CN209862877U - Goods shelf - Google Patents

Abstract

The utility model discloses a goods shelf, wherein goods shelf is used for placing goods, and it includes an at least stand, an at least crossbeam, an at least thing spare and an at least flying piece of putting, the crossbeam can be dismantled all install in the stand, put the thing by detachably install in the crossbeam for stack the goods, the flying piece is kept in put the thing below, so that goods shelf can be used for hanging article, thereby goods shelf provides multiple storage mode and selects for the user, has rationally planned and has put the thing space, has improved goods shelf's utilization ratio.

Description

Goods shelf

Technical Field

The utility model relates to a storage rack, in particular to a goods shelf.

Background

The goods shelf is widely applied to supermarkets, industrial warehouses and daily life, is also an important tool in modern logistics and industrial production, can store goods and display and show commodities, is convenient to store and take and saves space, and is popular among consumers. The goods shelf is a facility for storing goods in a three-dimensional manner, and the goods shelf comprises stand columns, cross beams and object placing plates, wherein in the assembling process, the cross beams are fixed on the adjacent stand columns to guarantee the stability of the goods shelf, and then the object placing plates are placed or fixed on the cross beams to complete the assembling of the goods shelf. In the use, can with the goods place in put the thing board, and the thing space of putting that is formed with between the thing board of putting that places about adjacent can both be used for the goods storage, has improved storage space's utilization ratio. In addition, the size of the upright post, the cross beam and the storage plate can be adjusted to change the capacity of the goods shelf so as to be suitable for accommodating goods with different volumes.

The crossbeam of traditional goods shelves is fixed with the both ends of adjacent stand to form the regular polygon structure, at the in-process that bears the weight of goods, rely on the reinforcement to put the bearing capacity that the thing board strengthened goods shelves, not only cause the weight increase of putting the thing board, make the goods weight that goods shelves can bear reduce, put the space increase that the thing board itself occupy moreover, also reduced the utilization ratio of putting the thing space simultaneously. In order to guarantee the bearing capacity of the goods shelf, the thickness of the plate of the cross beam can be increased only to improve the bearing capacity, so that the plate is wasted, the manufacturing cost is improved, and the self weight of the goods shelf is increased to cause the goods shelf to be difficult to move.

In addition, in the use of traditional goods shelves, usually need place the goods in the containing box earlier, place the containing box in the thing board again to guarantee to place in goods of goods shelves in good order, in order to facilitate the access, still need carry out the special mark to the containing box of depositing the goods. While providing some convenience to the user, there are also a number of problems.

Firstly, because the volume of holding box is not uniform, and the volume of holding box and the size of putting the thing space are difficult to match completely moreover, so that place often not too regular in the remaining space between the holding box on putting the thing board and putting the thing board, be difficult to continue to place the holding box of suitable size, cause the thing space of putting between the thing board that usually adjacent is difficult to be filled up, and a very big part of space is idle to, the utilization ratio of goods shelves reduces.

Secondly, for some goods that deposit temporarily, though the depositing time is short, still need to spend a large amount of time to arrange in order vanning, sign etc. not only the process of depositing is more loaded down with trivial details, and the container is placed on putting the thing board with the mode of piling up moreover, also takes time to look for when getting goods, takes out etc. and lacks the flexibility, extravagant user's live time.

In addition, when placing the goods in holding the incasement and storing, make the goods produce the fold easily, for example paper, clothing, cloth etc. put into and hold the incasement and deposit after folding, take out the back and produce the fold easily again, need can resume leveling through handling again, can bring unnecessary for the user again troublesome.

In addition, during the storage process of the conventional goods shelf, the pressure of the stored goods on the goods shelf is concentrated on the upper supporting surface of the cross beam, so that the bearing capacity of the upper supporting surface of the goods shelf becomes an important factor for determining the bearing capacity of the goods shelf, and the goods shelf has to be disassembled, repaired or discarded due to the fact that the upper supporting surface is deformed by the gravity of the stored goods during the process of bearing the goods during the use process of the conventional goods shelf, thereby increasing the use cost and the maintenance cost.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a goods shelf, wherein goods shelf has at least one and puts the thing space, just goods shelf provides multiple goods storage mode to rationally plan put the thing space, improved goods shelf's utilization ratio.

Another object of the present invention is to provide a shelf, wherein the shelf can provide a way for hanging goods, so as to make full use of the space for placing goods and improve the utilization rate of the shelf.

Another object of the present invention is to provide a shelf, wherein the shelf provides a placing object and a suspension member, wherein the placing object can satisfy the requirement of the user to directly place a storage goods in the placing object, or place a storage goods in the stacking mode in the storage space, the suspension member is maintained in the placing object below, so as to satisfy the requirement of the user to place the storage goods in the storage space in the suspension mode, thereby improving the utilization rate of the storage space.

Another object of the present invention is to provide a shelf, wherein the shelf provides a beam, the suspension part is detachably disposed on the beam, and the user can selectively install or detach the suspension part according to his/her needs, so that the maximum utilization of the storage space is achieved, thereby the flexibility of the shelf is high, and the applicability is strong.

Another object of the present invention is to provide a shelf, wherein the shelf provides a column, the suspension part can be set up in the column, and the goods to be stored can be stored in the storage space in a manner exceeding the storage space, thereby enlarging the accommodation rate of the storage space, improving the practicability of the shelf.

Another object of the present invention is to provide a shelf, wherein the suspension member can be set on the column, and the height of the suspension member can be adjusted to meet the user's requirement of unused storage, thereby improving the flexibility of the shelf.

Another object of the present invention is to provide a shelf, wherein the suspension member further comprises a connecting member and a holding rod, the holding rod is detachably mounted to the connecting member, the connecting member is detachably mounted to the cross beam, and the suspension member is stably held below the holding member.

Another object of the present invention is to provide a shelf, wherein the connecting element and the object-holding rod are integrally formed, so that the stress concentration area formed on the connecting element is reduced, and the load-bearing capacity of the shelf during the process of hanging goods is improved.

Another object of the present invention is to provide a shelf, wherein the connecting element can be attached to the beam edge, so that the beam edge can be maintained in a complete structure, thereby improving the stability of the shelf.

Another object of the present invention is to provide a shelf, wherein the connecting element has a limiting groove, the limiting groove with hang pole looks adaptation to can make install in the limiting groove hang the difficult production rotation of pole, thereby avoid by hang the mode place in put in the object space wait to store goods landing.

Another object of the present invention is to provide a shelf, wherein the upper edge of the beam is bent downward to form a limiting groove, and the suspension member can be stably placed in the limiting groove, so that the assembly process is saved, and the labor cost is reduced.

Another object of the present invention is to provide a shelf, wherein the limiting groove can guide the suspension rod to be installed in the connecting element or separated from the connecting element, thereby saving the installation and disassembly time of the user.

Another object of the present invention is to provide a shelf, wherein the hanging part can be installed in the limit groove along the direction opposite to the extending direction of the limit groove, and can be taken out in the same direction as the extending direction of the limit groove, thereby facilitating the installation and the convenient detachment.

Another object of the present invention is to provide a shelf, wherein the suspension member includes a pulling element and a placing rod, the placing rod is disposed on the pulling element, the beam provides a pushing element, the pulling element can be attached to the beam the pushing element, and the placing rod receives downward force, the pushing element has a tendency of deformation, the pushing element can provide a force opposite to the direction of deformation, avoiding deformation of the pulling element when bearing heavy objects, thereby improving the load-bearing capacity of the suspension member of the shelf.

Another object of the present invention is to provide a shelf, wherein the shelf allows the user to install the shelf by hand, which not only requires less skill of the user, but also avoids the potential safety hazard of the user in the installation process of the tool.

Another object of the present invention is to provide a shelf, wherein the shelf includes a locking member, the locking member can be used for the assembly of the shelf, and the locking member has elasticity, and can satisfy the requirement of the user to go on by hand the assembly of the shelf saves the time of the user for installation.

