CN215972478U - Packing carton intelligent storage alternating loading attachment - Google Patents

Abstract

The utility model discloses an intelligent storage alternate feeding device for a packing box, which comprises: feeding the packaging box with a material feeding line; the notebook boxing mechanisms are in butt joint with the packaging box feeding assembly line; two notebook cartoning mechanisms set up side by side along the Y axle direction, every group notebook cartoning mechanism includes: the X-direction conveying module, the packaging box overturning module and the packaging box conveying line; every group packing carton upset module and every the packing carton transmission line all with a corresponding set of X is to the movable part transmission connection of carrying the module. According to the automatic packaging box feeding device, the packaging boxes are conveyed and transferred through the packaging box conveying lines, all components are automatically processed without manual assistance, the working efficiency is greatly improved, the two packaging box overturning modules and the two packaging box conveying lines are used for alternately feeding, the working efficiency is further improved, and the production cost is reduced.

Description

Packing carton intelligent storage alternating loading attachment

Technical Field

The utility model relates to the field of nonstandard automation. More specifically, the utility model relates to an intelligent packing box warehousing alternative feeding device.

Background

In the non-standard automation field, it is well known to adopt feeding assembly lines with different structural forms to realize efficient feeding of workpieces. At the in-process of the high-efficient material loading of research and realization work piece, utility model people discover that the material loading assembly line among the prior art has following problem at least:

the warehouse logistics, namely, self-built or leased storehouses, sites, storage, loading, unloading, carrying and goods distribution are utilized, and the warehouse transportation gradually realizes automation along with the development of the society and the progress of science and technology;

the existing packaging box storage feeding is low in automation degree in the application process, and due to the fact that the matching among all devices is not coherent, manual assistance is often needed in the using process, and the efficiency is low.

In view of the above, there is a need to develop an alternative loading device for intelligent storage of packing boxes, so as to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model mainly aims to provide the intelligent storage alternative feeding device for the packing boxes, which is used for conveying and transferring the packing boxes through a packing box conveying line, automatically processing and operating all components without manual assistance, greatly improving the working efficiency, further improving the working efficiency and reducing the production cost through the two packing box overturning modules and the two packing box conveying lines for alternative feeding, and meanwhile, the intelligent storage alternative feeding device is simple in structure, reasonable in layout and wide in market application value.

To achieve these objects and other advantages and in accordance with the purpose of the utility model, there is provided a packing box smart-warehouse alternate loading device, comprising: feeding the packaging box with a material feeding line; and

the notebook boxing mechanisms are in butt joint with the packaging box feeding assembly line;

two notebook cartoning mechanisms set up side by side along the Y axle direction, every group notebook cartoning mechanism includes: the X-direction conveying module, the packaging box overturning module and the packaging box conveying line;

each group of packing box overturning modules and each packing box conveying line are in transmission connection with the movable part of the corresponding group of X-direction conveying modules;

every group X is to carrying the corresponding a set of module drive packing carton upset module and corresponding one packing carton transmission line is along X axle direction reciprocating motion, with control packing carton upset module reaches the packing carton transmission line with the packing carton material loading assembly line docks in proper order, and the simultaneous control is adjacent two packing carton upset module and two the packing carton transmission line docks in proper order.

Preferably, the packing box overturning module comprises: a carrier plate;

the first conveyor is arranged along the Y-axis direction and is fixedly arranged above the bearing plate; and

the overturning driver is arranged beside the bearing plate, and the power output end of the overturning driver is in transmission connection with the bearing plate;

the turnover driver drives the bearing plate to turn over by a certain angle by taking the Y axis as an axis.

Preferably, the packing box overturning module further comprises: the connecting plate is in transmission connection with the movable part of the X-direction conveying module, and is in rotary connection with the bearing plate;

the top end of the connecting plate is provided with a first rotating portion, the bottom end of the bearing plate is provided with a second rotating portion, and the first rotating portion is rotatably connected with the second rotating portion.

Preferably, a first positioning block is arranged above the bearing plate and arranged along the Z-axis direction;

the top of connecting plate is equipped with the positioning unit, the positioning unit includes: a second positioning block arranged along the Z-axis direction; and

the positioning driver is arranged along the Y-axis direction, and the power output end of the positioning driver is in transmission connection with the second positioning block;

and a positioning space of the packaging box is limited between the first positioning block and the second positioning block, and the positioning driver drives the second positioning block to reciprocate along the Y-axis direction so as to adjust the size of the positioning space.

