CN220299019U - High strength resistance to compression carton - Google Patents

Abstract

The utility model discloses a high-strength compression-resistant carton which comprises a carton body, wherein a through groove is formed in the outer side of the upper end of the carton body, a supporting mechanism is arranged in the through groove, and the upper end of the carton body is connected with another carton body through a supporting component. The utility model adopts the structure, the supporting mechanism can play a role in supporting the box body position, a plurality of box bodies are stacked and stacked through the supporting mechanism, the damage to the box bodies caused by extrusion of the upper box bodies to the lower box bodies can be effectively avoided, the damping component can play a damping role on the upper box bodies, the situation that the supporting rods are rigidly contacted to cause fracture and the like is avoided, so that the supporting effect of the supporting mechanism is ensured, meanwhile, the supporting strength of the bottom of the box bodies can be improved through the first reinforcing component, the risk of damage of the bottom of the box bodies is reduced, the supporting strength of the top cover is improved through the second reinforcing component, and the risk of damage to the top cover caused by pressing of heavy objects above the top cover is reduced.

Description

High strength resistance to compression carton

Technical Field

The utility model belongs to the field of cartons, and particularly relates to a high-strength compression-resistant carton.

Background

The paper box is the most widely used packaging product, and has various specifications and models, such as corrugated paper boxes, single-layer paper boxes and the like according to different materials, and is different from wooden box packaging, woven bag packaging, cloth bag packaging and plastic box packaging.

In the prior art, the supporting strength of the carton is low, so that the carton is easy to deform, damage and the like when being impacted, extruded and the like, particularly in the transportation process, the carton is extremely easy to deform, damage and the like in the transportation process because a large number of cartons are stacked and stacked, and the carton cannot effectively protect the products in the carton, so that the products in the carton are damaged.

Disclosure of Invention

Aiming at the problems in the background art, the utility model aims to provide a high-strength compression-resistant carton so as to solve the problems that the carton in the prior art is low in supporting strength, and easy to deform, damage and the like in the stacking and transporting process, so that the damage of internal products is easy to cause.

The technical aim of the utility model is realized by the following technical scheme:

the utility model provides a high strength resistance to compression carton, includes the box, logical groove has been seted up in the upper end outside of box, the inside of leading to the groove is provided with supporting mechanism, the upper end of box is connected with another box through supporting component, first enhancement subassembly is installed to the inside lower extreme of box, the upper end of box is connected with the top cap, the second enhancement subassembly is installed to the lower extreme inboard of top cap.

Further, as the preferred technical scheme, supporting mechanism includes branch, spacing subassembly, damper and coupling assembling, the branch is pegged graft in the inside of leading to the groove, the lower extreme of branch runs through the box through leading to the groove, spacing subassembly sets up the outer wall at the branch, spacing subassembly and box joint, damper installs the upper end at the branch, coupling assembling installs the lower extreme at the branch, the lower extreme of branch passes through coupling assembling and damper dock.

Further, as the preferred technical scheme, the spacing subassembly includes limiting plate and spacing groove, the limiting plate is installed at the outer wall of branch, the inner wall at logical groove is seted up to the spacing groove, it is linked together through spacing groove and another logical groove to lead to the groove, the one end of limiting plate is pegged graft at the inner wall of spacing groove, the one end of limiting plate stretches into the inside of another logical groove through the spacing groove, the one end of limiting plate is connected with the outer wall of another branch.

Further, as preferred technical scheme, damper includes recess, spring, sleeve and attenuator, the upper end at branch is seted up to the recess, the inside at the recess is installed to the spring, the sleeve cup joints the upper end at the spring outer wall, telescopic lower extreme sliding connection is in the inside of recess, the inside at the recess is installed to the attenuator, the spring is run through to the upper end of attenuator, the outer wall and the spring sliding connection of attenuator, the upper end of attenuator is connected with the inside upper end of sleeve, the sleeve is connected with coupling assembling.

Further, as the preferable technical scheme, the connecting assembly comprises a supporting block and a supporting groove, the supporting block is arranged at the lower end of the supporting rod, the supporting groove is formed in the lower end of the supporting block, and the supporting groove is sleeved at the upper end of the sleeve.

