CN219635851U - Packaging magic block and buffer package - Google Patents

Abstract

The utility model provides a packaging magic block and a buffer package, and relates to the field of packaging and transportation. The package magic block provided by the utility model comprises at least two first corner blocks and at least two first reinforcing inserting blocks; the target object is provided with a first surface, and the first surface is the upper surface or the lower surface of the target object; the at least two first corner blocks are correspondingly buckled on the first surface and are positioned at two opposite corners of the first surface; the first corner block is provided with a second surface, the second surface faces away from the target object and is parallel to the first surface, and the at least two first reinforcing inserts are correspondingly inserted into the second surfaces of the at least two first corner blocks. The packaging magic block obtained by the design has good adaptability and flexibility, can realize compatible multiplexing of various types of size target objects, and reduces the production cost.

Description

Packaging magic block and buffer package

Technical Field

The utility model relates to the field of packaging and transportation, in particular to a packaging magic block and a buffer package.

Background

In recent years, the express transportation market in China has a rapid growth trend, and the target objects are safely and rapidly sent to the destination after being packaged, so that convenience is realized, and time can be saved. With the rise and development of the packaging and transportation industry, the problem of packaging waste of target objects is accompanied. Under the idea of advocating green environmental protection, the excessive packaging is a waste of resources and is also a help to damage the environment.

The existing small target objects are packaged and protected in a form of cartons and buffer pads in the transportation process, and the buffer pads and cartons with different specifications are needed according to the size change of the target objects. And the buffer package is easy to be unable to be reused, and the packaging cost is high. There is therefore a need for a cushion pack that enables compatible multiplexing of multiple class-sized target objects, thereby reducing the cost of the pack.

Disclosure of Invention

The utility model provides a packaging magic block, which aims to solve the problem that the packaging cost is high because the existing buffer packaging cannot be reused in the prior art.

Embodiments of the present utility model are implemented as follows:

in one aspect of an embodiment of the present utility model, a packaged magic block is provided, including at least two first corner blocks and at least two first reinforcing insert blocks; the target object is provided with a first surface, and the first surface is the upper surface or the lower surface of the target object; the at least two first corner blocks are correspondingly buckled on the first surface and are positioned at two opposite corners of the first surface; the first corner block is provided with a second surface, the second surface faces away from the target object and is parallel to the first surface, and the at least two first reinforcing inserts are correspondingly inserted into the second surfaces of the at least two first corner blocks.

Optionally, the first corner block is provided with a corner groove, and the first corner block is fastened at the corner of the target object through the corner groove.

Optionally, the packaged magic block further includes an interchange avoidance groove communicated with the angular groove, and the interchange avoidance groove includes at least two.

Optionally, the first corner block is further provided with stress conversion grooves, and the stress conversion grooves are respectively concavely arranged on two adjacent side walls of the corner groove and are communicated with the corner groove.

Optionally, the package magic block further includes a socket board and a socket inserted on the socket board, the socket board is used for placing a target object, and the socket cooperates with the corresponding first corner block to limit the target object.

Optionally, the insert block is convexly provided with a first boss, and the insert block seat board is correspondingly provided with a first groove, and the first boss is matched with the first groove and used for inserting the insert block on the insert block seat board.

Optionally, the first corner block is further provided with a second groove, the first reinforced insert block is provided with a second boss, and the second groove is matched with the second boss and used for inserting the first reinforced insert block on the first corner block.

Optionally, a third groove is formed in one surface, close to the first corner block, of the first reinforcing insert block, and the shape of the third groove is matched with the corner of the first corner block, so that the first reinforcing insert block is clamped on the corner of the first corner block.

Optionally, the side surface of the first corner block far away from the target object is provided with a stress groove.

In another aspect of the embodiments of the present utility model, there is provided a cushion package including the above-described package magic block and at least one cushion plate for being placed on one side of a target object.

