CN223303375U - A storage rack with high load capacity - Google Patents

Abstract

The utility model relates to the technical field of storage frames, in particular to a storage frame with high load capacity, which comprises a frame body which is integrally of a rectangular structure design, wherein a plurality of bearing layer frames which are vertically and alternately arranged along the frame body are horizontally arranged on the frame body, each bearing layer frame comprises two longitudinal beam plates which are longitudinally arranged along the frame body and horizontally and alternately arranged along the frame body, a plurality of transverse beam plates which are longitudinally and alternately arranged along the frame body are arranged between the two longitudinal beam plates, a connecting flanging formed by bending horizontally and inwardly is arranged on each longitudinal beam plate, a plurality of groups of transverse strips which are vertically and alternately arranged are fixedly connected above the connecting flanging between the two longitudinal beam plates, and a plurality of longitudinal strips which are horizontally and alternately arranged along the frame body are also arranged between the two transverse strips in pairs. The utility model has the characteristics of simpler and more reasonable structural design, stronger bearing capacity of each layer and more compact transverse dimension.

Description

Storage rack with high load capacity

Technical Field

The utility model relates to the technical field of storage racks, in particular to a storage rack with high load capacity.

Background

The storage rack is one of the most commonly used storage devices in a warehouse, and is commonly used for storing and placing various devices in a classified manner so as to conveniently and rapidly and accurately acquire and use various devices, or for stacking large-weight containers such as various boxes.

The storage rack of the existing structure has the following defects that 1, the bearing capacity of each layer on the storage rack cannot meet the requirement due to the unreasonable layer structure design of the storage rack, local concave deformation is easy to occur, 2, the transverse structure design of the storage rack is compact enough, so that the storage rack is inconvenient to disassemble and transport for each part, and 3, the storage rack of the existing structure is inconvenient to adjust the layer height, so that objects with different sizes and heights are inconvenient to store.

Therefore, how to design a storage rack with high load capacity, which is simpler and more reasonable in structural design, has stronger bearing capacity of each layer, is more compact in transverse dimension, can more conveniently adjust the layer height to better adapt to different use demands, and is a technical problem to be solved by the technicians in the field.

Disclosure of utility model

In view of the above-mentioned drawbacks of the prior art, the present utility model is to solve the technical problem of how to design a storage rack with high load capacity, which has a simpler and more reasonable structural design, has a stronger load-bearing capacity for each layer, has a more compact lateral dimension, and can more conveniently adjust the layer height to better adapt to different use demands.

In order to achieve the above purpose, the utility model provides a storage rack with high load capacity, which comprises a rack body which is integrally designed in a rectangular structure, wherein a plurality of bearing layer racks are horizontally arranged on the rack body along the vertical direction of the rack body at intervals; the bearing layer frame comprises two longitudinal beam plates which are longitudinally arranged along the frame body and are transversely arranged at intervals along the frame body, a plurality of transverse beam plates which are longitudinally arranged along the frame body at intervals are arranged between the two longitudinal beam plates, and the bearing layer frame is characterized in that connecting flanges which are formed by bending horizontally inwards are arranged on the longitudinal beam plates, a plurality of groups of transverse strips are fixedly connected above the connecting flanges between the two longitudinal beam plates, each group of transverse strips are vertically arranged at intervals, a plurality of longitudinal strips which are transversely arranged along the frame body at intervals are also arranged, the longitudinal strips are connected between the two transverse strips in pairs, the two outermost longitudinal strips are correspondingly arranged above the connecting flanges, and connecting strips are also arranged between the two adjacent groups of transverse strips, are arranged above the longitudinal strips, and the two ends of the connecting strips are respectively connected and fixed on the longitudinal beam plates.

In this way, in the storage rack structure, the connecting flanging is arranged on the longitudinal beam plates, a plurality of groups of transverse strips are arranged between the two longitudinal beam plates, and the transverse strips are arranged above the connecting flanging. And arranging a plurality of longitudinal strips, arranging the longitudinal strips between the two paired transverse strips, correspondingly arranging the two outermost longitudinal strips above the connecting turnup, and finally arranging the connecting strips so that the connecting strips are above the longitudinal strips. Foretell structural arrangement for bear the weight of layer frame bearing back, can be better with the weight dispersion to two longitudinal beam plates on, finally make the support body atress, whole structural design is more reasonable, for current structure, its bearing capacity is stronger.

As optimization, butt joint strips are arranged on the inner sides of two groups of transverse strips on the outermost side in the longitudinal direction, and two ends of each butt joint strip are respectively connected and fixed on the longitudinal beam plates.

