CN214188635U - Full-automatic foxing installation device - Google Patents

Full-automatic foxing installation device Download PDF

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Publication number
CN214188635U
CN214188635U CN202022500616.9U CN202022500616U CN214188635U CN 214188635 U CN214188635 U CN 214188635U CN 202022500616 U CN202022500616 U CN 202022500616U CN 214188635 U CN214188635 U CN 214188635U
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CN
China
Prior art keywords
feeding
surrounding strip
gear
surrounding
pushing
Prior art date
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Active
Application number
CN202022500616.9U
Other languages
Chinese (zh)
Inventor
曹金梁
韩彩宾
孙奇奇
韩高阳
马超楠
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Xuchang Yuto Printing & Packing Co ltd
Original Assignee
Xuchang Yuto Printing & Packing Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Application filed by Xuchang Yuto Printing & Packing Co ltd filed Critical Xuchang Yuto Printing & Packing Co ltd
Priority to CN202022500616.9U priority Critical patent/CN214188635U/en
Application granted granted Critical
Publication of CN214188635U publication Critical patent/CN214188635U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model relates to a surrounding strip installation technical field, in particular to a full-automatic surrounding strip installation device, including parallel arrangement's surrounding strip installing support and locate material loading subassembly, pay-off subassembly and dress surrounding strip subassembly on the surrounding strip installing support, the material loading subassembly is used for releasing the surrounding strip, the pay-off subassembly is used for absorbing the surrounding strip at the material loading subassembly and moving to dress surrounding strip subassembly department, dress surrounding strip subassembly is used for receiving the surrounding strip from the pay-off subassembly and install the surrounding strip to the carton inner wall; the feeding assembly is arranged between the feeding assembly and the surrounding strip assembly, and feeding sliding rails are arranged on two sides of the surrounding strip mounting bracket; under the drive of the feeding driving mechanism, the feeding assembly reciprocates between the feeding assembly and the surrounding strip assembly through the feeding slide rail; the whole process does not need manual participation, and the inner die does not need to be replaced, so that the production efficiency of mounting the surrounding strip is effectively improved.

Description

Full-automatic foxing installation device
Technical Field
The utility model relates to a foxing installation technical field, in particular to full-automatic foxing installation device.
Background
With the continuous improvement of economic conditions, people have higher requirements on the appearance package of articles, and paper boxes are adopted as packaging boxes in the fields of current commodities such as tobacco, wine, cosmetics, mobile phones, earphones and the like. The carton is generally formed by bonding a plurality of partial components, such as an upper bottom cover, a lower bottom cover, a surrounding strip and the like, wherein the surrounding strip can support and maintain the shape of the carton.
When the enclosing strip is installed in the production process of the paper box, one surface of the inner surface of the upper cover or the lower cover is coated with the adhesive, the space in the box is filled with the enclosing strip by means of the inner die, and the enclosing strip is adhered to the inner surface of the upper cover or the lower cover so as to facilitate the installation and adhesion of the inner enclosing strip.
In the prior art, the binding of the foxing is usually performed manually, which not only increases the labor intensity of workers and lowers the production efficiency, but also has the defect of lower production efficiency although the chinese patent with application number 2013106012597 discloses a carton forming machine and a forming method thereof.
SUMMERY OF THE UTILITY MODEL
For solving the not enough of production efficiency low among the above-mentioned prior art, the utility model provides a pair of full-automatic foxing installation device in the foxing installation, need not artifical the participation, and need not to change the centre form, has improved the production efficiency of foxing installation effectively.