Another object of the present invention is to provide a shelf, wherein the suspension member has a smooth surface, and the user can move the object stored in the storage space in a suspended manner, so as to store or search the goods.

Another object of the present invention is to provide a shelf, wherein the suspension member has at least one spacing through hole, the spacing through hole can make the mode that can hang store in the goods in the object holding space is kept at a fixed position, avoids the user to produce the slip and cause the mutual extrusion at the goods that the in-process that the storage or look for the goods is hung, has reduced the fragile article that is stored and is being collided and the damaged possibility of extruded in-process.

Another object of the utility model is to provide a goods shelf, wherein goods shelf is applicable to and hangs the goods, and the user can be quick place or tak the goods away, compares in traditional goods shelf, has simplified the process of depositing the goods, has shortened the time of access goods.

Another object of the present invention is to provide a shelf, wherein the shelf is adapted to hang goods, and is for storing in the goods of the shelf is clear at a glance, and the convenient user can find the target goods quickly, thereby saving the time for the user to access the goods.

Another object of the present invention is to provide a shelf, wherein the shelf is adapted to hang goods, so that the goods can be placed in the storage space in an extended manner, thereby preventing the goods from generating folds or being damaged in the storage process.

Another object of the present invention is to provide a shelf, wherein the shelf beam can bear large pressure, and is reduced to the dependence of the article placing member, thereby reducing the volume of the article placing member, and further reducing the article placing member occupies the article placing space, the amount of goods that the article placing space can bear is increased, and the utilization rate of the article placing space is improved.

Another object of the present invention is to provide a shelf, wherein the shelf is modified by the shelf beam, thereby improving the load carrying capacity of the shelf.

According to an aspect of the utility model, the utility model discloses a goods shelves is further provided, it includes:

at least one upright post;

at least one cross member, wherein the cross member is mounted to the column;

at least one placement object, wherein the placement object is mounted to the beam; and

at least one suspension member, wherein the suspension member is held below the placement object.

According to an embodiment of the present invention, the hanger is held below the placing member in such a manner as to be mounted to the beam.

According to an embodiment of the present invention, the hanger is held below the placement member in such a manner as to be mounted to the pillar.

According to an embodiment of the present invention, the suspension member includes at least one connecting element and a placement rod, the connecting element is fixed to the beam, the connecting element has a limiting groove, and the placement rod is detachably mounted in the limiting groove of the connecting element.

According to an embodiment of the present invention, the suspension member includes at least one connecting element and a placement rod, the connecting element is fixed to the pillar, the connecting element has a limiting groove, and the placement rod is detachably mounted in the limiting groove of the connecting element.

According to an embodiment of the present invention, the suspension member includes at least one connecting element and a storage rod, the connecting element is integrally formed with the storage rod, and the connecting element is detachably mounted on the cross beam.

According to an embodiment of the present invention, the suspension member includes at least one connecting element and a placement rod, the connecting element is integrally formed with the placement rod, and the connecting element is detachably mounted on the pillar.

According to an embodiment of the present invention, the connecting element has a curved extending direction of the limiting groove, and the connecting element can be attached to the edge of the cross beam.

According to an embodiment of the invention, the limiting groove of the connecting element has an extension direction perpendicular to the horizontal plane, and the cross beam has an opening in which the connecting element can be fixed.

According to an embodiment of the present invention, the beam has at least one limiting groove, and the suspension member is detachably mounted to the beam in the limiting groove.

According to the utility model discloses an embodiment, the crossbeam includes an at least first crossbeam and an at least second crossbeam, first crossbeam with the second crossbeam is installed adjacently with the interval the stand, first crossbeam with the second crossbeam includes a supporting subject, one goes up supporting bench and a supporting bench respectively, go up the supporting bench and the supporting bench is followed respectively the upper end and the lower extreme of supporting subject extend integratively, the flying piece set up in first crossbeam, the spacing groove is through with first crossbeam go up the inside bending type of supporting bench and form.

According to the utility model discloses an embodiment, the crossbeam includes an at least first crossbeam and an at least second crossbeam, first crossbeam with the second crossbeam is installed in adjacent with interval the stand, first crossbeam with the second crossbeam includes a supporting subject, one last supporting bench and a supporting bench respectively, go up the supporting bench and the supporting bench is followed respectively the upper end and the lower extreme of supporting subject extend integratively, the flying piece set up in first crossbeam, first crossbeam further includes a pair of extension arm, and is a pair of the extension arm is set up with interval, and is a pair of form between the extension arm the spacing groove.

According to an embodiment of the present invention, the extension arm is integrally formed at the lower supporting platform of the first beam and the supporting main body.

According to an embodiment of the present invention, the extension arm is detachably disposed in the first beam.

According to the utility model discloses an embodiment, first crossbeam the under bracing platform has two at least through-holes, and is a pair of the extension arm is installed respectively in two in the through-hole, and form between the extension arm the spacing groove.

According to an embodiment of the invention, the suspension element is mounted in a suspended manner to the beam.

According to the utility model discloses an embodiment, the crossbeam further includes an at least spacing arch, the flying piece have at least a pair ofly with the adaptation hole of spacing arch looks adaptation, it is a pair of the adaptation hole form respectively in the both ends of flying piece.

According to the utility model discloses an embodiment, the crossbeam still includes a hasp spare, the hasp spare can with the flying piece steadily keep in put the article below.

According to an embodiment of the invention, the placement object is implemented as a smooth elongated cylindrical structure.

According to the utility model discloses an embodiment, put the thing pole and further include one put the thing main part and an at least spacing main part, just put the thing pole and have a spacing through-hole, spacing main part extends downwards integratively put the thing main part, spacing through-hole runs through spacing main part.

According to the utility model discloses an embodiment, spacing main part evenly distribute in put the thing main part.

According to the utility model discloses an embodiment, put the thing pole and further include one put the thing main part and an at least spacing main part, just put the thing pole and have an at least spacing draw-in groove, spacing main part upwards extend in put the thing main part, and adjacent form between the spacing main part spacing draw-in groove.

According to the utility model discloses an embodiment, the flying piece includes one and pulls the component and one puts the thing pole, put the thing pole set up in pull the component, the crossbeam includes a support subject, one goes up supporting station and a top and ends the component, go up the supporting station and top and ends the supporting station respectively certainly the upper end and the lower extreme of support subject extend integratively, pull the component set up in the support subject, just it can laminate to pull the component the edge of top and ends the component.

According to an embodiment of the present invention, the shelf may further include at least one connecting device, and the connecting device is disposed on the vertical column.

Drawings

Fig. 1A and 1B are schematic perspective views of the shelf according to a preferred embodiment of the present invention, which show that the hanging member of the shelf is mounted on the beam.

Fig. 2 is an exploded view of the shelf according to the above preferred embodiment of the present invention.

Fig. 3A to 3C are schematic perspective views of the suspension member according to the above preferred embodiment of the present invention.

Fig. 4A is a schematic perspective view of the suspension member and the first beam according to the above preferred embodiment of the present invention.

Fig. 4B is a schematic side view of the suspension member and the first beam according to the above preferred embodiment of the present invention.

Fig. 4C is a schematic view illustrating an installation process of the suspension member and the first beam according to the above preferred embodiment of the present invention.

Fig. 5A is a perspective view of a modified embodiment of the suspension member and the first beam according to another preferred embodiment of the present invention.

Fig. 5B is a schematic side view of the suspension member and the first beam according to the above preferred embodiment of the present invention.

Fig. 5C is a schematic view illustrating an installation process of the suspension member and the first beam according to the above preferred embodiment of the present invention.

Fig. 6A is a perspective view of a suspension member and a variant embodiment of the first beam according to another preferred embodiment of the present invention.

Fig. 6B is a schematic side view of the suspension member and the first beam according to the above preferred embodiment of the present invention.

