ASSEMBLY OF BOTTOM PLATE AND WALL PANEL

Description

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims priority of Chinese Patent Application No. 2024231022222 entitled “REINFORCING STRUCTURE OF TOOLSHED” filed on Dec. 16, 2024, Chinese Patent Application No. 2024231022275 entitled “CONNECTING STRUCTURE BETWEEN WALL PANELS” filed on Dec. 16, 2024, Chinese Patent Application No. 2024231022326 entitled “CONNECTING STRUCTURE OF BOTTOM PLATE AND WALL PANEL” filed on Dec. 16, 2024, Chinese Patent Application No. 2024231022294 entitled “FULLY ASSEMBLED STORAGE ROOM” filed on Dec. 16, 2024, and Chinese Patent Application No. 202423102235X entitled “WALL-CORNER CONNECTING STRUCTURE” filed on Dec. 16, 2024, which are incorporated herein by reference.

TECHNICAL FIELD

The disclosure relates to the technical field of toolsheds, in particular to an assembly of a bottom plate and a wall panel.

BACKGROUND ART

A toolshed may be provided in outdoor scenes, and various temporary appliances, including various agricultural tools or maintenance equipment, cam be placed in the toolshed.

A conventional toolshed is fixed and mounted by splicing wall panels, which facilitates rapid disassembly and separation of a house. However, for a joint of a wall panel and a floor, workers need to uprise the wall panel and then connecting it slowly, which has low efficiency, poor connection effect, complicated structure and poor mounting and fixation effect, thus affecting normal use.

SUMMARY

Object of the disclosure: an object of the disclosure is to provide an assembly of a bottom plate and a wall panel, which solves problems of a weak joint between a wall panel and a floor and complicated mounting.

Solution

An assembly of a bottom plate and a wall panel includes a wall panel and a floor. The wall panel and the floor are detachably linked to each other, and a side of one of the wall panel and the floor is provided with a plurality of bumps for connection, and a side of the other of the wall panel and the floor is provided with a connecting bar connected with the bumps, and the connecting bar is provided with a plurality of connecting grooves, and the plurality of bumps are spliced with the plurality of connecting grooves.

Preferably, each of the plurality of bumps is provided with a locking part for connection.

Preferably, the locking part includes an embedding block, and the embedding block is connected with the bump.

Preferably, a positioning groove is respectively provided at front and rear walls of the bump, and the locking part is located in the positioning groove.

Preferably, a side wall of the positioning groove penetrates through the bump.

Preferably, a clamping block is provided at a side wall of the connecting groove, and when the wall panel is connected with the floor, the clamping block is embedded in the positioning groove.

Preferably, an embedding groove for accommodating the locking part is provided on an end face of the clamping block.

Preferably, a lower side of the locking part is an arc surface, and an upper side of the locking part is a horizontal surface.

Preferably, a reinforcing groove for connection is provided on an upper end face of the floor.

Beneficial effect: splicing and matching of the wall panel and the floor are realized through the connecting bar and the bumps, and quick connection is realized; the connecting bar and the bumps can be adjusted and set according to use requirements. The wall panel and the floor can be respectively installed with the connecting bar or the bumps, so that the splicing can be more convenient, and there is no need to turn over and support the wall panel, and the wall panel can be supported after connection is completed.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic view of an overall structure according to the disclosure;

FIG. 2 is a schematic structural view of a wall panel according to the disclosure;

FIG. 3 is a schematic structural view of a floor according to the disclosure;

FIG. 4 is an enlarged schematic structural view at A in FIG. 2;

FIG. 5 is an enlarged structural schematic view at B in FIG. 3;

FIG. 6 is a schematic view of a framework according to the disclosure

FIG. 7 is an enlarged schematic structural view at C in FIG. 6; and

FIG. 8 is a schematic view of the framework according to the disclosure.

