading transfer chain 5 and the direction of transmission mutually perpendicular of big cardboard material loading transfer chain 2, and the direction of transmission of little cardboard material loading transfer chain 5 is unanimous with the direction of transmission of the hem transfer chain in the hem mechanism, send into amalgamation mechanism 3 through little cardboard material loading transfer chain 5 after the hem of hem mechanism is accomplished, this structure makes the processing continuity better, machining efficiency is high. The specific small paperboard feeding conveying line 5 comprises a plurality of small paperboard conveying belts, the small paperboard conveying belts are driven by belt wheels controlled by a motor, and when the small paperboard conveying belts work, the horizontal position of the discharging conveying roller 4 is lower than that of the small paperboard conveying belts, so that the conveying of the small paperboard conveying belts is not interfered.

In addition, a reversing lifting structure 6 and a large paperboard blocking structure 7 are arranged below the blanking transmission roller 4, and the reversing lifting structure 6 is used for selecting the conveying direction of the spliced paperboard and conveying the spliced paperboard to a blanking conveying belt. Specifically, the reversing lifting structure 6 comprises a driving component 61 and a lifting component 62, the small paperboard feeding conveying line 5 is connected above the lifting component 62, and the driving component 61 drives the lifting component 62 to move up and down in the vertical direction so as to adjust the horizontal position of the small paperboard feeding conveying line 5 relative to the blanking driving roller 4, thereby realizing the feeding of the small paperboards. Preferably, the driving member 61 is a reversing lift cylinder, which operates. When the lifting component 62 is driven to move upwards, so that the small paperboard feeding conveying line 5 is lifted, and the horizontal position of the small paperboard feeding conveying line 5 is higher than the horizontal height of the blanking driving roller 4, at the moment, the conveying of the small paperboard feeding conveying line 5 is effective, and the conveying of the blanking driving roller 4 is disabled to realize the feeding of the small paperboards; when the lifting part 62 is driven to reset and move downwards, the horizontal position of the small paperboard feeding conveying line 5 is lower than that of the blanking driving roller 4, at the moment, the conveying of the blanking driving roller 4 is effective, and the conveying of the small paperboard feeding conveying line 5 is invalid so as to realize the reversing of the conveying direction. The large paper board blocking structure 7 includes a large paper board blocking cylinder 71 and a large paper board blocking plate 72 connected to an output end of the large paper board blocking cylinder 71.

In addition, the top of little cardboard material loading transfer chain 5 just is located and is provided with mounting panel 32 on amalgamation support 31, be provided with pressfitting structure 8 on the mounting panel 32, little cardboard blocks structure 9 and little cardboard blank pressing structure 10, pressfitting structure 8 is used for compressing tightly the amalgamation position of big cardboard and little cardboard and is used for the bonding, little cardboard blocks structure 9 and is used for realizing spacingly to little cardboard on the little cardboard transmission belt, make little cardboard be in appointed position, little cardboard blank pressing structure 10 is used for carrying out the flattening to little cardboard, avoid little cardboard perk, influence the qualification rate of amalgamation.

Specifically, the pressing structure 8 includes a pressing cylinder 81, a pressing guide rod 82 and a pressing plate 83, the pressing plate 83 is located at an output end of the pressing cylinder 81 and is slidably connected to the pressing guide rod 82, the pressing cylinder 81 drives the pressing plate 83 to slide up and down on the pressing guide rod 82 to realize pressing between the large paperboard and the small paperboard, and it should be noted that a pressing substrate (not shown in the figure) is fixedly disposed right below the pressing plate 83 at a pressing position, and the pressing substrate and the pressing plate 83 are matched to realize pressing. Little cardboard blocks structure 9 and little cardboard blank pressing structure 10 and pressing structure 8 is the same, all blocks or blank pressing board 103 through the cylinder drive reciprocates on the guide arm and realizes blockking and flattening, and the difference is, little cardboard blocks structure 9 and little cardboard blank pressing structure 10 mutually perpendicular, and little cardboard blocks structure 9 and little cardboard transmission belt's transmission direction is perpendicular, and little cardboard blank pressing structure 10 sets up along little cardboard blank pressing structure 10's transmission direction. In order to make the blocking effect better, the small paper board blocking structure 9 comprises a small paper board blocking cylinder 91 and a small paper board blocking plate connected to the output end of the small paper board blocking cylinder 91, and the cross section of the small paper board blocking plate is in an inverted U shape and spans over the small paper board conveying belt.

Specifically, the small paper board blocking structure 9 includes a small paper board blocking cylinder 91, a small paper board blocking guide rod 92 and a small paper board blocking pressing plate 93, wherein the small paper board blocking pressing plate 93 is located at an output end of the small paper board blocking cylinder 91 and is slidably connected to the small paper board blocking guide rod 92; the small paperboard edge pressing structure 10 comprises an edge pressing air cylinder 101, an edge pressing guide rod 102 and an edge pressing plate 103, wherein the edge pressing plate 103 is located at the output end of the edge pressing air cylinder 101 and is connected to the edge pressing guide rod 102 in a sliding mode.

In this embodiment, the universal wheels are arranged below the split machine frame 1, so that the equipment can be conveniently moved.