The beneficial effects of the embodiment of the utility model include: the package magic block provided by the embodiment of the utility model comprises at least two first corner blocks and at least two first reinforced inserting blocks, wherein the first corner blocks are arranged to fully protect a target object and prevent the target object from being knocked in the transportation process; the first reinforced inserting block has the functions of increasing the buffer thickness and improving the protection of the target object, so that the target object is further fully protected; the buckling modes of the first corner blocks with different numbers and the matching modes between the first corner blocks and the first enhancement plug blocks can realize the protection of target object types with various different structures, and the adaptability and the flexibility of the packaging magic block are improved; the target object is provided with a first surface, and when the target object is naturally placed, the first surface is the upper surface or the lower surface of the target object; the at least two first corner blocks are correspondingly buckled on the first surface and are positioned at two opposite corners of the first surface, so that buffering and protection can be provided for the corners of the target object, and the target object is prevented from being damaged due to collision in the transportation process; the first corner block is provided with a second surface, the second surface deviates from the target object and is parallel to the first surface, and the at least two first enhancement plug blocks are correspondingly inserted into the second surfaces of the at least two first corner blocks, so that the buffer performance of the first corner block can be improved in an auxiliary manner, and the protection of the target object is further improved. The packaging magic block obtained by the design has good adaptability and flexibility, can realize compatible multiplexing of various types of size target objects, and reduces the production cost.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural diagram of a first corner block and a first reinforcing insert according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a first enhanced plug according to an embodiment of the present utility model;

FIG. 3 is a second schematic structural view of a first corner block and a first reinforcing insert according to an embodiment of the present utility model;

FIG. 4 is a second schematic structural diagram of a first enhanced plug according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a first corner block fastened to a target object according to an embodiment of the present utility model;

FIG. 6 is a second schematic view of the first corner block fastened to the target object according to the embodiment of the present utility model;

FIG. 7 is a schematic view of a first corner block and insert block seat plate according to an embodiment of the present utility model;

FIG. 8 is a schematic view of a cushioning package according to an embodiment of the present utility model;

FIG. 9 is a third schematic view of the first corner block fastened to the target object according to the embodiment of the present utility model;

FIG. 10 is a schematic structural view of a first corner block according to an embodiment of the present utility model;

FIG. 11 is a second schematic structural view of a first corner block according to an embodiment of the present utility model;

fig. 12 is a schematic structural diagram of an insert and an insert seat plate according to an embodiment of the present utility model.

Icon: 100-packaging magic blocks; 110-a first corner block; 111-corner slots; 112-interchange avoidance slots; 113-a stress conversion groove; 114-a second groove; 115-force-bearing grooves; 120-a first enhancement plug; 121-a second boss; 122-a third groove; 130-plug-in block; 131-a first boss; 140-plug seat board; 141-a first groove; 200-buffer packaging; 210-a buffer plate; 300-target object.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some, but not all, embodiments of the present utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

In the description of the present utility model, it should be understood that the terms "orientation" or "positional relationship" are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and to simplify the description, rather than to indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operate in a particular orientation, and therefore should not be construed as limiting the utility model.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1 and 3, in one aspect of the embodiment of the present utility model, a packaged magic block 100 is provided, which includes at least two first corner blocks 110 and at least two first reinforcing insert blocks 120; the target object 300 has a first surface, which is an upper surface or a lower surface of the target object 300; at least two first corner blocks 110 are fastened to the first surface and located at two opposite corners of the first surface; the first corner block 110 has a second surface facing away from the target object 300 and parallel to the first surface, and at least two first reinforcing inserts 120 are correspondingly inserted into the second surfaces of the at least two first corner blocks 110.