Preferably, the notebook computer packing mechanism further includes: the X-direction conveying module, the packaging box overturning module and the packaging box conveying line are all arranged above the operating platform; and

the notebook supporting module is in transmission connection with the movable part of the X-direction conveying module;

wherein, X is to carrying the module drive notebook bearing module and packing carton upset module motion in opposite directions.

Preferably, the notebook holding module comprises: a bearing seat;

the notebook clamping component is arranged above the bearing seat; and

the notebook pushing assembly is arranged above the bearing seat and is positioned beside the notebook clamping assembly;

the notebook clamping assembly clamps and fixes the notebook module, and the notebook pushing assembly drives the notebook module clamped and fixed by the notebook clamping assembly to move along the X-axis direction.

Preferably, the packaging box loading line comprises: a packaging box conveying line;

the packaging box feeding mechanism is arranged beside the packaging box conveying line;

the packaging box opening mechanism is arranged right above the packaging box conveying line;

the packing box sealing mechanism is arranged right above the packing box conveying line;

the first labeling mechanism is arranged beside the packaging box conveying line;

the quality protection card attaching mechanism is arranged beside the packaging box conveying line; and

at least two groups of second labeling mechanisms, wherein each group of second labeling mechanisms are arranged at the side of the packaging box conveying line;

wherein, the packing carton transfer chain is equipped with packing carton material loading station, packing carton unpacking station, packing carton joint sealing station, first subsides mark station, the attached station of quality card, the attached station of second mark station and packing carton unloading station along its direction of delivery in proper order, packing carton material loading mechanism packing carton unpacking mechanism packing carton joint sealing mechanism first mark mechanism the attached mechanism of quality card and every group are protected to quality second mark mechanism locates packing carton material loading station packing carton unpacking station first mark station the attached station of quality card reaches the mark station of second mark.

Preferably, the packaging box loading line further comprises: the first rotary transfer mechanism is positioned in a butt joint area of the box sealing station and the first labeling station of the packing box, and the first rotary transfer mechanism is positioned beside the packing box conveying line;

the first rotary transfer mechanism rotates the packaging box at the packaging box sealing station by a certain angle and then places the packaging box at the first labeling station.

Preferably, the packaging box loading line further comprises: the second rotary transfer mechanism is positioned in a butt joint area of the first labeling station and the quality assurance card attaching station, and is positioned beside the packaging box conveying line;

and the second rotary transfer mechanism turns the packaging box at the first labeling station by a certain angle and then places the packaging box at the quality assurance card attaching station.

Preferably, the packaging box loading line further comprises: the first lifting conveying assembly is arranged at a blanking station of the packaging box conveying line;

the first conveyor assembly that raises includes: a first raising conveying line;

the two first lifting butt joints are respectively arranged on two sides of the first lifting conveying line along the Y-axis direction; and

at least two lifting drivers, wherein each lifting driver is in transmission connection with a corresponding one of the first lifting butt joint wires;

the lifting driver drives the first lifting butt joint line to reciprocate along the vertical direction so as to control the first lifting butt joint line to be butted with the packaging box conveying line and the first lifting conveying line respectively.

One of the above technical solutions has the following advantages or beneficial effects: the automatic feeding device has the advantages that the conveying and transferring of the packing boxes are carried out through the packing box conveying lines, meanwhile, the automatic processing operation of all the components is realized, the manual assistance is not needed, the working efficiency is greatly improved, the working efficiency is further improved through the two packing box overturning modules and the two packing box conveying lines in an alternating mode, the production cost is reduced, and meanwhile, the automatic feeding device is simple in structure, reasonable in layout and wide in market application value.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below, and it is apparent that the drawings in the following description relate only to some embodiments of the present invention and are not limiting thereof, wherein:

fig. 1 is a top view of an intelligent packing box warehousing alternative loading device according to an embodiment of the utility model;

fig. 2 is a three-dimensional structural view of a packing box feeding line in the intelligent storage alternative feeding device for packing boxes according to one embodiment of the utility model;