Further, as a preferable technical scheme, the first reinforcing component comprises a first reinforcing rib and a first base plate, the first reinforcing rib is arranged at the lower end of the inside of the box body, and the first base plate is arranged at the upper end of the first reinforcing rib.

Further, as a preferable technical scheme, a slot is formed in the outer side of the lower end of the top cover, and the upper end of the box body is inserted into the slot.

Further, as a preferable technical scheme, the second reinforcing component comprises a second reinforcing rib and a second backing plate, wherein the second reinforcing rib is arranged on the inner side of the lower end of the top cover, and the second backing plate is arranged on the lower end of the second reinforcing rib.

In summary, the utility model has the following advantages:

firstly, through installing supporting mechanism additional in the inside of logical groove, can play the effect of supporting box position through supporting mechanism, and pile up a plurality of boxes through supporting mechanism, can effectively avoid upper end box to cause the extrusion to the lower extreme box and lead to the box to damage, and can play the cushioning effect to the upper tank through damper, avoid the rigid contact between the branch and appear the circumstances such as fracture, thereby guarantee supporting mechanism's supporting effect, simultaneously can promote the supporting strength of bottom half through first reinforcement assembly, reduce the risk of bottom half damage, and then promote the supporting strength of top cap through second reinforcement assembly, reduce the heavy object and press the top of top cap and lead to the risk of top cap damage;

second, in the box stacking transportation, can stabilize the position of branch at logical inslot portion through spacing subassembly, but promote the supporting strength of box lateral wall simultaneously, and through the position between branch supporting box and the holding surface, box and the box, can effectively avoid box and box, holding surface direct contact, thereby effectively reduce the risk that the box bumps with the foreign object, the condition such as extrusion, cup joint in telescopic upper end through the supporting slot simultaneously, can make the lower extreme of branch be connected with damper through coupling assembling, and cooperate through spring and attenuator, can play the cushioning effect to upper box when jolting, reduce the risk of branch rupture when jolting.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a cross-sectional view of the present utility model;

FIG. 3 is a schematic view of the shock absorbing assembly of the present utility model;

FIG. 4 is a right side view of FIG. 2 of the present utility model;

FIG. 5 is a schematic view of the top cover structure of the present utility model;

fig. 6 is a schematic diagram of a stacked structure of the case of the present utility model.

Reference numerals: 1. the box, 2, logical groove, 3, supporting mechanism, 31, branch, 32, spacing subassembly, 321, limiting plate, 322, spacing groove, 33, damper unit, 331, recess, 332, spring, 333, sleeve, 334, attenuator, 34, coupling assembling, 341, prop up piece, 342, prop up groove, 4, first reinforcing unit, 41, first strengthening rib, 42, first backing plate, 5, top cap, 51, slot, 6, second reinforcing unit, 61, second strengthening rib, 62, second backing plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-6, the high-strength compression-resistant carton according to the embodiment comprises a carton body 1, wherein a through groove 2 is formed in the outer side of the upper end of the carton body 1, a supporting mechanism 3 is arranged in the through groove 2, the upper end of the carton body 1 is connected with another carton body 1 through a supporting component, a first reinforcing component 4 is arranged at the lower end of the inner part of the carton body 1, a top cover 5 is connected at the upper end of the carton body 1, and a second reinforcing component 6 is arranged in the inner side of the lower end of the top cover 5;

through installing supporting mechanism 3 additional in the inside that leads to groove 2, can play the effect of supporting box 1 position through supporting mechanism 3, and pile up a plurality of boxes 1 through supporting mechanism 3 and put things in good order, can effectively avoid upper end box 1 to cause the extrusion to lead to box 1 to damage to lower extreme box 1, can play cushioning effect to upper box 1 moreover, avoid jolting etc. to lead to supporting mechanism 3 to become invalid, can promote the supporting strength of box 1 bottom through first reinforcing component 4 simultaneously, reduce the damaged risk of box 1 bottom, and then promote the supporting strength of top cap 5 through second reinforcing component 6, reduce the weight and press the top at top cap 5 and lead to the risk of top cap 5 damage.

