CN216221000U - Concatenation formula panel load-carrying members and contain its show stand - Google Patents

Abstract

The utility model discloses a spliced plate bearing structure and a display stand comprising the same, wherein the spliced plate bearing structure comprises: the bearing plates are distributed in an annular array manner, and an accommodating cavity is formed among the bearing plates in a surrounding manner; the connecting plate is arranged in the accommodating cavity, and the side walls of the periphery of the connecting plate are spliced with the first bearing plates; the bearing platforms are arranged at the top and the bottom of the first bearing plate and spliced with the first bearing plate; the second bearing plate is arranged at the position of the peripheral side of the bearing platform and surrounds the bearing platform and the two side walls of the bearing platform which are spliced in an annular array manner. The utility model solves the problems that the existing spliced plate bearing structure is complex in structure, so that the product quality is high, or the structure is too simple, so that the bending resistance is low, and the bearing capacity is poor.

Description

Concatenation formula panel load-carrying members and contain its show stand

Technical Field

The utility model relates to the technical field of plate bearing structures, in particular to a spliced plate bearing structure and a display stand comprising the same.

Background

With the continuous development of society, the living standard of people is gradually improved, and the demand on the interior decoration home industry is higher and higher. Compared with the traditional indoor decoration home furnishing which mainly has practicability, the indoor home furnishing concept of the people is gradually changed into the concept of both practicability and pursuing the artistic, simple and beautiful idea.

In order to deal with the new consumption concept and aesthetic concept of people, the interior decoration home has gradually derived a lot of creative home, wherein the creative home product spliced by the plates is rather valued in the creative home product due to the characteristics of low cost, various structures and convenient and fast assembly and disassembly.

At present, most of plate assembled creative homes on the market need to be provided with a load-bearing structure to improve the structural stability of products, but the design of the existing load-bearing structure is not reasonable. In one case, a large number of plates are designed to be spliced to form a bearing structure, so that the overall mass of a product is large, and the advantage that the product is lighter compared with other products is lost by adopting a plate splicing type product; the other condition is that a small amount of plates are spliced to form a bearing structure, the light and convenient advantage of a plate splicing type product is kept, but the bending resistance of the structure is low, the bearing capacity is poor, so that the product cannot bear excessive articles, and the bearing structure is easy to deform after being used for a long time, so that the use experience of a user is influenced.

Therefore, there is a need to develop a spliced plate load-bearing structure that can not only retain the advantage of more lightweight of the spliced plate product, but also ensure that the load-bearing structure has higher bending resistance and load-bearing capacity, and solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a spliced plate bearing structure and a display stand comprising the same, and aims to solve the problems that the existing spliced plate bearing structure is complex in structure, so that the product quality is high, or the structure is too simple, so that the bending resistance is low, and the bearing capacity is poor.

In order to achieve the purpose, the specific implementation scheme of the spliced plate load-bearing structure provided by the utility model is as follows:

a spliced panel load bearing structure comprising:

the bearing plates are distributed in an annular array manner, and an accommodating cavity is formed among the bearing plates in a surrounding manner;

the connecting plate is arranged in the accommodating cavity, and the side walls of the periphery of the connecting plate are spliced with the first bearing plates;

the bearing platforms are arranged at the top and the bottom of the first bearing plate and spliced with the first bearing plate;

the second bearing plate is arranged at the position of the peripheral side of the bearing platform and surrounds the bearing platform and the two side walls of the bearing platform which are spliced in an annular array manner.

As a further improvement of the present invention, the first bearing plate is provided with a first insertion groove, the side walls of the periphery of the connecting plate are provided with first insertion blocks extending outward, and the first insertion blocks are inserted into the first insertion grooves.

At present, most of plate assembled creative homes on the market need to be provided with a load-bearing structure to improve the structural stability of products, but the design of the existing load-bearing structure is not reasonable. In one case, a large number of plates are designed to be spliced to form a bearing structure, so that the overall mass of a product is large, and the advantage that the product is lighter compared with other products is lost by adopting a plate splicing type product; the other condition is that a small amount of plates are spliced to form a bearing structure, the light and convenient advantage of a plate splicing type product is kept, but the bending resistance of the structure is low, the bearing capacity is poor, so that the product cannot bear excessive articles, and the bearing structure is easy to deform after being used for a long time, so that the use experience of a user is influenced.