fig. 3 is a three-dimensional structural view of a box loading mechanism in the intelligent storage alternative loading device for the packing boxes according to one embodiment of the utility model;

fig. 4 is a three-dimensional structural view of a box magazine assembly in the intelligent storage and alternating type loading device for the packing box according to one embodiment of the utility model;

fig. 5 is a three-dimensional structural view of a notebook packing mechanism in the intelligent packing box warehousing alternative feeding device according to an embodiment of the utility model;

fig. 6 is a three-dimensional structural view of a package overturning module in the intelligent storage alternative loading device for packages according to one embodiment of the utility model;

fig. 7 is a three-dimensional structural view of the package box turning module in the intelligent storage alternative feeding device for package boxes, which hides the package box according to one embodiment of the utility model;

fig. 8 is an exploded view of the package overturning module in the intelligent storage alternative loading device for packages according to an embodiment of the utility model after the package overturning module hides the package;

fig. 9 is an exploded view of another viewing angle after the package turning module hides the package in the intelligent packing box warehousing alternating type loading device according to the embodiment of the utility model.

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 a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In the drawings, the shape and size may be exaggerated for clarity, and the same reference numerals will be used throughout the drawings to designate the same or similar components.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and claims of the present application do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. Also, the use of the terms "a," "an," or "the" and similar referents do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprise" or "comprises", and the like, means that the element or item listed before "comprises" or "comprising" covers the element or item listed after "comprising" or "comprises" and its equivalents, and does not exclude other elements or items. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

In the following description, terms such as center, thickness, height, length, front, back, rear, left, right, top, bottom, upper, lower, etc., are defined with respect to the configurations shown in the respective drawings, and in particular, "height" corresponds to a dimension from top to bottom, "width" corresponds to a dimension from left to right, "depth" corresponds to a dimension from front to rear, which are relative concepts, and thus may be varied accordingly depending on the position in which it is used, and thus these or other orientations should not be construed as limiting terms.

Terms concerning attachments, coupling and the like (e.g., "connected" and "attached") refer to a relationship wherein structures are secured or attached, either directly or indirectly, to one another through intervening structures, as well as both movable or rigid attachments, unless expressly described otherwise.

According to an embodiment of the present invention, referring to fig. 1 to 9, it can be seen that the intelligent storage and alternation type feeding device for packing boxes comprises: the packaging box feeding assembly line is 1; and

at least two groups of notebook boxing mechanisms 41, wherein the notebook boxing mechanisms 41 are butted with the packaging box feeding assembly line 1;

the two notebook boxing mechanisms 41 are arranged in parallel along the Y-axis direction, and each group of the notebook boxing mechanisms 41 includes: an X-direction conveying module 412, a packing box overturning module 414 and a packing box conveying line 415;

each group of the packing box overturning modules 414 and each packing box conveying line 415 are in transmission connection with the movable part of the corresponding group of the X-direction conveying modules 412;

every group X is to carrying corresponding a set of module 412 drive packing carton upset module 414 and corresponding one packing carton transmission line 415 along X axle direction reciprocating motion, in order to control packing carton upset module 414 and packing carton transmission line 415 with packing carton material loading assembly line 1 docks in proper order, controls adjacent two simultaneously packing carton upset module 414 and two packing carton transmission line 415 docks in proper order.

Further, the packing box overturning module 414 comprises: a carrier plate 4142;

a first conveyor 4143 disposed along the Y-axis direction, wherein the first conveyor 4143 is fixedly mounted above the carrier plate 4142; and

the overturning driver 4144 is arranged beside the bearing plate 4142, and the power output end of the overturning driver 4144 is in transmission connection with the bearing plate 4142;

the turning driver 4144 drives the bearing plate 4142 to turn over at a certain angle around the Y axis.

In a preferred embodiment, the side ends of the bearing plate 4142 are provided with hinge portions 41423, and the power output end of the turning driver 4144 is in transmission connection with the hinge portions 41423 through a transmission member 4147.

