Inner Packaging Structure, Packaging Box and Packaging Method for Network Distribution Frame

Abstract

The present invention discloses an inner packaging structure for a network distribution frame, used to package a distribution frame body and a bracket, including an isolated protection board. A packaging box for a network distribution frame further includes a cover body and a box body with an open top, and the inner packaging structure is located in the box body. A packaging method for a network distribution frame includes the following steps: placing the distribution frame body and the bracket in the box body, and separating the distribution frame body from the bracket by the isolated protection board; and limiting the distribution frame body and the bracket to complete packaging by using fastening of a top cover of the cover body and the box body. The present invention ensures no abrasion in the transportation process while realizing deplasticization packaging of products, and saves logistics costs for enterprises and customers.

Description

TECHNICAL FIELD

The present invention relates to the technical field of network distribution frames, in particular to an inner packaging structure, a packaging box and a packaging method for a network distribution frame.

BACKGROUND

Distribution frames are used for terminal user lines or relay lines, and can be deployed to connect them to devices. Distribution frames are the most components in a management subsystem, and are hubs to realize a cross connection of two subsystems of a vertical trunk and horizontal wiring. Distribution frames are generally mounted on cabinets or walls. By mounting accessories, distribution frames can fully meet requirements of UTP, STP, coaxial cables, optical fibers and audio and video. A distribution frame includes a distribution frame body and a bracket detachable with the distribution frame body, and in the process of market circulation of a network distribution frame, the bracket is used for organizing cables at a rear end of the distribution frame, so that wiring of the cables at the rear end is more regular and artistic, which facilitates the maintenance of network devices and cables.

Two parts, namely the distribution frame body and the bracket are generally stored in the same packaging, and when in use, the two are combined to form a complete network distribution frame. Even, in order to meet more usage requirements, some network distribution frame packaging further needs to accommodate a plurality of network modules at the same time. During packaging of an existing distribution frame, a PE bag or a buffer foam bag and the like need to be used to package parts respectively, and then the parts are placed in a packaging box to be packaged. This packaging manner results in that the parts are probe to mutual friction and collision in the transportation process, surfaces of the parts are prone to being abraded, and in today's high environmental friendliness requirements, the deplasticization of products has become more and more urgent, and many goods have begun to be packaged with paper bags instead of plastic PE bags, making packaging costs of the products higher than the original. Meanwhile, in order to transport network modules adaptive to the products together, volumes of packaging boxes adapted at present need to be increased, which results in an increase in logistics costs for enterprises and customers.

Therefore, a packaging box and a packaging method for a network distribution frame need to be provided to solve the above problems.

SUMMARY

In order to overcome the above defects, an objective of the present invention is to provide a packaging box and a packaging method for a network distribution frame, no abrasion in the transportation process is ensured while deplasticization packaging of products is realized, the volume of similar product packaging boxes on the market is decreased by nearly 50%, and therefore logistics costs for enterprises and customers are saved.

In order to achieve the above objective, the technical solution adapted by the present invention is: an inner packaging structure for a network distribution frame is used to package a distribution frame body and a bracket, characterized by including an isolated protection board, wherein the isolated protection board can divide an internal space of a packaging box into at least two product placing chambers, and the isolated protection board can mutually abut against at least part of areas of at least one of the distribution frame body and the bracket.

A packaging box for a network distribution frame includes the inner packaging structure for the network distribution frame, and further includes a cover body and a box body with an open top, and the inner packaging structure is located in the box body.

A packaging box for a network distribution frame includes a cover body and a box body with an open top, an isolated protection board is arranged on one side of the top of the box body in an outward extending mode, and the isolated protection board can be folded towards an interior of the box body, and divide the interior of the box body into at least two product placing chambers. The interior of the entire box body can be divided into the product placing chambers suitable for different products to be placed through the isolated protection board, the internal space of the box body is reasonably allocated, the entire volume of the packaging box is saved, meanwhile, products needing to be transported are further accommodated sufficiently, and logistics costs for enterprises and customers can be effectively saved.

The isolated protection board separates the products placed in the box body from one another, can play a corresponding role in protecting the products placed in the product placing chambers, and can effectively avoid damage to the products caused by mutual abrasion and collision among the products in the transportation process, PE bags or paper bags are also not needed for packaging in the product packaging process, deplasticization packaging of the products is realized, and packaging of the products is more environmentally friendly.

Further, the isolated protection board includes a first crease and a second crease, the isolated protection board is able to swing back and forth along the first crease connected with the box body, and the isolated protection board is divided into a first bendable bending board and a second bendable bending board through the second crease. The isolated protection board is folded both along the first crease and the second crease when bent, so that the divided first bendable bending board and second bendable bending board after folding meet size requirements of product placing, meanwhile, convenience is also provided for working personnel to package products subsequently, and then the packaging efficiency of the products is improved.

Further, the first bending board and the second bending board are respectively bent along the first crease and the second crease to achieve that inner sides of the first bending board and the second bending board and the box body form one of product placing chambers for allowing a distribution frame body to be placed, and an outer side of the second bending board and the box body form the other product placing chamber for allowing a bracket to be placed. The isolated protection board divides the box body into two product placing chambers, and the distribution frame body and the bracket are respectively placed in the two different product placing chambers, that is, the interior of the box body is divided into the spaces just right for the distribution frame body and the bracket to be placed through the isolated protection board, thereby realizing reasonable allocation of the internal space of the box body, then effectively saving the entire volume of the packaging box, and achieving higher cost performance compared with a packaging box for a distribution frame in the prior art.

Further, one side of the second bending board away from the first bending board is connected with a third bending board, a straight line where a length direction of the third bending board is located is parallel to a straight line where a length direction of the box body is located, the third bending board is able to be bent upwards along a third crease at a connection of the third bending board and the second bending board, so that one side of the third bending board facing away from the cover body and the second bending board as well as the first bending board enclose a product placing chamber for allowing network module connectors to be placed, the other side of the third banding board and the box body form another product placing chamber for allowing the distribution frame body to be placed, and the first bending board and the second bending board are able to be respectively bent along the first crease and the second crease to achieve that inner sides of the first bending board and the second bending board and the box body form yet another product placing chamber for allowing the bracket to be placed.