Fig. 6C is a schematic view illustrating an installation process of the suspension member and the first beam according to the above preferred embodiment of the present invention.

Fig. 7A and 7B are perspective views illustrating a modified embodiment of the suspension member and the first beam according to another preferred embodiment of the present invention.

Fig. 8A and 8B are perspective views illustrating a modified embodiment of the suspension member and the first beam according to another preferred embodiment of the present invention.

Fig. 9A and 9B are perspective views illustrating a modified embodiment of the suspension member and the first beam according to another preferred embodiment of the present invention.

Fig. 10A and 10B are perspective views illustrating a modified embodiment of the suspension member and the first beam according to another preferred embodiment of the present invention.

Fig. 11A shows an effort analysis of the cargo in the practical application of the cargo rack according to a preferred embodiment of the present invention.

Fig. 11B is a diagram illustrating an analysis of the acting force of the beam on the goods in practical application of the shelf according to another preferred embodiment of the present invention.

Fig. 12A is a schematic view of a connection structure between the third beam and the second beam according to a preferred embodiment of the present invention.

Fig. 12B is a schematic side view of the third beam and the second beam connection structure according to a preferred embodiment of the present invention.

Fig. 12C is a schematic view illustrating an installation process of the third beam installed on the second beam according to a preferred embodiment of the present invention.

Fig. 13A and 13B are schematic views of the locking member of the cross beam according to a preferred embodiment of the present invention.

Fig. 14A and 14B are schematic views illustrating a modified embodiment of the locking member according to a preferred embodiment of the present invention.

Fig. 15 is a perspective view of the shelf according to another preferred embodiment of the present invention, which shows that the hanging members of the shelf are mounted on the posts.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purposes of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

With reference to fig. 1A to 2 of the present specification, a shelf according to a preferred embodiment of the present invention will be explained in the following description. The shelf comprises at least one upright post 10, at least one cross beam 20, at least one object placing piece 30 and at least one suspension piece 40, the shelf is provided with at least one object placing space 50, the cross beam 20 is arranged adjacent to the upright post 20 and forms a three-dimensional structure, the object placing piece 30 is placed or fixed on the cross beam 20, and further the object placing space 50 is formed between the adjacent object placing pieces 30 which are placed up and down and is used for accommodating goods, and a user can place the goods to be stored in the object placing pieces 30 to receive the goods to be stored or place the goods to be stored in the object placing space 50 in a stacking mode. The hanging member 40 is held under the placing object 30 so that the goods to be stored can be placed in the accommodating space 50 in a hanging manner. The shelf can provide various goods storage modes to accommodate more goods, thereby improving the utilization rate of the storage space 50. In addition, the placement objects 30 share the weight of the objects stored in the placement space 50, and the dependence on the placement objects 30 is reduced, so that the storage capacity of the shelf can be secured and the volume of the placement objects 30 can be reduced, and the placement space 50 can be enlarged and the weight of the shelf can be reduced.

In this specific embodiment of the shelf, the suspension member 40 is detachably mounted to the beam 20, and the user can selectively mount the suspension member 40 to the beam 20 according to his/her needs, or separate from the beam 20, so as to conform to the volume and characteristics of the goods to be stored, thereby maximizing the utilization of the storage space 50, and making the shelf has high flexibility and strong applicability.

In other embodiments of the present invention, referring to fig. 15, the hanging member 40 is detachably installed on the column 10, the user stores the goods to be stored in the storage space 50 in a hanging manner, and the goods to be stored can be stored in the storage space 50 in a manner exceeding the placing member 40, so that the accommodation rate of the storage space 50 is increased, and the practicability of the shelf is improved.

As shown in fig. 2, the upright 10 includes a first support 11 and a second support 12, and the first support 11 integrally extends from the second support 12. Preferably, the second supporting member 12 is perpendicular to the first supporting member 11, so as to form a structure having an "L" shaped cross section, so that at least two cross beams 20 can be installed on the upright 10, thereby enhancing the supporting force of the cross beams 20 on the object 30 disposed on the cross beams 20. Preferably, the upright post 10 can be integrally formed by pressing or bending a plate, so as to reduce the stress concentration area formed on the upright post 10 and improve the load-bearing capacity and stability of the shelf in use. The specific structure of the column 10 is merely an example, and should not be construed as limiting the scope and content of the shelf of the present invention.

It should be mentioned that the bending line formed at the connecting position of the first supporting member 11 and the second supporting member 12 is consistent with the extending direction of the first supporting member 11 and the second supporting member 12. Therefore, when each upright post 10 cooperates with the shelf cross beam 20 and the article placing member 30 to form the shelf, each upright post 10 is vertically arranged, so that the first supporting member 11 and the second supporting member 12 can be subjected to vertical pressure, and at this time, the bending line between the first supporting member 11 and the second supporting member 12 can also function as a reinforcing rib, thereby ensuring the reliability and safety of each upright post 10 in the process of using the subsequently formed shelf.

Further, the first supporting member 11 and the second supporting member 12 have at least one limiting hole 13, and the limiting holes 13 are distributed at intervals on the first supporting member 11 and the second supporting member 12. Preferably, the limiting holes 13 formed on the first supporting member 11 and the second supporting member 12 are symmetrically distributed, so that the cross beams 20 fixed to the first supporting member 11 and the second supporting member 12 can be ensured to be on the same horizontal plane, and the placement object 30 can be horizontally placed, so as to prevent the goods stored on the placement object 30 from being inclined. It should be noted that the limiting holes 13 formed on the first supporting member 11 and the second supporting member 12 are distributed in the first supporting member 11 and the second supporting member 12 in a row. That is, the limiting holes 13 in each row have different heights, allowing a user to fix the cross beam 20 in the limiting holes 13 with different heights, so that the storage rack has the storage spaces 50 with different capacities, thereby facilitating the storage of goods with different sizes and improving the utilization rate of the storage rack.

It is worth mentioning that when the hanger 40 is held under the placement member 30 in such a manner as to be mounted to the upright 10. Preferably, the hanging member 40 can be installed to the adjacent second cradling member 11, so that a large accommodating space can be obtained. Alternatively, the suspension member 40 may be implemented to be mounted to the adjacent first supporter 11. Further, the hanging member 40 can be detachably mounted in the position-limiting hole 13 of the first supporting member 11 and/or the second supporting member 12, and the height of the position-limiting hole 13 can be selected according to the storage requirement of a user, so that the height of the hanging member 40 can be adjusted to adapt to the volume of the goods to be stored, thereby improving the flexibility and practicability of the shelf. It should be understood by those skilled in the art that the specific mounting position of the hanging member 40 is merely used as a reference and should not be construed as limiting the scope and content of the shelf of the present invention. The hanger 40 may also be implemented to be provided to both the beam 20 and the column 10.

With continued reference to fig. 2, the cross member 20 includes at least a first cross member 21, at least a second cross member 22 and at least a third cross member 23, the first cross member 21 and the second cross member 22 are mounted at intervals to the adjacent upright posts 10 to form a substantial frame of the shelf, the third cross member 23 is mounted to the second cross member 22 for enhancing the load-bearing capacity and stability of the shelf, and the placement members 30 are disposed on the first cross member 21, the second cross member 22 and the third cross member 23. Further, the first beam 21, the second beam 22 and the third beam 23 are located on the same horizontal plane, so that the placing object 30 can be placed or fixed on the beam 20 horizontally.

Preferably, the first support 11 and the second support 12 of one upright 10 are respectively capable of fixing at least one first cross beam 21 and at least one second cross beam 22. When the number of the first cross member 21 and the second cross member 22 is two and the number of the upright 10 is four, the first cross member 21 and the second cross member 22 are respectively attached to the upright 10, a substantially rectangular frame can be formed, the number of the third cross member 23 is one, and both ends of the third cross member 23 can be fixed to the second cross member 22. Those skilled in the art should understand that the shape of the shelf and the number of the first beam 21, the second beam 22, the third beam 23 and the upright 10 constituting the shelf are only examples and are not to be construed as a limitation of the present invention, and the shelf may be embodied in other shapes composed of other numbers of beams 20 and uprights 10, such as a triangle or an i-shape, etc.