Example 2

Referring to fig. 2, in order to achieve the purpose of supporting the position of the box body 1 on the basis of embodiment 1, in this embodiment, the supporting mechanism 3 is innovatively designed, specifically, the supporting mechanism 3 includes a supporting rod 31, a limiting component 32, a damping component 33 and a connecting component 34, the supporting rod 31 is inserted into the through groove 2, the lower end of the supporting rod 31 penetrates through the box body 1 through the through groove 2, the limiting component 32 is disposed on the outer wall of the supporting rod 31, the limiting component 32 is clamped with the box body 1, the damping component 33 is mounted at the upper end of the supporting rod 31, the connecting component 34 is mounted at the lower end of the supporting rod 31, and the lower end of the supporting rod 31 is in butt joint with the damping component 33 through the connecting component 34; through peg graft branch 31 in the inside of logical groove 2 to stabilize the position of branch 31 in logical groove 2 inside through spacing subassembly 32, and promote the supporting strength of box 1 lateral wall through spacing subassembly 32, and branch 31 is connected with damper 33 through coupling assembling 34, can reach the effect of stacking up a plurality of boxes 1, can effectively avoid upper end box 1 to lead to the box 1 to damage to lower extreme box 1 because of causing the extrusion, can play the cushioning effect to upper box 1 through damper 33 moreover, avoid the rigid contact between the branch 31 and appear circumstances such as fracture, thereby guarantee the supporting effect of supporting mechanism 3.

Referring to fig. 2, in order to achieve the purpose of stabilizing the position of the strut 31, the limiting assembly 32 of the present embodiment includes a limiting plate 321 and a limiting groove 322, the limiting plate 321 is mounted on the outer wall of the strut 31, the limiting groove 322 is opened on the inner wall of the through groove 2, the through groove 2 is communicated with the other through groove 2 through the limiting groove 322, one end of the limiting plate 321 is inserted into the inner wall of the limiting groove 322, one end of the limiting plate 321 extends into the other through groove 2 through the limiting groove 322, and one end of the limiting plate 321 is connected with the outer wall of the other strut 31; the limiting plate 321 is inserted into the limiting groove 322, two ends of the limiting plate 321 are respectively connected with the supporting rods 31, and the positions of the supporting rods 31 can be stabilized through the limiting assemblies 32, so that the supporting effect of the box body 1 is prevented from being influenced due to the separation of the supporting rods 31 and the through grooves 2.

Referring to fig. 3, in order to achieve the purpose of damping, the damping component 33 of the present embodiment includes a groove 331, a spring 332, a sleeve 333 and a damper 334, wherein the groove 331 is formed at the upper end of the strut 31, the spring 332 is installed inside the groove 331, the sleeve 333 is sleeved at the upper end of the outer wall of the spring 332, the lower end of the sleeve 333 is slidably connected inside the groove 331, the damper 334 is installed inside the groove 331, the upper end of the damper 334 penetrates through the spring 332, the outer wall of the damper 334 is slidably connected with the spring 332, the upper end of the damper 334 is connected with the upper end inside the sleeve 333, and the sleeve 333 is connected with the connecting component 34; when jolt occurs, the upper layer box 1 generates downward force to the sleeve 333 through the support rod 31 and the connecting component 34, and the sleeve 333 can slide in the groove 331 through the support, buffering and force unloading of the spring 332, and after the spring 332 is buffered, the sleeve 333 can be driven to reset through the damper 334, so that the damping component 33 plays a role in damping, and the support rod 31 of the upper layer box 1 is prevented from rigidly contacting with the support rod 31 of the lower layer box 1.

Referring to fig. 2, in order to achieve the purpose of facilitating stacking of the box 1, the connecting assembly 34 of the present embodiment includes a supporting block 341 and a supporting groove 342, the supporting block 341 is installed at the lower end of the supporting rod 31, the supporting groove 342 is opened at the lower end of the supporting block 341, and the supporting groove 342 is sleeved at the upper end of the sleeve 333; through installing branch piece 341 in the lower extreme of branch 31 to offer branch groove 342 in the lower extreme of branch piece 341, and make branch groove 342 cup joint in the upper end of sleeve 333, can make the lower extreme of branch 31 be connected with sleeve 333 through coupling assembling 34, thereby reach through supporting mechanism 3 to pile up the effect of stacking up box 1.