Compared with the prior art, the plate bearing structure during splicing has the advantages that the plurality of first bearing plates are distributed in an annular array manner, the first bearing plates surround to form the accommodating cavity, the connecting plate is arranged in the accommodating cavity, and at least one first bearing plate is spliced on each side wall of the periphery of the connecting plate, so that all the first bearing plates are connected together, the stability and the bearing capacity of the first bearing plates during use are improved, and the advantage that the spliced plate bearing structure is light is kept; the bearing platforms are arranged at the top and the bottom of the first bearing plate, so that the stability and the bearing capacity of the first bearing plate are further improved, and the stability of the bearing platform is ensured by utilizing a plurality of second bearing plates on the peripheral sides of the bearing platform. The split joint type plate bearing structure has the advantages of simple structure, convenience and quickness in disassembly and assembly, strong bearing capacity, high bending resistance and light weight, and effectively solves the problems that the existing split joint type plate bearing structure is complex in structure and large in product quality, or the structure is too simple and the bending resistance is low and the bearing capacity is poor.

A spliced panel load bearing structure comprising:

a plurality of first bearing plates are distributed in an annular array; two adjacent first bearing plates are spliced with each other;

the bearing platforms are arranged at the top and the bottom of the first bearing plate and spliced with the first bearing plate;

the second bearing plate is arranged at the position of the peripheral side of the bearing platform and surrounds the bearing platform and the two side walls of the bearing platform which are spliced in an annular array manner.

As a further improvement of the present invention, a plurality of clamping blocks are disposed on two sides of the first bearing plate at regular intervals, a clamping groove is formed between the clamping blocks, two adjacent first bearing plates are disposed in an inverted manner, and the clamping blocks on the side portions of the first bearing plates are clamped into the clamping grooves of the adjacent first bearing plates.

As a further improvement of the utility model, a plurality of second inserting grooves distributed in an annular array with the center of the bearing platform are formed in the bearing platform, second inserting blocks are arranged at two ends of the first bearing plate, and the second inserting blocks at two ends of the first bearing plate are respectively inserted into the second inserting grooves of the two bearing platforms.

As a further improvement of the utility model, at least two first clamping grooves are formed in the peripheral side wall of the bearing platform, two second clamping grooves are formed in the second bearing plate, and the second clamping grooves are spliced with the first clamping grooves.

A display platform comprises a display platform and a bottom plate, wherein a spliced plate bearing structure is arranged between the display platform and the bottom plate, a plurality of insertion plates are arranged at the bottom of the display platform, and the bottoms of the insertion plates are inserted into the bearing platform at the top of the spliced plate bearing structure; the bottom of the first bearing plate and the bottom of the second bearing plate of the spliced plate bearing structure penetrate through the bearing platform at the bottom of the spliced plate bearing structure and are inserted into the bottom plate.

Based on the technical scheme, compared with the prior art, the utility model has the following beneficial effects:

1. through set up the first grafting piece of outside extension on the lateral wall all around at the connecting plate, set up first inserting groove on first bearing plate, the mode that utilizes first grafting piece to insert first inserting groove is connected into a holistic load-carrying members with all first bearing plates through the connecting plate, can prevent that first bearing plate from producing the condition emergence of rocking when using, connected mode is simple, the dismouting is convenient, and can improve the stability of first bearing plate, anti bending property and bearing capacity.

2. The second inserting blocks are arranged at the positions of the top and the bottom of the first bearing plate, the bearing platforms are provided with a plurality of second inserting grooves which are arranged in a ring array mode and matched with the first bearing plate, and the two bearing platforms are respectively fixed at the top and the bottom of the first bearing plate by utilizing the mode that the second inserting blocks are inserted into the second inserting grooves, so that the first bearing plate is further prevented from shaking when in use; the connection mode is simple, connects firmly, and the dismouting is convenient, further improves the structural stability, anti bending capability and the bearing capacity of first bearing plate.

3. Through set up two at least first joint grooves on the week lateral wall at the bearing platform, set up two at least second card festival grooves that correspond the bearing platform setting on the second bearing plate, utilize the mutual concatenation in first joint groove and second joint groove, fix the second bearing plate on the week lateral wall of bearing platform, and then improve the structural stability of bearing platform, avoid producing the condition emergence of rocking when using, the connected mode is simple, connect firmly, the dismouting is convenient, improve the holistic structural stability of bearing structure, anti bending capacity and bearing capacity.

