CN217416470U - Package assembly and stacking type package structure - Google Patents

Abstract

The utility model discloses a packaging assembly and a stacking type packaging structure, wherein, the packaging assembly comprises a tray and a surrounding assembly, the tray is provided with a first positioning groove, the surrounding assembly is arranged on the tray and is limited in the first positioning groove; the enclosing assembly is formed with a packaging accommodating area on the tray, and the tray is provided with a second positioning groove for placing and positioning the object to be packaged in the packaging accommodating area. The packaging and transporting device is used for solving the problems of inconvenient packaging and transportation and higher cost when packaging and transporting the objects to be packaged.

Description

Package assembly and stacking type package structure

Technical Field

The utility model relates to the field of packaging technology, in particular to package assembly and stacking type packaging structure.

Background

The existing packaging structure with the tray or the base mostly adopts a combination form of the tray or the base and a packaging carton, and the quality of the packaged objects in the packaging carton is generally higher by adopting the combination form of packaging, which exceeds the limit of manual carrying. To store and transport the products, the fork-picking and transporting of the packaging structure are usually accomplished by using a transporting tool such as a mechanical forklift or a ground beetle. Although the existing packaging structure solves the problems of storage and transportation of large-mass objects to be packaged, the packaging cost is generally high, and particularly when the objects to be packaged of a plurality of cartons are transported, the cartons and the base are required to be packaged into a whole by using the binding bands, so that the operation is complex, and the packaging and transportation costs are high. In addition, the packaging carton has a generally large volume, so that articles loaded in the carton cannot be positioned, and the large volume of the carton can also influence the sight of an operator in the transportation process.

SUMMERY OF THE UTILITY MODEL

One of the main objects of the present invention is to provide a packaging assembly for solving the problems of inconvenient packaging and transportation and high cost when packaging and transporting the object to be packaged.

In order to achieve the above object, the present invention provides a packaging assembly, including:

the tray is provided with a first positioning groove;

the enclosing component is arranged on the tray and limited in the first positioning groove;

the enclosing assembly is formed with a packaging containing area on the tray, and the tray is provided with a second positioning groove for placing and positioning the object to be packaged in the packaging containing area.

In an embodiment, a plurality of positioning protrusions are arranged on the tray, and the plurality of positioning protrusions surround to form the second positioning groove.

In an embodiment, the positioning protrusion comprises a first limiting strip and a second limiting strip, the first limiting strip and the second limiting strip are connected with each other to form an included angle, the first limiting strip and the second limiting strip are provided with first included angles, and openings of the first included angles of the positioning protrusion are opposite to each other in pairs.

In an embodiment, the tray is provided with a plurality of second positioning grooves.

In an embodiment, a surrounding edge is arranged on the tray, and the surrounding edge is arranged in a ring shape so as to surround and form the first positioning groove.

In an embodiment, the tray comprises a plurality of sub-trays spliced to each other.

In an embodiment, the inner side wall of the enclosure assembly is provided with a plurality of limiting columns, the limiting columns are arranged at intervals, each limiting column extends from the bottom to the top of the enclosure assembly, and the longitudinal length of each limiting column is not less than that of the enclosure assembly.

In an embodiment, a first positioning structure for positioning and inserting the enclosure assembly is further disposed on a side of the tray, which faces away from the first positioning groove.

The utility model discloses a second main objective lies in providing a stack formula packaging structure for solve the packing and transport the inconvenient and higher problem of cost of packing, transportation that exist when treating the packing material.

In order to achieve the above object, the utility model provides a stacking type packaging structure, stacking type packaging structure includes first packing unit and second packing unit, first packing unit is one of above-mentioned purpose the package assembly, the package assembly includes:

the tray is provided with a first positioning groove;

the enclosing component is arranged on the tray and limited in the first positioning groove;

the enclosing assembly is formed with a packaging accommodating area on the tray, and the tray is provided with a second positioning groove for placing and positioning the object to be packaged in the packaging accommodating area. The second packaging unit is the packaging assembly for one of the purposes, and on the basis of the packaging assembly, one side of the tray back to the first positioning groove is further provided with a first positioning structure for positioning and inserting the enclosing assembly. The package assembly includes:

the tray is provided with a first positioning groove;

the enclosing component is arranged on the tray and limited in the first positioning groove;

the enclosing assembly is formed with a packaging accommodating area on the tray, and the tray is provided with a second positioning groove for placing and positioning the object to be packaged in the packaging accommodating area.

The number of the second packaging units is one, the second packaging units are stacked on the first packaging units, and the first positioning structures of the second packaging units are inserted and positioned on the enclosing components of the first packaging units;

or the number of the second packaging units is multiple, the multiple second packaging units are sequentially stacked on the first packaging unit along the vertical direction and are stacked from bottom to top, and the first positioning structure of each second packaging unit is inserted and positioned on the enclosing component of the second packaging unit above the first positioning structure; and the first positioning structure of the second packaging unit at the lowest end in the vertical direction is spliced and positioned on the enclosing component of the first packaging unit.

In an embodiment, the stacking type packaging structure further comprises a cover body, and the enclosure assembly is provided with an opening communicated with the packaging accommodating area;

the number of the second packaging units is one, and the cover body is covered outside the opening of the second packaging unit;

or the second packaging units are multiple, and the cover body is covered outside the opening of the second packaging unit which is arranged at the uppermost end in the vertical direction.