That is, by arranging the first bending board, the second bending board and the third bending board, the interior of the box body is divided into the three product placing chambers capable of placing the distribution frame body, the bracket and the network module connectors, the internal space of the box body is fully used, the first bending board, the second bending board and the third bending board all may be matched with the box body to play a role in protecting the three different products placed in the box body, PE bags or paper bags are not needed for packaging surfaces of the products, deplasticization packaging of the products is realized, and packaging of the products is more environmentally friendly; and meanwhile, compared with that only the distribution frame body and the bracket are packaged in the box body, this embodiment also improves the transportation efficiency of the products, reduces the logistics costs of enterprises and customers, and achieves cost reduction and efficiency increase.

Further, the third bending board includes a connecting portion and a positioning portion which are oppositely arranged, the connecting portion is connected with the second bending board, a plurality of connector positioning grooves are formed at intervals between the connecting portion and the positioning portion along the length direction of the third bending board, a module upper cover board with a single side connected with the third bending board is arranged in each connector positioning groove, connections of the connecting portion as well as the positioning portion respectively with the connector positioning grooves are a fourth crease and a fifth crease, and when the connector positioning grooves are bent along the fourth crease till the positioning portion abuts against the first bending board, the connecting portion, the connector positioning grooves, the first bending board and the second bending board form a restricted space for allowing the network module connectors to be placed.

After the third bending board is bent, the connector positioning grooves may limit the network module connectors placed in the product placing chambers and ensure that in the subsequent transportation process, the network module connectors cannot move in the box body, the plurality of network module connectors do not collide with one another, and the transportation quality is ensured.

Further, clamping sheets are respectively arranged at two ends in a length direction of the positioning portion, clamping grooves matched with the clamping sheets are respectively formed in two sides in a width direction in the box body, and when the connector positioning grooves are bent along the fourth crease to achieve that the positioning portion abuts against the first bending board, the clamping sheets are able to be clamped in the corresponding clamping grooves. After the connector positioning grooves are bent, by clamping the clamping sheets in the clamping grooves, it may be ensured that in the process of placing the network module connectors and in the transportation process, the connector positioning grooves cannot be reset, and may play a role in limiting the network module connectors placed in the connector positioning grooves continuously, ensuring the stability in the placing and transportation process.

Further, the second bending board is bent along the second crease to be parallel to a bottom board of the box body, the connecting portion is bent upwards along the third crease to be parallel to a side of the box body, and the connector positioning grooves are bent along the fourth crease in a direction away from the cover body to be parallel to the second bending board. The bent second bending board, the connecting portion, the connector positioning grooves and the first bending board form the plurality of square product placing chambers for the network module connectors to be placed, and after being bent, one side of the positioning portion away from the cover body abuts against the first bending board. The plurality of network module connectors may be stably placed in the box body, the space in the box body is fully used, maximization of a space use rate of the packaging box may be achieved at the equal volume, and transportation costs of enterprises and customers are effectively saved.

Further, the product placing chamber for placing the bracket includes a main board placing chamber and a support placing chamber which communicate with each other, a main board body on the bracket is horizontally placed in the support placing chamber, and divides the main board placing chamber into a first clearance space and a second clearance space, and at least one of the first clearance space and the second clearance space is able to be used for allowing an accessory bag to be accommodated and placed. The main board placing chamber is a product placing space formed by the second bending board and a bottom of the box body, the first clearance space is formed by a lower surface of the second bending board and an upper surface of the main board body, and the second clearance space is formed by a lower surface of the main board body and an upper surface of the bottom board of the box body.

A packaging method for a network distribution frame is provided, a box body includes a bottom board and a first side board and a second side board which are oppositely arranged on two sides of a length direction of the bottom board, a second clamping groove is horizontally formed in a bottom of the first side board, the cover body includes a foldable top cover and a foldable side cover, and a second clamping bracket matched with the second clamping groove is arranged on the side cover. The packaging method includes the following steps:

• • S1: placing a distribution frame body and a bracket in the box body, and separating the distribution frame body from the bracket by using an isolated protection board, wherein the isolated protection board includes a first bending board and a second bending board, and the isolated protection board is able to mutually abut against at least part of areas of at least one of the distribution frame body and the bracket; and
  • S2: limiting the distribution frame body and the bracket to complete packaging by using fastening of a top cover of a cover body and the box body.

Further, in step 1, the isolated protection board includes the first bending board and the second bending board, the second bending board is located between the distribution frame body and the bracket, the distribution frame body is isolated and limited after the isolated protection board is bent, and the bracket is able to respectively abut against the isolated protection board and inner side faces of the box body.

Further, a to-be-packaged part further includes network module connectors.

The isolated protection board further includes a third bending board connected with the second bending board, a support body of the bracket leans against one inner side wall of the box body by using the first bending board, and the network module connectors are clamped by using a clamping groove formed by the first bending board, the second bending board and the third bending board; and the distribution frame body is clamped between the third bending board and one inner side wall of the box body.