Specifically, the present utility model provides a packaged magic block 100 having a first corner block 110 and a first reinforcing insert block 120. Wherein the first corner block 110 includes at least two and the first reinforcing insert 120 includes at least two. When the target object 300 is naturally placed, the upper or lower surface thereof is the first surface. The first corner block 110 is fastened to the first surface of the target object 300 and is located at a corner of the first surface, so as to play a role in buffering and protecting the target object 300; when the target object 300 is heavy, the protection requirement for the target object 300 may not be met by using the first corner block 110, and at this time, the first enhancement plug 120 may be inserted into the first corner block 110. When the first corner block 110 is fastened to the first surface of the target object 300, a surface of the first corner block facing away from the target object 300 and parallel to the first surface is a second surface, and the first reinforcing insert 120 is inserted into the second surface of the first corner block 110. In a specific use process, at least two first corner blocks 110 are respectively fastened at two opposite corners of the first surface of the target object 300; depending on the shape of the target object 300, different mounting patterns of the first corner block 110 and/or the first reinforcing insert 120 may be transformed.

It should be noted that, in the first embodiment of the present utility model, different mounting manners of the first corner block 110 and the first reinforcing insert 120 may be adopted according to different shapes and types of the target object 300. Wherein "first" in the first corner block 110 and the first reinforcing insert 120 means the corner block and the reinforcing insert 130 mounted on the upper surface or the lower surface when the target object 300 is naturally placed. For example, as shown in fig. 5, eight corner blocks are fastened at the corners of the target object 300, so that four corner blocks fastened at the corners below the target object 300 are the first corner blocks 110, and at this time, four corner blocks fastened at the corners above the target object 300 are the second corner blocks. Conversely, if the four corner blocks fastened to the corner above the target object 300 are the first corner blocks 110, the four corner blocks fastened to the corner below the target object 300 are the second corner blocks. The first enhancement plug 120 and the second enhancement plug 130 are similar; the first corner block 110 and the second corner block, the first reinforcing insert 120 and the second reinforcing insert 130 are identical in structure, and the terms "first" and "second" are used only to distinguish the snap-fit orientations of the corner blocks and the reinforcing inserts 130.

Second, in the embodiment of the present utility model, the first enhanced plug 120 may assist the first corner block 110 to further protect and buffer the target object 300 according to the specific shape of the target object 300. As shown in fig. 1, when the target object 300 is heavy, the first corner block 110 is fastened only at eight corners of the target object 300, and the protection performance of the first corner block cannot meet the protection drop of the target object 300. Therefore, the first reinforcing insert 120 may be further inserted into each first corner block 110, so that the first corner block 110 and the first reinforcing insert 120 are connected into an integral structure, which plays a role of assisting in increasing the thickness of the first corner block 110, further increasing the buffering protection performance thereof, and providing better protection for the target object 300.

The packaged magic block 100 provided by the embodiment of the utility model comprises at least two first corner blocks 110 and at least two first reinforcing insertion blocks 120, wherein the first corner blocks 110 are arranged to fully protect a target object 300 and prevent the target object 300 from being knocked in the transportation process; the first reinforcing plug 120 has the functions of increasing the buffer thickness and improving the protection of the target object 300, so that the target object 300 is further fully protected; the fastening manner of the first corner blocks 110 with different numbers and the matching manner between the first corner blocks 110 and the first reinforcing insertion blocks 120 can realize the protection of the target object 300 types with various different structures, and the adaptability and the flexibility of the packaged magic block 100 are improved; the target object 300 has a first surface, which is an upper surface or a lower surface of the target object 300 when the target object 300 is naturally placed; the at least two first corner blocks 110 are correspondingly fastened on the first surface of the object and are positioned at two opposite corners of the first surface, so that buffering and protection can be provided for the corners of the target object 300, and the target object 300 is prevented from being damaged due to collision in the transportation process; the first corner block 110 has a second surface, the second surface is away from the target object 300 and parallel to the first surface, and the at least two first reinforcing inserts 120 are correspondingly inserted into the second surfaces of the at least two first corner blocks 110, so that the buffer performance of the first corner block 110 can be improved in an auxiliary manner, and the protection of the target object 300 is further improved. The packaged magic block 100 obtained by the design has good adaptability and flexibility, can realize compatible multiplexing of various types of size target objects 300, and reduces the production cost.