Further, the package box turning module 414 further comprises: a connecting plate 4141, which is in transmission connection with the movable part of the X-direction conveying module 412, wherein the connecting plate 4141 is rotatably connected with the bearing plate 4142;

the top end of the connecting plate 4141 is provided with a first rotating portion 41411, the bottom end of the bearing plate 4142 is provided with a second rotating portion 41421, and the first rotating portion 41411 is rotatably connected with the second rotating portion 41421.

In a preferred embodiment, the connecting plate 4141 is provided at a side end thereof with a fixing portion 41412, and the flip driver 4144 is hinged to the fixing portion 41412, so that the flip driver 4144 drives the carrying plate 4142 to perform a flip operation.

Further, a first positioning block 4145 is arranged above the bearing plate 4142, and the first positioning block 4145 is arranged along the Z-axis direction;

a positioning unit 4146 is arranged above the connecting plate 4141, and the positioning unit 4146 includes: a second positioning block 41461 provided along the Z-axis direction; and

the positioning driver 41462 is arranged along the Y-axis direction, and the power output end of the positioning driver 41462 is in transmission connection with the second positioning block 41461;

a positioning space of the packing box is defined between the first positioning block 4145 and the second positioning block 41461, and the positioning driver 41462 drives the second positioning block 41461 to reciprocate along the Y-axis direction so as to adjust the size of the positioning space.

In a preferred embodiment, an escape groove 41422 is formed on a surface of the bearing plate 4142, and the second positioning block 41461 penetrates the escape groove 41422.

It can be understood that the avoidance groove 41422 is provided, so that the second positioning block 41461 is avoided through the avoidance groove 41422 when the carrying plate 4142 is turned over, interference of the second positioning block 41461 is prevented, and meanwhile, the width of the avoidance groove 41422 is the moving range of the second positioning block 41461.

Further, the notebook computer boxing mechanism 41 further includes: the operation table 411, the X-direction conveying module 412, the packing box overturning module 414 and the packing box conveying line 415 are all arranged above the operation table 411; and

a notebook support module, which is in transmission connection with the movable part of the X-direction conveying module 412;

wherein, the X-direction conveying module 412 drives the notebook supporting module and the packaging box overturning module 414 to move in opposite directions.

Further, notebook supporting module includes: a bearing seat;

the notebook clamping component is arranged above the bearing seat; and

the notebook pushing assembly is arranged above the bearing seat and is positioned beside the notebook clamping assembly;

the notebook clamping assembly clamps and fixes the notebook module, and the notebook pushing assembly drives the notebook module clamped and fixed by the notebook clamping assembly to move along the X-axis direction.

Further, the packing carton material loading assembly line 1 includes: a packing box conveying line 11; the packing box feeding mechanism 12 is arranged beside the packing box conveying line 11; the packing box opening mechanism 13 is arranged right above the packing box conveying line 11; the packing box sealing mechanism 14 is arranged right above the packing box conveying line 11; the first labeling mechanism 15 is arranged beside the packaging box conveying line 11; the quality guarantee card attaching mechanism 16 is arranged beside the packaging box conveying line 11; and

at least two groups of second labeling mechanisms 17, wherein each group of second labeling mechanisms 17 is arranged at the side of the packaging box conveying line 11;

wherein, packing carton transfer chain 11 is equipped with packing carton material loading station, packing carton unpacking station, packing carton joint sealing station, first subsides mark station, matter along its direction of delivery in proper order and protects the attached station of card, second and pastes mark station and packing carton unloading station, packing carton material loading mechanism 12 packing carton unpacking mechanism 13 packing carton joint sealing mechanism 14 first mark mechanism 15 is protected to matter the attached mechanism 16 of card and every group second mark mechanism 17 is located respectively packing carton material loading station packing carton unpacking station packing carton joint sealing station first mark station matter protect the attached station of card and the mark station of second.

In a preferred embodiment, the pack loading mechanism 12 comprises: at least two sets of packing box magazine assemblies 121; and

the first manipulator transfer assembly 122 is arranged beside each group of packing box magazine assemblies 121;

the first manipulator transfer assembly 122 picks up a package from the inside of the corresponding group of package magazine assemblies 121, and transfers the picked-up package to the feeding station of the package conveyor line 11, where the package is conveyed by the package conveyor line 11.