• • Reference numerals: 11. Wall Panel; 111. Side Connection; 112. Bump; 113. Positioning Groove; 114. Embedding Block; 12. Floor; 121. Connecting Bar; 122. Connecting Groove; 123. Clamping Block; 124. Embedding Groove; 125. Reinforcing Groove; 126. Bottom Connection.

DETAILED DESCRIPTION

In order to make technical schemes of the disclosure more clear, the disclosure will be further explained in detail in the following in combination with drawings and specific examples.

Embodiment 1

As shown in FIGS. 1 to 5, an assembly of a bottom plate and a wall panel includes a wall panel 11 and a floor 12. There are a plurality of wall panels 11 and a plurality of floors 12. In other schemes, there can also be one wall panel and one floor respectively, in which a side connection 111 is provided at a side wall of the wall panel 11, and two adjacent wall panels 11 can be detachably connected with each other through the side connection. Meanwhile, a bottom connection 126 is provided at a side wall of the floor 12 for connecting other floors, and bottom connections of adjacent floors can be detachably connected with each other by buckling or in other manners, which facilitates combination and connection of multiple floors 12 with multiple wall panels 11.

Meanwhile, the wall panel 11 and the floor 12 are respectively provided with a connection structure for detachable connection, and the connection structures respectively include a bump 112 and a connecting bar 121. The bump 112 and the connecting bar 121 can be respectively connected with the wall panel 11 and the floor 12, which can be adjusted according to use requirements. When the connecting bar 121 is fixedly connected with the wall panel 11, the bump 112 is fixedly connected with a side wall of the floor 12. In this embodiment, the bump 112 is fixedly connected with the wall panel 11, and the connecting bar 121 is fixedly connected with the floor 12. The bump and the connecting bar can be respectively integrally provided with the floor and the wall panel.

Further, a reinforcing groove 125 is provided at an upper end face of the floor 12, the reinforcing groove 125 is located at an edge of the floor 12, and a connector can be mounted at the reinforcing groove 125, and the connector can be connected at a joint between two wall panels 11, thereby improving connection strength between the wall panel 11 and the floor 12. A flange 127 parallel to the connecting bar can be further provided at a side of the connecting bar away from the reinforcing groove.

The connector can be a framework 31. According to FIGS. 6-8, the framework 31 is in a vertical and long strip shape. The framework 31 includes a main framework body 36 at its center, and two relatively long sides of the main framework body 36 are fixedly connected with the strip 34, a length of the strip 34 is same as that of the main framework body 36, and the main framework body 36 is located at joints of the wall panels at both sides or in the middle of one wall panel.

Further, the main framework body and each of the wall panels are detachably connected with each other through a connecting part, and the connecting part is formed by protruding the main framework body to a side of a respective clamping part, and a matched wall panel with the connecting part can be provided with a corresponding groove, and a fixing hole 33 is provided on an protruding end face, and the fixing hole 33 is in a shape of a truncated cone, and the fixing hole 33 is located on a protrusion formed between two strips 34. When the framework 31 is mounted, the protrusion is abutted against the wall panel, and at this time, a certain gap is left between the main framework body 36 and the wall panel, and connection with the wall panel can be made at the fixing hole 33 by bolts.

A hanging hole 32 is provided on the end face of the main framework body 36, and the hanging hole 32 penetrates through the main framework body 36, and there are a plurality of hanging holes 32, and the plurality of hanging holes 32 are sequentially connected in array from top to bottom. Meanwhile, the fixing hole 33 is arranged among the hanging holes 32 at intervals, for example, one fixing hole is arranged every seven hanging holes, but the fixing hole 33 is arranged at positions closest to two ends of the main framework body 36, and a number of the hanging holes 32 is much larger than a number of the fixing holes 33. The hanging hole 32 is used for inserting a tray 35, and the tray 35 is connected with the hanging hole 32 by a bolt, and the tray 35 is located between two adjacent frameworks 31, and a number of trays 35 is adjusted according to user demands, which is easy to dismount.