In one embodiment of the present utility model, as shown in fig. 10, the first corner block 110 is provided with a corner groove 111, and the first corner block 110 is fastened to a corner of the target object 300 through the corner groove 111.

Specifically, the first corner block 110 is provided with a corner groove 111 on a surface close to the target object 300, and the corner groove 111 is at a right angle and has a certain depth, so that the first corner block 110 is firmly fastened at the corner of the target object 300 through the corner groove 111.

By arranging the corner groove 111, the first corner block 110 can be fastened at the corner of the target object 300 more stably, so that the stability of the target object 300 is improved; the right angle shaped corner groove 111 is applicable to corners of the target object 300 package of various sizes, improving the applicability of the first corner block 110.

In one possible embodiment of the present utility model, as shown in fig. 10, the packaged magic block 100 further includes interchange avoidance grooves 112 in communication with the corner grooves 111, and the interchange avoidance grooves 112 include at least two.

Specifically, the side of the first corner block 110 near the target object 300 is provided with at least two interchange avoidance grooves 112 in addition to the corner groove 111. At least two interchange avoiding grooves 112 are communicated with the corner groove 111 and are arranged perpendicular to each other. In one embodiment, as shown in fig. 10, two interchange avoidance grooves 112 are disposed on a surface of the first corner block 110, which is close to the target object 300, and the two interchange avoidance grooves 112 are perpendicular to each other. The corners of the two exchange avoidance grooves 112 are arc-shaped, and the cross sections of the two exchange avoidance grooves 112 are L-shaped.

In the actual packaging process, some target objects 300 may have parts such as handles disposed at the corners, and when the first corner block 110 is fastened at the corners of the target objects 300, the parts may affect the stable fastening of the first corner block 110, so that protection of the target objects 300 cannot be achieved. The arrangement of the avoiding groove 112 can accommodate parts such as a handle arranged at the corner of the target object 300, so that the first corner block 110 is more stably fastened at the corner of the target object 300.

By exchanging the arrangement of the avoiding groove 112, parts at the corners of the target object 300 can be accommodated, so that the first corner block 110 is more firmly fastened at the corners of the target object 300, and the use reliability of the first corner block 110 is improved; the corners of the two exchanging avoidance grooves 112 are designed to be arc-shaped, so that the cross section of the whole exchanging avoidance groove 112 is L-shaped, and when the exchanging avoidance groove 112 accommodates parts such as a handle at the corner of the target object 300, the parts such as the handle are not easy to collide and damage, and the first corner block 110 can be better fastened at the corner of the target object 300.

It should be noted that, when the production materials of the first corner block 110 are selected differently, such as EPE, EPS, etc., different slotting forms may be selected according to the materials. In another embodiment, the cross sections of the two interchangeable relief grooves 112 may also be straight, as shown in FIG. 11. At this time, the corner of the interchange escape groove 112 is at a right angle. However, in either form of the interchange escape groove 112, the first corner block 110 can be better fastened to the corner of the target object 300 while accommodating the components at the corner of the target object 300 and preventing the components from being knocked.

As shown in fig. 10, for example, the first corner block 110 is further provided with stress conversion grooves 113, and the stress conversion grooves 113 are respectively concavely formed on two adjacent sidewalls of the corner groove 111 and are all communicated with the corner groove 111.

Specifically, the first corner block 110 is further provided with a stress conversion slot 113 on a surface close to the target object 300. The stress conversion grooves 113 are concavely formed on two adjacent side walls of the corner groove 111, and are respectively perpendicular to and communicated with the corner groove 111. When the first corner block 110 receives a force, the force is more dispersed and uniform.

Through the arrangement of the stress conversion groove 113, when the first corner block 110 is fastened at the corner of the target object 300, the stress born by the first corner block 110 is dispersed through the stress conversion groove 113, so that the stress is more dispersed and uniform, and the reliability and stability of the use of the first corner block 110 are improved.