Compared with the prior art the utility model discloses following beneficial effect has:

1. the tray is provided with a first positioning groove, the enclosing component is arranged on the tray and limited in the first positioning groove of the tray, the enclosing component is limited by the first positioning groove, stable connection of the tray and the enclosing component is realized, the enclosing component bearing a to-be-packaged object is prevented from being shifted in position in the packaging or transportation process, the actual use effect is influenced, the condition that the to-be-packaged object needs to be packaged for multiple times by using a binding belt is avoided, and the packaging difficulty is effectively reduced;

2. the enclosing assembly forms a packaging containing area on the tray, and the packaging containing area separates the object to be packaged from an external transport tool, so that the impact in the transportation process is reduced, the condition of article damage is avoided, and the stability and the safety of transportation are effectively improved;

3. the second positioning groove is arranged in the packaging containing area and used for placing and positioning the objects to be packaged, so that the volume of the packaging assembly is compressed, the space occupation of the packaging assembly is further reduced, the shielding of the line of sight in the transportation process is effectively avoided, the objects to be packaged are positioned by the second positioning groove, the objects to be packaged can be orderly and tidily packaged, the packaging process is reduced, and the position deviation of the objects in the packaging containing area in the packaging, carrying and transporting processes is avoided, and the transportation difficulty is increased;

4. through setting up one to a plurality of second constant head tanks in packing the holding district to pack simultaneously and transport one to a plurality of packing materials of treating, choose different second constant head tanks for use according to treating the packing material size, with be applicable to the packing material of treating of various sizes, the mass production of being convenient for enlarges application range, through adjustment and equipment package assembly, a plurality of packing materials of treating of the various sizes of transportation effectively reduce packaging cost, improve packing conveying efficiency.

Drawings

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

Fig. 1 is a schematic structural diagram of an embodiment of a stacking packaging structure of the present invention;

fig. 2 is a partial schematic structural diagram of an implementation state of an embodiment of the stacking packaging structure of the present invention;

fig. 3 is a schematic structural diagram of an embodiment of a tray and a base according to the present invention;

fig. 4 is a schematic structural view of a first side of an embodiment of a tray according to the present invention;

fig. 5 is a schematic structural view of a second side of an embodiment of the tray of the present invention;

fig. 6 is a side view of an embodiment of a tray of the present invention;

fig. 7 is a schematic structural view of an embodiment of the enclosure assembly of the present invention;

fig. 8 is a schematic structural diagram of an embodiment of a cover plate according to the present invention;

fig. 9 is a schematic structural diagram of an embodiment of the stacking packaging structure of the present invention in an unsealed state;

in the figure: 100. a tray; 101. a second positioning groove; 102. positioning the projection; 1021. a first limit strip; 1022. a second limit strip; 1023. a first included angle; 103. a first positioning structure; 1031. a first clamping groove; 104. a sub-tray; 105. a first side surface; 106. a second side surface; 200. a closure assembly; 201. a package accommodating area; 202. an opening; 203. a limiting column; 204. a side wall panel; 300. a cover plate; 301. a second positioning structure; 302. a second clamping groove; 400. a cushion pad; 401. a position avoiding groove; 500. a first positioning groove; 501. surrounding edges; 600. a base; 601. a slot position; 700. cushion blocks; 800. packaging materials to be packaged; 901. a first packing unit; 902. a second packaging unit; 903. and (5) packaging the components.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

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, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if all the directional indicators in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a certain posture, if the certain posture is changed, the directional indicator is also changed accordingly.

If in the present application the description referring to "first", "second", etc. is used for descriptive purposes only and not to be construed as indicating or implying a relative importance or implying a number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. If in the present invention a description of "a and/or B" is referred to, this means either comprising scheme a or scheme B, or comprising scheme a and scheme B. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 to 9, the utility model provides a package assembly and stacking type package structure.

The packaging assembly comprises a tray 100 and a surrounding assembly 200. The packaging and transporting device is used for solving the problems of inconvenience in packaging and transporting and high cost in packaging and transporting of objects to be packaged.

The tray 100 is provided with a first positioning groove 500, and the enclosure assembly 200 is arranged on the tray 100 and limited in the first positioning groove 500; the enclosing assembly 200 is formed with a package accommodating area 201 on the tray 100, and the tray 100 is provided with a second positioning groove 101 in the package accommodating area 201 for placing and positioning the object to be packaged 800.

It can be understood that, by providing the first positioning groove 500 on the tray 100, the enclosing assembly 200 is limited by the first positioning groove, so as to avoid the position deviation of the enclosing assembly 200, and the enclosing assembly 200 forms the package accommodating area 201 on the tray 100, alternatively, the package accommodating area 201 here may be an accommodating space which is defined by the enclosing assembly 200 and is formed on the inner side wall thereof, and the top and the bottom of the accommodating space are open; or, the top of the accommodating space formed between the inner side wall of the enclosing component and the bottom tray is open.

Set up first constant head tank at the tray, enclose to close the subassembly and locate on the tray, and spacing in the first constant head tank of tray, close the subassembly by first constant head tank to enclosing and carry on spacingly, realize the tray and enclose the stable connection who closes the subassembly, prevent to bear in packing or transportation and remain enclosing of packing material and close the subassembly and take place the offset, influence the in-service use effect, and avoid appearing the condition that needs pack many times with the bandage, effectively reduce the packing degree of difficulty.