Drawings

FIG. 1 is a schematic structural view of a first load-bearing structure of the present invention;

FIG. 2 is an exploded view of FIG. 1 of the present invention;

FIG. 3 is a schematic structural view of a second load-bearing structure of the present invention;

FIG. 4 is an exploded view of FIG. 3 of the present invention;

FIG. 5 is a schematic structural view of a display stand according to the present invention;

fig. 6 is an exploded view of fig. 5 of the present invention.

Detailed Description

The utility model relates to a spliced plate load-bearing structure and a display stand comprising the same, which are described with reference to the accompanying drawings.

Example 1:

as shown in fig. 1-2, a spliced plate load-bearing structure includes a plurality of first load-bearing plates 1 distributed in an annular array, all the first load-bearing plates 1 surround to form a containing cavity 11, the containing cavity 11 is provided with a connecting plate 2, the first load-bearing plates 1 are spliced on the peripheral side wall of the connecting plate 2, and all the first load-bearing plates 1 are connected into an integral load-bearing structure.

The side walls of the periphery of the connecting plate 2 are provided with first inserting blocks 21 extending outwards, the first bearing plate 1 is provided with first inserting grooves 13, and the connecting plate 2 is inserted into the first inserting grooves 13 through the first inserting blocks 21 and connected with the first bearing plate 1.

The top and bottom two ends of the first bearing plate 1 are connected with bearing platforms 3, and the bearing platforms 3 are spliced with the first bearing plate 1.

Specifically, the top and bottom of the first bearing plate 1 are provided with second plugging blocks 12 at both ends, the bearing platform 3 is provided with a plurality of second plugging grooves 31, the second plugging grooves 31 correspond to the arrangement mode of the first bearing plate 1 and are arranged on the bearing platform 3 in an annular array mode by using the center of the bearing platform 3, and the bearing platform 3 is inserted into the second plugging grooves 31 through the second plugging blocks 12 of the first bearing plate 1 and is connected with the first bearing plate 1.

Wherein, the week side of bearing platform 3 is equipped with the centre on bearing platform 3 is a plurality of second bearing plates 4 that the annular array distributes, the both ends of second bearing plate 4 respectively with be located 1 tops of first bearing plate to and be located the 3 concatenations of bearing platform of 1 bottoms of first bearing plate.

Specifically, at least two first joint grooves 32 have been seted up on the week side of bearing platform 3, two second joint grooves 41 have been seted up on second bearing plate 4, utilize the concatenation in first joint groove 32 and second joint groove 41, go into two bearing platform 3's lateral wall with the both ends card of second bearing plate 4.

Preferably, the first clamping grooves 32 are symmetrically arranged, so that the structural balance and stability of the bearing platform 3 are improved.

Of course, the side wall of the load-bearing platform 3 may be provided with more than two first clamping grooves 32, as long as the first clamping grooves 32 on the side wall are symmetrically arranged with the midpoint of the side wall.

Preferably, the first bearing plate 1 is distributed in a circular array to form a rectangular structure, and then, it is understood that at least four first bearing plates 1 are arranged to form a rectangular structure.

Of course, the first bearing plate 1 may be distributed in a circular array to form a triangular structure, and it is understood that the bearing platform is also required to be cooperatively arranged in a triangular shape in order to maintain the bending resistance and the bearing capacity of the whole structure.

It will be understood that when the length of the second bearing plate 4 is longer, at least one second connecting plate (not shown) for connecting all the second bearing plates 4 on the same side together, improving the bending resistance and the load-bearing capacity of the second bearing plates 4, and a corner plate (not shown) for connecting all the second bearing plates 4 with the second connecting plates on both sides integrally can be arranged on the second bearing plate 4.

The spliced plate bearing structure can be used for different indoor decoration homes, such as supporting legs of tables, cabinets, stools or tea tables.

Example 2:

as shown in fig. 3-4, a spliced plate load-bearing structure includes two load-bearing platforms 3, a plurality of first load-bearing plates 1 arranged in an annular array are disposed between the two load-bearing platforms 3, the top of each first load-bearing plate 1 is spliced with the load-bearing platform 3 located at the top thereof, and the bottom of each first load-bearing plate 1 is spliced with the load-bearing platform 3 located at the bottom thereof.

