KR102053964B1 - Brakect For Wall Hanging Product - Google Patents

Abstract

According to an aspect of the present invention, in the wall bracket for installing a heavy object on the wall, the lower bracket is attached to the wall and is provided to support the heavy object from the bottom, and is attached to the wall at a predetermined interval with the lower bracket And at least a portion of the upper bracket having the hanger provided in a form bent upwardly with respect to the ground and provided to be coupled to and detached from a predetermined assembly position among the rear surfaces of the heavy material, and to be hooked to the upper bracket by the hanger. A wall mounting bracket may be provided that includes a heavy weight coupling bracket.

Description

Bracket for Wall Hanging Product}

The present invention relates to a wall bracket, and more particularly, to a wall bracket for mounting a heavy object such as a medium, large battery pack on the wall.

Recently, secondary battery manufacturers are launching household energy storage systems (ESS) or household battery packs as new products. These ESS or battery packs are lithium-ion batteries that can be used to store electricity during the day and then take it out when needed to save money on electricity. For example, lithium-ion batteries store and draw out electricity generated by solar panels or wind power.

For example, the home ESS to battery pack is approximately 120 × 80 × 20 cm in size, weighs about 100 kg, and may be used in series. Of course, the battery pack may be configured differently in size and weight depending on the storage capacity.

The household ESS to the battery pack is manufactured in the form of a wall hanging for the user's convenience and space utilization, and can be installed on the wall or pillar of the indoor or outdoor. In this case, the wall mounting bracket is generally manufactured according to the characteristics of the product. Used.

However, heavy objects such as wall-mounted large TVs or ESS devices are not easy to install the bracket itself on the wall when using the conventional wall-mount bracket, and because the support structure of the bracket is complicated, the general consumer can install directly on the wall Is almost impossible. In addition, the existing wall bracket is made only suitable for a specific product has the disadvantage of very low compatibility.

Accordingly, there is a growing demand for the development of wall-mounting brackets that enable easy installation of wall-mounted products on the wall more easily and conveniently.

The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a wall-mounting bracket that can be easily and stably installed on a wall or a pillar of a heavy weight wall-hung product.

However, the technical problem to be achieved by the present invention is not limited to the above-described problem, and other problems that are not mentioned will be clearly understood by those skilled in the art from the description of the invention described below.

According to an aspect of the present invention, a wall bracket for installing a heavy object on a wall, comprising: a lower bracket attached to a wall to support the heavy object at a lower portion thereof; An upper bracket attached to the wall at predetermined intervals from the lower bracket, the upper bracket having a hanger formed at least in a portion bent upwardly with respect to the ground; And a heavy weight coupling bracket provided to be coupled to and detached from a rear surface of the heavy weight at a predetermined assembly position, and mounted to the upper bracket by the hanger.

The wall bracket further includes at least one bridge bracket, one end of which is coupled to and separated from the upper bracket, and the other end of which is disposed at a right angle to the upper bracket and the lower bracket. can do.

At least one of the upper bracket and the lower bracket is provided with a plurality of long holes at predetermined intervals along a vertical direction, such that an end of the bridge bracket is selectively bolted to any one of the plurality of long holes. Can be.

Two bridge brackets may be disposed spaced apart from each other by a predetermined interval.

The lower bracket may include a wall fixing part fixed to a wall; And it may include a flange portion extending from the wall fixing portion perpendicular to the wall surface to support the lower portion of the weight.

The lower bracket may be provided in the form of a bent plate, and may further include a strength reinforcing plate integrally coupled to the wall fixing portion and the flange portion.

The strength reinforcing plate may include a reverse type corner portion curved in an opposite direction with respect to a corner portion between the wall surface fixing portion and the flange portion.

One of the upper bracket and the lower bracket may be provided with a guide plate perpendicular to the wall surface and in surface contact with the side surface of the bridge bracket.

The weight coupling bracket may have a step with one part of the lower end to be fitted downward from the top of the hanger.

The heavy material coupling bracket may have an upper end bent toward the upper bracket so that one surface of the upper end may be coplanar with the upper bracket.

The upper end of the heavy weight coupling bracket may be bent so that the end faces downward, and the upper end of the upper bracket may be bent and positioned forward with respect to the upper end of the heavy weight coupling bracket.