It should be noted that, if materials such as EPE and EPS are selected, different slotting forms can be selected according to different materials. In another embodiment, the two stress conversion grooves 113 provided on the first corner block 110 may be omitted, so that the stress conversion grooves 113 are vertical to the corner groove 111, and by changing the shape of the stress conversion grooves 113, the stress can be dispersed, so that the stability and reliability of the first corner block 110 in use are further improved; at the same time, the design can also enable the first corner block 110 to be produced more conveniently and efficiently.

As shown in fig. 7 and 12, the packaged magic block 100 further includes a socket board 140 and a socket 130 inserted on the socket board 140, where the socket board 140 is used to place the target object 300, and the socket 130 cooperates with the first corner block 110 corresponding thereto to limit the target object 300.

Specifically, the packaged magic block 100 further includes a plug seat plate 140 and a plug 130, where the plug 130 can be plugged onto the plug seat plate 140. As shown in fig. 7, when the shape of the target object 300 is low and narrow, it cannot be guaranteed that the first corner block 110 can completely fasten the corners of the target object 300, at this time, the target object 300 may be placed on the socket board 140, one pair of opposite corners of the target object 300 is fastened to the first corner block 110, and the other pair of opposite corners is limited and protected by the interposed socket 130.

The socket board 140 may be cut by using a standard thickness board according to the specific form of the target object 300, so that the manufacturing cost is low, and the socket board 140 and the socket 130 may be flexibly cut according to the specific form of the target object 300, thereby improving the applicability of the socket board 140 and the socket 130.

Through the arrangement of the socket plate 140 and the socket 130, the packaged magic block 100 can provide good protection and protection effects for the lower and narrower target object 300, and the reliability of the use of the packaged magic block 100 is improved. The arrangement of the socket plate 140 can be flexibly changed with the specific size of the target object 300, improving the flexibility and applicability of the packaged magic block 100.

As shown in fig. 12, for example, the insert 130 is provided with a first boss 131 in a protruding manner, and the insert seat plate 140 is provided with a first groove 141 correspondingly, and the first boss 131 is adapted to the first groove 141, so that the insert 130 is inserted into the insert seat plate 140.

Specifically, the insert block 130 is provided with a first boss 131, and the first boss 131 is disposed at a corner of the insert block 130; correspondingly, the socket board 140 is also provided with a first groove 141, and the first groove 141 is disposed at the edge of the socket 130. And the first boss 131 is adapted to the shape of the first groove 141, so that the socket 130 can be inserted into the socket plate 140.

Through the setting of first boss 131, can make insert 130 insert on the insert 130 base steadily, and then it is spacing to target object 300 steadily, prevent that target object 300 from taking place protection and the safety effect that the offset brought in the transportation, improved the stability that this packing magic piece 100 used.

In an implementation manner of the present utility model, as shown in fig. 1 and 2, the first corner block 110 is further provided with a second groove 114, the first reinforcing insert 120 is provided with a second boss 121, and the second groove 114 and the second boss 121 are adapted to insert the first reinforcing insert 120 into the first corner block 110.

Specifically, the first corner block 110 is further provided with a second groove 114 on a surface facing away from the corner groove 111, and correspondingly, the first reinforcing insert block 120 is provided with a second boss 121 in a protruding manner, and the second boss 121 is adapted to the second groove 114 in size, so that the first reinforcing insert block 120 can be stably inserted into a corner of the first corner block 110.

Through setting up the second recess 114 on first corner block 110, set up the second boss 121 on first enhancement inserted block 120 simultaneously, can make first enhancement inserted block 120 and first corner block 110 be connected into an integral structure steadily through the interpolation of second boss 121 and second recess 114, and then increase the buffer thickness of first corner block 110 to improve reliability and stability of first corner block 110.