Form the packing holding district by enclosing the subassembly on the tray, will treat packing material and outside transport through the packing holding district and separate the fender, reduce the striking in the transportation, avoid appearing the damaged condition of article, effectively improve the stability and the security of transportation.

Set up in the packing holding district and supply to treat the second constant head tank that the packing material was placed and was fixed a position to the volume of compression packing assembly, and further reduce the packing assembly and to occuping of space, effectively avoid causing the shelter from to the line of sight in the transportation, treat the packing material by the second constant head tank and fix a position, can pack in order neatly and treat the packing material, reduce the packing process, and avoid the article in packing holding district to take place the offset in packing, transport, transportation, on the fly increase the transportation degree of difficulty.

The packaging containing area is provided with one to a plurality of second positioning grooves, so that one to a plurality of objects to be packaged can be packaged and transported at the same time, different second positioning grooves are selected according to the sizes of the objects to be packaged, the packaging containing area is suitable for various types and sizes of objects to be packaged, mass production is facilitated, and the application range is expanded; the base of treating the convertible use of packing material of packing transportation according to actual need transports a plurality of packing materials of treating of various sizes through adjustment and equipment package assembly, effectively reduces packing cost, improves packing transportation efficiency.

It should be noted that the enclosing component 200 is disposed on the tray 100 and limited to the first positioning groove 500, optionally, the enclosing component 200 here may be an integrally formed enclosing structure, and the enclosing component is sleeved above the tray 100 through the first positioning groove 500; or a plurality of connecting structures such as sidewall plates, etc. may be formed, and each connecting structure is connected two by two in an assembled manner along the first positioning groove 500 to be integrated above the tray 100.

It is understood that along the longitudinal length of the enclosure assembly 200, the top and bottom of the enclosure assembly 200 are formed at the uppermost end and the lowermost end of the longitudinal length, where the longitudinal direction refers to the vertical direction of the enclosure assembly when it is normally placed. The enclosing component 200 can be enclosed on the side to form an enclosing structure with an open top and an open bottom, and on the basis, the enclosing component 200 can be arranged into a hollow cylindrical structure or a cylindrical structure formed by mutually splicing a plurality of side connecting structures such as side plates and the like; or enclose by side and bottom and close to form the top and be the enclosed structure of open form, on this basis, enclose and close subassembly 200 and can set up to the top and be the box-like of open form, also can enclose and close the side connection structures such as the side board at the bottom plate top by bottom load-bearing structure such as bottom plate and splice each other and form.

In addition, the tray 100 is provided with a second positioning groove 101 for placing and positioning the object to be packaged in the package accommodating area 201. It should be noted that, the second positioning slot 101 may be formed by further limiting the package accommodating area by the enclosure assembly 200, and by providing a limiting structure such as a limiting column and a limiting plate on the inner side wall of the enclosure assembly 200, the second positioning slot is formed in a manner of compressing the package accommodating area; the enclosing assembly 200 may be an enclosing structure with an open top and an open bottom, and a position limiting structure may be disposed at a position of the tray 100 corresponding to the package accommodating area 201, so as to form the second positioning groove 101 at the bottom of the accommodating area; certainly, it is not excluded that, on the basis that the enclosure assembly 200 is an enclosure structure with an open top and an open bottom, the inner side wall of the enclosure assembly 200 and the tray 100 are respectively provided with a limiting structure to jointly form the second positioning groove 101.

It is understood that, in order to place and position the object to be packaged, the size of the second positioning slot may be set in advance according to the size of the object to be packaged, and it should be noted that, after determining that the object to be packaged is a certain fixed object to be packaged, the size of the second positioning slot 101 may be set to be the conventional size of the object to be packaged, so as to facilitate mass production.

The second positioning groove 101 is used for positioning a to-be-packaged object placed in the package accommodating area 201, so that the to-be-packaged object is prevented from being subjected to position deviation, and the size of the to-be-packaged object which can be accommodated and is limited by the second positioning groove 101 is not larger than the size of the package accommodating area 201. Of course, under the condition of not limiting the present application, the object to be packaged can be positioned by the packaging accommodation area 201, and the second positioning groove 101 is formed between the inner side wall of the enclosure assembly 200 and the tray 100.

Alternatively, the second positioning slot 101 may be configured as an edge and/or corner stop structure according to the size of the object to be packaged, and the edge and/or corner stop structure may be disposed above the tray 100 and/or on the inner side wall of the enclosure assembly 200. It should be noted that the edge limiting structure herein refers to a limiting structure arranged according to the shape and/or volume of the object to be packaged, and the object to be packaged is placed in the second positioning groove, so that the edge limiting structure abuts against the outer side of the object to be packaged for positioning and limiting the placing position of the object to be packaged; the edge and corner limiting structure is used for placing the to-be-packaged objects in the second positioning groove according to the limiting structure arranged on the appearance and/or the volume of the to-be-packaged objects, and the edge and corner limiting structure is abutted to the outer corner positions of the to-be-packaged objects and used for positioning and limiting the placing positions of the to-be-packaged objects.