The utility model provides a full-automatic foxing installation device, including parallel arrangement's foxing installing support and locate material loading subassembly, pay-off subassembly and the foxing subassembly on the foxing installing support, the material loading subassembly is used for releasing the foxing, the pay-off subassembly is used for absorbing the foxing at the material loading subassembly and moving to the foxing subassembly department, the foxing subassembly is used for receiving the foxing from the pay-off subassembly and installing the foxing to the carton inner wall;
the feeding assembly is arranged between the feeding assembly and the surrounding strip assembly, and feeding sliding rails are arranged on two sides of the surrounding strip mounting bracket; under the drive of the feeding driving mechanism, the feeding assembly reciprocates between the feeding assembly and the surrounding strip assembly through the feeding slide rail.
Furthermore, the feeding assembly is arranged between the surrounding strip mounting brackets and comprises a pushing mechanism and storage bins symmetrically arranged on the pushing mechanism, the pushing mechanism is arranged on a pushing bottom plate through a pushing bracket, and the pushing bottom plate is connected with the surrounding strip mounting brackets through a feeding plate; the feed bin is located through the feed bin slide rail on the pushing equipment, the feed bin with set up the gap that supplies the foxing to release between the pushing equipment.
Furthermore, the material pushing mechanism comprises surrounding strip push plates symmetrically arranged on the material pushing support, the surrounding strip push plates are arranged below the storage bin, and the surrounding strip push plates are in a fork-arm shape; under the drive of the material pushing driving mechanism, every two surrounding strip push plates move in opposite directions alternately or in opposite directions to push out the surrounding strips in the storage bin.
Furthermore, a positioning baffle and a material pushing plate are arranged on two sides of the material pushing support, and the positioning baffle is relatively higher than the material pushing plate; the positioning baffle is used for blocking the positioning surrounding strips, the material pushing plate and the surrounding strip pushing plate are horizontally arranged, the height of the material pushing plate is matched with that of a single surrounding strip, and the surrounding strips pushed out of the storage bin are placed between the material pushing plate and the surrounding strip pushing plate.
Furthermore, the feeding assembly comprises a feeding support capable of horizontally moving on the feeding slide rail, a turnover feeding rotating block is arranged on the feeding support, and a feeding suction nozzle and a suction nozzle lifting driving mechanism used for driving the feeding suction nozzle to lift are arranged on the feeding rotating block.
Furthermore, the feeding rotating block is arranged on the feeding support through a feeding gear, the feeding gear is meshed with a feeding rack, and the feeding rack is connected with the rotating driving mechanism; the feeding rack is driven by the rotation driving mechanism to lift to drive the feeding gear to rotate, and the feeding rotating block drives the feeding suction nozzle to rotate along with the rotation of the feeding gear.
Furthermore, a feeding stop dog is arranged at the bottom end of the feeding support, and the feeding rotating block is turned over for 90 degrees to stop rotating under the blocking of the feeding stop dog.
Furthermore, the enclosing strip assembly comprises a material receiving mechanism, the material receiving mechanism comprises a material receiving rotating plate and a material receiving sliding rail arranged on the material receiving rotating plate, a material receiving plate capable of moving in opposite directions or in opposite directions is arranged on the material receiving sliding rail, a material receiving suction nozzle is arranged on the material receiving plate, the material receiving suction nozzle is perpendicular to the initial position of the material feeding suction nozzle, and the material receiving suction nozzle is parallel to the material feeding suction nozzle after rotating.
Furthermore, the material receiving mechanism is arranged on a first gear, the first gear is meshed with a second gear, and the second gear is connected with a rotary driving mechanism; under the drive of the rotary driving mechanism, the second gear rotates to drive the first gear to rotate, and the material receiving mechanism rotates along with the first gear.
Furthermore, the first gear and the second gear are arranged on a gear lifting plate, the gear lifting plate is connected with the gear driving lifting mechanism, the gear lifting plate is driven by the gear lifting driving mechanism to lift and drive the first gear and the second gear to lift and move, and the material receiving mechanism moves along with the first gear.