Beneficial effects of the present invention are as follows:

• • in the present invention, the cover body, the box body and the isolated protection board are matched with one another, the interior of the entire box body may be divided into the product placing chambers suitable for the different products to be placed through the isolated protection board, the internal space of the box body is reasonably allocated, the entire volume of the packaging box is saved, meanwhile, products needing to be transported are further accommodated sufficiently, and logistics costs for enterprises and customers can be effectively saved. Meanwhile, the isolated protection board separates the products placed in the box body from one another, can play a corresponding role in protecting the products placed in the product placing chambers, and can effectively avoid damage to the products caused by mutual abrasion and collision among the products in the transportation process, PE bags or paper bags are not needed for packaging in the product packaging process, deplasticization packaging of the products is realized, and packaging of the products is more environmentally friendly.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an axial side diagram of an overall structure of a packaging box in an open state of an embodiment of the present invention;

FIG. 2 is an axial side diagram of an overall structure of a packaging box in an open state of another embodiment of the present invention;

FIG. 3 is an axial side diagram of an overall structure of a packaging box in a closed state of an embodiment of the present invention;

FIG. 4 is a schematic diagram of a packaging box in a box base state of an embodiment of the present invention;

FIG. 5 is a schematic section diagram of an overall structure of an embodiment of the present invention;

FIG. 6 is a schematic section diagram of an overall structure of another embodiment of the present invention;

FIG. 7 is an axial side diagram of an overall structure of an isolated protection board of an embodiment of the present invention;

FIG. 8 is an axial side diagram of a partial structure of a packaging box for mounting an accessory bag of an embodiment of the present invention;

FIG. 9 is an axial side diagram of a partial structure of another packaging box for mounting an accessory bag of an embodiment of the present invention; and

FIG. 10 is a schematic diagram of an overall structure of an accessory bag of an embodiment of the present invention.

In figures: 1, Cover body; 11, Top cover; 12, Side cover; 13, Second clamping bracket; 14, Third inserting bolt; 2, Box body; 21, Bottom board; 22, First side board; 23, Second side board; 24, First end board; 25, Second end board; 26, First inserting bolt; 27, Second inserting bolt; 28, First clamping bracket; 29, First clamping groove; 230, Second clamping groove; 231, Clamping groove; 3, Isolated protection board; 31, First crease; 32, Second crease; 33, First bending board; 34, Second bending board; 35, Third bending board; 36, Third crease; 37, Connector positioning groove; 38, Isolated gate; 39, Module upper cover board; 340, Fourth crease; 341, Fifth crease; 342, Clamping sheet; 343, Positioning portion; 344, Connecting portion; 4, Distribution frame body; 5, Bracket; 51, Main board body; 52, Support body; 6, Product placing chamber; 7, Network module connector; 8, Sixth crease; 9, Seventh crease; 10, Eighth crease; 15, Ninth crease; 16, Tenth crease; 17, First clearance space; 18, Second clearance space; and 19, Accessory bag.

DETAILED DESCRIPTION

Preferred embodiments of the present invention are explained in detail in combination with accompanying drawings below, so that advantages and features of the present invention are more easily understood by those skilled in the art, and thus, the scope of protection of the present invention is defined more clearly.

Referring to FIG. 1 to FIG. 10, an inner packaging structure for a network distribution frame in this embodiment is used to package a distribution frame body and a bracket, and includes an isolated protection board, the isolated protection board is able to divide an internal space of a packaging box into at least two product placing chambers, and the isolated protection board is able to mutually abut against at least part of areas of at least one of the distribution frame body and the bracket.

A packaging box for a network distribution frame includes the inner packaging structure for the network distribution frame, and further includes a cover body and a box body with an open top, and the inner packaging structure is located in the box body. The cover body 1 and the box body 2 are both folded through a box base, the box body 2 is internally used to place products needing to be transported, such as the distribution frame body 4 and the bracket 5, and the cover body 1 is used to cover the top of the box body 2, so as to completely package and fix the products (the distribution frame body 4 and the bracket 5) into the box body 2.

An isolated protection board 3 is arranged on one side of the top of the box body 2 in an outward extending mode, and the isolated protection board 3 can be folded towards an interior of the box body 2, and divide the interior of the box body 2 into at least two product placing chambers 6. The interior of the entire box body 2 can be divided into the product placing chambers 6 suitable for different products to be placed through the isolated protection board 3, the internal space of the box body 2 is reasonably allocated, the entire volume of the packaging box is saved, meanwhile, products needing to be transported are further accommodated sufficiently, and logistics costs for enterprises and customers can be effectively saved.

Meanwhile, the isolated protection board 3 separates the products placed into the box body 2 from one another, can play a corresponding role in protecting the products placed in the product placing chambers 6, and can effectively avoid damage to the products caused by mutual abrasion and collision among the products in the transportation process, PE bags or paper bags are not needed for packaging in the product packaging process, deplasticization packaging of the products is realized, and packaging of the products is more environmentally friendly.

It needs to be noted that one of two sides of the top of the box body 2 in a length direction is used to arrange the isolated protection board 3, the other side is used to connect the cover body 1, and a sixth crease 8 is formed at a connection of the cover body 1 and the box body 2.

The isolated protection board 3 includes a first crease 31 and a second crease 32, the isolated protection board 3 is able to swing back and forth along the first crease 31 connected with the box body 2, and the isolated protection board 3 is divided into a first bendable bending board 33 and a second bendable bending board 34 through the second crease 32. The isolated protection board 3 is folded both along the first crease 31 and the second crease 32 when bent, so that the divided first bendable bending board 33 and second bendable bending board 34 after folding meet size requirements of product placing, meanwhile, convenience is also provided for working personnel to package products subsequently, and then the packaging efficiency of the products is improved.

In some other embodiments, the isolated protection board 3 and the box body 2 are split parts, the isolated protection board 3 is sequentially provided with the first crease 31 and the second crease 32 in a width direction, and the isolated protection board 3 is able to be in lap joint with the box body 2 along the first crease 31, and is divided into the first bendable bending board and the second bendable bending board through the second crease 32. By arranging the isolated protection board 3 and the box body 2 in a split mode, folding may be convenient for a user, the packaging efficiency of the products is improved, and meanwhile, the user may also replace isolated protection boards with different folding manners according to the structure of products needing to be transported, so that the applicability of the packaging box is higher.