According to practical use, the limiting structure can be set into any limiting structure suitable for practical use, such as a positioning bulge or a limiting column, and the like, and is used for partially or completely limiting the height of a to-be-packaged object.

Alternatively, the enclosure assembly may be made of corrugated paper.

In an embodiment, the tray 100 is provided with a plurality of positioning protrusions 102, and the plurality of positioning protrusions 102 surround to form the second positioning groove 101.

The structure is simplified, the plurality of positioning protrusions 102 are arranged on the tray 100, the limiting area of the second positioning groove 101 is limited by the plurality of positioning protrusions 102, so that a packaged object can be placed and positioned conveniently, the bottom of the packaged object is limited and positioned by the second positioning groove 101, the outer side and the height of the packaged object to be treated are further limited by the inner side wall of the enclosing assembly, and the position deviation of the object in the packaging and transporting processes is avoided.

It should be noted that this application can treat the packing article according to predetermineeing the packing article size limit second constant head tank 101 treats the packing article in order to place the location, second constant head tank 101 can treat the size setting of the bottom of packing article by the spacing region of a plurality of location arch circles according to predetermineeing.

Optionally, the positioning protrusion shown in the present application is fixedly installed on the tray to enclose the second positioning groove; of course, it is not excluded to provide the positioning protrusions to be detachably mounted on the tray, and the positions of the positioning protrusions mounted on the tray are adjusted according to the actual size of the object to be packaged, so as to form a new second positioning groove suitable for use.

Optionally, the positioning protrusion may be disposed according to practical use, so that a mounting slot is formed between the positioning protrusion and the first positioning groove, and the enclosure assembly is fittingly mounted on the top of the tray through the mounting slot.

Alternatively, the positioning projections can position the edges and/or corners of the object to be wrapped.

In an embodiment, in order to simplify the structure and facilitate the processing, the positioning protrusion 102 includes a first position-limiting strip 1021 and a second position-limiting strip 1022, the first position-limiting strip 1021 and the second position-limiting strip 1022 are connected to each other at an included angle, and both have a first included angle 1023, and the openings 202 of the first included angle 1023 of the positioning protrusion 102 are opposite to each other two by two. The positioning device is used for realizing the stable positioning of the object to be packaged.

Set up first spacing 1021, the spacing 1022 interconnect of second and be the contained angle setting for it is spacing to treat that the packing material carries out the edges and corners, and then treats the packing material and carry out the location processing, avoids appearing the skew in packing and handling.

It is understood that the first limiting strip 1021 and the second limiting strip 1022 may be straight strips, or may be strip structures with certain bending angles, and of course, regular or irregular strip structures with certain radian are not excluded. The sizes, specifications and the like of the first limiting strip and the second limiting strip can be the same or different. On the premise that the formed second positioning groove 101 can be used for placing and positioning the object to be packaged, the length and the material of the first limiting strip and the second limiting strip, whether the first limiting strip and the second limiting strip are hollow structures or not are not limited.

Optionally, the first limiting strip 1021 and the second limiting strip 1022 are arranged at an included angle, and the first limiting strip 1021 and the second limiting strip 1022 may be connected in any form suitable for practical use, such as end-to-end connection, end-to-end connection of one middle part of the first limiting strip 1021 and the second limiting strip 1022, or cross-connection of the middle parts of the first limiting strip 1021 and the second limiting strip.

Optionally, the first included angle 1023 is a right angle, and the first limiting strip 1021 and the second limiting strip 1022 are connected to each other to form an L-shape or a cross-shape.

It should be noted that, the positioning protrusion here may adopt a first limiting strip 1021 and a second limiting strip 1022 which are separately arranged, and the first limiting strip 1021 and the second limiting strip 1022 are detachably connected or fixedly connected in an assembled form; alternatively, the first stopper 1021 and the second stopper 1022 may be integrally connected to each other.

In addition, when the positioning protrusions 102 formed by connecting the first spacing strip 1021 and the second spacing strip 1022 with each other are used for spacing the object to be packaged, the number of the positioning protrusions 102 can be set according to the volume and/or shape of the object to be packaged.

Optionally, there are four positioning protrusions, the first included angle 1023 is a right angle, the first spacing strip 1021 and the second spacing strip 1022 are connected to each other to form an L-shaped right angle, and two of the openings 202 of the four positioning protrusions are connected to enclose the rectangular second positioning groove 101.

In one embodiment, to place a plurality of objects to be packaged in the package accommodating area 201, the tray 100 is provided with a plurality of second positioning grooves 101. The setting of the second positioning groove 101 is used for simultaneously placing a plurality of objects to be packaged.

Alternatively, the plurality of second positioning grooves 101 may be disposed at any position suitable for practical use in the package accommodating area along the length direction, the width direction, and the like of the package accommodating area 201.

It is understood that a plurality of second positioning grooves 101 may be provided on the tray 100 in a mutually adjacent form or a mutually spaced form. Optionally, the second positioning groove 101 is formed by enclosing a plurality of positioning protrusions, which does not exclude that the positioning protrusions are arranged in any practical shape such as T-shape, X-shape, etc. to be suitable for the second positioning grooves 101 arranged adjacently.

In an embodiment, to position the enclosing component 200, an enclosing edge 501 is disposed on the tray 100, and the enclosing edge 501 is disposed in a ring shape to enclose the first positioning groove 500.