Therefore, triangular structures are formed between the two groups of transverse bars and the butt joint bars at the outermost side, so that the longitudinal bars are more stable and reliable after being connected.

The cross bars are 9 groups, the number of connecting bars is 8, the number of longitudinal bars is 5, and the number of cross beam plates is 3.

Thus, the arrangement quantity of the transverse strips, the connecting strips, the longitudinal strips and the transverse beam plates is more reasonable.

As optimization, the number of the bearing shelves is 5.

In this way, the number of bearing shelves is more reasonable.

The upper side and the lower side of the longitudinal beam plate are respectively and horizontally bent inwards to form an upper flanging and a lower flanging, the upper flanging is bent downwards and then is horizontally bent inwards to form the connecting flanging, the upper side and the lower side of the transverse beam plate are respectively and horizontally bent to form an upper fixing flanging and a lower fixing flanging, the lower fixing flanging is correspondingly arranged on the upper side surface of the lower flanging and is connected with the lower flanging through screws, a yielding gap is arranged below the upper fixing flanging at the end part of the transverse beam plate, the end part of the transverse beam plate is inserted between the lower flanging and the connecting flanging on the longitudinal beam plate, the upper fixing flanging is positioned above the connecting flanging, and the distal end part of the upper fixing flanging is bent downwards to form a bending part and is correspondingly inserted into an inserting port of the connecting flanging.

Therefore, the structural design of the longitudinal beam plate and the transverse beam plate is more reasonable, and the structural strength of the longitudinal beam plate and the transverse beam plate can be improved. And secondly, the connection between the longitudinal beam plate and the transverse beam plate is simpler and more reliable, so that the transverse dimension is more compact under the condition that the bearing area above the longitudinal beam plate and the transverse beam plate is unchanged after the longitudinal beam plate and the transverse beam plate are connected.

The longitudinal beam plate is characterized in that the end part of the longitudinal beam plate is provided with a connecting plate which is arranged horizontally and outwards, two openings are vertically arranged at intervals on the connecting plate, clamping blocks which are obliquely arranged towards the rear of the inner side are arranged on the outer side wall of each opening, clamping holes are formed in the frame body and are matched with the clamping blocks, rectangular openings are formed in the inner ends of the connecting plate, and folding limiting blocks are arranged on the outer side wall of each rectangular opening and can be supported on the frame body in a mutually-adhered mode.

Therefore, the connection between the longitudinal beam plate and the frame body is simpler and more reliable, and the disassembly and assembly can be more convenient. Further, the clamping holes on the frame body are vertically distributed at intervals, so that the layer height can be adjusted more conveniently to better adapt to different use requirements.

The frame body comprises four vertical columns which are vertically arranged and are in rectangular distribution in the horizontal direction, the vertical columns are of rectangular tubular structural design, the inner side faces of the two horizontal paired vertical columns are provided with yielding openings which are vertically and transversely communicated, two vertical cross bars which are arranged at intervals are arranged corresponding to the two horizontal paired vertical columns, and two ends of each cross bar extend into and are connected and fixed on the vertical columns from the yielding openings.

Thus, the weight of the frame body is lighter while the structural strength is ensured.

As optimization, a diagonal rod is further arranged between the two transverse upright posts in pairs, two ends of the diagonal rod extend into the abdicating openings respectively and are fixedly connected to the upright posts, and a horizontal cushion block is further fixedly connected to the lower ends of the upright posts.

Like this, through the design diagonal bar for the structural strength of support body is higher.

To sum up, above-mentioned structure has structural design more simple reasonable, and every layer bearing capacity is stronger, and transverse dimension is compacter, can more conveniently adjust the characteristics with better adaptation different user demands to the layer height.

Drawings

Fig. 1 is a schematic view of a storage rack with high load capacity in an embodiment of the present utility model.

Fig. 2 is a schematic view of the structure of fig. 1 rotated by a certain angle.

Fig. 3 is a front view of fig. 1.

Fig. 4 is a top view of fig. 1.

Fig. 5 is a left side view of fig. 1.

Fig. 6 is an enlarged partial schematic view of the position a in fig. 1.

Fig. 7 is a partially enlarged schematic view of the position B in fig. 4.

Fig. 8 is a schematic structural view of the carrier in fig. 1.

Fig. 9 is an enlarged partial schematic view of the position C in fig. 8.

Fig. 10 is a schematic view of the structure of fig. 8 rotated by a certain angle.

Fig. 11 is a partially enlarged schematic view of the D position in fig. 10.