Specifically, the top and bottom of the first bearing plate 1 are provided with second plugging blocks 12 at both ends, the bearing platform 3 is provided with a plurality of second plugging grooves 31, the second plugging grooves 31 correspond to the arrangement mode of the first bearing plate 1 and are arranged on the bearing platform 3 in an annular array mode by using the center of the bearing platform 3, and the bearing platform 3 is inserted into the second plugging grooves 31 through the second plugging blocks 12 of the first bearing plate 1 and is connected with the first bearing plate 1.

The two sides of the first bearing plate 1 are provided with a plurality of clamping blocks 14 which are arranged at even intervals, and clamping grooves 15 are formed between the clamping blocks 14.

Further, two adjacent first bearing plates 1 are arranged in an inverted manner, so that the clamping block 14 on one side portion of one of the two adjacent first bearing plates 1 can be inserted into the clamping groove 15 on the other side portion of the first bearing plate 1, and the two adjacent first bearing plates 1 are connected in an arc-shaped splicing manner to form a rectangular bearing structure.

Of course, the first bearing plate 1 may be distributed in a circular array to form a triangular structure, and it is understood that the bearing platform is also required to be cooperatively arranged in a triangular shape in order to maintain the bending resistance and the bearing capacity of the whole structure.

Wherein, the week side of bearing platform 3 is equipped with the centre on bearing platform 3 is a plurality of second bearing plates 4 that the annular array distributes, the both ends of second bearing plate 4 respectively with be located 1 tops of first bearing plate to and be located the 3 concatenations of bearing platform of 1 bottoms of first bearing plate.

Specifically, at least two first joint grooves 32 have been seted up on the week side of bearing platform 3, two second joint grooves 41 have been seted up on second bearing plate 4, utilize the concatenation in first joint groove 32 and second joint groove 41, go into two bearing platform 3's lateral wall with the both ends card of second bearing plate 4.

Preferably, the first clamping grooves 32 are symmetrically arranged, so that the structural balance and stability of the bearing platform 3 are improved.

Of course, the side wall of the load-bearing platform 3 may be provided with more than two first clamping grooves 32, as long as the first clamping grooves 32 on the side wall are symmetrically arranged with the midpoint of the side wall.

It will be understood that when the length of the second bearing plate 4 is longer, at least one second connecting plate (not shown) for connecting all the second bearing plates 4 on the same side together, improving the bending resistance and the load-bearing capacity of the second bearing plates 4, and a corner plate (not shown) for connecting all the second bearing plates 4 with the second connecting plates on both sides integrally can be arranged on the second bearing plate 4.

The spliced plate bearing structure can be used for different indoor decoration homes, such as supporting legs of tables, cabinets, stools or tea tables.

Example 3:

as shown in fig. 5 to 6, a display stand comprises a display platform 5 and a bottom plate 6, wherein the spliced plate load-bearing structure of embodiment 1 or embodiment 2 is arranged between the display platform 5 and the bottom plate 6.

Specifically, the bottom of the display platform 5 is provided with a plurality of plugboards 51, the bottoms of the plugboards 51 are inserted into the bearing platform 3 at the top of the spliced plate bearing structure, and the display platform 5 is fixedly arranged at the top of the spliced plate bearing structure and used for containing displayed articles.

Furthermore, the plugboard 51 is disposed at four corners of the bottom of the display platform 5, and is inclined from top to bottom toward the center of the display platform 5.

Furthermore, a plurality of the plugboards 51 are arranged at four corners of the bottom of the display platform 5, so as to form a plurality of groups of plugboards 51 which are distributed in an annular array by taking the display platform 5 as a center.

Correspondingly, in order to enable the insertion board 51 to be inserted into the bearing platform 3, a plurality of installation grooves 33 are formed on the bearing platform 3.

Further, the mounting groove 33 is disposed at a side portion of the second insertion groove 31 and is communicated with the second insertion groove 31.

Specifically, the bottoms of the first bearing plate 1 and the second bearing plate 4 are inserted into the bottom plate 6, and the bottom plate 6 is fixed at the bottom position of the spliced plate bearing structure.

Further, a plurality of first cell bodies 61 and second cell bodies 62 have been seted up to the position department that corresponds on the bottom plate 6 first bearing plate 1 and second bearing plate 4, first cell body 61 and second cell body 62 all are the annular array with the center of bottom plate 6 and distribute, just second cell body 62 centers on first cell body 61 sets up, first bearing plate 1 inserts in the first cell body 61, the bottom of second bearing plate 4 inserts in the second cell body 62.