It is understood that, for achieving the limited positioning of the enclosing assembly 200, according to practical use, it is not excluded that the enclosing edge is provided with a plurality of limiting structures arranged along the periphery of the tray, and the first positioning groove is formed by the plurality of limiting structures, rather than the enclosing edge is provided in a ring shape.

In one embodiment, the tray 100 includes a plurality of sub-trays 104 that are spliced to one another.

Alternatively, the tray 100 is provided by splicing a plurality of sub-trays 104 to each other. According to practical use, connecting positions can be arranged on the side edges of the sub-trays 104, and the sub-trays 104 are spliced into the tray through the corresponding connecting positions; certainly, the arrangement of the tenon-and-mortise structures which are matched with each other among the plurality of sub-trays is not excluded, so that the sub-trays are spliced into the tray in a clamping manner through the corresponding tenon-and-mortise structures. Of course, according to practical use, optionally, the first positioning groove may be used to limit a plurality of sub-trays spliced with each other.

It should be noted that the plurality of sub-trays may be spliced only by the way of side alignment, or may be connected into a whole in any way suitable for practical use, such as bonding, screwing, etc., and it is of course not excluded that the sub-trays adjacent to each other are connected into a whole by a connecting member.

Alternatively, according to practical use, the number of the sub-trays and the splicing position of each sub-tray can be set in a manner that one sub-tray 104 corresponds to one second positioning groove, and each second positioning groove corresponds to a to-be-packaged object to be positioned. The adjacent two sub-trays 104 can be spliced into a whole in any form suitable for use, such as length fit connection, width fit connection, length and width fit connection, and the like, so as to assemble the tray.

In an embodiment, the inner side wall of the enclosure assembly 200 is provided with a plurality of limiting columns 203, the plurality of limiting columns 203 are arranged at intervals, each limiting column 203 extends from the bottom to the top of the enclosure assembly, and the longitudinal length of the limiting column 203 is not less than the longitudinal length of the enclosure assembly 200.

It will be understood that the longitudinal direction referred to herein is the vertical direction of the enclosure assembly in its normal resting position. Treat the packing material through the vertical length who encloses the subassembly 200 and place the height and inject, set up a plurality of spacing posts 203 enclosing the subassembly 200 inside wall that closes to the relative face butt of each spacing post treats the packing material, be used for treating the packing material and carry out further spacing fixed, in order to realize firm packing, avoid taking place the offset in packing and transportation.

The longitudinal length of the enclosing component 200 of the limiting column is set, the limiting column 203 extends to the top of the enclosing component 200 from the bottom of the enclosing component along the longitudinal length direction of the limiting column, the longitudinal length of the limiting column 203 is not smaller than that of the enclosing component 200, and the limiting column 203 is partially led out of the top and/or the bottom of the enclosing component 200. Specifically, the limiting column is partially led out of the bottom of the enclosing component and is inserted into the tray at the bottom of the enclosing component, so that the enclosing component is stably installed at the top of the tray; optionally, a plurality of the packaging components can be stacked up and down along the vertical direction, the limiting column is partially led out of the top of the enclosing component and stacked in a sequence from bottom to top, and the limiting column is inserted into a tray or the enclosing component of the next packaging component, so that the packaging component above the limiting column along the vertical direction is stably covered on the top of the packaging component below the limiting column; optionally, a cover body may be disposed at the top of the packaging component, and the limiting column is partially led out of the top of the enclosure component and is inserted into the cover body at the top of the enclosure component, so that the cover body is stably covered at the top of the enclosure component; certainly, according to the in-service use, do not exclude partly draw forth enclose subassembly top and bottom with spacing post to realize enclosing the subassembly and being connected firmly with tray, lid, other package assembly etc..

In this application, can treat the packing material vertical direction to a certain extent through spacing post and carry out further spacing, optionally, a plurality of location arch 102 encloses to close and forms second constant head tank 101. In an example, the wedge-shaped spacer block 700 is disposed on a side of the positioning protrusion 102 away from the second positioning groove, and the vertical direction of the object to be packaged can be further limited by the wedge-shaped spacer block, so that the position deviation is avoided. Optionally, a mounting slot is formed between the spacer 700 and the first positioning groove 500, and the enclosure assembly 200 is fittingly mounted on the top of the tray 100 through the mounting slot.

Optionally, the first positioning slot 500 is rectangular, the enclosure assembly 200 includes four side wall plates 204, and the side wall plates 204 are connected two by two to form the enclosure assembly 200.

It should be noted that, the limiting column 203 is used for positioning the vertical direction of the object to be packaged, so as to avoid the object to be packaged from shifting in the packaging and transportation processes, and under the condition that the vertical direction of the object to be packaged is positioned, the limiting column 203 can be arranged on the inner side wall of the enclosing assembly, the inner corner of the enclosing assembly and other positions suitable for practical use.

It should be noted that, according to practical use, it is not excluded to set the position of the limiting column 203 according to the position of the second positioning groove 101, and after the enclosure assembly 200 is assembled to the first positioning groove 500 at the top of the tray 100, the limiting column 203 inside the enclosure assembly 200 just abuts against the positioning protrusion 102 of the second positioning groove 101, so as to realize the stable connection between the enclosure assembly 200 and the tray 100. Of course, if the setting of spacing post 203 is for realizing enclosing the firm connection of closing subassembly 200 and tray 100, then do not exclude with spacing post 203 set up in enclose and close subassembly 200 lateral wall, will enclose and close subassembly 200 assembly behind the first constant head tank 500 at tray 100 top, spacing post 203 deviates from and encloses a side of closing subassembly 200 and butt first constant head tank 500 just, by it further fixes a position to treat the vertical direction orientation of packing thing to enclose the subassembly 200 inside wall.