Compared with the prior art, the utility model provides a pair of full-automatic foxing installation device, single foxing is released in proper order to the material loading subassembly, and the pay-off subassembly absorbs the foxing and moves the foxing to the foxing subassembly in material loading subassembly department, and the foxing subassembly is received on the pay-off subassembly and is installed the foxing to the carton inner wall, and whole journey need not artifical the participation, and need not to change the centre form, has improved the production efficiency of foxing installation effectively.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be 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 some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.
Fig. 1 is a side view of a foxing mounting device provided by the present invention;
fig. 2 is a schematic structural diagram of a first foxing mounting device provided by the present invention;
fig. 3 is a schematic structural diagram of a feeding assembly according to the present invention;
fig. 4 is a schematic structural diagram of a feeding assembly according to the present invention;
fig. 5 is a schematic structural diagram of a pushing mechanism provided by the present invention;
fig. 6 is a schematic structural diagram of a foxing mounting device according to the present invention;
fig. 7 is a partial enlarged view of fig. 6 provided by the present invention;
fig. 8 is a schematic rotation diagram of the foxing strip assembly provided by the present invention;
fig. 9 is a schematic structural diagram of the enclosing strip assembly provided by the present invention.
Reference numerals:
10 surrounding strip installing support 20 material loading subassembly 21 pushing equipment
211 surrounding strip push plate 212 pushing driving mechanism 22 bin
221 bin slide rail 23 pushing support 24 pushing bottom plate
25 feeding plate 26 positioning baffle 27 pushing plate
30 feeding component 31 feeding slide rail 32 feeding support
33 feeding rotating block 34 feeding suction nozzle 35 feeding gear
36 feeding stop 40 surrounding strip assembly 41 receiving mechanism
411 connect material rotary plate 412 to connect material board 413 to connect material suction nozzle
42 first gear 43 second gear 44 gear lifter plate
50 surrounding strip
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
Fig. 1 is a side view of the foxing installation device provided by the present invention, as shown in fig. 1, the present invention provides a full-automatic foxing installation device, which includes parallel foxing installation brackets (10) and a feeding assembly 20, a feeding assembly 30 and a foxing assembly 40 disposed on the foxing installation brackets 10, wherein the feeding assembly 20 is used for pushing out a foxing 50, the feeding assembly 30 is used for sucking the foxing 50 at the feeding assembly 10 to move to the foxing assembly 40, and the foxing assembly 40 is used for receiving the foxing 40 from the feeding assembly 30 and installing the foxing 40 to the inner wall of the carton;
the feeding assembly 30 is arranged between the feeding assembly 20 and the surrounding strip mounting assembly 40, and feeding slide rails 31 are arranged on two sides of the surrounding strip mounting bracket 10; under the drive of the feeding driving mechanism, the feeding assembly 30 reciprocates between the feeding assembly 20 and the surrounding strip assembly 40 through the feeding slide rail 31.
In specific implementation, as shown in fig. 1 and 2, the surrounding strip mounting bracket 10 comprises two surrounding strip mounting brackets which are arranged in parallel, the surrounding strip mounting bracket 10 is arranged on the workbench through surrounding strip mounting supporting feet, as shown in fig. 1, from right to left, a feeding component 20, a feeding component 30 and a surrounding strip mounting component 40 are sequentially arranged on the surrounding strip mounting bracket 10, the feeding component 30 is arranged between the feeding component 20 and the surrounding strip mounting component 40, and a paper box for mounting surrounding strips is positioned below the surrounding strip mounting component 40;
the two sides of the surrounding strip mounting bracket 10 are provided with feeding slide rails 31, specifically, the feeding assembly 20 and the surrounding strip mounting assembly 40 are arranged between the surrounding strip mounting brackets 10, the feeding assembly 30 is arranged on the feeding slide rails 31 on the two sides of the surrounding strip mounting brackets 10, the feeding assembly 20 can sequentially push out the single surrounding strips 50, the feeding assembly 30 is driven by a feeding driving mechanism to reciprocate between the feeding assembly 20 and the surrounding strip mounting assembly 40, and preferably, the feeding driving mechanism can be a stepping motor or a servo motor in the embodiment;
the feeding assembly 30 absorbs the surrounding strip 50 at the feeding assembly 20 and transfers the surrounding strip 50 to the surrounding strip assembly 40, the surrounding strip assembly 40 receives the surrounding strip 50 from the feeding assembly 30 and installs the surrounding strip 50 to the inner wall of the carton, manual participation is not needed in the whole process, an inner die does not need to be replaced, and the production efficiency of surrounding strip installation is effectively improved.