In another embodiment of the present utility model, as shown in fig. 3 and 4, a third groove 122 is formed on a surface of the first reinforcing insert 120 adjacent to the first corner block 110, and the shape of the third groove 122 is adapted to the corner of the first corner block 110, so as to clamp the first reinforcing insert on the corner of the first corner block 110.

Specifically, the first reinforcing insert 120 may be connected to a corner of the first corner block 110 in a clamping manner. The surface of the first reinforcing insert 120, which is close to the first corner block 110, is provided with a third groove 122, and the third groove 122 is in a right angle shape and is matched with the corner of the first corner block 110, so that the first reinforcing insert 120 can be clamped on the corner of the first corner block 110 through the third groove 122.

By means of clamping the first reinforcing insert 120 at the corner of the first corner block 110, the first reinforcing insert 120 can be stably connected with the first corner block 110 into an integral structure, so that the buffer thickness of the first corner block 110 is increased, and the reliability and stability of the first corner block 110 are improved; meanwhile, the third grooves 122 are formed in the first reinforcing insert 120, so that the production cost can be saved, and the production efficiency of the first reinforcing insert 120 can be further improved.

For example, as shown in fig. 1, the sides of the first corner block 110 away from the target object 300 are each provided with a stress groove 115.

Specifically, the two sides of the first corner block 110 away from the target object 300 are respectively provided with a stress groove 115. Through the arrangement of the stress groove 115, the stress of the first corner block 110 can be more dispersed and uniform when the first corner block 110 is buckled at the corner of the target object 300, and the stability and the reliability of the first corner block 110 are further improved. In one embodiment, as shown in fig. 1, the stress groove 115 is rectangular, and when the production materials of the first corner block 110 are selected differently, such as EPE, EPS, etc., different stress groove shapes, such as circular grooves, etc., can be selected according to the different materials, so long as the stress of the first corner block 110 can be more dispersed and uniform.

In another aspect of the embodiment of the present utility model, as shown in fig. 8, there is provided a cushion package 200 including the above-described package magic block 100 and at least one cushion plate 210, the cushion plate 210 being for being placed on one side of a target object 300.

Specifically, the present utility model also provides a cushioning package 200, the cushioning package 200 including a package magic block 100 and a cushioning plate 210, wherein the cushioning plate 210 has at least one. When facing different form sizes of the target object 300, the buffer plate 210 can be placed on one side of the target object 300, and the buffer performance of the target object 300 can be further improved in cooperation with the packing magic block 100.

As shown in fig. 8, the target object 300 is an ultra-low bin target object 300. When the height of the target object 300 is ultra-low, the height can only meet the requirement that the first corner block 110 is adopted on one side of the target object 300 for clamping and buffering protection; however, such packaging still does not provide adequate cushioning. At this time, a buffer plate 210 may be placed above the target object 300, where the buffer plate 210 may be cut out from a standard thickness plate according to the specific form and size of the target object 300, so as to meet the requirement of buffering and improve the buffering protection capability of the target object 300.

By arranging the buffer plate 210, the target object 300 can be obtained by cutting a standard thickness plate according to the specific form and size of the target object 300, and the buffer plate has low cost and certain adaptability and flexibility. The arrangement of the buffer package 200 can solve the problem of the buffer package 200 scheme of the target object 300 with different form sizes through the common cooperation of the package magic block 100 and the buffer plate 210, and has more flexibility and reliability. The specific structure and advantages of the packaged magic block 100 are described in detail above, and will not be described in detail herein.

The application scheme of the package magic block 100 and the buffer package 200 of the utility model is as follows:

as shown in fig. 5, when the morphological size of the target object 300 is a normal size, the first corner block 110 may be disposed at four corners of the lower side of the target object 300, and the second corner block may be disposed at four corners of the upper side of the target object 300. Buffer protection of the target object 300 is achieved by eight corner blocks.