Specifically, the first beam 21, the second beam 22 and the third beam 23 respectively include a support body 211 and an upper support table 212 and a lower support table 213, and the upper support table 212 and the lower support table 213 respectively integrally extend from the upper end and the lower end of the support body 211, thereby forming a stable structure. Both sides of the supporting body 211 of the first cross member 21 and the second cross member 22 are fixed to the first supporting member 11 and the second supporting member 12 of the column 10, respectively. The placing members 30 are mounted on the upper supporting tables 212 of the first, second and third beams 21, 22 and 23 for carrying goods, and the goods to be stored can be stored in the placing members 30 in a stacked manner, which is more suitable for long-term storage of goods. The hanging member 40 is installed on the supporting body 211 of the first beam 21, and the hanging member 40 is located below the third beam 23, so that a user can store goods in a hanging manner, the storage is convenient to access, and the goods shelf is more suitable for temporarily storing goods, so that the shelf can meet various requirements of the user.

Preferably, the upper support table 212 and the lower support table 213 are perpendicular to the support body 211. In other words, the extending directions of the supporting body 211 and the first supporting member 11 and the second supporting member 12 of the upright 10 are the same, so that the supporting body 211 can be attached to the first supporting member 11 and the second supporting member 12 during the installation process, thereby more firmly fixing the cross beam 20 to the upright 10, and enhancing the reliability of the shelf. Furthermore, the upper supporting table 212 and the lower supporting table 213 maintain a horizontal extending direction, so that the object 30 placed on the upper supporting table 212 can be kept parallel to the horizontal plane, thereby preventing goods stacked on the object 30 from being inclined or toppled to damage the goods or hurt operators, and further improving the safety performance of the shelf in the using process.

Preferably, the first cross member 21, the second cross member 22 and the third cross member 23 may be formed by pressing or bending a plate, so as to reduce the stress concentration area formed on the cross member 20, and improve the load-bearing capacity and stability of the shelf during use.

Referring to fig. 12A to 12C of the present disclosure, the second beam 22 has a positioning groove 221 for fixing the third beam 23 to the second beam 22, and the second beam 22 includes a positioning arm 222, and the positioning arm 222 is disposed on the supporting body 211 of the second beam 22. Preferably, the positioning arm 222 integrally extends from the support body 211 of the second cross member 22, and the positioning slot 221 penetrates through the positioning arm 222. Preferably, the positioning arm 222 may be integrally formed with the support body 211 in a stamping manner, thereby forming the positioning groove 221.

Correspondingly, the third beam 23 includes a positioning element 231, the positioning element 231 vertically extends to both sides of the support main body 211 of the third beam 23, the extending distance of the positioning element 231 is greater than the depth of the positioning slot 221, and the width of the positioning element 231 is slightly smaller than the width of the positioning slot 221, so that the positioning element 231 can pass through the positioning slot 221 and is not easy to slip from the positioning slot 221. Preferably, the positioning grooves 221 have a horizontal extending direction, and the third beam 23 moves horizontally, so that the positioning members 231 can be respectively clamped into the positioning grooves 221 of the second beam 22, which are oppositely arranged, so as to fix the third beam 23 to the second beam 22. And the width of the supporting body 211 of the third beam 23 is slightly smaller than that of the supporting body 211 of the second beam 22, so that the third beam 23 can smoothly slide between the upper supporting table 212 and the upper supporting table 213 of the second beam 22, and is fixed to the second beam 22, the upper supporting table 212 and the upper supporting table 213 can be respectively attached to the upper supporting table 212 and the upper supporting table 213 of the second beam 22, thereby increasing the bearing capacity of the beam 20, reducing the dependence on the object placing object, reducing the size of the object placing object, further reducing the object placing space occupied by the object placing object, increasing the amount of goods which can be borne by the object placing space, and improving the utilization rate of the object placing space.

It should be noted that the positioning groove 221 may also have an extending direction perpendicular to the horizontal plane, and the third beam 23 is inserted into the positioning groove 221 by vertically moving downward, so that the third beam 23 is fixed to the second beam 22.

Further, the support body 211 further has at least one positioning hole 2111, the size of the positioning hole 2111 is matched with the size of the limiting hole 13, and the position of the positioning hole 2111 corresponds to the position of the limiting hole 13. In this embodiment of the shelf of the present invention, the positioning holes 2111 are respectively distributed on both sides and a middle position of the supporting body 211, preferably, two positioning holes 2111 are respectively symmetrically formed on both sides, and one positioning hole 2111 is formed in the middle position. Specifically, the positioning holes 2111 on both sides are used for cooperating with the limiting holes 13 of the upright 10 to fix the beam 20 to the upright 10, and the positioning hole 2111 in the middle of the support body 211 is used for fixing the hanger 40. It should be noted that the positions and the number of the positioning holes 2111 are only examples, and are not to be construed as limiting the content and scope of the shelf of the present invention.

Furthermore, the beam 20 further comprises a locking member 24, and the locking member 24 is used for fixing the beam 20 to the column 10 or for fixing the hanging member 40 to the beam 20 and/or the column 10. Specifically, the locking element 24 can pass through the positioning hole 2111 and the limiting hole 13 and be fixed in the positioning hole 2111 and the limiting hole 13. As shown in fig. 13A to 14B, the locking member 24 includes a locking base 241, a locking member 242 and a locking member 243, and the locking member 24 has a locking space 244, the locking space 244 is formed between the locking member 243 and the locking base 241, and the locking member 24 can fix the beam 20 and the column 10 in the locking space 244 and also fix the suspension member 40 and the beam 20 in the locking space 244.

Specifically, the engaging element 242 integrally extends to the lock base 241, and the height of the engaging element 242 is slightly smaller than the distance between the locking element 243 and the lock base 241. Preferably, the distance between the locking element 243 and the locking base 241 is equal to the sum of the thicknesses of the plates forming the upright 10 and the cross beam 20. Further, the locking element 243 integrally extends to the engaging element 242, and forms a structure with a small top and a large bottom, the size of the top of the locking element 243 is smaller than the size of the positioning hole 2111 and the size of the limiting hole 13, and the size of the bottom of the locking element 243 is larger than the size of the positioning hole 2111 and the size of the limiting hole 13. It should be noted that the locking element 243 has elasticity, and is easily deformed when being pressed by an external force, and can be quickly restored to an initial position after the external force is removed. Specifically, during the installation process, the locking element 243 is pressed by the edge of the limiting hole 13 and/or the positioning hole 2111 to be deformed and reduced in volume, so that the locking element 243 can enter the limiting hole 13 and/or the positioning hole 2111; when the force applied to the edge of the position-limiting hole 13 and/or the positioning hole 2111 by the locking element 243 is reduced or eliminated, the locking element 243 becomes large, so that the locking element 24 can be automatically fixed in the position-limiting hole 13 and/or the positioning hole 2111, thereby mounting the beam 20 to the column 10 or mounting the hanger 40 to the beam 20 and/or the column 10. What is more worth mentioning is that, in the installation of whole goods shelves, need not to use other operation instrument, the user can bare-handed completion the installation of goods shelves not only requires lowly to user's proficiency, has avoided the potential safety hazard that the user exists in the use tool installation moreover.