As shown in fig. 3, 4, and 5, the feeding assembly 20 includes a pushing mechanism 21 and two bins 22 symmetrically disposed on the pushing mechanism 21, the bins 22 are disposed on the pushing mechanism 21 through bin slide rails 221, specifically, in this embodiment, the number of the bins 22 is two, the two bins 22 can slide on the bin slide rails 221 and move out relative to the pushing mechanism 21, when the bins 22 move out, the surrounding strips 50 to be installed can be put into the bins 22, and when the bins 22 are pushed in relative to the pushing mechanism 21, the surrounding strips 50 in the bins 22 can be sequentially pushed out by the pushing mechanism 21, so that the feeding assembly 30 sucks the surrounding strips 50 to move to the surrounding strip installing assembly 40.
Specifically, as shown in fig. 3, 4, and 5, the pushing mechanism 21 is disposed on the pushing base plate 24 through the pushing support 23, the pushing base plate 24 is connected to the surrounding strip mounting support 10 through the feeding plate 25, the pushing mechanism 21 includes surrounding strip pushing plates 211 capable of moving in opposite directions or in reverse, the surrounding strip pushing plates 211 are disposed below the storage bin 22, and a gap for pushing out the surrounding strip 50 is disposed between the surrounding strip pushing plates 211 and the storage bin 22; in the embodiment, the number of the surrounding strip push plates 211 is two, the number of the surrounding strip push plates 211 corresponds to that of the storage bins 22, the two surrounding strip push plates 211 are symmetrically arranged, the surrounding strip push plates 211 are in a fork-hand shape, the two surrounding strip push plates 211 are respectively connected with the material pushing driving mechanism 212, the two surrounding strip push plates 211 move in opposite directions and can be crossed under the driving of the material pushing driving mechanism 212, the space of the material loading assembly 20 is saved, and when the two surrounding strip push plates 211 move in opposite directions, the surrounding strip push plates 211 push out the surrounding strips 50 in the storage bins; preferably, the pushing driving mechanism 212 in this embodiment may be a cylinder driving mechanism, and the two surrounding strip pushing plates 211 push out one surrounding strip at a time.
As shown in fig. 3, 4 and 5, the pushing support 23 is provided with a positioning baffle 26 and a pushing plate 27 on both sides, the positioning baffle 26 is higher than or protrudes from the pushing plate 27, the pushing plate 27 is horizontally arranged with the surrounding strip pushing plate 211, and the height of the pushing plate 27 matches with the height of a single surrounding strip 50, preferably, when the surrounding strip pushing plate 211 on one side pushes out two or more surrounding strips 50 once, the pushing plate 27 can abut against the lowermost surrounding strip 50, so as to prevent the surrounding strip pushing plate 211 from pushing out the redundant surrounding strips 50 again;
the surrounding strip 50 pushed out of the bin 22 can be placed between the material pushing plate 27 and the surrounding strip pushing plate 211, and when the surrounding strip pushing plate 211 pushes out the surrounding strip 50 in the bin 22, the positioning baffle 26 can block the positioning surrounding strip 50, so that the surrounding strip 50 is prevented from falling or exceeding the suction range of the feeding assembly 30.