According to another aspect of the present invention, there may be provided an energy storage device including the above-described wall bracket.

According to one aspect of the invention, the wall-mounted battery pack (heavy weight) can be easily or stably installed on the wall or separated.

According to another aspect of the present invention, the support structure of the bracket is stable because the load of the heavy material can be distributedly supported by the upper bracket and the lower bracket, and the inclination of the heavy weight can be prevented by the upper bracket.

According to another aspect of the present invention, the dimensional tolerance for the position between the upper bracket and the lower bracket can be effectively reduced.

1 is a front perspective view of a wall bracket according to an embodiment of the present invention.
Figure 2 is a rear perspective view of the wall bracket of Figure 1;
3 is a partially separated perspective view of FIG. 1.
4 is a cross-sectional view of the mounting bracket and the upper bracket mounted on the hook in Figure 1;
5 is a modification of FIG. 4.
Figure 6 is a front perspective view of the wall bracket for narrowing the distance between the upper bracket and the lower bracket in FIG.
7 to 9 are views for showing the installation process of the battery pack and the bracket for the wall mounting according to an embodiment of the present invention.
10 is a front perspective view of the wall bracket according to another embodiment of the present invention.
FIG. 11 is a view illustrating a wall surface installation state of a battery pack using the wall bracket of FIG. 10.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various equivalents that may be substituted for them at the time of the present application It should be understood that there may be water and variations.

Since embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art, the shapes and sizes of the components in the drawings may be exaggerated, omitted, or schematically illustrated for clarity. Thus, the size or ratio of each component does not necessarily reflect the actual size or ratio.

Hereinafter, the heavy material may mean a household battery pack manufactured in a wall-hung form. However, the scope of the present invention is not limited to a wall bracket for installing a domestic battery pack. For example, the weight may be a household appliance, such as a wall-mounted product, or other items.

1 is a front perspective view of a wall bracket according to an embodiment of the present invention, FIG. 2 is a rear perspective view of the wall bracket of FIG. 1, FIG. 3 is a partially separated perspective view of FIG. 1, and FIG. 4 is I- of FIG. It is sectional drawing according to I '.

Referring to these drawings, the wall-mount bracket 10 according to an embodiment of the present invention, the lower bracket 100, the upper bracket 200, the heavy weight coupling bracket 300, and the bridge bracket 400 .

As will be described later in detail, in the present embodiment, since the battery pack 20 (see FIG. 9) is configured to be mounted in a hanging manner, installation and removal of the battery pack 20 is very easy. In addition, the load of the battery pack 20 is distributed by the lower bracket 100 and the upper bracket 200, that is, two brackets, and in particular, the external shock is prevented by holding the battery pack 20 by the upper bracket 200. Even if applied, tilting and shaking of the battery pack 20 can be prevented.

Looking at each of the components forming the wall bracket 10, first, the lower bracket 100 is disposed in the lower portion of the battery pack 20 to support the lower portion of the battery pack 20.

The lower bracket 100 includes a wall fixing part 110 and a flange part 120. The wall fixing part 110 may be a part of the lower bracket 100 having a long hole (H) at each predetermined position and one surface closely contacting the wall and attached to the wall by a bolt.

The flange part 120 is formed integrally with the wall fixing part 110 and intersects with respect to the wall fixing part 110 and is disposed horizontally with respect to the ground when the lower bracket 100 is attached to the wall. The battery pack 20 may be supported to be supported by the flange portion 120.

The lower bracket 100 may further include a strength reinforcing plate 130. Strength reinforcing plate 130 is provided in the form of a bent plate, and may be integrally coupled to the wall surface fixing part 110 and the flange portion 120, as shown in FIG. The strength reinforcing plate 130 serves to prevent the sagging of the flange portion 120 by holding the flange portion 120.

In addition, the strength reinforcing plate 130 has a reverse type corner portion 131 curved in the opposite direction with respect to the corner portion between the wall fixing portion 110 and the flange portion 120. The reverse corner portion 131 may function to prevent deformation of the lower bracket 100 by dispersing stress concentrated at a corner portion between the wall fixing portion 110 and the flange portion 120.

The lower bracket 100 may further include a guide plate 140. The guide plate 140 may form a right angle with respect to the wall surface or the wall fixing part 110, and one surface may be provided to be coupled to and detachable from the side surface of the bridge bracket 400 to be described later. The guide plate 140 serves to guide the assembly of the bridge bracket 400.