Taking the fastener 24 as an example to connect the cross beam 20 and the upright post 10, when the top of the locking element 243 passes through the positioning hole 2111 of the supporting body 211 and the limiting hole 13 of the upright post 10, and when the diameter of the portion entering the positioning hole 2111 and the upright post 10 is larger than the diameter of the positioning hole 2111 and the upright post 10, the cross beam 20 and the upright post 10 press the locking element 243, so that the locking element 243 is deformed, and the volume of the locking element 243 is reduced, so as to allow the locking element 243 to pass through the positioning hole 2111 and the limiting hole 13 completely. When the bottom of the locking element 243 passes through the positioning hole 2111 and the limiting hole 13, the engaging element 242 enters the positioning hole 2111 and the limiting hole 13, the squeezing force applied to the locking element 243 disappears, the locking element 243 returns to the initial state under the action of elastic force, so that the locking element 24 is automatically fixed to the cross beam 20 and the column 10, and the cross beam 20 and the column 10 are fixed to the locking space 244. Preferably, the engaging element 242 is implemented as a square platform to prevent the locking member 24 located in the positioning hole 2111 and the limiting hole 13 from rotating, thereby improving the stability of the shelf. Further, the locking member 243 has a chamfered structure, so that the beam 20 and the column 10 can be guided into the locking space 244 during the installation process, thereby saving labor in installation.

Preferably, the cross section of the locking element 243 is implemented as a "W". In the embodiment shown in fig. 13A of the specification, the locking element 243 is implemented as two solid "W" intersecting structures. In the embodiment of the present invention shown in fig. 14A, the locking element 243 is implemented as a three-dimensional "W" structure. It will be appreciated by those skilled in the art that the specific configuration of the catch member 24 is merely exemplary and should not be construed as limiting the scope and content of the pallet and its cross member.

Alternatively, the cross beam 20 and the upright 10 may be connected by engaging with each other. The specific connection manner of the cross beam 20 and the upright 10 is only an example, and is not to be construed as limiting the content and scope of the shelf of the present invention.

Referring to fig. 2, the hanging member 40 includes a connecting member 41 and a placement rod 42, the connecting member 41 is fixed to the supporting body 211 of the first beam 21 of the beam 20, the placement rod 42 is mounted to the connecting member 41, and the placement rod 42 allows a user to hang goods in the placement space 50 of the shelf. It should be noted that the hanging member 40 may be mounted to the second beam 22, and the number of the hanging members 40 may be plural.

It should be noted that the specific shape of the object placing rod 42 is not limited, in this specific embodiment of the present invention, the object placing rod 42 is implemented as a smooth elongated cylindrical structure, which facilitates the user to move the object placed in the object placing space 50, so as to store or search for the goods. And the smooth storage rod 42 is not easy to generate wrinkles on the surface of the stored goods in the process of storing the goods. It should be understood by those skilled in the art that the specific shape of the utility pole 42 is not limited, and that the utility pole 42 may be implemented in other shapes, such as, but not limited to, a semi-circle, a square ellipse, a circle, etc. in cross-section of the utility pole 42.

In other embodiments of the present invention, referring to fig. 3A, the object placing rod 42 further includes an object placing main body 421 and at least one limiting main body 422, and the object placing rod 42 has a limiting through hole 423, the limiting main body 422 integrally extends downward to the object placing main body 421, the limiting through hole 423 runs through the limiting main body 422, the limiting through hole 423 can be stored in the object placing space 50 in a hanging manner, so that the goods are kept at a fixed position, and the situation that the goods hung in the process of storing or finding the goods by a user slide to cause mutual extrusion is avoided, and particularly, the stored goods are fragile goods and are easily damaged in the process of being collided and extruded. Preferably, the limiting bodies 422 are uniformly distributed on the storage body 421, so that goods to be stored can be orderly stored in the storage space 50. In some embodiments of the present invention, the limiting body 422 extends in a bending manner to the object placing body 421, and the annular limiting through hole 423 is formed between the object placing body 421 and the limiting body 422. Optionally, the position-limiting main body 422 may also be disposed on two sides of the storage main body 421. Alternatively, referring to fig. 3B, the limiting through hole 423 may be formed to penetrate the storage body 421. In the other embodiments of the present invention, referring to fig. 3C, the object placing rod 42 has at least one limiting slot 424, the limiting slot 424 can make the hanging mode stored in the object placing space 50, the goods are kept in the fixed position, the sliding of the goods hung in the process of storing or finding the goods by the user is avoided to cause mutual extrusion, and the limiting slot 424 is uniformly distributed in the object placing rod 42. Preferably, the limiting slot 424 is formed in the placement main body 421, and the upper surface of the placement main body 421 is recessed inwards to form the limiting slot 424. Preferably, the limiting main body 422 integrally extends upwards to the object placing main body 421, and the limiting clamping groove 424 is formed between the adjacent limiting main bodies 422.

Further, referring to fig. 4A to 4C, the connecting element 41 includes a connecting body 411 and a limiting wall 412, the connecting element 41 has a limiting groove 413, the limiting wall 412 extends to a side edge of the connecting body 411, and forms the limiting groove 413 with the connecting body 411, the object placing rod 42 is detachably placed in the limiting groove 413, and the connecting body is detachably disposed on the first beam 21. The limiting wall 412 has a predetermined width, and the length of the supporting rod 42 is slightly smaller than the distance between the two oppositely disposed first cross beams 21, so that the limiting wall 412 can support the object placing rod 42 placed in the limiting groove 413, and in addition, the limiting wall 412 has a certain hardness, so that the phenomenon that goods fall due to deformation after heavy object bearing is performed is avoided.

Preferably, the hanging member 40 is disposed between two opposite first beams 21 so that the maximum distance of the storage rod 42 can be obtained, and thus the goods suspended on the storage rod 42 can be seen at a glance for easy access. In addition, hang in the goods on putting the thing pole 42 can obtain wider extension space, avoid the storage in-process of goods to produce fold or damaged. Specifically, the connecting body 411 includes a connecting portion 4111, an extending portion 4112, and a suspending portion 4113, wherein the extending portion 4112 extends upward from the suspending portion 4113 in a curved manner and is connected to the connecting portion 4111. The connecting portion 4111 is fixed to the first beam 21 by the locking member 24.

Preferably, a horizontal distance between the connecting portion 4111 and the suspending portion 4113 is equal to a width of the lower support table 213. That is, when the connecting portion 4111 is fixed to the support body 211 of the first beam 21, and the connecting portion 4111 abuts against the support body 211, the extending portion 4112 can abut against the edge of the lower supporting platform 213, so that the lower supporting platform 213 can support the connecting element 41, and the connecting element 41 is prevented from being deformed after being subjected to a heavy load. In other words, the edge curve of the connecting element 41 completely fits the first supporting body 211, so that the first beam 21 can maintain a complete structure, the strength of the first beam 21 is enhanced, and the stability of the shelf is improved.

Preferably, the hanging portion 4113 of the connecting element 411 fixed to the first cross beam 21 is located below the first cross beam 21, and the object placing rod 42 placed on the connecting element 411 is always kept below the first cross beam 21, so that it is ensured that the object placing rod 42 installed in the limiting groove 413 does not affect the installation of the third cross beam 23, and a sufficient operating space is provided between the third cross beam 23 and the object placing rod 42, which is convenient for operating to hang or detach the goods.

Preferably, the width of the limiting groove 413 is slightly larger than the diameter of the object placing rod 42, so that the object placing rod 42 is convenient to mount and dismount, and the object placing rod 42 in the limiting groove 413 is not prone to shaking, and falling of goods is avoided. And the limit groove 413 can guide the object placing rod 42 to be installed on the connecting element 411 or separated from the connecting element 411. Specifically, the object placing rod 42 can be installed in the limiting groove 413 in a direction opposite to the extending direction of the limiting groove 413, and can be taken out in the same direction as the extending direction of the limiting groove 413, so that the object placing rod is easy to install and convenient to detach, the requirement on the proficiency of a user is low, and the operation time of the user can be saved.

Preferably, the connecting element 41 can be integrally formed by pressing or injection molding. Thereby reducing the stress concentration zone formed on the connecting member 41 and improving the load-bearing capacity and stability of the shelf during its use for hanging goods.