The second bearing plates 4 are at least provided with a second connecting plate 42 which connects all the second bearing plates 4 on the same side together, and when two adjacent second connecting plates 42 are arranged on the same side, the two second connecting plates 42 are locked and connected through a first connecting plate 43 to form an integral structure.

Furthermore, the two side portions of the second connecting plates 42 on two adjacent sides are locked and connected by the second connection 44 to form an integral structure, so as to connect all the second bearing plates 4 on the peripheral side together, thereby improving the bearing capacity and the bending resistance of the second bearing plates 4.

The spliced plate bearing structure and the display stand comprising the same have the advantages of simple structure, convenience in disassembly and assembly, strong bearing capacity, high bending resistance and light weight, and effectively solve the problems that the existing spliced plate bearing structure is complex in structure, so that the product quality is high, or the structure is too simple, so that the bending resistance is low, and the bearing capacity is poor.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, which fall within the scope and spirit of the above description. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and variations of the present invention should fall within the scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (7)

1. A spliced plate load-bearing structure is characterized by comprising:

the bearing device comprises a plurality of first bearing plates (1) which are distributed in an annular array, and accommodating cavities (11) are formed among the first bearing plates (1) in a surrounding manner;

the connecting plate (2) is arranged in the accommodating cavity (11), and the side walls of the periphery of the connecting plate (2) are spliced with the first bearing plates (1);

the bearing platforms (3) are arranged at the top and the bottom of the first bearing plate (1) and are spliced with the first bearing plate (1);

the second bearing plate (4) is arranged at the position of the peripheral side of the bearing platform (3) and surrounds the bearing platform (3) in an annular array distribution mode and is spliced with the side walls of the bearing platform (3).

2. The spliced plate load-bearing structure according to claim 1, wherein the first load-bearing plate (1) is provided with a first insertion groove (13), the side walls of the periphery of the connecting plate (2) are provided with first insertion blocks (21) extending outwards, and the first insertion blocks (21) are inserted into the first insertion grooves (13).

3. A spliced plate load-bearing structure is characterized by comprising:

a plurality of first bearing plates (1) are distributed in an annular array; two adjacent first bearing plates (1) are spliced with each other;

the bearing platforms (3) are arranged at the top and the bottom of the first bearing plate (1) and are spliced with the first bearing plate (1);

the second bearing plate (4) is arranged at the position of the peripheral side of the bearing platform (3) and surrounds the bearing platform (3) in an annular array distribution mode and is spliced with the side walls of the bearing platform (3).

4. The spliced plate load-bearing structure according to claim 3, wherein a plurality of clamping blocks (14) are arranged at equal intervals on two sides of the first load-bearing plate (1), clamping grooves (15) are formed between the clamping blocks (14), two adjacent first load-bearing plates (1) are arranged in an inverted manner, and the clamping blocks (14) on the side portions of the first load-bearing plates (1) are clamped into the clamping grooves (15) of the adjacent first load-bearing plates (1).

5. The spliced plate bearing structure according to claim 1 or 3, wherein the bearing platform (3) is provided with a plurality of second insertion grooves (31) distributed in an annular array with the center of the bearing platform (3), the two ends of the first bearing plate (1) are provided with second insertion blocks (12), and the second insertion blocks (12) at the two ends of the first bearing plate (1) are respectively inserted into the second insertion grooves (31) of the two bearing platforms (3).

6. The spliced plate load-bearing structure according to claim 1 or 3, wherein the peripheral side wall of the load-bearing platform (3) is provided with at least two first clamping grooves (32), the second load-bearing plate (4) is provided with two second clamping grooves (41), and the second clamping grooves (41) are spliced with the first clamping grooves (32).

7. A display stand, characterized by comprising a display platform (5) and a bottom plate (6), wherein the spliced plate bearing structure of claim 1 or claim 3 is arranged between the display platform (5) and the bottom plate (6), the bottom of the display platform (5) is provided with a plurality of plug boards (51), and the bottoms of the plug boards (51) are inserted into the bearing platform (3) at the top of the spliced plate bearing structure; the bottom of a first bearing plate (1) and the bottom of a second bearing plate (4) of the spliced plate bearing structure penetrate through a bearing platform (3) located at the bottom of the spliced plate bearing structure and are inserted into the bottom plate (6).

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