Detailed Description

The present utility model will be further described with reference to the drawings and examples, and it should be noted that in the description of the present utility model, the terms "upper", "lower", "left", "right", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, only for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific manner, and thus should not be construed as limiting the present utility model. The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The storage rack with high load capacity comprises a rack body 1 which is integrally of a rectangular body structure design, a plurality of bearing layer racks 2 which are vertically arranged at intervals along the rack body are horizontally arranged on the rack body, the bearing layer racks comprise two longitudinal beam plates 3 which are longitudinally arranged along the rack body and transversely arranged at intervals along the rack body, a plurality of transverse beam plates 4 which are longitudinally arranged at intervals along the rack body are arranged between the two longitudinal beam plates, connecting flanges 5 which are formed by bending horizontally inwards are arranged on the longitudinal beam plates, a plurality of groups of transverse strips 6 which are fixedly connected above the connecting flanges are arranged between the two longitudinal beam plates, each group of transverse strips is vertically arranged at intervals, a plurality of longitudinal strips 7 which are transversely arranged along the rack body at intervals are also arranged between the two longitudinal strips in pairs, the two longitudinal strips at the outermost side are correspondingly arranged above the connecting flanges, connecting strips 8 are also arranged between the two adjacent groups of transverse strips, and the two ends of the connecting strips are respectively fixedly connected to the longitudinal beam plates.

In this way, in the storage rack structure, the connecting flanging is arranged on the longitudinal beam plates, a plurality of groups of transverse strips are arranged between the two longitudinal beam plates, and the transverse strips are arranged above the connecting flanging. And arranging a plurality of longitudinal strips, arranging the longitudinal strips between the two paired transverse strips, correspondingly arranging the two outermost longitudinal strips above the connecting turnup, and finally arranging the connecting strips so that the connecting strips are above the longitudinal strips. Foretell structural arrangement for bear the weight of layer frame bearing back, can be better with the weight dispersion to two longitudinal beam plates on, finally make the support body atress, whole structural design is more reasonable, for current structure, its bearing capacity is stronger.

In this embodiment, a butt joint strip 9 is disposed on the inner sides of two groups of transverse strips on the outermost side in the longitudinal direction, and two ends of the butt joint strip are respectively connected and fixed on the longitudinal beam plate.

Therefore, triangular structures are formed between the two groups of transverse bars and the butt joint bars at the outermost side, so that the longitudinal bars are more stable and reliable after being connected.

In the specific embodiment, 9 groups of transverse bars are provided, 8 connecting bars are provided, 5 longitudinal bars are provided, and 3 transverse beam plates are provided.

Thus, the arrangement quantity of the transverse strips, the connecting strips, the longitudinal strips and the transverse beam plates is more reasonable.

Specifically, the cross section of the transverse strip, the longitudinal strip, the connecting strip and the butt joint strip is designed in a circular structure.

In this embodiment, the number of the bearing shelves is 5.

In this way, the number of bearing shelves is more reasonable.

In the specific embodiment, the upper side and the lower side of the longitudinal beam plate are respectively and horizontally bent inwards to form an upper flange 10 and a lower flange 11, the upper flange is bent downwards and then is horizontally bent inwards to form the connecting flange, the upper side and the lower side of the transverse beam plate are respectively and horizontally bent to form an upper fixing flange 12 and a lower fixing flange 13, the lower fixing flanges are correspondingly and oppositely arranged on the upper side surface of the lower flange, the lower fixing flanges and the lower flanges are connected together through screws 14, a yielding notch is arranged below the upper fixing flanges at the end part of the transverse beam plate, the end part of the transverse beam plate is inserted between the lower flanges and the connecting flange on the longitudinal beam plate, and then the upper fixing flanges are positioned above the connecting flange, so that the distal end part of the upper fixing flanges is bent downwards to form a bending part 15 and correspondingly inserted into an inserting port of the connecting flange.

Therefore, the structural design of the longitudinal beam plate and the transverse beam plate is more reasonable, and the structural strength of the longitudinal beam plate and the transverse beam plate can be improved. And secondly, the connection between the longitudinal beam plate and the transverse beam plate is simpler and more reliable, so that the transverse dimension is more compact under the condition that the bearing area above the longitudinal beam plate and the transverse beam plate is unchanged after the longitudinal beam plate and the transverse beam plate are connected.

In the specific embodiment, the end part of the longitudinal beam plate is provided with a connecting plate 16 which is arranged horizontally and outwards, two openings are vertically arranged at intervals on the connecting plate, a clamping block 17 which is obliquely arranged towards the rear inside is arranged on the outer side wall of the opening, a clamping hole 18 is arranged on the frame body and is matched with the clamping block, a rectangular opening is arranged at the inner end of the connecting plate, and a turnover limiting block 19 is arranged on the outer side wall of the rectangular opening and can be supported on the frame body in a mutually-pasting mode.