It is worth mentioning that in other embodiments of the shelf and the beam thereof, the connecting element 41 and the object-holding rod 42 of the suspension member 40 can be integrally formed, thereby reducing the stress concentration area formed on the suspension member 40, and improving the bearing capacity and stability of the shelf during the process of being used for storing goods in a suspended manner.

Referring to fig. 11A of the present disclosure, the goods can be placed in the storage space 50 in a manner of placing the article 30, and can also be stored in the storage space 50 in a manner of placing the article 40. Further, the upper supporting platforms 212 of the first beam 21, the second beam 22 and the third beam 23 of the beam 20 respectively generate upward supporting force F to the object 30₁Thereby providing an upward supporting force F for the cargo placed on the placing object 30₁. In addition, the supporting body 211 of the first beam 21 of the beam 20 provides an obliquely upward supporting force F to the connection member 41 of the hanger 40₂Further providing an upward inclined supporting force F for the goods suspended on the article holding rod 42 of the suspension member 40₂Said supporting force F₂Towards the outside of the support body 211 of the cross beam 20. At the same time, the support body 211 of the first cross member 21 provides an upward supporting force F to the connecting element 41₃Further providing another upward supporting force F for the goods suspended on the object-holding rod 42₃Said supporting force F₃Towards the inside of the support body 211 of the cross beam. In addition, the connecting member 41 of the hanger 40 provides an upward supporting force F to the storage bar 42₄To provide the goods placed on the rack bar 42Upward supporting force F₄. That is, the upper support table 212, the lower support table 213, the support body 211, and the connection member 41 of the hanger 40 of the shelf 20 can simultaneously provide different types and different directions of force to the goods stored in the storage space 50, and the weight of the objects stored in the storage space 50 is prevented from being concentrated on the upper support table 212, thereby reducing the stress of the goods stored in the storage space 50 to the upper support table 212 of the shelf 20 and reducing the possibility of deformation of the upper support table 212 during the storage of the goods, compared to the conventional shelf.

Further, the hanger 40 includes a pulling member 41 ', the storage bar 42 is disposed on the pulling member 41 ', and the pulling member 41 ' is mounted to the first beam 20. Further, the first beam 21 of the beam 20 comprises a top stop member 213 ', wherein the top stop member 213 ' integrally extends from the support body 211, the pulling member 41 ' is disposed on the support body 211, the pulling member 41 ' can be attached to an edge of the top stop member 214 of the first beam 20, and when the cargo is placed on the bar 42 in a hanging manner, the support body 211 of the first beam 21 of the beam 20 provides an upward inclined support force F to the pulling member 41 ' of the hanger 40₂Further providing an upward inclined supporting force F for the goods suspended on the article holding rod 42 of the suspension member 40₂Said supporting force F₂Towards the outside of the support body 211 of the cross beam 20. The article holding rod 42 and the pulling member 41 'are both subjected to the downward gravity of the goods suspended from the article holding rod 42, and at this time, the pulling member 41' has a tendency to deform downward and outward, and the abutting member 213 'can abut against the pulling member 41' and provide an upward inclined acting force F for the pulling member 41₃Said force F₃Towards the inside of the supporting body 211 of the cross member 20, the pulling element 214 is prevented from deforming under the weight of the loadThe weight of the goods hung by the hanging member 40 can be increased, and the load-carrying capacity of the shelf can be further increased.

In a preferred embodiment of the present invention, the placement member 30 is implemented as a placement plate, that is, the placement member 30 may be implemented as a one-piece flat plate. In other embodiments of the present invention, the placement member 30 may be implemented as a net, specifically, a net-shaped plane may be formed by weaving between the substantially rectangular frames formed by the plurality of columns 10 to subsequently allow goods to be placed thereon, so that the placement member 30 can not only bear heavier goods, but also save a lot of materials, thereby reducing the manufacturing cost of the shelf. It should be understood by those skilled in the art that the embodiment of the placing member 30 disclosed in the present invention is only for illustrative purpose so that those skilled in the art can better understand the spirit and content of the present invention, however, the above-disclosed embodiment of the placing member 30 is not intended to limit the content and scope of the present invention.

In the embodiment of the shelf of the present invention, the shelf may further include at least one connecting device 60, each of the connecting devices 60 allows a user to install two or more of the columns 10 together to extend the same, and in this way, the height of the shelf formed by each of the columns 10 and each of the shelf beams 20 in cooperation with the placement member 30 can be adjusted based on different use needs of the user, so that the height of the shelf is not limited to the length of the column 10, which not only facilitates the manufacture of the column 10 and guarantees the quality of the column 10, but also facilitates the transportation and storage of various accessories of the shelf in an uninstalled state. Specifically, the connecting device 60 is disposed on the vertically adjacent columns 10, and enables the vertically adjacent columns 10 to be firmly fixed together, so that the height of the shelf can be extended, thereby increasing the accommodation capacity of the shelf.

Referring to fig. 5A to 5C of the present invention, a modified embodiment of the first beam and the suspension member according to the above preferred embodiment of the present invention will be explained in the following description. The lower support base 213A of the first beam 21A has an opening 2131A, the opening 2131A is formed below the positioning hole 2111A of the first beam 21A, and the suspension 40A is fixed to the opening 2131A and the positioning hole 2111A.

Specifically, the hanger 40A includes a connecting member 41A and a placement rod 42A, the connecting member 41A is detachably mounted to the supporting body 211A of the first beam 21A of the beam 20A, the placement rod 42A is mounted to the connecting member 41A, and the placement rod 42A allows a user to hang goods in the placement space 50A of the shelf. It should be noted that the hanging member 40A may be mounted on the second beam 22, and the number of the hanging members 40A may be plural.

Further, the connecting element 41A includes a connecting body 411A and a limiting wall 412A, the connecting element 41A has a limiting groove 413A, the limiting wall 412A extends to the side edge of the connecting body 411A, and forms the limiting groove 413A with the connecting body 411A, and the object placing rod 42A is detachably placed in the limiting groove 413A. Preferably, the extending direction of the connecting body 41A is consistent with the extending direction of the supporting body 211A of the second beam 22A, and the width of the connecting body 411A is smaller than the width of the opening 2131A, so that the connecting element 41A can be snapped into the opening 2131A, and the connecting body 411A can be attached to the supporting body 211A of the second beam 22A. Preferably, the extending direction of the limiting groove 413A is perpendicular to the horizontal plane, and can be guided to move up and down for the user to install or detach the object placing rod 42A. The limiting wall 412A has a predetermined width, and the length of the supporting rod 42A is slightly smaller than the distance between the two oppositely disposed first beams 21A, so that the limiting wall 412A can support the object placing rod 42A placed in the limiting groove 413A, and in addition, the limiting wall 412A has a certain hardness, and deformation after bearing heavy objects is avoided, and thus the goods fall is avoided. Also, the manufacturing process of the connecting member 41A in which the extending direction of the stopper groove 413A is always identical to the extending direction of the support body 211A is relatively simple, so that the manufacturing cost of the shelf can be saved.

Preferably, the length of the connecting body 411A of the connecting element 41A is such that the object placing rod 42A installed in the limiting groove 413A is located below the second cross beam 222A, so as not to affect the installation of the third cross beam 23A, and a sufficient operating space is provided between the third cross beam 23A and the object placing rod 42A, which is convenient for the operation of hanging or detaching the goods.

Preferably, the width of the limiting groove 413A is slightly larger than the diameter of the object placing rod 42A, so that the object placing rod 42A is convenient to mount and dismount, and the object placing rod 42A located in the limiting groove 413A is not prone to shaking, and the falling of goods is avoided.

Preferably, the connecting element 41A can be integrally formed by pressing or injection molding. Thereby reducing stress concentration areas formed on the connecting members 41A and improving the load-bearing capacity and stability of the shelf during use for hanging goods.