Referring to FIG. 5, the first bending board 33 and the second bending board 34 are respectively bent along the first crease 31 and the second crease 32 to achieve that inner sides of the first bending board and the second bending board and the box body 2 form one of product placing chambers 6 for allowing a distribution frame body 4 to be placed, and an outer side of the second bending board 34 and the box body 2 form the other product placing chamber 6 for allowing a bracket 5 to be placed. The isolated protection board 3 divides the box body 2 into two product placing chambers 6, and the distribution frame body 4 and the bracket 5 are respectively placed in the two different product placing chambers 6, that is, the interior of the box body 2 is divided into the spaces just right for the distribution frame body 4 and the bracket 5 to be placed through the isolated protection board 3, thereby realizing reasonable allocation of the internal space of the box body 2, then effectively saving the entire volume of the packaging box, and achieving higher cost performance compared with a packaging box for a distribution frame in the prior art. It needs to be noted that the first bending board 33 may protect a top of the placed distribution frame body 4.

Meanwhile, the two product placing chambers 6 may play a good role in protecting the distribution frame body 4 and the bracket 5. The cover body 1 may cover an upper side face of the first bending board 33 after being covered, a second clamping bracket 13 is arranged on the cover body 1, a second clamping groove 230 corresponding to the second clamping bracket 13 is formed in the box body 2, after the cover body 1 is covered, the second clamping bracket may be clamped in the second clamping groove 230, so as to effectively prevent a bottom of the bent second bending board 34 from skewing in a direction away from the distribution frame body 4 when the upper open position of the box body 2 is covered, and it is further ensured that the distribution frame body 4 and the bracket 5 cannot in direct contact with each other. In some implementations, the second clamping groove 230 is formed close to an edge of a lower bottom face of the folded box body 2.

Referring to FIG. 5, in some embodiments, the first bending board 33 is bent in a direction of the first crease 31 towards the interior of the box body 2 to be parallel to a bottom board 21 of the box body 2, the second bending board 34 is bent in a direction of the second crease 32 towards the interior of the box body 2 to be perpendicular to the bottom board 21, that is, after being bent, the first bending board 33 and the second bending board 34 are arranged in an L shape, inner sides of the first bending board 33 and the second bending board 34 and the box body 2 form an oblong product placing chamber 6 matched with the shape of the distribution frame body 4, and the outer side of the second bending board 34 and the box body 2 form the other oblong product placing chamber 6 for the folded bracket 5 to be placed.

In some implementations, the narrowest side of the distribution frame body 4 is arranged in the width direction of the box body 2, therefore, the set width size of the box body 2 may be furthest reduced, and at this time, two sides in the length direction of the bracket 5 respectively lean against the second bending board 34 and a second side board 23 connected with the cover body 1 on the box body 2, so that the distribution frame body 4 and the bracket 5 are more stable in the transportation process.

In some implementations, two support bodies 52 on the bracket 5 adopt a foldable manner with a main board body 51, and therefore, width requirements of the box body 2 may be reduced. Certainly, the bracket 5 may also be arranged in an integrated mode as needed.

It needs to be noted that in some embodiments, in the packaged box body 2, a lower edge of the second bending board 34 abuts against a bottom face of the distribution frame body 4. It is further ensured that the distribution frame body 4 is completely separated from the bracket 5, in the transportation process, even though the distribution frame body 4 or the bracket 5 inclines, it may also be ensured that the two are isolated by the isolated protection board 3, and a phenomenon of friction and abrasion cannot generate.

Embodiment 2

In other possible implementations, referring to FIG. 2, a to-be-packaged part further includes at least one network module connector 7, the isolated protection board is able to divide the internal space of the packaging box into three product placing chambers, and the isolated protection board is able to mutually abut against at least part of areas of at least two of the distribution frame body, the bracket and the network module connectors.

One side of the second bending board 34 away from the first bending board 33 is connected with a third bending board 35, a straight line where a length direction of the third bending board 35 is located is parallel to a straight line where a length direction of the box body 2 is located, the third bending board 35 may be bent towards one side away from the second bending board 34 along a third crease 36 at a connection of the third bending board 35 and the second bending board 34, so that the third bending board 35 is located in the packaged box body 2, one side of the third bending board 35 facing away from the cover body 1 as well as the second bending board 34 and the first bending board 33 enclose a product placing chamber 6 for at least one network module connector 7 to be placed, the other side of the third banding board 35 with the box body 2 forms another product placing chamber 6 for the distribution frame body 4 to be placed, and the first bending board 33 and the second bending board 34 may be respectively bent along the first crease 31 and the second crease 32 to achieve that inner sides of the first bending board and the second bending board and the box body 2 form yet another product placing chamber 6 for the bracket 5 to be placed.

That is, by arranging the first bending board 33, the second bending board 34 and the third bending board 35, the interior of the box body 2 is divided into the three product placing chambers 6 capable of placing the distribution frame body 4, the bracket 5 and the network module connectors 7, the internal space of the box body 2 is fully used, the first bending board 33, the second bending board 34 and the third bending board 35 all may be matched with the box body 2 to play a good role in protecting the three different products placed in the box body 2, PE bags or paper bags are not needed for packaging surfaces of the products, deplasticization packaging of the products is realized, and packaging of the products is more environmentally friendly; and meanwhile, compared with that only the distribution frame body 4 and the bracket 5 are packaged in the box body 2, this embodiment also improves the transportation efficiency of the products, reduces the logistics costs of enterprises and customers, and achieves cost reduction and efficiency increase.

Specifically, during bending, the first bending board 33 is bent towards a direction close to an upper bottom board 21 of the box body 2 along the first crease 31, the second bending board 34 is bent towards one side close to the cover body 1 along the second crease 32, and the third bending board 35 is bent towards a direction away from the upper bottom board 21 of the box body 2 along the third crease 36. After bending is completed, the second bending board 34 becomes a bottom bracket for the network module connectors 7 to be placed, and plays a role in supporting placing of the network module connectors 7, and the third bending board 35 and the first bending board 33 play a role in limiting moving of the network module connectors 7 in the width direction of the box body 2, which effectively positions the network module connectors 7 placed in the box body 2.