The lower bracket 100 configured as described above may be made of a metal material having high rigidity such as stainless steel so as to provide sufficient mechanical support for heavy materials.

Next, the upper bracket 200 is configured to prevent the flow by holding the battery pack 20 and to distribute the load received by the lower bracket 100, the predetermined interval on the upper portion of the lower bracket 100 Can be attached to the wall.

The upper bracket 200 may be provided in the form of a plate attachable to the wall and may include a plurality of long hole holes H formed at predetermined intervals along the vertical direction and / or the horizontal direction. Some of the plurality of long holes (H) are used as a bolt fastening place when the upper bracket 200 is attached to the wall and the rest are bolted when the bridge bracket 400 is attached to the upper bracket 200 to be described later Can be used as a place

The upper bracket 200 has a hanger 210 protruding in a form in which at least one portion is bent upward with respect to the ground. As illustrated in FIGS. 1 and 3, the hanger 210 may be formed by bending a portion of the lower end of the upper bracket 200 to be rolled forward. However, the scope of the present invention is not necessarily limited to these embodiments. For example, the hanger 210 may be formed at the center portion or the top of the upper bracket 200, or may be formed in a plurality of different positions. The heavy material coupling bracket 300 may be suspended from the upper bracket 200 by a part of which is caught by the hanger 210.

The heavy object coupling bracket 300 is provided to be coupled to and detached from a predetermined assembly position among the rear surfaces of the battery pack 20 (see FIG. 7), and is attached to the upper bracket 200 by the hanger 210 of the upper bracket 200. ) Is mounted on the hook.

3 and 7, a fastening part 330 may be provided at both side portions of the heavy object coupling bracket 300, and a fastening shape of the fastening part 330 is formed on the rear surface of the battery pack 20. The guide part 21 may be provided. The fastening part 330 may be fixedly coupled to the fastening guide part 21 by bolts. As such, by providing the fastening guide part 21 at a predetermined position among the rear surfaces of the battery pack 20, the heavy object coupling bracket 300 may be easily attached. For reference, the method of attaching the heavy material coupling bracket 300 to the battery pack 20 is not limited to bolt fastening. That is, the hook coupling method, the receptacle method, or the like may be applied in a manner of coupling and detaching the heavy material coupling bracket 300 and the battery pack 20.

3 and 4, the heavy weight coupling bracket 300 may protrude in the direction of the upper bracket 200 such that one portion 310 of the lower portion is stepped with the other portion. Here, the portion 310 of the lower portion may be defined as an inner region of the left and right edge lines of the lower portion.

When the heavy weight coupling bracket 300 is attached to the rear surface of the battery pack 20 (see FIG. 8), the remaining portions except for the lower portion 310 of the lower portion are in close contact with the rear surface of the battery pack 20. A predetermined locking space 311 may be formed between the lower portion of the lower portion 310 and the rear surface of the battery pack 20. In this case, the locking space 311 may be a space in which the front surface is closed except for an opening facing downward.

Therefore, first attaching the heavy material coupling bracket 300 to the back of the battery pack 20, and then the battery pack 20 so that the hanger 210 of the upper bracket 200 enters into the engaging space (311). It can be mounted on the upper bracket 200 by placing from top to bottom.

In this case, the lower surface of the battery pack 20 may be held by the flange portion 120 of the lower bracket 100 to distribute the load. As described above, the locking space 311 may be before or after the opening except for the opening. Since the left, right, and upper sides are blocked, the flow of the battery pack 20 in the front, rear, left, and right directions is suppressed by the hanger 210 of the upper bracket 200 that is in the locking space 311. Can be.

Also, referring to FIGS. 2 and 4, the weight coupling bracket 300 has an upper end 320 bent toward the upper bracket 200 so that one surface of the upper end 320 is on the same vertical plane as the upper bracket 200. Can be located. The upper end 320 of the heavy object coupling bracket 300 may contact the wall surface together with the upper bracket 200 when installed on the wall surface. Therefore, the upper end of the heavy weight coupling bracket 300 may provide a support force in the horizontal direction to the battery pack 20 in the space between the back and the wall surface of the battery pack 20. Therefore, according to the upper end 320 of the heavy weight coupling bracket 300, even if the battery pack 20 is not substantially attached to the wall can be shaken against external shock or vibration.