It is worth mentioning that in other embodiments of the shelf and the beam thereof, the connecting element 41A and the object-holding rod 42A of the suspension member 40A can be integrally formed, thereby reducing the stress concentration area formed on the suspension member 40A, and improving the bearing capacity and stability of the shelf during the process of being used for storing goods in a suspended manner. When the goods are stored in the accommodating space 50B in a manner of being placed on the placing object 30B and in a manner of being placed on the hanging part 40A. The upper support table 212A and the support body 211A of the first cross member 21A, the second cross member 22A, and the third cross member 23A of the cross member 20A respectively generate an upward support force for the placement object 30A, and further generate an upward support force for the cargo placed on the placement object 30A. In addition, the supporting body 211A of the first beam 21B of the beam 20B generates an upward supporting force to the hanger 40A, and further generates an upward supporting force to an object suspended to the hanger 40A. That is, the supporting body 211A of the beam 20A of the shelf can simultaneously provide upward supporting force to the goods placed on the placing member 30 and the goods placed on the hanger 40A, respectively.

Referring to fig. 6A to 6C of the present invention, a modified embodiment of the first beam and the suspension member according to the above preferred embodiment of the present invention will be explained in the following description. The first beam 21B has at least one limiting groove 214B, and the limiting groove 214B is formed by bending the upper supporting platform 211B of the first beam 21B inward. Specifically, the upper support 211B of the first beam 21B extends from a horizontal extending direction toward the lower support 211B of the first beam 21B, and the limit groove 214B is formed. Preferably, the upper supporting platform 211B of the first beam 21B extends from a horizontal extending direction to a direction perpendicular to the lower supporting platform 211B of the first beam 21B, so as to form the square limiting groove 214B. The first hanging member 40B is implemented as a rod, and the hanging member 40B is detachably installed in the limiting groove 214B to satisfy the requirement of the user to hang the cargo on the container. It is worth mentioning that the number of the limiting grooves 214 may be implemented as a plurality, so that a plurality of the hanging members 40B may be installed to increase the capacity of hanging goods.

Preferably, the width of the limiting groove 214B is slightly larger than the diameter of the hanging member 40B, so that the hanging member 40B is convenient to mount and dismount, and the object placing rod 42B in the limiting groove 214B is not easy to shake, thereby avoiding falling of the goods.

Referring to fig. 7A and 7B, in another embodiment of the present invention, the first beam 21B further includes a pair of extension arms 215B, the extension arms 215B are integrally formed on the lower supporting base 213B and the supporting body 211B of the first beam 21B, and the limiting groove 214B is formed between the pair of extension arms 215B. Preferably, the extension arm 215B includes a first extension arm 2151B and a second extension arm 2152B, the first extension arm 2151B is integrally formed with the second extension arm 2152B and forms an "L" shaped structure, the first extension arm 2151B integrally extends from the lower support base 213B, and the second extension arm 2152B integrally extends from the support body 211B. Preferably, the second extension arm 2152B integrally extends vertically upward from the first extension arm 2151B and is connected to the upper support platform 212B, and can provide upward supporting force to the upper support platform 212, so that the load-bearing capacity of the first beam 21B is enhanced, and the practicability of the shelf is improved.

It should be noted that the first beam 21B can be made by bending a plate material, and the limiting arm 215B integrally and vertically extends from the plate material. Before bending the plate, the first extension arm 2151B and the second extension arm 2152B of the position-limiting arm 215B have the same extension direction. At least one bending line is determined on the plate material, the plate material is bent along the bending line, the upper support table 212B, the support main body 211B and the lower support table 213B are sequentially or simultaneously formed, in the process of bending the plate material, a right angle is gradually formed between the first extension arm 2151B and the second extension arm 2152B, and the limit groove 214B is formed between the first extension arm 2151B and the second extension arm 2152B. Preferably, the first cross member 21B may be made by punching the plate material so that the plate material is bent. It should be noted that the manufacturing method of the first beam 21B is only an example, and is not to be construed as limiting the content and scope of the shelf of the present invention.

It should be understood by those skilled in the art that the extension arm 215B may also be implemented to be detachably disposed on the first beam 21B. Specifically, referring to fig. 8A to 8B, the lower support base 213B of the first beam 21B has at least two through holes 2132B, a pair of extension arms 215B are respectively installed in the two through holes 2132B, and the limiting groove 214B is formed between the extension arms 215B. For example, the extension arm 215B can be implemented as, but not limited to, a combination of a bolt and a nut, and the user can insert the bolt through the through hole 2132 of the first beam 21B, and tighten the bolt to fix the bolt to the first beam 21B, thereby forming the limiting groove 214B between the two extension arms 215B after assembly.

Referring to fig. 11B of the present invention, the goods can be placed in the article placing space 50B in a manner of placing the article 30B, and can also be stored in the article placing space 50B in a manner of placing the hanger 40B. Further, the first beam 21B, the second beam 22B and the upper support 212B of the beam 20B generate an upward supporting force F on the object 30B respectively₁₁Thereby generating an upward supporting force F for the cargo placed on the placing object 30B₁. In addition, the lower support base 213B of the first beam 21B of the beam 20B generates an upward supporting force F to the hanger 40B₃And further generates an upward supporting force F to the object suspended on the suspension member 40B₃. That is, the upper support 212B and the lower support 213B of the beam 20 of the shelf can simultaneously provide a supporting force to the object stored in the storage space 50B, and compared to a conventional shelf, the weight of the object stored in the storage space 50B is prevented from being concentrated on the upper support 212B, so that the pressure of the goods stored in the storage space 50B on the upper support 212B of the beam 20B is reduced, and the possibility of deformation of the upper support 212B in the process of storing the goods is reduced.

With reference to the description of fig. 9A and 9B, another embodiment of the beam and the suspension member of the shelf according to the present invention will be explained in the following description, wherein the suspension member 40C can be mounted to the first beam 21C in a suspended manner. Specifically, the upper support platform 212C of the first beam 21C has an opening 2121C, the opening 2121C extends from the support body 211C of the first beam 21C to an outer edge of the upper support platform 212C, and the hanger 40C can be inserted into the opening 2121C. The hanger 40C includes a pair of connecting members 41C and a placement rod 42C, the placement rod 42C is disposed between the pair of connecting members 41C, and the pair of connecting members 41C can be attached to the two opposing first beams 21C in a suspended manner. Further, the connecting element 41C includes a supporting arm 411C, a supporting surface 412C and a hanging arm 413C, and the connecting element 41C has a hanging slot 414C, the supporting arm 411C and the hanging arm 413C integrally extend downward on both sides of the supporting surface 412C, respectively, and the hanging slot 414C is formed between the supporting arm 411C, the supporting surface 412C and the hanging arm 413C. The object holding rod 42C integrally extends from the supporting arm 411C of one of the connecting elements 41C of the pair of connecting elements 41C, and is connected to the supporting arm 411C of the other connecting element 41C. The width of the hanging groove 413C is adapted to the thickness of the supporting body 211C of the first beam 21C, so that the supporting body 211C can be inserted into the hanging groove 413C, and thus the hanger 40C can be stably fixed to the first beam 21C without easily sliding. In addition, the supporting arm 411C of the connecting element 41C can support the placing object 40C placed on the first beam 21C, thereby enhancing the carrying capacity of the shelf.

Referring to fig. 10A and 10B of the present invention, another embodiment of the cross member and the suspension member of the shelf of the present invention will be explained in the following description. The first beam 21D further includes at least one limiting protrusion 216D, the limiting protrusion 216D integrally extends upward from the lower support platform 213D, the suspension member 40D has at least one pair of fitting holes 41D, the pair of fitting holes 41D are respectively formed at two ends of the suspension member 40D, the shape and size of the fitting hole 41D are adapted to the limiting protrusion 216D, and the limiting protrusion 216D can pass through the fitting hole 41D, so that the suspension member 40D is fixed to the lower support platform 213D of the first beam 21, and the first beam 21D fixed to the lower support platform 213D is not easily slid, thereby preventing the goods suspended in the storage space 50D from sliding down to damage the stored goods. It should be understood by those skilled in the art that the limiting protrusion 216D may be implemented to be disposed on the suspension member 40D, and correspondingly, the adapting hole 41D is formed on the lower supporting platform 213D of the first beam 21D, and the specific embodiments of the first beam 213D and the suspension member 40D are only examples and should not be implemented to limit the content and scope of the shelf of the present invention.