Meanwhile, the product placing chamber 6 formed between the inner sides of the bent first bending board 33 and second bending board 34 and the box body 2 may be used for the folded bracket 5 to be horizontally placed, the bracket 5 includes a support body 52 and a main board body 51, the bent bending board 33 and the box body 2 are bent to form a clearance, the clearance may position the support body 52 on the bracket 5, ensuring that the bracket 5 cannot move in the box body 2 in the width direction of the box body 2, that is, friction damage cannot be generated between the bracket 5 and the distribution frame body 4 in the transportation process. The product placing chamber 6 for the distribution frame body 4 to be placed is formed between the outer side of the third bending board 35 and the interior of the box body 2, it needs to be noted that the third bending board 35 right limits the distribution frame body 4 between the outer wall of the third bending board 35 and the side wall of the box body 2, a role is also played in limiting the distribution frame body 4, and it is ensured that in the transportation process, a phenomenon of position skewing and friction damage with the bracket 5 cannot be generated in the box body 2.

In addition, in order to facilitate the maintenance and replacement of accessories on the bracket and the distribution frame subsequently, a corresponding accessory bag 19 generally needs to be additionally matched, however, separate transportation of the accessory bag will cause extra addition of transportation costs, in order to solve the above problem, in the present application, referring to FIG. 6 and FIG. 8, the product placing chamber 6 for placing the bracket 5 includes a main board placing chamber and a support placing chamber which communicate with each other, the main board body 51 on the bracket 5 is horizontally placed in the main board placing chamber, and divides the main board placing chamber into a first clearance space and a second clearance space, and at least one of the first clearance space and the second clearance space may be used for the accessory bag to be accommodated and placed.

The accessory bag is horizontally placed in the box body in the length direction of the box body, specifically, the main board placing chamber is a product placing space formed by the second bending board 34 and the box body 2, the first clearance space 17 is formed between the lower surface of the second bending board 34 and an upper surface of the main board body 51, and the second clearance space 18 is formed between a lower surface of the main board body 51 and the upper surface of the bottom board of the box body 2.

As for different types of the bracket, when a distance between the main board body 51 placed in the main board placing chamber and the bottom of the box body 2 is small, that is, the space of the second clearance space is small, the relative first clearance space is large, at this time, the first clearance space is enough for the accessory bag to be horizontally placed therein, at the same time, since the space of the first clearance space is too large, a large clearance is reserved between the second bending board 34 and the main board body 51, placing of the accessory bag may effectively solve the phenomenon that the second bending board sinks, resulting in skew placing of the network module connectors on the second bending board caused by the above large clearance, the accessory bag plays a certain role in supporting the second bending board, and it is ensured that the network module connectors are stably placed in the box body.

When the distance between the main board body placed in the main board placing chamber and the bottom of the box body is large, that is, the space of the second clearance space is large, the relative first clearance space is small, namely, the clearance between the second bending board 34 and the upper surface of the main board body 51 is small, at this time, the second clearance space is enough for the accessory bag to be horizontally placed therein, and the small first clearance space may also avoid sinking of the second bending board.

It needs to be noted that sizes of the above first clearance space and second clearance space both mean sizes of them in a height direction.

It needs to be noted that the first bending board 33 is bent to the interior of the box body and forms the support placing chamber with the first side board of the box body for placing the support body, that is, the support placing chamber and the main board placing chamber may respectively limit the support body 52 and the main board body 51 on the bracket, then it is ensured that relative position skewing cannot be generated between the support body 52 and the main board body 51 with the box body in the transportation process, and the transportation effect is ensured; and meanwhile, the space in the box body is fully used, and the transportation cost is effectively reduced.

In some embodiments, a width of the second bending board 34 is larger than a width of the main board body on the bracket 5. Therefore, contact and friction possibilities of the bracket 5 and the distribution frame body 4 may be reduced.

After being packaged, a height of the first bending board 33 is smaller then a height of the box body 2, and thus, the main board body of the bracket 5 may be arranged at an area located below the second bending board 34.

Therefore, by ingeniously using the product placing chamber 6 formed by the first bending board 33, the second bending board 34 and the third bending board 35, limiting of the bracket 5 and position fixing of the distribution frame body 4 are simultaneously completed, so that three different parts in the box body 2 are properly placed, and moving or collision will not generate. The parts are protected and limited by using the own internal structure of the box body 2, plastic protective sleeves do not need to additionally sleeve each part, and therefore, requirements of deplasticization packaging are met; and this packaging manner farthest uses the internal space of the box body 2, so that occupied volumes of final finished product packaging are greatly reduced.

In conjunction with FIG. 4 again, the third bending board 35 includes a connecting portion 344 and a positioning portion 343 which are oppositely arranged, the connecting portion 344 is connected with the second bending board 34, a plurality of connector positioning grooves 37 are formed at intervals between the connecting portion 344 and the positioning portion 343 in a length direction of the third bending board 35, a module upper cover board 39 with a single side connected with the third bending board 35 and a module positioning board with a single side connected with the positioning portion 343 are both arranged in each connector positioning groove 37, connections of the connecting portion 344 as well as the positioning portion 343 respectively with the connector positioning grooves 37 are a fourth crease 340 and a fifth crease 341, and when the connector positioning grooves 37 are bent along the fourth crease 340 till the positioning portion 343 abuts against the first bending board 33, the connecting portion 344, the connector positioning grooves 37, the first bending board 33 and the second bending board 34 form a restricted space for allowing the network module connectors 7 to be placed.

The module positioning board and the module upper cover board are corresponding in position and do not interfere with each other, and the module positioning board is able to swing and be bent along a connection of the module positioning board with the positioning portion. Specifically, when in use, the module positioning board is bent towards interiors of the connector positioning grooves, so as to provide orientation for placing the network module connectors, and thus, the network module connectors are placed more smoothly.