As shown in fig. 6 and 7, the feeding assembly 30 includes two feeding brackets 32 disposed on the feeding slide rail 31, and the feeding brackets 32 can move horizontally on the feeding slide rail 31, specifically, in this embodiment, the number of the feeding brackets 32 is matched with the number of the bins 22, and the feeding brackets 32 are driven by the feeding driving mechanism to move back and forth between the feeding assembly 20 and the surrounding strip assembly 40;
as shown in fig. 6 and 7, the feeding support 32 is provided with a reversible feeding rotary block 33, and the feeding rotary block 33 is provided with a feeding suction nozzle 34 and a suction nozzle lifting driving mechanism for driving the feeding suction nozzle 34 to lift; preferably, the suction nozzle lifting driving mechanism in this embodiment may be an air cylinder driving mechanism;
as shown in fig. 6 and 7, the feeding rotary block 33 is arranged on the feeding support 32 through a feeding gear 35, the feeding gear 35 is engaged with a feeding rack, the feeding rack is connected with a rotary driving mechanism, the feeding rack is lifted to drive the feeding gear 35 to rotate under the driving of the rotary driving mechanism, and the feeding rotary block 33 drives the feeding suction nozzle 34 to rotate along with the rotation of the feeding gear 35;
as shown in fig. 6 and 7, a feeding stop block 36 is arranged at the bottom end of the feeding bracket 32, and the feeding rotating block 33 is turned by 90 degrees under the blocking of the feeding stop block 36 to stop rotating; specifically, the feeding suction nozzle 34 sucks the surrounding strip 50 at the feeding assembly 20 and then is parallel to the working table, and the feeding suction nozzle 34 rotates 90 degrees along with the feeding rotating block 33 and then is perpendicular to the working table.
Specifically, after the surrounding strip push plate 211 pushes out the surrounding strips in the storage bin 22, the feeding support 32 moves to two sides of the storage bin 22 under the driving of the feeding driving mechanism, the suction nozzle lifting driving mechanism drives the feeding suction nozzle 34 to descend to suck the surrounding strips 50, then the feeding driving mechanism drives the feeding support 32 to move to the surrounding strip assembly position 40 on the feeding slide rail 31, the rotating driving mechanism drives the feeding rack to lift and drive the feeding gear 35 to rotate, the feeding rotating block 33 drives the feeding suction nozzle 34 to rotate along with the rotation of the feeding gear 35, and under the blocking of the feeding stop block 36, the feeding suction nozzle 34 rotates along with the feeding rotating block 33 for 90 degrees and then is parallel to the material receiving suction nozzle 413 of the surrounding strip assembly 40.
As shown in fig. 8 and 9, the enclosing strip assembly 40 includes a material receiving mechanism 41, the material receiving mechanism 41 includes a material receiving rotating plate 411 and a material receiving slide rail disposed on the material receiving rotating plate 411, the material receiving slide rail is provided with material receiving plates 412 capable of moving in opposite directions or in opposite directions, the material receiving plates 412 are connected to a material receiving driving mechanism, under the driving of the material receiving driving mechanism, the material receiving plates 412 can move in opposite directions or in opposite directions on the material receiving slide rail, preferably, two material receiving plates 412 are provided in this embodiment, the number of the material receiving plates 412 is matched with the number of the material feeding brackets 32, and the material receiving driving mechanism can be a motor driving mechanism or a cylinder driving mechanism;
as shown in fig. 8 and 9, the material receiving plate 412 is provided with a material receiving nozzle 413, the material receiving nozzle 413 is perpendicular to the initial position of the feeding nozzle 34, and the material receiving nozzle 413 is parallel to the feeding nozzle 34 rotated by 90 degrees; when the feeding suction nozzle 34 moves to a position corresponding to the receiving suction nozzle 413, the receiving suction nozzle 413 firstly adsorbs the surrounding strip 50, and the feeding suction nozzle 34 loosens the surrounding strip 50 to ensure that the receiving suction nozzle 413 sucks the surrounding strip 50.