According to another aspect of the present invention, the present invention further provides a method for assembling a shelf, wherein the method comprises the steps of:

(A) mounting at least one beam 20 on at least one column 10;

(B) mounting at least one placement object 30 on the beam 20; and

(C) is mounted to the cross member 20 in such a manner that at least one hanger 40 is held at a lower portion of the placement member 30 to assemble the shelf.

According to another aspect of the present invention, the present invention further provides a method for assembling a shelf, wherein the method comprises the steps of:

(a) mounting at least one beam 20 on at least one column 10;

(b) mounting at least one placement object 30 on the beam 20; and

(c) is mounted to the upright 10 in such a manner that at least one hanger 40 is held at a lower portion of the placement member 30 to assemble the shelf.

According to another aspect of the present invention, the present invention further provides a method for assembling a shelf, wherein the method comprises the steps of:

(i) mounting at least one beam 20 on at least one column 10;

(ii) mounting at least one placement object 30 on the beam 20; and

(iii) at least one hanger 40 is held to a lower portion of the placement member 30 to assemble the shelf.

Specifically, the step (iii) further comprises the steps of: at least one hanger is mounted to the beam in such a manner as to be held at a lower portion of the placement object. Specifically, at least one link member 41 of the hanger 40 is mounted to the beam, and a bar 42 of the hanger 40 is mounted to the link member 41, so that the hanger 40 is mounted to the beam 20 in such a manner as to be held at a lower portion of the placement object 30.

Optionally, the step (iii) further comprises the steps of: the hanging member 40 is mounted in a retaining groove 214B of the cross member 20 so that the hanging member 40 is mounted to the cross member 20 in such a manner as to be held at the lower portion of the placement member 30.

In other embodiments of the present invention, the step (iii) further comprises the steps of: at least one hanging member is mounted to the upright in such a manner as to be held at a lower portion of the placement member. More specifically, at least one connecting member of the hanger is mounted to the beam, and a rack bar of the hanger is mounted to the connecting member such that the hanger is mounted to the post in such a manner as to be held at a lower portion of the rack.

According to another aspect of the present invention, the present invention further provides a method for loading goods on a shelf, wherein the method for loading goods comprises the following steps:

(α) providing an upward supporting force for the cargo placed on a placement object 30 by an upper support table 212 of a cross member 20;

(β) providing an upward supporting force to the cargo suspended from a suspension 40 by a lower supporting stand 213 of a beam 20; and

(γ) providing an upward supporting force to the cargo placed on the hanger 40 and the object 30 by a supporting body 211 of a cross member 20.

According to another aspect of the present invention, the present invention further provides a method for loading goods on a shelf, wherein the method for loading goods comprises the following steps:

providing an upward supporting force to the cargo placed on a placement object 30 by an upper supporting table 212A and the supporting body 211A of a cross beam 20A; and

(II) providing an upward supporting force for the hanger 40A by a supporting body 211A of a beam 20A.

According to another aspect of the present invention, the present invention further provides a method for loading goods on a shelf, wherein the method for loading goods comprises the following steps:

(X) providing an upward supporting force for the cargo placed on a placing object 30 by an upper supporting table 212B of a cross beam 20B and the supporting body 211B; and

(Y) providing an upward supporting force to the cargo suspended from a suspension 40B by a lower support base 213B of a beam 20B.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (22)

1. A pallet, comprising:

at least one upright post;

at least two cross members, wherein the cross members are positioned between two of the columns and mounted to the columns;

at least one placement object, wherein the placement object is supported on the beam; and

at least one hanger, wherein the hanger comprises a placement rod, and the placement rod is held below the placement object in a manner of being mounted on the cross beam or the upright.

2. The rack of claim 1, wherein the hanger further comprises at least one connecting member, the connecting member is fixed to the beam, and the connecting member has a limit groove, and the storage bar is detachably mounted in the limit groove of the connecting member.

3. The rack of claim 1, wherein the suspension member further comprises at least one connecting member fixed to the post, the connecting member having a retaining groove, the storage rod being detachably mounted in the retaining groove of the connecting member.

4. The rack of claim 1, wherein the hanger further comprises at least one attachment element integrally formed with the storage bar and removably mounted to the cross-member.

5. The rack of claim 1, wherein the hanger further comprises at least one attachment member integrally formed with the storage pole and removably mounted to the post.

6. The pallet according to claim 2, wherein the limiting groove of the connecting element has a curved direction of extension and the connecting element can follow the edge of the cross beam.

7. The pallet according to claim 2, wherein the retaining groove of the connecting element has an extension perpendicular to the horizontal plane and the cross beam has an opening in which the connecting element can be fixed.

8. The rack of claim 1, wherein the beam has at least one retaining groove, and the hanger is removably mounted in the retaining groove of the beam.

9. The pallet according to claim 8, wherein the cross member comprises at least a first cross member and at least a second cross member, the first cross member and the second cross member being mounted at intervals to the adjacent columns, the first cross member and the second cross member respectively comprising a support body, an upper support platform and a lower support platform, the upper support platform and the lower support platform respectively integrally extending from upper and lower ends of the support body, the hanger being provided to the first cross member, the stopper groove being formed by bending the upper support platform of the first cross member inward.

10. The pallet of claim 8, wherein the cross member includes at least a first cross member and at least a second cross member, the first cross member and the second cross member being mounted at intervals to the adjacent columns, the first cross member and the second cross member respectively including a support body, an upper support platform and a lower support platform, the upper support platform and the lower support platform integrally extending from upper and lower ends of the support body, respectively, the hanger member being provided to the first cross member, the first cross member further including a pair of extension arms, the pair of extension arms being arranged at intervals, and the spacing groove being formed between the pair of extension arms.

11. The pallet of claim 10, wherein the extension arm is integrally formed with the lower support platform and the support body of the first beam.

12. The pallet of claim 10, wherein the extension arm is removably disposed to the first beam.

13. The pallet of claim 12, wherein the lower support platform of the first beam has at least two through holes, and a pair of the extension arms are respectively installed in the two through holes and form the limiting groove therebetween.

14. The rack of claim 1, wherein the hanger is mounted to the beam in a suspended manner.

15. The rack of claim 1, wherein the beam further comprises at least one limit protrusion, the suspension member has at least one pair of fitting holes adapted to the limit protrusion, and a pair of the fitting holes are formed at both ends of the suspension member, respectively.

16. The rack of claim 1, wherein the beam further comprises a latch member capable of stably retaining the hanger member beneath the item of merchandise.

17. The rack of claim 6, wherein the placement members are implemented as smooth elongated cylindrical structures.

18. The shelf according to claim 6, wherein the placement rod further comprises a placement body and at least one limiting body, the placement rod has a limiting through hole integrally extending downward from the placement body, and the limiting through hole penetrates through the limiting body.

19. The rack of claim 18, wherein the restraining bodies are evenly distributed over the placement bodies.

20. The rack of claim 6, wherein the placement rod further comprises a placement body and at least one limiting body, and the placement rod has at least one limiting slot integrally extending upward from the placement body, and the limiting slot is formed between adjacent limiting bodies.

21. The pallet of claim 1, wherein the hanger further comprises a pulling member, the article bar is disposed to the pulling member, the cross member comprises a support body, an upper support ledge and a top stop member, the upper support ledge and the top stop ledge integrally extend from upper and lower ends of the support body, respectively, the pulling member is disposed to the support body, and the pulling member is capable of engaging an edge of the top stop member.

22. The pallet of claim 1, wherein the pallet further comprises at least one connecting device disposed above and below the adjacent posts.