If the module positioning board is not arranged, although it does not affect placing of the network module connectors, one sides of the connector positioning grooves close to the positioning portion will shield the network module connectors to some extent to cause unsmooth placing when the network module connectors are placed.

After the third bending board 35 is bent, the connector positioning grooves 37 may limit the network module connectors 7 placed in the product placing chamber 6, it is ensured that in the subsequent transportation process, the network module connectors 7 cannot move in the box body 2, and the plurality of network module connectors 7 cannot collide, ensuring the transportation quality.

The positioning portion 343 is bent along the fifth crease 341, so that the positioning portion 343 may abut against the first bending board 33 after the connector positioning grooves 37 are bent.

In some embodiments, one side of the module upper cover board 39 close to the connecting portion 344 is connected with the third bending board 35, a crease for the module upper cover board 39 to swing back and forth is also arranged on the module upper cover board 39, when the network module connectors 7 needs to be placed, the module upper cover board 39 is bent towards a direction close to the cover body 1, and after placing is completed, the module upper cover board 39 covers the network module connectors 7, so as to play a role in protecting the tops of the network module connectors 7.

In some embodiments, the connector positioning grooves 37 are formed in an array in the length direction of the third bending board 35, two network module connectors 7 may be horizontally placed in each connector positioning groove 37, the bent connector positioning grooves 37 may effectively limit moving of the network module connectors 7 in the length direction of the box body 2, and it is ensured that in the subsequent transportation process, the network module connectors 7 cannot roll in the box body 2, ensuring the transportation quality.

The two adjacent connector positioning grooves 37 are connected through an isolated gate 38, with bending of the connector positioning grooves 37 along the fourth crease 340, the corresponding isolated gate 38 also has the fourth crease 340 for facilitating bending, a certain clearance is reserved between two sides in the length direction of the module upper cover board 39 and the isolated gate 38, and it may be ensured that the isolated gate 38 cannot interfere with bending of the module upper cover board 39 when the module upper cover board 39 is bent towards a direction of the network module connectors 7, so that bending of the module upper cover board 39 is more convenient.

It needs to be noted that the length direction of the module upper cover board 39 is perpendicular to the length direction of the third bending board 35.

Clamping sheets 342 are respectively arranged at two ends in the length direction of the positioning portion 343, clamping grooves 231 matched with the clamping sheets 342 are respectively arranged in two sides in the width direction in the box body 2, and when the connector positioning grooves 37 are bent along the fourth crease 340 to achieve that the positioning portion 343 abuts against the first bending board 33, the clamping sheets 342 are able to be clamped in the corresponding clamping grooves 231. After the connector positioning grooves 37 are bent, by clamping the clamping sheets 342 in the clamping grooves 231, it may be ensured that in the transportation process, the connector positioning grooves 37 cannot be reset, and may play a role in limiting the network module connectors 7 placed in the connector positioning grooves continuously, ensuring the stability in the transportation process.

In some embodiments, after the positioning portion 343 is bent, one side of the positioning portion 343 away from the cover body 1 abuts against the first bending board 33, the clamping grooves 231 are vertically arranged, the clamping sheets 342 protrude out of the positioning portion 343, the vertically-arranged clamping grooves 231 may be convenient for working personnel for assembly, the clamping grooves 231 and the clamping sheets 342 are not limited in shape, and as long as the two are matched, the clamping sheets 342 may be clamped in the clamping grooves 231.

The second bending board 34 is bent along the second crease 32 to be parallel to the bottom board 21 of the box body 2, the connecting portion 344 is bent upwards along the third crease 36 to be parallel to the side of the box body 2, and the connector positioning grooves 37 are bent along the fourth crease 340 in a direction away from the cover body 1 to be parallel to the second bending board 34. The bent second bending board 34, the connecting portion 344, the connector positioning grooves 37 and the first bending board 33 form the plurality of square product placing chambers 6 for the network module connectors 7 to be placed, and after being bent, one side of the positioning portion 343 away from the cover body 1 abuts against the first bending board 33. The plurality of network module connectors 7 may be stably placed in the box body 2, the space in the box body 2 is fully used, maximization of a space use rate of the packaging box may be achieved at the equal volume, and transportation costs of enterprises and customers are effectively saved.

Embodiment 3

This embodiment is a packaging method for a network distribution frame. Packaging is performed by using a box body 2, the box body 2 includes a bottom board 21 and a first side board 22 and a second side board 23 which are oppositely arranged on two sides of a length direction of the bottom board 21, a clamping groove 230 is horizontally formed in a bottom of the first side board 22, a cover body 1 includes a foldable top cover 11 and a side cover 12, and the side cover 12 is provided with a clamping bracket 13 matched with the clamping groove 230. The packaging method includes the following steps:

• • S1: a distribution frame body 4 and a bracket are placed in the box body 2, the distribution frame body is separated from the bracket by using an isolated protection board, wherein the isolated protection board includes a first bending board and a second bending board, and the isolated protection board is able to mutually abut against at least part of areas of at least one of the distribution frame body and the bracket; and
  • S2: the distribution frame body and the bracket are limited to complete packaging by using fastening of a top cover of a cover body and the box body.

During specific packaging, box bases are sequentially bent according to creases, so that the box bases are formed into the integrated cover body 1 and the box body 2 with an open top; the distribution frame body 4 and the bracket 5 are placed in the box body 2, and the isolated protection board 3 connected with the box body 2 is bent along the crease towards an interior of the box body 2, so as to separate the distribution frame body 4 from the bracket 5; and when the first bending board 33 is bent, an included angle between one side of the first bending board towards the bottom board 21 and the first side board 22 of the box body 2 is less than or equal to 90 degrees.