In addition, it should be noted that, optionally, the limiting columns 203 of the enclosure assembly 200 may be disposed corresponding to the second positioning grooves 101, one of the second positioning grooves 101 corresponds to one set of limiting columns 203, and when a plurality of second positioning grooves 101 are disposed on the tray 100, a plurality of sets of limiting columns 203 are disposed corresponding to the limiting assemblies. Of course, the enclosure assembly 200 may be disposed corresponding to the second positioning groove 101, the tray 100 is disposed with a plurality of second positioning grooves 101, the number of the enclosure assemblies 200 is set corresponding to the number of the second positioning grooves 101, and the enclosure assemblies 200 are correspondingly mounted according to the positions of the second positioning grooves 101.

In an embodiment, a side of the tray 100 facing away from the first positioning groove 500 is further provided with a first positioning structure 103 for positioning and inserting the enclosure assembly 200.

Alternatively, one side of the tray 100 provided with the first positioning groove 500 may be defined as the first side 105 of the tray 100, and the side opposite to the first positioning groove 500 is defined as the second side 106 of the tray 100.

Optionally, the packaging assemblies may be assembled with each other, a plurality of the packaging assemblies are stacked in order in a vertically overlapped manner, the first positioning structure 103 is disposed on the second side 106 of the tray 100, and the packaging assembly on the upper layer is fittingly sleeved on the packaging assembly on the lower layer through the arrangement of the first positioning structure 103.

Optionally, the first positioning structure 103 may be disposed corresponding to the enclosure assembly 200, and the enclosure assembly 200 is sleeved by the first positioning structure 103 to complete the stable connection between the two vertically overlapped packaging assemblies.

In an example, first location structure adopts first joint groove, it is equipped with a plurality of spacing posts 203 to enclose to close subassembly 200 inside wall, the longitudinal length of spacing post 203 is greater than enclose the longitudinal length who closes subassembly 200, first location structure 103 can set to be used for supplying spacing post 203 location grafting's first joint groove 1031 cup joints the form at spacing post 203 top through first joint groove 1031 adaptation, accomplishes the firm connection of two package assembly that overlap from top to bottom. Optionally, on the basis of this example, a longitudinal length of the position-limiting column 203 is greater than a longitudinal length of the enclosure assembly 200, the position-limiting column 203 is partially led out from the bottom of the enclosure assembly 200, and a length of the led-out position-limiting column 203 is not greater than a depth of the first clamping groove 1031.

It should be noted that, optionally, a base 600 is further disposed at the bottom of the packaging component shown in this application, the tray 100 is mounted on the base, the base 600 serves as a supporting structure to support the packaging component, optionally, a positioning area may be disposed on the base 600, and the tray 100 is mounted on the base through the positioning area. Further, a plurality of slots 601 are formed in the bottom of the base 600 for an external transportation tool to complete inserting and taking actions. Alternatively, the base 600 may be a reel-shaped base, a paper pallet, or the like.

Of course, according to practical application, the tray 100 shown in the present invention may be provided to include a supporting structure in a plate shape, a supporting structure with a base 600, and the like, the tray may or may not include the base, and the supporting structure of the tray and the base 600 may be separately provided or may be integrally connected. The specific implementation mode is as follows:

when the tray does not include the base:

referring to fig. 3 to 6, the tray 100 may be a plate-shaped supporting structure, as an example. The packaging assemblies shown in the present application can be stacked in order along the vertical direction, and according to the practical situation, according to the order from bottom to top, a base 600 can be additionally configured at the bottom of the lowermost packaging unit, the base 600 is provided with a surrounding edge 501, the surrounding edge 501 is arranged in an annular shape so as to form a first positioning groove 500 in a surrounding manner, and the tray of the lowermost packaging unit is adaptively installed on the base 600 through the first positioning groove 500. The bottom of the base 600 is provided with a plurality of slots 601 for external transportation tools to complete insertion and removal.

As another example, the tray 100 is a supporting structure having a plate shape, and the outer periphery of the tray is provided with a surrounding edge 501, and the surrounding edge 501 is arranged in a ring shape to surround and form the first positioning groove 500. The packaging assembly shown in the application can be sequentially stacked along the vertical direction, according to the practical situation, a base 600 can be additionally arranged at the bottom of the packaging unit at the lowest end according to the sequence from bottom to top, and the tray is installed on the base in a connecting mode of nailing, clamping and the like. The bottom of the base 600 is provided with a plurality of slots 601 for external transportation tools to complete insertion and removal.

When the tray includes the base:

as an example, the tray 100 is assembled by a base 600 and a plate-shaped supporting structure, wherein the supporting structure is plate-shaped, a surrounding edge 501 is disposed on the base 600, the surrounding edge 501 is annularly disposed to surround and form a first positioning groove 500, and the supporting structure is fittingly mounted on the base 600 through the first positioning groove 500. The bottom of the base 600 is provided with a plurality of slots 601 for external transportation tools to complete insertion and removal.