Example 3

Referring to fig. 4, in this embodiment, in order to achieve the purpose of improving the bottom supporting strength of the case 1 based on embodiment 2, the first reinforcement assembly 4 is innovatively designed, specifically, the first reinforcement assembly 4 includes a first reinforcement rib 41 and a first pad 42, the first reinforcement rib 41 is installed at the lower end of the inside of the case 1, and the first pad 42 is installed at the upper end of the first reinforcement rib 41; through the lower extreme installation first strengthening rib 41 inside box 1, and install the upper end at first strengthening rib 41 with first backing plate 42, can promote the support strength of box 1 bottom through first reinforcing component 4 to reduce the risk that the damage appears in box 1 bottom.

Referring to fig. 5, in order to achieve the purpose of connecting the top cover 5 with the case 1, a slot 51 is formed on the outer side of the lower end of the top cover 5 in the embodiment, and the upper end of the case 1 is inserted into the slot 51; when the top cover 5 is connected with the box body 1, the bottom cover is attached to the upper end of the box body 1, and the upper end of the box body 1 is inserted into the slot 51, so that the top cover 5 can be firmly fixed to the upper end of the box body 1 through the slot 51, and the effect of connecting the top cover 5 with the box body 1 is achieved.

Referring to fig. 5, in order to achieve the purpose of improving the supporting strength of the top cover 5, the second reinforcement assembly 6 of the present embodiment includes a second reinforcement rib 61 and a second pad 62, the second reinforcement rib 61 is installed inside the lower end of the top cover 5, and the second pad 62 is installed at the lower end of the second reinforcement rib 61; through the inboard second strengthening rib 61 of installing of lower extreme at top cap 5 to install the lower extreme at second strengthening rib 61 with second backing plate 62, can promote the support strength of top cap 5 through second reinforcing component 6, thereby reduce top cap 5 and appear broken condition when meetting the weight-up.

The use principle and the advantages are that: when the product is required to be transported, the product is placed in the box body 1, the first reinforcing rib 41 is arranged at the lower end of the inside of the box body 1, the first base plate 42 is arranged at the upper end of the first reinforcing rib 41, the supporting strength of the bottom of the box body 1 can be improved through the first reinforcing component 4, the risk of deformation and breakage of the bottom of the box body 1 is reduced, the top cover 5 is attached to the upper end of the box body 1, the upper end of the box body 1 is inserted into the slot 51, the top cover 5 can be firmly fixed at the upper end of the box body 1 through the slot 51, the second reinforcing rib 61 is arranged at the inner side of the lower end of the top cover 5, the supporting strength of the top cover 5 can be improved through the second reinforcing component 6, the conditions of deformation and breakage of the top cover 5 when the top cover 5 is subjected to heavy pressure are reduced, the box body 1 can be stacked, the supporting groove 342 is sleeved at the upper end of the sleeve 333, the supporting block 341 is connected with the sleeve 333 through the supporting groove 342, the lower end of the supporting rod 31 can be connected with the shock absorbing component 33 through the connecting component 34, therefore, the effect of stacking a plurality of boxes 1 is achieved through the supporting mechanism 3, meanwhile, the damage to the boxes 1 caused by extrusion of the boxes 1 at the lower end can be effectively avoided, the limiting plate 321 is inserted in the limiting groove 322, the limiting component 32 stabilizes the position of the supporting rod 31 in the through groove 2, the position of the supporting rod 31 in the through groove 2 is prevented from being influenced by sliding in the through groove 2, the supporting strength of the side wall of the box 1 can be improved through the limiting component 32, and in addition, when jolting and other conditions are met in the transportation process, the lower layer of the boxes 1 generates downward force to the sleeve 333 through the supporting rod 31 and the connecting component 34, and the supporting of the spring 332, the sleeve 333 can slide in the groove 331 through buffering and force unloading, after the spring 332 buffers, the sleeve 333 can be driven to reset through the damper 334, so that the damping component 33 plays a damping role, the strut 31 of the upper layer box body 1 is prevented from being rigidly contacted with the strut 31 of the lower layer box body 1, the conditions such as breakage and the like of the strut 31 are reduced, the box body 1 is stable in the transportation process, the supporting strength of the box body 1 is high, the products in the box body can be effectively protected, and the damage risk of the products is reduced.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A high strength compression carton, its characterized in that: including box (1), logical groove (2) have been seted up in the upper end outside of box (1), the inside of leading to groove (2) is provided with supporting mechanism (3), the upper end of box (1) is connected with another box (1) through supporting component, first enhancement subassembly (4) are installed to the inside lower extreme of box (1), the upper end of box (1) is connected with top cap (5), second enhancement subassembly (6) are installed to the lower extreme inboard of top cap (5).