A lower end of the framework 31 is connected with a floor. After the floor is connected with the wall panel 11, the lower end of the framework 31 is abutted against the floor. The lower end of the framework 31 is fixedly connected with a folding strip 35, and the folding strip 35 and the strips 34 are located at front and rear sides of the main framework body 36 respectively. When the framework 31 is connected with the wall panel 11, the folding strip 35 can be connected with the floor at this time. The folding strip 35 is provided with a through connecting hole, and a bolt passes through the connecting hole, thereby fixedly connecting the folding strip 35 to the floor.

The bump 112 and the connecting bar 121 are clamped with each other, which facilitates mounting. A number of bumps 112 is greater than a number of connecting bars 121. A connecting groove 122 is provided on an end face of the connecting bar 121, and connecting grooves 122 are in one-to-one correspondence with the bumps 112, and the connecting groove 122 are detachably connected with the bump 112.

A clamping block 123 is respectively provided at front and rear inner walls of the connecting groove 122, and an embedding groove 124 is provided on an end face of the clamping block 123. The embedding groove is opened downwards. The clamping blocks on the front and rear inner walls are a first clamping block and a second clamping block, respectively. The first clamping block 129 is of a same height as the connecting groove, and a height of the second clamping block 128 is slightly smaller than a groove depth of the connecting groove. In this embodiment, the second clamping block is in contact with a bottom of the connecting groove, thereby limiting mutual locking of the embedding block 114 and the embedding groove.

The bump 112 can be inserted into the connecting groove 122, and a cross section of the bump 112 parallel to an extension direction of the bump is trapezoidal, so that it is convenient to be inserted into the connecting groove 122 and not separated easily. Meanwhile, a positioning groove 113 is respectively provided on front and rear end faces of the bump 112, and the positioning grooves 113 are in one-to-one correspondence with the locking blocks 123, the locking block 123 can be embedded into the positioning grooves 113 to achieve locking effect and the wall panel 11 and the floor 12 are not easily separated from each other. Optionally, a cross section of the bump 112 perpendicular to the extension direction of the bump is also trapezoidal.

The positioning groove 113 can penetrate downward, that is, it can extend up to a bottom end of the bump. The penetrating positioning groove 113 facilitates inserting of the bump 112 into the connecting groove 122. In another embodiment, the positioning groove 113 does not penetrate downward, and the clamping block 123 can be clamped into and is not easily separated from the positioning groove 113.

An embedding block 114 is further provided at an inner wall of the positioning groove 113, and the embedding block 114 is clamped with the embedding groove 124 to realize locking. In this embodiment, the embedding block 114 and the embedding groove 124 are respectively arranged on the positioning groove 113 and the clamping block 123 on both sides of the bump 112. In other embodiments, the embedding block 114 and the embedding groove 124 may be respectively arranged on the positioning groove 113 and the clamping block 123 on one side of the bump 112. The embedding block 114 is arranged on a side of the bump away from a main body of the wall panel or a main body of the floor.

A lower end face of the embedding block 114 is an arc surface, and an upper end face of the embedding block 114 is a horizontal surface. The lower end face of the embedding block 114 facilitates insertion of the bump 112 into the connection groove 122, and the arc surface facilitates insertion of the embedding block 114 into the embedding groove 124, while a large upper end face of the embedding block 114 is abutted against the embedding groove 124, which makes it difficult to separate the embedding block 114 from the embedding groove 124, thus achieving the locking effect and enhancing the connection strength.

The above described embodiments only express several implementations of the present disclosure, and their descriptions are more specific and detailed, but they cannot be constructed as limiting a scope of the present invention. It should be noted that, several modifications and improvements can be made by those of ordinary skill in the art without departing from the concept of the present disclosure, which belong to the protection scope of the present disclosure. Therefore, the protection scope of this disclosure shall be subjected to appended claims.