The working process of the utility model is as follows:

according to the technical scheme, after the large paper boards are coated with the films, the large paper boards enter the large paper board feeding conveying line 2 for feeding, and when the large paper boards flow forwards along the conveying line to reach the designated position, the large paper board blocking cylinder 71 pushes the large paper board blocking plate 72 upwards to block the large paper boards from running, so that the large paper boards are limited, and the large paper boards are located at the designated position; at this moment, the small paper board completes the edge folding operation on one side, and when the small paper board is transmitted to the small paper board transmission belt through the edge folding transmission line, the small paper board blocks the cylinder 91 to fall down, so that the transmission position of the small paper board is limited, and the small paper board is located at the designated position. The small paper board edge pressing structure 10 drives the small paper boards to be pressed flat to wait for being spliced with the large paper boards. After the large paperboard and the small paperboard reach the designated positions, the pressing structure 8 works, and the pressing cylinder 81 drives the pressing plate 83 to slide downwards on the pressing guide rod 82, so that the pressing between the large paperboard and the small paperboard is realized.

After the large paperboard and the small paperboard reach the designated positions, the pressing structure 8 works, and the pressing cylinder 81 drives the pressing plate 83 to slide downwards on the pressing guide rod 82, so that the pressing between the large paperboard and the small paperboard is realized.

After the pressfitting is accomplished, big cardboard blocks cylinder 71, little cardboard blocks cylinder 91, pressfitting cylinder 81 and little cardboard blank pressing structure 10 etc. all resets, switching-over lifting structure 6 works, when drive lifting means 62 resets and moves down, the horizontal position of little cardboard material loading transfer chain 5 is less than the horizontal position of unloading driving roller 4, at this moment, the conveying of unloading driving roller 4 is effective, the conveying of little cardboard transmission belt is inefficacy in order to realize the switching-over of direction of transportation, thereby make unloading driving roller 4 and big cardboard material loading belt simultaneous movement, the assembly body of accomplishing the amalgamation carries out the unloading.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention. The present invention is not limited to the specific embodiments disclosed herein, and all embodiments falling within the scope of the claims of the present application belong to the scope of the present invention, and in short, the scope of protection is defined by the claims and their equivalents.

Claims (10)

1. The utility model provides a processing equipment for cardboard amalgamation which characterized in that: the large paperboard feeding and conveying device comprises a splicing rack (1), and a large paperboard feeding conveying line (2) and a splicing mechanism (3) which are positioned on the splicing rack (1); the splicing mechanism (3) comprises a splicing support (31), a blanking transmission roller (4) is arranged below the splicing support (31), and the transmission direction of the blanking transmission roller (4) is consistent with that of the large paperboard feeding conveying line (2); be provided with little cardboard material loading transfer chain (5) between the clearance of unloading driving roller (4), the direction of transmission of little cardboard material loading transfer chain (5) with the direction of transmission mutually perpendicular of unloading driving roller (4).

2. The processing apparatus for splicing boards according to claim 1, wherein: and a reversing lifting structure (6) is also arranged below the blanking transmission roller (4).

3. The processing apparatus for splicing boards according to claim 2, wherein: the reversing lifting structure (6) comprises a driving part (61) and a lifting part (62), the small paperboard feeding conveying line (5) is connected above the lifting part (62), and the driving part (61) drives the lifting part (62) to move up and down in the vertical direction.

4. The processing apparatus for splicing boards according to claim 1, wherein: and a large paperboard blocking structure (7) is also arranged below the blanking transmission roller (4).

5. The processing apparatus for splicing boards according to claim 4, wherein: the large paper board blocking structure (7) comprises a large paper board blocking cylinder (71) and a large paper board blocking plate (72) connected to the large paper board blocking cylinder (71).

6. The processing apparatus for splicing boards according to claim 1, wherein: the small paperboard feeding conveying line is characterized in that a mounting plate (32) is arranged above the small paperboard feeding conveying line (5) and on the splicing support (31), a pressing structure (8), a small paperboard blocking structure (9) and a small paperboard edge pressing structure (10) are arranged on the mounting plate (32).

7. The processing apparatus for splicing boards according to claim 6, wherein: the pressing structure (8) comprises a pressing cylinder (81), a pressing guide rod (82) and a pressing plate (83), wherein the pressing plate (83) is located at the output end of the pressing cylinder (81) and is connected to the pressing guide rod (82) in a sliding mode.

8. The processing apparatus for splicing boards according to claim 6, wherein: the small paperboard blocking structure (9) comprises a small paperboard blocking cylinder (91), a small paperboard blocking guide rod (92) and a small paperboard blocking pressing plate (93), wherein the small paperboard blocking pressing plate (93) is located at the output end of the small paperboard blocking cylinder (91) and is connected to the small paperboard blocking guide rod (92) in a sliding mode.

9. The processing apparatus for splicing together boards according to claim 8, wherein: the cross section of the small paperboard blocking pressing plate (93) is in an inverted U shape, and the small paperboard blocking pressing plate (93) stretches across the small paperboard feeding conveying line (5).

10. The processing apparatus for splicing boards according to claim 6, wherein: little cardboard blank pressing structure (10) include blank pressing cylinder (101), blank pressing guide arm (102) and blank pressing board (103), blank pressing board (103) are located the output of blank pressing cylinder (101) and sliding connection be in on blank pressing guide arm (102).

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