2. A high strength, compression resistant carton as claimed in claim 1, wherein: supporting mechanism (3) are including branch (31), spacing subassembly (32), damper (33) and coupling assembling (34), the inside at logical groove (2) is pegged graft to branch (31), the lower extreme of branch (31) runs through box (1) through logical groove (2), spacing subassembly (32) set up the outer wall at branch (31), spacing subassembly (32) and box (1) joint, damper (33) are installed in the upper end of branch (31), coupling assembling (34) are installed in the lower extreme of branch (31), the lower extreme of branch (31) is through coupling assembling (34) and damper (33) butt joint.

3. A high strength, compression resistant carton as claimed in claim 2, wherein: spacing subassembly (32) are including limiting plate (321) and spacing groove (322), the outer wall at branch (31) is installed to limiting plate (321), the inner wall at logical groove (2) is seted up in spacing groove (322), it is linked together with another logical groove (2) through spacing groove (322) to lead to groove (2), the inner wall at spacing groove (322) is pegged graft to the one end of limiting plate (321), the one end of limiting plate (321) stretches into the inside of another logical groove (2) through spacing groove (322), the one end of limiting plate (321) is connected with the outer wall of another branch (31).

4. A high strength, compression resistant carton as claimed in claim 2, wherein: the damping component (33) comprises a groove (331), a spring (332), a sleeve (333) and a damper (334), wherein the groove (331) is formed in the upper end of the supporting rod (31), the spring (332) is arranged in the groove (331), the sleeve (333) is sleeved at the upper end of the outer wall of the spring (332), the lower end of the sleeve (333) is slidably connected in the groove (331), the damper (334) is arranged on the inner side of the groove (331), the upper end of the damper (334) penetrates through the spring (332), the outer wall of the damper (334) is slidably connected with the spring (332), and the upper end of the damper (334) is connected with the upper end of the inner side of the sleeve (333), and the sleeve (333) is connected with the connecting component (34).

5. The high strength, compression resistant carton of claim 4 wherein: the connecting assembly (34) comprises a supporting block (341) and a supporting groove (342), the supporting block (341) is arranged at the lower end of the supporting rod (31), the supporting groove (342) is formed at the lower end of the supporting block (341), and the supporting groove (342) is sleeved at the upper end of the sleeve (333).

6. A high strength, compression resistant carton as claimed in claim 1, wherein: the first reinforcing component (4) comprises a first reinforcing rib (41) and a first base plate (42), wherein the first reinforcing rib (41) is arranged at the lower end of the inside of the box body (1), and the first base plate (42) is arranged at the upper end of the first reinforcing rib (41).

7. A high strength, compression resistant carton as claimed in claim 1, wherein: the outer side of the lower end of the top cover (5) is provided with a slot (51), and the upper end of the box body (1) is inserted into the slot (51).

8. A high strength, compression resistant carton as claimed in claim 1, wherein: the second reinforcing component (6) comprises a second reinforcing rib (61) and a second base plate (62), the second reinforcing rib (61) is arranged on the inner side of the lower end of the top cover (5), and the second base plate (62) is arranged on the lower end of the second reinforcing rib (61).