Each group of the packing box magazine assemblies 121 includes: a first support 1211, and

at least two stack fixing plates 1212 fixedly installed at the top end of the first support 1211, each stack fixing plate 1212 having a hollow interior;

each of the stack fixing plates 1212 includes: a stack portion 12121; and

at least two stopper portions 12122, each of the stopper portions 12122 integrally joins the stack portion 12121 at an outer edge of the stack portion 12121 and extends in a Z-axis direction from the outer edge of the stack portion 12121;

the top end of the storage space with an opening is defined between the stacking part 12121 and the limiting part 12122, and the packing boxes are stacked up and down to form a workpiece group and are placed in the storage space.

Each side of the stacking fixing plate 1212 is provided with a fool-proof column 1213, and the fool-proof column 1213 is used for determining the placing direction of the packing boxes, so that the first manipulator transferring assembly 122 can be conveniently transferred to place the packing boxes.

A first material existence sensor and a first vacant sensor are arranged inside each stacking box fixing plate 1212;

the first material existence sensor is used for detecting whether a packaging box exists in the corresponding stacking box fixing plate 1212 or not so as to judge whether the stacking box fixing plate 1212 is empty; when one group of the stack fixing plates 1212 is judged to be in the idle state, the first idle alarm corresponding to the stack fixing plate 1212 sends out a first idle alarm.

In an embodiment, the first empty alarm may be light, sound, image, text, etc., and in a preferred embodiment of the present invention, the first empty alarm is sound, and the sound of the first empty alarm generated by the corresponding first empty alarm of each stack fixing plate 1212 is different, so that a worker can distinguish which stack fixing plate 1212 is empty to refill the corresponding stack fixing plate 1212 with a packing box.

Further, packing carton material loading assembly line 1 still includes: the first rotary transfer mechanism 18 is positioned in a butt joint area of the box sealing station and the first labeling station, and the first rotary transfer mechanism 18 is positioned at the side of the packing box conveying line 11;

the first rotary transfer mechanism 18 rotates the packaging box at the packaging box sealing station by a certain angle and then places the packaging box at the first labeling station.

In a preferred embodiment, the first rotating and transferring mechanism 18 rotates the packaging box of the first packaging box sealing station by 90 ° around the Z axis and then places the packaging box at the first labeling station, so that the subsequent first labeling mechanism 15 performs labeling operation on the side end of the packaging box, thereby improving the working efficiency.

Further, packing carton material loading assembly line 1 still includes: the second rotary transfer mechanism is positioned in a butt joint area of the first labeling station and the quality assurance card attaching station, and is positioned beside the packaging box conveying line 11;

and the second rotary transfer mechanism turns the packaging box at the first labeling station by a certain angle and then places the packaging box at the quality assurance card attaching station.

In a preferred embodiment, the second rotary transfer mechanism turns the packaging box at the first labeling station by 90 degrees around the X axis and then places the packaging box at the quality assurance card attaching station, so that the subsequent quality assurance card attaching mechanism 16 and the second labeling mechanism 17 perform corresponding operations on the packaging box, thereby further improving the working efficiency.

Further, the quality assurance card attaching mechanism 16 includes: the quality card magazine assembly 161 is arranged beside the packing box conveying line 11; and

the manipulator attaching assembly 162 is arranged right above the packaging box conveying line 11;

the manipulator attachment assembly 161 absorbs the warranty card from the warranty card magazine assembly 161 and transfers the warranty card to the warranty card attachment station to attach the warranty card to the surface of the packaging box at the warranty card attachment station.

Further, packing carton material loading assembly line 1 still includes: the first lifting conveying assembly 19 is arranged at a blanking station of the packing box conveying line 11;

the first raising conveyor assembly 19 includes: a first elevated conveyor line 191;

at least two first lifting butt joints 192, wherein the two first lifting butt joints 192 are respectively arranged on two sides of the first lifting conveying line 191 along the Y-axis direction; and

at least two lifting drivers, each of which is in driving connection with a corresponding one of the first lifting butt-joint wires 192;

the lifting driver drives the first lifting butt joint line 192 to reciprocate along the vertical direction so as to control the first lifting butt joint line 192 to butt joint with the packing box conveying line 11 and the first raising conveying line 191 respectively.