As another example, the tray 100 adopts a supporting structure with a base, wherein the tray is provided with a surrounding edge 501, the surrounding edge 501 is arranged in a ring shape to form a first positioning groove 500, and a plurality of groove positions 601 are opened at the bottom of the tray for an external transportation tool to complete inserting and taking actions.

It can be understood that the packaging assemblies shown in the present application may be stacked in order along the vertical direction, and the trays with the base structure, such as the supporting structure with the base, the tray assembled by the base and the supporting structure in the form of a plate, and the like shown in the above examples, may be disposed at the lowest end in order from the bottom to the top.

In one example, a plurality of packaging assemblies are stacked in sequence in the vertical direction, and in order to insert and take the packaging assemblies by an external transport tool layer by layer, it is not excluded that a base is arranged on a tray of each packaging assembly or the tray is arranged into a structure containing the base. Optionally, it is not excluded to correspondingly arrange a limiting groove suitable for the base 600 on the top of each packaging component to achieve stable stacking.

Optionally, the packaging assembly of the present invention further comprises a cover, the enclosure assembly 200 has an opening 202 communicated with the packaging accommodating area 201, and the cover is disposed outside the opening 202.

The utility model also provides a stack packaging structure, stack packaging structure includes first packing unit 901 and second packing unit 902.

The first packaging unit 901 adopts the packaging component 903 shown in the above example, the packaging component 903 includes a tray 100 and a surrounding component 200, and the tray 100 is provided with a first positioning groove 500; the enclosing component 200 is arranged on the tray 100 and limited in the first positioning groove 500; the enclosing assembly 200 is formed with a package accommodating area 201 on the tray 100, and the tray 100 is provided with a second positioning groove 101 in the package accommodating area 201 for placing and positioning the object to be packaged 800.

On the basis of the packaging component 903 shown in the above example, the second packaging unit 902 is further provided with a first positioning structure 103 for positioning and inserting the enclosure component 200 on a side of the tray 100 opposite to the first positioning groove 500. The packaging component 903 comprises a tray 100 and a surrounding component 200, wherein a first positioning groove 500 is formed in the tray 100; the enclosing component 200 is arranged on the tray 100 and limited in the first positioning groove 500; the enclosing assembly 200 is formed with a package accommodating area 201 on the tray 100, and the tray 100 is provided with a second positioning groove 101 in the package accommodating area 201 for placing and positioning the object to be packaged 800.

As an example of this document, the number of the second packaging unit is one, the second packaging unit is stacked on the first packaging unit, and the first positioning structure 103 of the second packaging unit is inserted and positioned on the enclosure assembly 200 of the first packaging unit.

As another example of this document, the number of the second packaging units is multiple, multiple second packaging units are sequentially stacked on the first packaging unit along the vertical direction and are stacked in order from bottom to top, and the first positioning structure 103 of each second packaging unit is inserted and positioned on the enclosure assembly 200 of the previous second packaging unit; wherein, the first positioning structure 103 of the second packaging unit at the lowest end in the vertical direction is inserted and positioned on the enclosing component 200 of the first packaging unit.

It should be noted that the first positioning structure 103 of each second packaging unit is inserted and positioned on the enclosure assembly 200 of the second packaging unit above the first packaging unit, wherein the "above second packaging unit" refers to the second packaging unit stacked first in the stacking order from bottom to top, that is, the adjacent second packaging unit disposed below the second packaging unit in the vertical direction.

The first packing unit of stack formula packaging structure, the concrete implementation of second packing unit as above show, no longer give unnecessary details here.

At present, the stacking of the cartons can be realized only by additionally adding a new packaging structure to the existing packaging structure, and even if the stacking is realized, the carton can be stacked only by two layers at the highest.

In this application file, shown first packing unit and second packing unit, second packing unit and second packing unit can be connected two liang detachably, concrete accessible first location structure with the location connection is realized in the grafting cooperation of spacing post, is convenient for stack multilayer package assembly, need not add new packaging structure, simplifies the structure, is convenient for pile up the equipment. And through the setting of second constant head tank, compression package subassembly volume to further reduce first package unit, second package unit and to the occupation in space, effectively avoid looking at the sheltering from of line in the transportation.

On the basis of the above example, the stacking package structure further includes a cover body, and the enclosure assembly 200 has an opening 202 communicated with the package accommodating section 201.

When the number of the second packaging units is one, the cover body is covered outside the opening 202 of the second packaging unit.

When the number of the second packaging units is plural, the cover body covers the opening 202 of the second packaging unit which is arranged at the uppermost end in the vertical direction.

It should be noted that stack formula packaging structure include a plurality of package assemblies, overlap from top to bottom and put things in good order a plurality of package assemblies, in the in-service use process, do not exclude only to use one first packing unit, the enclosure of first unit close subassembly 200 have with the opening 202 of packing holding area 201 intercommunication, the lid can directly be covered and locate outside the opening 202 of first packing unit.

In addition, in the actual use process, it is not excluded that a cover body is arranged for each first packaging unit and each second packaging unit, and even a corresponding cover closing part can be arranged for each enclosing assembly, so that the sealing process after disassembly is reduced.