As shown in fig. 8 and 9, the material receiving rotating plate 411 is disposed on the first gear 42, the first gear 42 is engaged with the second gear 43, the second gear 43 is connected with the rotary driving mechanism, the second gear 43 rotates to drive the first gear 42 to rotate under the driving of the rotary driving mechanism, the material receiving mechanism 41 rotates along with the first gear, and specifically, the material receiving rotating plate 411 rotates along with the first gear 42 to drive the material receiving plate 412 and the material receiving nozzle 413 to rotate;
as shown in fig. 8 and 9, the first gear 42 and the second gear 43 are disposed on the gear lifting plate 44, the gear lifting plate 44 is connected to the gear lifting driving mechanism, under the driving of the gear lifting driving mechanism, the gear lifting plate 44 lifts and drives the first gear 42 and the second gear 43 to move up and down, the material receiving mechanism 41 moves up and down along with the first gear 42, specifically, the material receiving rotating plate 411 moves up and down along with the first gear 42 to drive the material receiving plate 412 and the material receiving nozzle 413 to move up and down, in this embodiment, the gear lifting driving mechanism may be a motor driving mechanism or an air cylinder driving mechanism.
Specifically, after the material receiving suction nozzle 413 sucks the surrounding strip, the rotary driving mechanism drives the second gear 43 to rotate to drive the first gear to rotate, the material receiving rotary plate 411 drives the material receiving suction nozzle 413 to rotate along with the rotation of the first gear 42, and when the material receiving plate 412 is inclined by 45 degrees relative to two sides of a paper box to be provided with the surrounding strip, the first gear 42 and the second gear 43 stop rotating; at this time, the gear lifting driving mechanism drives the gear lifting plate 44 to descend, and the descending is stopped when the material receiving suction nozzle 413 of the suction surrounding strip 50 is positioned in the carton to be provided with the surrounding strip;
then, the rotary driving mechanism drives the second gear 43 to rotate again to drive the first gear 42 to rotate, the material receiving rotating plate 411 drives the material receiving suction nozzle 413 to rotate along with the rotation of the first gear 42, in the rotating process of the material receiving plate, the material receiving driving mechanism drives the material receiving plate 412 to move back and forth on the material receiving slide rail, glue for adhering the surrounding strips is coated on two sides of the inner wall of the carton, the material receiving plate 412 stops rotating when rotating to be parallel to two sides of the carton, and the surrounding strips 50 are installed on two sides of the inner wall of the carton.
When the enclosing strip is actually installed, firstly, the material pushing driving mechanism 212 drives the two enclosing strip push plates 211 to move back and forth to push out the enclosing strip 50 in the storage bin; after the surrounding strip push plate 211 pushes out the surrounding strips in the storage bin 22, the feeding support 32 moves to two sides of the storage bin 22 under the driving of the feeding driving mechanism, the suction nozzle lifting driving mechanism drives the feeding suction nozzle 34 to descend to suck the surrounding strips 50, then the feeding driving mechanism drives the feeding support 32 to move to the surrounding strip assembly mounting position 40 on the feeding slide rail 31, meanwhile, the rotating driving mechanism drives the feeding rack to lift to drive the feeding gear 35 to rotate, the feeding rotating block 33 rotates along with the feeding gear 35 to drive the feeding suction nozzle 34 to rotate, and under the blocking of the feeding stop block 36, the feeding suction nozzle 34 rotates along with the feeding rotating block 33 for 90 degrees and then is parallel to the material receiving suction nozzle 413;
then, when the feeding suction nozzle 34 moves to a position corresponding to the receiving suction nozzle 413, the receiving suction nozzle 413 firstly adsorbs the surrounding strip 50, and the feeding suction nozzle 34 loosens the surrounding strip 50 to ensure that the receiving suction nozzle 413 sucks the surrounding strip 50; after the material receiving suction nozzle 413 sucks the surrounding strip, the rotary driving mechanism drives the second gear 43 to rotate to drive the first gear to rotate, the material receiving rotary plate 411 drives the material receiving suction nozzle 413 to rotate along with the rotation of the first gear 42, and when the material receiving plate 412 is inclined by 45 degrees relative to two sides of a paper box to be provided with the surrounding strip, the first gear 42 and the second gear 43 stop rotating; at this time, the gear lifting driving mechanism drives the gear lifting plate 44 to descend, and the descending is stopped when the material receiving suction nozzle 413 of the suction surrounding strip 50 is positioned in the carton to be provided with the surrounding strip;
then, the rotary driving mechanism drives the second gear 43 to rotate again to drive the first gear 42 to rotate, the material receiving rotating plate 411 drives the material receiving suction nozzle 413 to rotate along with the rotation of the first gear 42, in the rotating process of the material receiving plate, the material receiving driving mechanism drives the material receiving plate 412 to move back and forth on the material receiving slide rail, glue for adhering the surrounding strips is coated on two sides of the inner wall of the carton, the material receiving plate 412 stops rotating when rotating to be parallel to two sides of the carton, and the surrounding strips 50 are installed on two sides of the inner wall of the carton.