The top cover 11 and the side cover 12 on the cover body 1 are sequentially bent, the top cover 11 on the cover body 1 is bent along a connection of the top cover 11 and the box body 2 to be parallel to the bottom board 21 of the box body 2, and the side cover 12 is bent along a connection of the side cover 12 and the top cover 11 to achieve that the second clamping bracket 13 on the side cover 12 is inserted into the second clamping groove 230 to complete packaging.

The cover body 1 and the box body 2 are of an integrated structure, during covering, the cover body 1 may completely cover the open top of the box body 2. Working personnel may conveniently and quickly bend the box bases into packaging boxes as needed, and the forming speed and subsequent packaging efficiency of the packaging boxes are improved.

In some embodiments, the structure of the box body 2 is that the top of the second side board 23 on the box body 2 is connected with the cover body 1 through a sixth crease 8, the box body 2 further includes a first end board 24 and a second end board 25 respectively extending from two ends of the first side board 22 and the second side board 23 and capable of being bent along an eighth crease 10, a first inserting bolt 26 and a second inserting bolt 27 capable of being bent along a ninth crease 15 are respectively arranged on upper and lower sides of the second end board 25, one end of the first inserting bolt 26 away from the second end board 25 is provided with a first clamping bracket 28, one end of the second inserting bolt 27 close to the second end board 25 is provided with a first clamping groove 29, a connection between the top cover 11 and the top of the second side board 23 is a sixth crease 8, a connection between the top cover 11 and the side cover 12 is a seventh crease 9, and third inserting bolts 14 capable of being bent along a tenth crease 16 are respectively arranged on two sides of the length direction of the side cover 12.

The box body 2 is folded and formed: the first side board 22 and the second side board 23 are bent by 90 degrees relative to the bottom board 21 to form a U-shaped structure, the second end board 25 is folded by 90 degrees towards a direction close to the second side board 23, the second inserting bolt 27 is also folded by 90 degrees along the crease towards a direction close to a center of the second end board 25 and placed on an upper surface of the bottom board 21 of the box body 2, then the first end board 24 on the first side board 22 is folded by 90 degrees towards a direction close to the second side board 23 to abut against an inner wall of the second end board 25, and finally, the first inserting bolt 26 is bent downwards along the ninth crease 15 until the first clamping bracket 28 is inserted into the first clamping groove 29, so as to be folded into the completed box body 2. It is ensured that the box body 2 cannot be loose in the using process, and the first end board 24 is packaged between the first inserting bolt 26 and the second end board 25 in the process.

During covering, the top cover 11 is overturned along the sixth crease 8 to cover the open top of the box body 2, the side cover 12 is bent along the seventh crease 9 to be parallel to the first side board 22 of the box body 2, at this time, the third inserting bolt 14 on the side cover 12 may be inserted between the first end board 24 and the second end board 25, and the second clamping bracket 13 is right inserted into the corresponding second clamping groove 230 to complete folding of the entire packaging empty box.

The cover body 1 and the isolated protection board 3 are respectively arranged on two opposite sides of the top of the box body 2, and are both arranged in the length direction of the box body 2.

In some embodiments, the distribution frame body 4 is placed in the box body 2 close to the first side board 22, the bracket 5 is placed close to the second side board 23, the isolated protection board 3 includes a first bending board 33 and a second bending board 34, the second bending board is located between the distribution frame body 4 and the bracket, the distribution frame body 4 is isolated and limited after the isolated protection board 3 is bent, and the bracket 5 is able to respectively abut against the isolated protection board and the inner side face of the box body.

Specifically, the packaging method includes the following steps:

• • the first bending board 33 is bent, and the first bending board 33 is bent along the first crease 31 towards the interior of the box body 2 to be parallel to the bottom board 21; and
  • the second bending board 34 is bent, the second bending board 34 is bent along the second crease 32 to be perpendicular to the bottom board 21, and the second bending board 34 separates the distribution frame body 4 from the bracket 5 in the box body 2.

In some other embodiments, the distribution frame body 4 is placed in the box body 2 close to the first side board 22, the bracket 5 is placed close to the second side board 23, and the network module connectors 7 are placed in the clamping groove formed by the first bending board 33, the second bending board 34 and the third bending board 35.

The isolated protection board 3 further includes the third bending board 35 connected with the second bending board 34, the first bending board 33 is used to lean the support body 52 of the bracket 5 against one inner side wall of the box body, and the clamping groove formed by the first bending board 33, the second bending board 34 and the third bending board 35 is used to clamp the network module connectors; and the distribution frame body 4 is clamped between the third bending board 35 and one inner side wall of the box body 2.

Specifically, the packaging method includes the following steps:

• • the distribution frame body 4 and the bracket 5 are respectively placed on one side in the box body 2 close to the cover body 1 and the first side board 22,
  • the first bending board 33 and the second bending board 34 are bent, the first bending board 33 is bent along the first crease 31 towards the interior of the box body 2, the second bending board 34 is bent along the second crease 32 to be parallel to the bottom board 21, and the bracket 5 is located in the product placing chamber 6 formed by the first side board 22, the first bending board 33, the second bending board 34 and the bottom board 21;
  • the connecting portion 344 on the third bending board 35 is bent, the connecting portion 344 is bent upwards along the third crease 36 so as to make the connecting portion 344 be perpendicular to the second bending board 34, and thus, the distribution frame body 4 is limited in the product placing chamber 6 formed by one side of the connecting portion 344 away from the first side board 22 and the box body 2;
  • the connector positioning grooves 37 in the third bending board 35 are bent, and the connector positioning grooves 37 are bent along the fourth crease 340 in a direction away from the cover body 1 to be parallel to the second bending board 34;
  • the positioning portion 343 on the third bending board 35 is bent, the positioning portion 343 is bent upwards along the fifth crease 341, and the clamping sheets 342 at the two ends of the positioning portion 343 are inserted into the clamping grooves 231 in the two sides of the width direction of the box body 2; and
  • the network module connectors 7 are placed, and the plurality of network module connectors 7 are sequentially placed in the connector positioning grooves 37, and the bottom surfaces of the network module connectors 7 are located on the second bending board 34.