On the basis of the above example, one side of the cover body close to the opening 202 is provided with a second positioning structure 301 for positioning and inserting the enclosure assembly 200, and further, the second positioning structure adopts a second clamping groove, and one side of the cover body close to the opening 202 is provided with a second clamping groove 302 for positioning and inserting the limiting column 203.

Alternatively, the cover body can be corrugated paper.

Further, a buffer pad 400 is arranged between the cover plate 300 and the top packaging unit, and a position avoiding groove 401 is arranged at a position of the buffer pad 400 corresponding to the second clamping groove.

Optionally, in order to avoid the cover of the cover plate from being affected, the position corresponding to the second clamping groove is provided with the avoiding groove, and the size of the avoiding groove is designed corresponding to the size of the second clamping groove. The blotter can adopt the cotton material of pearl to make, makes the blotter have certain deformation volume to ensure that whole packaging structure laminates each other, the blotter possesses inhales the shake effect, can protect the article of placing in the package assembly.

It can be understood that in the utility model discloses in, the blotter can correspond to enclose and close the quantity of subassembly and divide and establish one or more for the lid is established and is being enclosed and close subassembly open-top, of course, also can only set up a blotter according to the size of lid and establish with the lid on the whole of stack packaging structure top enclose and close the subassembly. In practical use, the cushion pad is not arranged between the adjacent packaging units of the stacking type packaging structure, and the avoiding groove of the cushion pad is arranged corresponding to the first clamping groove, so that the blockage caused by the clamping connection of the limiting column and the first clamping groove is avoided.

In addition, it should be noted that, according to practical use, it is not excluded that a plurality of connecting pieces are arranged on the inner side wall of the enclosure assembly to assemble the stacking type packaging structure, and the connecting pieces are arranged at intervals along the vertical direction of the enclosure assembly. Optionally, the enclosure assembly comprises a plurality of side wall plates, the side wall plates are connected in pairs to form the enclosure assembly, a plurality of connecting pieces are arranged on the inner side walls of the one or more side wall plates, the connecting pieces are arranged at intervals in the vertical direction, the trays are multiple, and the trays are arranged in the enclosure assembly in a manner that the first positioning groove corresponds to the connecting piece in an adaptive manner. The enclosing assembly is internally provided with a plurality of layers of trays, each tray is provided with one or more second positioning grooves for placing and positioning the objects to be packaged, in this example, a plurality of side wall plates are detachably connected, and after the assembly of the trays and the positioning and placing of the objects to be packaged are completed, the packaging of the stacking type packaging structure is realized through the enclosing side wall plates and the cover plates.

The specific embodiment of the stacking packaging structure shown in the present application is as described above, and is not described herein again. The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (10)

1. A packaging assembly, comprising:

the tray is provided with a first positioning groove;

the enclosing component is arranged on the tray and limited in the first positioning groove;

the enclosing assembly is formed with a packaging containing area on the tray, and the tray is provided with a second positioning groove for placing and positioning the object to be packaged in the packaging containing area.

2. The packaging assembly according to claim 1, wherein the tray is provided with a plurality of positioning protrusions which enclose the second positioning slot.

3. The packaging assembly according to claim 2, wherein the positioning protrusions comprise a first limit strip and a second limit strip, the first limit strip and the second limit strip are connected with each other at an included angle and both have a first included angle, and the openings of the first included angle of each positioning protrusion are opposite to each other in pairs.

4. The packaging assembly according to claim 2, wherein the tray is provided with a plurality of said second positioning slots.

5. The packaging assembly according to claim 1, wherein the tray is provided with a peripheral edge, the peripheral edge being annularly arranged to enclose the first positioning slot.

6. The packaging assembly according to claim 1, wherein the tray comprises a plurality of sub-trays spliced to each other.

7. The packaging assembly according to claim 1, wherein the inner side wall of the enclosing assembly is provided with a plurality of limiting posts, the plurality of limiting posts are arranged at intervals, each limiting post extends from the bottom to the top of the enclosing assembly, and the longitudinal length of the limiting post is not less than that of the enclosing assembly.

8. The packaging assembly according to claim 1, wherein a side of the tray facing away from the first positioning groove is further provided with a first positioning structure for positioning insertion of the enclosure assembly.

9. A stacking packaging structure, which is characterized by comprising a first packaging unit and a second packaging unit, wherein the first packaging unit is the packaging assembly in any one of claims 1-7, and the second packaging unit is the packaging assembly in claim 8;

the number of the second packaging units is one, the second packaging units are stacked on the first packaging units, and the first positioning structures of the second packaging units are inserted and positioned on the enclosing components of the first packaging units;

or the number of the second packaging units is multiple, the multiple second packaging units are sequentially stacked on the first packaging unit along the vertical direction and are stacked from bottom to top, and the first positioning structure of each second packaging unit is inserted and positioned on the enclosing component of the second packaging unit above the first positioning structure; and the first positioning structure of the second packaging unit at the lowest end in the vertical direction is spliced and positioned on the enclosing assembly of the first packaging unit.

10. The palletized packaging structure as claimed in claim 9, further comprising a cover body, wherein the enclosure assembly has an opening communicating with the package receiving section;

the number of the second packaging units is one, and the cover body is covered outside the opening of the second packaging unit;

or the second packaging units are multiple, and the cover body is covered outside the opening of the second packaging unit which is arranged at the uppermost end in the vertical direction.

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