Understandably, through setting up first transfer chain 191 of choosing high to dodge partial mechanism, reduce the occupation of land space of the automatic material loading assembly line of packing carton intelligent storage makes the automatic material loading assembly line of packing carton intelligent storage is rationally distributed.

In a preferred embodiment, a third rotary transfer mechanism is disposed at a blanking station of the packaging box conveying line 11, and the third rotary transfer mechanism turns the packaging box at the blanking station by a certain angle and places the packaging box on the surface of the first lifting butt joint line 192.

In a preferred embodiment, the third rotating and transferring mechanism turns the package box at the blanking station by 90 ° around the Y axis and places the package box on the surface of the first lifting butt joint line 192, so as to facilitate subsequent operations, and further improve the working efficiency.

Understandably, the corresponding one of first lift driver drive first lift butt joint line 192 is along vertical direction downstream, so that first lift butt joint line 192 on vertical direction with packing carton transfer chain 11 looks parallel and level, the rotatory transfer mechanism of third will the packing carton of unloading station department uses the Y axle to place after 90 overturns as the axle center in first lift butt joint line 192 surface, first lift driver drive first lift butt joint line 192 is along vertical direction upward movement, so that first lift butt joint line 192 with first pick up transfer chain 191 looks parallel and level, first pick up transfer chain 191 and continue to carry the packing carton.

The number of apparatuses and the scale of the process described herein are intended to simplify the description of the present invention. Applications, modifications and variations of the present invention will be apparent to those skilled in the art.

While embodiments of the utility model have been disclosed above, it is not intended to be limited to the uses set forth in the specification and examples. It can be applied to all kinds of fields suitable for the present invention. Additional modifications will readily occur to those skilled in the art. It is therefore intended that the utility model not be limited to the exact details and illustrations described and illustrated herein, but fall within the scope of the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a packing carton intelligent storage alternating loading attachment which characterized in that includes: a packaging box feeding assembly line (1); and

at least two groups of notebook boxing mechanisms (41), wherein the notebook boxing mechanisms (41) are butted with the packaging box feeding assembly line (1);

the two notebook boxing mechanisms (41) are arranged in parallel along the Y-axis direction, and each group of notebook boxing mechanisms (41) comprises: an X-direction conveying module (412), a packing box overturning module (414) and a packing box conveying line (415);

each group of the packing box overturning modules (414) and each packing box conveying line (415) are in transmission connection with the movable part of the corresponding group of the X-direction conveying modules (412);

every group X is to carrying corresponding a set of module (412) drive packing carton upset module (414) and corresponding one packing carton transmission line (415) along X axle direction reciprocating motion, in order to control packing carton upset module (414) and packing carton transmission line (415) with packing carton material loading assembly line (1) docks in proper order, controls adjacent two simultaneously packing carton upset module (414) and two packing carton transmission line (415) docks in proper order.

2. The intelligent-warehousing alternating loading device for packages according to claim 1, characterized in that said package overturning module (414) comprises: a carrier plate (4142);

a first conveyor (4143) which is arranged along the Y-axis direction, wherein the first conveyor (4143) is fixedly arranged above the bearing plate (4142); and

the overturning driver (4144) is arranged beside the bearing plate (4142), and the power output end of the overturning driver (4144) is in transmission connection with the bearing plate (4142);

the overturning driver (4144) drives the bearing plate (4142) to overturn for a certain angle by taking the Y axis as an axis.

3. The intelligent-warehousing alternating loading device for packages according to claim 2, characterized in that said package overturning module (414) further comprises: the connecting plate (4141) is in transmission connection with the movable part of the X-direction conveying module (412), and the connecting plate (4141) is in rotary connection with the bearing plate (4142);

the top end of the connecting plate (4141) is provided with a first rotating part (41411), the bottom end of the bearing plate (4142) is provided with a second rotating part (41421), and the first rotating part (41411) is rotatably connected with the second rotating part (41421).

4. The intelligent-storage alternate loading device for the packaging boxes according to claim 3, wherein a first positioning block (4145) is arranged above the bearing plate (4142), and the first positioning block (4145) is arranged along the Z-axis direction;

a positioning unit (4146) is arranged above the connecting plate (4141), and the positioning unit (4146) comprises: a second positioning block (41461) provided along the Z-axis direction; and

the positioning driver (41462) is arranged along the Y-axis direction, and the power output end of the positioning driver (41462) is in transmission connection with the second positioning block (41461);

a positioning space of the packing box is defined between the first positioning block (4145) and the second positioning block (41461), and the positioning driver (41462) drives the second positioning block (41461) to reciprocate along the Y-axis direction so as to adjust the size of the positioning space.

