Patent Description:
<FIG> is an exploded perspective view of a bracket riveted to a wall and a shelf having the bracket as the background art. It is a bracket configuration view of a bracket riveted on a wall and a shelf having the bracket.

According to the configuration of a bracket riveted on a wall and a shelf <NUM> having the bracket, a bracket <NUM> is coupled to a wall or a tile configured on a wall and serves to support the shelf <NUM> and a first support panel <NUM> is formed in a plate shape and inserted between the brackets <NUM> to support them.

The bracket <NUM> is installed on a wall and serves to support the first support panel <NUM>. The bracket is formed to protrude at a predetermined part of the center, for example, in an '<IMG>' shape, and is made of a material such as aluminum, stainless steel, and reinforced aluminum to be able to be installed at a humid place such as a bathroom. It is preferable that the bracket is configured to maximally suppressing aging even due to long-time use.

The bracket <NUM> includes a fixing panel that is formed in a polygonal shape and installed on a wall, an insertion panel <NUM> that protrudes inward from a surface and to which the first support panel <NUM> is fitted, and a supporting protrusion <NUM> that forms a predetermined angle (a) between the fixing panel <NUM> and the wall.

The fixing panel <NUM> configured to be coupled to a wall is formed in a polygonal shape, for example, a rectangular shape and is installed and supports the weight of articles kept on the shelf <NUM>. The fixing panel has a thickness of a predetermined level or more to support the weight of articles, and preferably, has a thickness of <NUM> to <NUM>.

Further, several fixing grooves <NUM> are formed with regular intervals at the upper part of the fixing panel <NUM> such that the fixing panel can be firmly coupled by inserting fixing members <NUM> such as screws or bolts, so the fixing panel can be firmly coupled by the wall fixing members <NUM>.

Further, the length of the fixing panel <NUM> is smaller than the length of the first support panel <NUM> such that the bracket <NUM> is hidden inside the support panel <NUM> and aesthetic external appearance looks better.

The insertion panel <NUM> integrally formed at the middle part of the bracket <NUM> is configured to be inserted in the first support panel <NUM> such that the first support panel <NUM> can be supported. The insertion panel has a predetermined length to be able to sufficiently support the first support panel <NUM> and articles kept on the first support panel <NUM>. A bonding groove <NUM> is formed at the upper part so that the insertion panel can be bonded by an adhesive such as a strong adhesive, a bond, a silicone to be firmly coupled when being inserted in the first support panel <NUM>.

The bonding groove <NUM> configured at the upper end of the insertion panel <NUM> is a groove configured to be applied with an adhesive so that the first support panel <NUM> can be firmly coupled by the adhesive applied to the bonding groove <NUM> when being fitted on the insertion panel <NUM>. The size of the bonding groove <NUM> is minimized so that the surface of the adhesive can directly come in contact with the first support panel <NUM>.

A supporting protrusion <NUM>, at which a protrusion is formed at the lower end of the fixing panel <NUM> such that the fixing panel <NUM> is inclined at a predetermined angle with respect to a wall, is configured to be inclined at a predetermined angle so that the shelf <NUM> can support the weight of articles for a long period of time and is configured such that a predetermined gap is formed when the supporting protrusion <NUM> and the fixing panel <NUM> are in close contact with a wall surface.

Further, since the supporting protrusion <NUM> is formed, it is preferable that the insertion panel <NUM> configured perpendicular to the fixing panel <NUM> is also inclined at the predetermined angle formed between a wall and the fixing panel <NUM>, for example, at a predetermined angle the same as the inclination angle (a) formed between the fixing panel <NUM> and a wall.

Further, a fixing part <NUM> configured at the lower end of the part where the fixing panel <NUM> and the insertion panel <NUM> are coupled is configured to prevent damage to the bracket <NUM> even though the coupled part between the fixing panel <NUM> and the insertion panel <NUM> when the weight of articles on the first support panel <NUM> is biased to the fixing panel <NUM> due to the supporting protrusion <NUM> formed at the fixing panel <NUM>.

However, this system of the prior art cannot achieve a non-support wall without any mark on a wall.

The present disclosure has been made in the following background. Another system wall is known from <CIT>.

A first subject is to implement a non-support shelf, etc. that naturally attaches various structures or articles on a wall using a metal panel.

A second subject is to enable various structures to be easily replaced on a wall by supporting various supports after separating a screw-fastened support by screw-fastening a protruding part of a support to a bottom support.

A third subject is to replace various structures through a straight support, a hooked support, and fixing part protruding from a meal panel.

The following configuration is provided to solve the subjects described above.

There is provided a system wall for a building interior including:.

Protrusions are formed at an edge of the bracket so that the hole-machined metal panel is firmly inserted, a curved part is configured at an edge of the hole-machined metal panel, and holes corresponding to the protrusions are configured at the curved part.

In this case, it is preferable that the support is composed of a bottom support and a straight support, and the bottom support is similar to a space of the bracket and is inserted by forcible fitting.

The hole-machined metal panel is a metal panel at which a hole is machined to insert the protrusion of the support.