Compared with the prior art, the utility model provides a pair of full-automatic foxing installation device, single foxing is released in proper order to the material loading subassembly, and the pay-off subassembly absorbs the foxing and moves the foxing to the foxing subassembly in material loading subassembly department, and the foxing subassembly is received on the pay-off subassembly and is installed the foxing to the carton inner wall, and whole journey need not artifical the participation, and need not to change the centre form, has improved the production efficiency of foxing installation effectively.
Although terms such as a foxing mounting bracket, a foxing pushing plate, a feeding rotating block, a receiving rotating plate, a gear lifting plate and a foxing are used more often in this document, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic foxing installation device which characterized in that: the paper box is characterized by comprising surrounding strip mounting brackets (10) arranged in parallel, and a feeding assembly (20), a feeding assembly (30) and a surrounding strip mounting assembly (40) which are arranged on the surrounding strip mounting brackets (10), wherein the feeding assembly (20) is used for pushing out the surrounding strips (50), the feeding assembly (30) is used for sucking the surrounding strips (50) at the feeding assembly (20) and moving the surrounding strips (50) to the surrounding strip mounting assembly (40), and the surrounding strip mounting assembly (40) is used for receiving the surrounding strips (50) from the feeding assembly (30) and mounting the surrounding strips (50) to the inner wall of the paper box;
the feeding assembly (30) is arranged between the feeding assembly (20) and the surrounding strip assembly (40), and feeding sliding rails (31) are arranged on two sides of the surrounding strip mounting bracket (10); under the drive of the feeding driving mechanism, the feeding assembly (30) reciprocates between the feeding assembly (20) and the surrounding strip assembly (40) through the feeding slide rail (31).
2. The full-automatic foxing installation device of claim 1, wherein: the feeding assembly (20) is arranged between the surrounding strip mounting brackets (10), the feeding assembly (20) comprises a pushing mechanism (21) and storage bins (22) symmetrically arranged on the pushing mechanism (21), the pushing mechanism (21) is arranged on a pushing bottom plate (24) through a pushing bracket (23), and the pushing bottom plate (24) is connected with the surrounding strip mounting brackets (10) through a feeding plate (25); the storage bin (22) is arranged on the material pushing mechanism (21) through a storage bin sliding rail (221), and a gap for pushing the surrounding strip (50) out is formed between the storage bin (22) and the material pushing mechanism (21).
3. The full-automatic foxing installation device of claim 2, wherein: the material pushing mechanism (21) comprises surrounding strip push plates (211) symmetrically arranged on the material pushing support (23), the surrounding strip push plates (211) are arranged below the storage bin (22), and the surrounding strip push plates (211) are in a fork-arm shape; under the driving of a material pushing driving mechanism (212), every two surrounding strip push plates (211) move in opposite directions alternately or every two surrounding strip push plates (211) move back to push out surrounding strips (50) in the storage bin (22).