5. The intelligent-warehousing alternate loading device for packaging boxes according to claim 1, wherein the notebook boxing mechanism (41) further comprises: the X-direction conveying module (412), the packaging box overturning module (414) and the packaging box conveying line (415) are arranged above the operating table (411); and

the notebook supporting module is in transmission connection with the movable part of the X-direction conveying module (412);

the X-direction conveying module (412) drives the notebook supporting module (413) and the packaging box overturning module (414) to move oppositely.

6. The intelligent warehousing alternating loading device for packaging boxes according to claim 5, wherein the notebook support module comprises: a bearing seat;

the notebook clamping component is arranged above the bearing seat; and

the notebook pushing assembly is arranged above the bearing seat and is positioned beside the notebook clamping assembly;

the notebook clamping assembly clamps and fixes the notebook module, and the notebook pushing assembly drives the notebook module clamped and fixed by the notebook clamping assembly to move along the X-axis direction.

7. The intelligent-warehousing alternative loading device for packaging boxes according to claim 1, wherein the packaging box loading line (1) comprises: a packing box conveying line (11);

the packaging box feeding mechanism (12) is arranged beside the packaging box conveying line (11);

the packing box opening mechanism (13) is arranged right above the packing box conveying line (11);

the packaging box sealing mechanism (14) is arranged right above the packaging box conveying line (11);

the first labeling mechanism (15) is arranged beside the packaging box conveying line (11);

the quality protection card attaching mechanism (16) is arranged beside the packaging box conveying line (11); and

at least two groups of second labeling mechanisms (17), wherein each group of second labeling mechanisms (17) is arranged at the side of the packaging box conveying line (11);

wherein, packing carton transfer chain (11) are equipped with packing carton material loading station, packing carton unpacking station, packing carton joint sealing station, first subsides mark station, matter along its direction of delivery in proper order and protect the attached station of card, the second pastes mark station and packing carton unloading station, packing carton material loading mechanism (12) packing carton unpacking mechanism (13) packing carton joint sealing mechanism (14) first mark mechanism (15) matter protect the attached mechanism (16) of card and every group second mark mechanism (17) are located respectively packing carton material loading station packing carton unpacking station first mark station matter protect the attached station of card and the mark station of second.

8. The intelligent-warehousing alternative loading device for packaging boxes according to claim 7, wherein the packaging-box loading line (1) further comprises: the first rotary transfer mechanism (18) is positioned in a butt joint area of the packaging box sealing station and the first labeling station, and the first rotary transfer mechanism (18) is positioned at the side of the packaging box conveying line (11);

the first rotary transfer mechanism (18) rotates the packaging box at the packaging box sealing station by a certain angle and then places the packaging box at the first labeling station.

9. The intelligent-warehousing alternative loading device for packaging boxes according to claim 7, wherein the packaging-box loading line (1) further comprises: the second rotary transfer mechanism is positioned in a butt joint area of the first labeling station and the quality assurance card attaching station, and is positioned beside the packaging box conveying line (11);

and the second rotary transfer mechanism turns the packaging box at the first labeling station by a certain angle and then places the packaging box at the quality assurance card attaching station.

10. The intelligent-warehousing alternative loading device for packaging boxes according to claim 7, wherein the packaging-box loading line (1) further comprises: the first lifting conveying assembly (19) is arranged at a blanking station of the packing box conveying line (11);

the first raising conveyor assembly (19) comprises: a first elevated conveyor line (191);

the two first lifting butt joints (192) are respectively arranged on two sides of the first lifting conveying line (191) along the Y-axis direction; and

at least two lifting drivers, each lifting driver being in driving connection with a respective one of the first lifting pair of wires (192);

the lifting driver drives the first lifting butt joint line (192) to reciprocate along the vertical direction so as to control the first lifting butt joint line (192) to be butted with the packing box conveying line (11) and the first lifting conveying line (191) respectively.

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