In this case, it is preferable that the decoration part is any one of a shelf part, a box part, and a hooked support.

In this case, it is more preferable that the decoration part is inserted and then the decoration part and the support are fixed by a fixing screw part.

In this case, it is preferable that the support is composed of a bottom support and a straight support, and the bottom support has bolt insertion parts.

In this case, it is preferable that the straight support is screw-fastened to the bottom support.

In this case, it is preferable that the support is composed of a bottom support and a hooked support, and the hooked support is screw-fastened to the bottom support.

In this case, it is preferable that the support is composed of a bottom support, a fixing part, and a fixing screw part.

In this case, it is preferable that the support has a shelf mounting hole.

In this case, it is preferable that the bottom support has an anti-rotation key groove to insert an anti-rotation key.

A first effect is to implement a non-support shelf, etc. that naturally attaches various structures or articles on a wall using a metal panel.

A second effect is to enable various structures to be easily replaced on a wall by supporting various supports after separating a screw-fastened support by screw-fastening a protruding part of a support to a bottom support.

A third effect is to replace various structures through a straight support, a hooked support, and fixing part protruding from a meal panel.

Description referring to <FIG> is as follows.

Three kinds can be connected in a bolt type to a main body connected to a bracket.

<FIG> is a view showing that an anti-rotation key groove <NUM> is shown at a straight support.

Existing non-support shelves can be fixed. The anti-rotation key groove <NUM> is configured to prevent a straight support <NUM> from being rotated and loosened.

<FIG> is a view showing that a hooked support is applied.

<FIG> is a hanger on which clothing or hats can be hung.

<FIG> is a view showing separation of <FIG>.

Although it is configured in a straight type, the straight support <NUM> and the hooked support <NUM> are screw-fastened to be able to be simply tightened and loosened by rotation for replacement with each other.

An anti-rotation key <NUM> is configured to prevent loosening by prevent rotation of the support.

<FIG> shows a fixing part <NUM> and a fixing screw part <NUM>.

It functions as a nut or a bolt that can fix other structures.

It is possible to couple the part of the bottom support <NUM> and a seat for fixing on various types of supports, a simple support, a hanger, and a wall.

<FIG> is a view showing the configuration of a bottom support.

<FIG> is a view showing an A-A' cross-section of <FIG> of the bottom support.

Separate bolt insertion parts <NUM>, <NUM>, <NUM>, and <NUM> are configured at the bottom support <NUM>.

It is possible to insert it in a space of a bracket without a separate fastening hole, but it is preferable to configure a separate fastening hole in order to support much weight.

<FIG> is a view showing a hook support and a straight support which is configured with a shelf mounting hole.

The shelf mounting hole is configured to prevent a shelf from separating from a support when the shelf is inserted and an earthquake occurs or a wall is inclined inward.

Coupling screw parts <NUM> and <NUM> are configured to couple the bottom support <NUM>.

The support <NUM> is composed of the bottom support <NUM> and the straight support <NUM> and it is preferable that bolt insertion parts <NUM>, <NUM>, <NUM>, and <NUM> are configured at the bottom support <NUM>.

It is preferable that the straight support <NUM> is configured to be screw-fastened to the bottom support <NUM>.

The support <NUM> is composed of the bottom support <NUM> and the hooked support <NUM> and it is preferable that the bottom support <NUM> and the hooked support <NUM> are configured to be screw-fastened.

It is preferable that the support <NUM> is composed of the bottom support <NUM>, the fixing part <NUM>, and the fixing screw part <NUM>.

It is preferable that the support <NUM> has the shelf mounting hole <NUM>.

The fixing screw part <NUM> is inserted in the shelf mounting hole <NUM> so that the support <NUM> and a decoration part including a shelf part <NUM> and a box part <NUM> are not separated forward.

It is preferable to configure the anti-rotation key groove <NUM> at the bottom support <NUM> in order to insert the anti-rotation key <NUM>.

The present disclosure is to conveniently install and mount a decoration part including a shelf, etc. by configuring a support using a structure of a metal tile and a bracket for attaching the metal tile to a wall surface.

As a construction method, a bracket connecting a wall and a tile is constructed on a wall surface, a structure such as a support suitable for the purpose is installed in a spare space of the bracket, and it is inserted in an insertion hole configured at a metal tile such that the support and the structure can protrude.

Further, it is also possible to change the bracket in various structures to construct a desired structure on a wall surface.

Structures such as various hangers, shelves, and drawers and various decoration parts are attached to a wall.

That is, the physical structure for receiving various hangers, shelves, drawers, etc. is as follows.

A bottom support of an accessory having a hanger shape is attached in the spare space of the bracket such that the accessory can protrude over it and the metal tile having a corresponding hole is assembled.

The term 'without a support' means that a support is inserted in the shelf or drawer such that the shelf or drawer is shown like there is no support.

A plurality of hooks is configured between the bracket and the metal tile.

In the present disclosure, <NUM> hooks are configured for each unit metal tile.

A shelf that applies a considerable weight can be sufficiently supported on a wall by the hooks.