Therefore, the connection between the longitudinal beam plate and the frame body is simpler and more reliable, and the disassembly and assembly can be more convenient. Further, the clamping holes on the frame body are vertically distributed at intervals, so that the layer height can be adjusted more conveniently to better adapt to different use requirements.

In this embodiment, the frame body includes four vertical columns 20 vertically arranged and rectangular in horizontal direction, the columns are of rectangular tubular structure design, and the inner side surfaces of two horizontal paired columns are provided with yielding openings 21 vertically penetrating, two vertical cross bars 22 arranged at intervals are arranged corresponding to the two horizontal paired columns, and two ends of each cross bar extend into and are connected and fixed on the columns from the yielding openings.

Thus, the weight of the frame body is lighter while the structural strength is ensured.

In the specific embodiment, an inclined rod 23 is further arranged between the two transverse paired upright posts, two ends of the inclined rod extend into the upright posts from the abdication openings respectively and are fixedly connected with the upright posts, and a horizontal cushion block 24 is further fixedly connected with the lower ends of the upright posts.

Like this, through the design diagonal bar for the structural strength of support body is higher.

To sum up, above-mentioned structure has structural design more simple reasonable, and every layer bearing capacity is stronger, and transverse dimension is compacter, can more conveniently adjust the characteristics with better adaptation different user demands to the layer height.

The foregoing describes in detail preferred embodiments of the present utility model. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the utility model by one of ordinary skill in the art without undue burden. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (8)

1. The storage rack is characterized in that the longitudinal beam plate is provided with a connecting flanging formed by bending horizontally and inwards, a plurality of groups of transverse strips are fixedly connected above the connecting flanging, each group of transverse strips are vertically and alternately arranged, a plurality of longitudinal strips are also arranged between the two transverse strips in a connecting mode, the two outermost longitudinal strips are correspondingly arranged above the connecting flanging, a connecting strip is also arranged between the two adjacent groups of transverse strips, and the two ends of the connecting strip are respectively connected and fixed on the longitudinal beam plates.

2. A storage rack with high load capacity as set forth in claim 1, wherein butt joint strips are arranged on the inner sides of two groups of transverse strips on the outer side in the longitudinal direction, and two ends of each butt joint strip are connected and fixed on the longitudinal beam plates.

3. A storage rack with high load capacity as in claim 1 wherein said cross bars are 9 sets, said connecting bars are 8, said longitudinal bars are 5, and said cross beam plates are 3.

4. A storage rack with high load capacity as in claim 1 wherein said number of load bearing shelves is 5.

5. A storage rack with high load capacity as set forth in claim 1, wherein the upper and lower sides of the girder plate are respectively bent horizontally inwards to form an upper flange and a lower flange, the upper flange is bent downwards and then bent horizontally inwards to form the connecting flange, the upper and lower sides of the girder plate are respectively bent horizontally to form an upper fixing flange and a lower fixing flange, the lower fixing flanges are correspondingly arranged on the upper side surfaces of the lower flange in a sticking manner and are connected together through screws, a yielding notch is arranged below the upper fixing flange at the end part of the girder plate, the upper fixing flange is positioned above the connecting flange after the end part of the girder plate is inserted between the lower flange and the connecting flange, and the distal end part of the upper fixing flange is bent downwards to form a bent part and is correspondingly inserted into an insertion port of the connecting flange.

6. The storage rack with high load capacity as set forth in claim 1, wherein the longitudinal beam plate has one end with one horizontal outwards set connecting board, two vertically spaced openings in the connecting board, one clamping block in the outer side wall of the opening, one clamping hole in the rack and matching with the clamping block, and one rectangular opening in the inner end of the connecting board, with one folding limiting block in the outer side wall and capable of being supported on the rack.

7. The storage rack with high load capacity as set forth in claim 1, wherein the rack body includes four vertical columns in rectangular horizontal direction, each of the four vertical columns has rectangular tubular structure, two vertical columns in transverse pair with through vertical abdication openings, two transverse rods in interval corresponding to the two vertical columns in transverse pair, and two ends of the transverse rods extend into the corresponding abdication openings and are connected to the corresponding vertical columns.

8. The storage rack with high load capacity as set forth in claim 7, wherein a diagonal rod is further arranged between the two transverse paired upright posts, two ends of the diagonal rod extend into the two upright posts from the yielding openings respectively and are fixedly connected with the upright posts, and a horizontal cushion block is fixedly connected with the lower ends of the upright posts.