4. The full-automatic foxing installation device of claim 3, wherein: two sides of the pushing support (23) are also provided with a positioning baffle (26) and a pushing plate (27), and the positioning baffle (26) is relatively higher than the pushing plate (27); the positioning baffle (26) is used for blocking the positioning surrounding strips (50), the material pushing plate (27) and the surrounding strip pushing plate (211) are horizontally arranged, the height of the material pushing plate (27) is matched with the height of a single surrounding strip (50), and the surrounding strips (50) pushed out from the bin (22) are placed between the material pushing plate (27) and the surrounding strip pushing plate (211).
5. The full-automatic foxing installation device of claim 1, wherein: the feeding assembly (30) comprises a feeding support (32) which can horizontally move on the feeding slide rail (31), a turnover feeding rotating block (33) is arranged on the feeding support (32), and a feeding suction nozzle (34) and a suction nozzle lifting driving mechanism used for driving the feeding suction nozzle (34) to lift are arranged on the feeding rotating block (33).
6. The full-automatic foxing installation device of claim 5, wherein: the feeding rotating block (33) is arranged on the feeding support (32) through a feeding gear (35), the feeding gear (35) is meshed with a feeding rack, and the feeding rack is connected with a rotating driving mechanism; the feeding rack is driven by the rotation driving mechanism to lift to drive the feeding gear (35) to rotate, and the feeding rotating block (33) drives the feeding suction nozzle (34) to rotate along with the rotation of the feeding gear (35).
7. The full-automatic foxing installation device of claim 6, wherein: the bottom end of the feeding support (32) is provided with a feeding stop block (36), and the feeding rotating block (33) is turned for 90 degrees to stop rotating under the blocking of the feeding stop block (36).
8. The full-automatic foxing installation device of claim 6, wherein: dress foxing subassembly (40) is including receiving material mechanism (41), receiving material mechanism (41) are including connecing material rotor plate (411) and locating connect the material slide rail on connecing material rotor plate (411), connect to be equipped with on the material slide rail and connect flitch (412) that can move along opposite directions or back to back of the body, connect to be equipped with on flitch (412) to connect material suction nozzle (413), connect material suction nozzle (413) with pay-off suction nozzle (34) initial position is mutually perpendicular, connect material suction nozzle (413) and after rotating pay-off suction nozzle (34) parallel.
9. The full-automatic foxing installation device of claim 8, wherein: the material receiving mechanism (41) is arranged on a first gear (42), the first gear (42) is meshed with a second gear (43), and the second gear (43) is connected with a rotary driving mechanism; under the drive of the rotary driving mechanism, the second gear (43) rotates to drive the first gear (42) to rotate, and the material receiving mechanism (41) rotates along with the first gear (42).
10. The full-automatic foxing installation device of claim 9, wherein: the first gear (42) and the second gear (43) are arranged on a gear lifting plate (44), the gear lifting plate (44) is connected with a gear driving lifting mechanism, under the driving of the gear lifting driving mechanism, the gear lifting plate (44) is lifted to drive the first gear (42) and the second gear (43) to move up and down, and the material receiving mechanism (41) moves up and down along with the first gear (42).
CN202022500616.9U 2020-10-30 2020-10-30 Full-automatic foxing installation device Active CN214188635U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022500616.9U CN214188635U (en) 2020-10-30 2020-10-30 Full-automatic foxing installation device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022500616.9U CN214188635U (en) 2020-10-30 2020-10-30 Full-automatic foxing installation device

Publications (1)

Publication Number Publication Date
CN214188635U true CN214188635U (en) 2021-09-14

Family

ID=77644072

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022500616.9U Active CN214188635U (en) 2020-10-30 2020-10-30 Full-automatic foxing installation device

Country Status (1)

Country Link
CN (1) CN214188635U (en)

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