There is an advantage that when it is required to replace a part of the metal tile, it is possible to change the interior atmosphere at any time by replacing the attached metal tile through the structure that is easy to attach/detach the metal tile because of the hooks.

It may be possible to reassemble another tile having a different design by separating the assembled tile, and if necessary, it is possible to freely install and remove shelves or various hangers on and from a wall surface.

The metal tile may have a hole configured to have a corresponding configuration such that a support for supporting a shelf or a hanger is inserted. A hole is machined at the tile such that a support that can commonly support various shelves or hangers having different shapes or functions.

It is possible to fix and install shelves or various hangers on the support.

Detailed configuration is described with reference to <FIG>.

A bracket <NUM> that is attached to a wall is attached to a wall by the fixing screw part <NUM>.

The support <NUM> is attached to the bracket <NUM>.

A hole-machined metal panel <NUM> corresponding to the support <NUM> is attached.

A system wall is configured by configuring decoration part <NUM> and <NUM> that are inserted in the support <NUM> protruding from the hole-machined metal panel <NUM>.

Protrusions are formed at an edge of the bracket <NUM> such that the hole-machined metal panel <NUM> is firmly inserted, a curved part is configured at an edge of the hole-machined metal panel <NUM>, and holes corresponding to the protrusions are configured at the curved part.

The support <NUM> is composed of the bottom support <NUM> and the straight support <NUM>, and the bottom support <NUM> is a similar configuration to the space <NUM> of the bracket <NUM> and has only to be inserted by forcible fitting.

Of course, the bottom support <NUM> may be separately inserted in the bolt insertion parts <NUM>, <NUM>, <NUM>, and <NUM> on a wall plate.

In this case, the support can support much weight.

The hole-machined metal panel <NUM> is configured as a hole-machined metal panel to insert the protrusions of the support <NUM>.

As shown in <FIG>, a coupling avoidance space <NUM> is configured on the rear surface of the coupling protrusion <NUM> so that a hole-machined metal panel <NUM> can be coupled well through the coupling avoidance space.

Coupling protrusion holes <NUM>, <NUM>, <NUM>, and <NUM> are formed at the hole-machined metal panel <NUM> that is coupled to the coupling protrusions <NUM>, and connection part holes <NUM> corresponding to connectors (not shown) inserted in the connection part grooves are formed at the hole-machined metal panel.

It is preferable that two protrusion holes <NUM>, <NUM>, <NUM>, and <NUM> are formed at the left and right of the connection part hole <NUM>.

According to this configuration, it is possible to resist desired load by coupling of the hole-machined metal panel and the bracket even the support is simply forcibly fitted in the space of the bracket.

The decoration parts <NUM> and <NUM> are configured as any one of the shelf part <NUM>, the box part <NUM>, and the hooked support <NUM>.

It is preferable to insert the decoration parts <NUM> and <NUM> and then fix the decoration parts <NUM> and <NUM> and the support <NUM> with the fixing screw part <NUM>.

<FIG> and <FIG> show values obtained by measuring load that one support can resist when wall plates are a plywood board and a plaster board, respectively.

In <FIG>, the maximum load of one support is 20kgf.

Thereafter, one of a straight support and a hooked support by one fixing support maintains a circle even under 75kgf.

<FIG> shows a test result of a <NUM>-layer plaster board, in which one support can resist up to 14kgf, so when a wall is a plywood board, there is no problem, but when it is a plaster board, an object over <NUM> cannot be placed on one support, depending on whether there is shaking and on the allowable load. However, since there are generally two supports, it is possible to resist up to <NUM>.

The terms and words used in the present specification and claims should not be interpreted as being limited to typical meanings or dictionary definitions, but should be interpreted as having meanings and concepts relevant to the technical scope of the present invention based on the rule according to which an inventor can appropriately define the concept of the term to describe most appropriately the best method he or she knows for carrying out the invention.

Therefore, the configurations described in the embodiments and drawings of the present disclosure are merely most preferable embodiments but do not represent all of the technical scope of the present invention defined by the appended claims.

The present disclosure has an effect that it is possible to implement a non-support shelf, etc. that naturally attach various structures or decoration parts on a wall using a metal panel, so it has industrial applicability.

It is possible to change various structures on a wall by screw-fastening a protruding part of a support to a bottom support, separating the screw-fastened support, and inserting various supports, so the present disclosure has industrial applicability.

Claim 1:
A system wall for a building interior, comprising:
a wall part;
a bracket (<NUM>) that is attached to the wall part;
a support (<NUM>) that is attached to the bracket (<NUM>); and
a hole-machined metal panel (<NUM>) that corresponds to the support (<NUM>),
wherein protrusions are formed at an edge of the bracket (<NUM>) so that the hole-machined metal panel (<NUM>) is firmly inserted, a curved part is configured at an edge of the hole-machined metal panel (<NUM>), and holes corresponding to the protrusions are configured at the curved part, and
a decoration part that is inserted in the support (<NUM>) protruding from the hole-machined metal panel (<NUM>) is configured.