The above implementations are only for the purpose of explaining technical concepts and features of the present invention, are intended to make those skilled in the art understand the content of the present invention and implement it, and cannot limit the scope of protection of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention shall be covered in the scope of protection of the present invention.

Claims

1. An inner packaging structure for a network distribution frame, used to package a distribution frame body and a bracket, characterized by comprising an isolated protection board, wherein the isolated protection board is able to divide an internal space of a packaging box into at least two product placing chambers, and the isolated protection board is able to mutually abut against at least part of areas of at least one of the distribution frame body and the bracket.

2. A packaging box for a network distribution frame, comprising the inner packaging structure for the network distribution frame according to claim 1, characterized by further comprising: a cover body and a box body with an open top, wherein the inner packaging structure is located in the box body.

3. The packaging box for the network distribution frame according to claim 2, characterized in that an isolated protection board comprises a first crease and a second crease, the isolated protection board is able to swing back and forth along the first crease connected with the box body, and the isolated protection board is divided into a first bendable bending board and a second bendable bending board through the second crease.

4. The packaging box for the network distribution frame according to claim 3, characterized in that the first bending board and the second bending board are respectively bent along the first crease and the second crease to achieve that inner sides of the first bending board and the second bending board and the box body form one of product placing chambers for allowing a distribution frame body to be placed, and an outer side of the second bending board and the box body form the other product placing chamber for allowing a bracket to be placed.

5. The packaging box for the network distribution frame according to claim 3, characterized in that a to-be-packaged part further comprises at least one network module connector, the isolated protection board is able to divide an internal space of the packaging box into three product placing chambers, the isolated protection board is able to mutually abut against at least part of areas of at least two of a distribution frame body, a bracket and the network module connectors, one side of the second bending board away from the first bending board is connected with a third bending board, the third bending board is able to be bent upwards along a third crease at a connection of the third bending board and the second bending board, so that one side of the third bending board facing away from the cover body and the second bending board as well as the first bending board enclose a product placing chamber for allowing the network module connectors to be placed, the other side of the third bending board and the box body form another product placing chamber for allowing the distribution frame body to be placed, and the first bending board and the second bending board are able to be respectively bent along the first crease and the second crease to achieve that inner sides of the first bending board and the second bending board and the box body form yet another product placing chamber for allowing the bracket to be placed.

6. The packaging box for the network distribution frame according to claim 5, characterized in that the third bending board comprises a connecting portion and a positioning portion which are oppositely arranged, the connecting portion is connected with the second bending board, a plurality of connector positioning grooves are formed at intervals between the connecting portion and the positioning portion in a length direction of the third bending board, a module upper cover board with a single side connected with the third bending board and a module positioning board with a single side connected with the positioning portion are both arranged in each connector positioning groove, connections of the connecting portion as well as the positioning portion respectively with the connector positioning grooves are a fourth crease and a fifth crease, and when the connector positioning grooves are bent along the fourth crease to achieve that the positioning portion abuts against the first bending board, the connecting portion, the connector positioning grooves, the first bending board and the second bending board form a restricted space for allowing the network module connectors to be placed.

7. The packaging box for the network distribution frame according to claim 6, characterized in that clamping sheets are respectively arranged at two ends in a length direction of the positioning portion, clamping grooves matched with the clamping sheets are respectively formed in two sides in a width direction in the box body, and when the connector positioning grooves are bent along the fourth crease to achieve that the positioning portion abuts against the first bending board, the clamping sheets are able to be clamped into the corresponding clamping grooves.

8. The packaging box for the network distribution frame according to claim 7, characterized in that the second bending board is bent along the second crease to be parallel to a bottom board of the box body, the connecting portion is bent upwards along the third crease to be parallel to a side of the box body, and the connector positioning grooves are bent along the fourth crease in a direction away from the cover body to be parallel to the second bending board.

9. The packaging box for the network distribution frame according to claim 5, characterized in that the product placing chamber for placing the bracket comprises a main board placing chamber and a support placing chamber which communicate with each other, a main board body on the bracket is horizontally placed in the support placing chamber, and divides the main board placing chamber into a first clearance space and a second clearance space, and at least one of the first clearance space and the second clearance space is able to be used for allowing an accessory bag to be accommodated and placed.

10. The packaging box for the network distribution frame according to claim 2, characterized in that an isolated protection board and the box body are split parts, the isolated protection board is sequentially provided with a first crease and a second crease in its width direction, and the isolated protection board is able to be in lap joint with the box body along the first crease, and is divided into a first bendable bending board and a second bendable bending board through the second crease.

11. A packaging method for a network distribution frame, applied to the packaging box for the network distribution frame according to claims 2, characterized by comprising the following steps:

S1: placing a distribution frame body and a bracket in a box body, and separating the distribution frame body from the bracket by using an isolated protection board, wherein the isolated protection board comprises a first bending board and a second bending board, and the isolated protection board is able to mutually abut against at least part of areas of at least one of the distribution frame body and the bracket; and

S2: limiting the distribution frame body and the bracket to complete packaging by using fastening of a top cover of a cover body and the box body.

12. The packaging method for the network distribution frame according to claim 11, characterized in that in step 1, the isolated protection board comprises the first bending board and the second bending board, the second bending board is located between the distribution frame body and the bracket, the distribution frame body is isolated and limited after the isolated protection board is bent, and the bracket is able to respectively abut against the isolated protection board and inner side faces of the box body.

13. The packaging method for the network distribution frame according to claim 11, characterized in that a to-be-packaged part further comprises network module connectors, the isolated protection board further comprises a third bending board connected with the second bending board, a support body of the bracket leans against one inner side wall of the box body by using the first bending board, and the network module connectors are clamped by using a clamping groove formed by the first bending board, the second bending board and the third bending board; and the distribution frame body is clamped between the third bending board and one inner side wall of the box body.