As shown in fig. 6, when the form size of the target object 300 is high, the first corner block 110 may be disposed at four corners of the lower side of the target object 300, and the second corner block may be disposed at four corners of the upper side of the target object 300. Buffer protection of the target object 300 is achieved by eight corner blocks.

As shown in fig. 8, when the form size of the target object 300 is ultra-low in height, the buffer protection of the target object 300 can be achieved by providing the first corner block 110 at four corners of the lower side of the target object 300 and providing the buffer plate 210 at the upper side of the target object 300.

As shown in fig. 9, when the form size of the target object 300 is narrow, the first corner block 110 may be disposed at four corners of the lower side of the target object 300, and the second corner block may be disposed at four corners of the upper side of the target object 300. Buffer protection of the target object 300 is achieved by eight corner blocks.

As shown in fig. 7, when the target object 300 has a narrow shape and size and a low height, the insert seat plate 140 can be disposed under the target object 300 by inserting the insert 130 at a diagonal position on the insert seat plate 140 to limit the position, and inserting a pair of first insert 130 at another pair of diagonal positions of the target object 300, so that buffer protection of the target object 300 can be realized by one insert seat plate 140, two insert 130, and two first corner blocks 110.

As shown in fig. 1 and 3, when the target object 300 is overweight, the buffer protection of the target object 300 can be achieved by arranging the first corner blocks 110 at four corners of the lower side of the target object 300, arranging the second corner blocks at four corners of the upper side of the target object 300, and inserting the first reinforcing insert blocks 120 and/or the second reinforcing insert blocks 130 on the first corner blocks 110 and/or the second corner blocks; if sufficient buffer protection cannot be achieved, a buffer plate 210 may be added to the side of the target object 300, so as to further enhance buffer protection of the target object 300.

The above description is only an example of the present utility model and is not intended to limit the scope of the present utility model, and various modifications and variations will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. A packaged magic block comprising at least two first corner blocks and at least two first reinforcing inserts;

the target object is provided with a first surface, and the first surface is the upper surface or the lower surface of the target object; the at least two first corner blocks are buckled on the first surface and are positioned at two opposite corners of the first surface; the first corner block is provided with a second surface, the second surface faces away from the target object and is parallel to the first surface, and the at least two first reinforcing inserts are correspondingly inserted into the second surfaces of the at least two first corner blocks.

2. The packaged magic block according to claim 1, characterized in that the first corner block is provided with a corner groove, through which the first corner block is fastened to a corner of the target object.

3. A packaged magic block according to claim 2, characterized in that it further comprises interchange relief grooves in communication with the angular grooves, said interchange relief grooves comprising at least 2.

4. The packaged magic block of claim 2, wherein the first corner block is further provided with a stress conversion slot recessed in an adjacent side wall of the corner slot and in communication with the corner slot.

5. The packaged magic block of claim 1, further comprising a plug seat plate for placing the target object and a plug inserted on the plug seat plate, the plug cooperating with the first corner block to limit the target object.

6. The packaged magic block according to claim 5, wherein the insert block has a first boss protruding therefrom, and the insert block seat plate has a first groove corresponding thereto, the first boss and the first groove being adapted for inserting the insert block onto the insert block seat plate.

7. The packaged magic block of claim 1, characterized in that the first corner block is further provided with a second groove, the first reinforcing insert is provided with a second boss, and the second groove is adapted to the second boss, so as to insert the first reinforcing insert onto the first corner block.

8. The packaged magic block according to claim 1, characterized in that a third groove is provided on a side of the first reinforcing insert close to the first corner block, and the shape of the third groove is adapted to the corner of the first corner block, so as to clamp the first reinforcing insert on the corner of the first corner block.

9. The packaged magic block of claim 1, wherein the sides of the first corner block that are remote from the target object are each provided with a force-receiving slot.

10. A cushioning package comprising a packaged magic block according to any of the preceding claims 1 to 9 and at least one cushioning plate for placement on one side of the target object.