Referring to FIG. 5 as a variation of the present embodiment, the upper end portion 220 of the upper bracket may be bent so that the end is bent in front of the end portion of the upper end portion 320 of the heavy weight coupling bracket. Therefore, according to this modification, the front and rear flow of the heavy weight coupling bracket 300 can be more effectively prevented, so that the battery pack 20 can be more stably fixed to the upper bracket 200.

On the other hand, the wall bracket 10 according to the present embodiment, referring to Figures 1 to 3 again, the configuration for accurate positioning of the upper bracket 200 and the lower bracket 100, one end of the upper bracket 200 ), The other end further includes at least one bridge bracket 400 provided to be coupled to and detachable from the lower bracket 100, respectively.

The bridge bracket 400 may be a bar having a predetermined length. In this case, the predetermined length may be variously determined according to a necessary spacing arrangement interval of the upper bracket 200 and the lower bracket 100.

In the present embodiment, two brackets consisting of the upper bracket 200 and the lower bracket 100 are used to support the load of the battery pack 20, the bridge bracket 400 to hold the position between these two brackets Play a role.

The bridge bracket 400 may be coupled to the guide plate 140 of the lower bracket 100 so that the bridge bracket 400 may be perpendicular to the lower bracket 100. The guide plate 140 forms a right angle with the wall fixing part 110 of the lower bracket 100, and when one side of the guide plate 140 and the side surface of the bridge bracket 400 are coupled in a surface contact state, the bridge The bracket 400 and the lower bracket 100 may form a right angle.

In addition, the other end of the bridge bracket 400 and the upper bracket 200 are also coupled to form a right angle. Therefore, since the upper bracket 200 and the bridge bracket 400 form a right angle, the upper bracket 200 and the lower bracket 100 are naturally arranged side by side. As such, the upper bracket 200 and the lower bracket 100 are connected in parallel by the bridge bracket 400 so that the angle between the upper bracket 200 and the lower bracket 100 may not be changed.

In addition, since the upper bracket 200 and the lower bracket 100 are connected to be spaced apart by a predetermined interval by the bridge bracket 400, when the wall bracket is installed on the wall, the upper bracket 200 and the lower bracket 100 are separated from each other. There is no need to hold the up and down positions separately.

In addition, since the load received by any one bracket by the bridge bracket 400 may be transmitted to the other bracket, the bridge bracket 400 may also serve to distribute the load.

In the present embodiment, two bridge brackets 400 are used in consideration of correct position adjustment and work convenience between the upper bracket 200 and the lower bracket 100, but the scope of the present invention is not limited thereto. One or three or more brackets 400 may be used.

Wall bracket 10 of the present embodiment is capable of adjusting the interval between the upper bracket 200 and the lower bracket 100. In other words, the wall bracket 10 may be compatible with battery packs 20 having different specifications. For example, as shown in Figure 6, by selectively recombining the end of the bridge bracket 400 in any one of the up-and-down long hole (H) formed in the upper bracket 200, by the interval T shown in Figure 6 The distance between the upper bracket 200 and the lower bracket 100 can be reduced.

7 to 9 are views for showing the installation process of the battery pack 20 and the wall bracket 10 according to an embodiment of the present invention.

7 to 9, the installation method of the wall bracket 10 according to the present embodiment will be briefly described.

First, two bridge brackets 400 are vertically connected to the lower bracket 100. Here, the two bridge brackets 400 are bolted to the guide plate 140 of the lower bracket 100, respectively.

Next, the upper bracket 200 is vertically connected to the two bridge brackets 400. At this time, the gap between the upper bracket 200 and the lower bracket 100 is adjusted by selectively bolting the ends of the bridge bracket 400 to the long holes (H) of the upper bracket 200 formed along the height direction. Can be.

Then, the upper bracket 200 and the lower bracket 100 assembled as above are attached to one side of the wall. For reference, the upper and lower brackets 100 have already been aligned with each other by the bridge bracket 400 so that the upper and lower brackets 100 need only be installed horizontally with respect to the ground.

Then, after attaching the heavy weight coupling bracket 300 to the back of the battery pack 20, the hanger 210 of the upper bracket 200 is in the locking space 311 inside the lower end 310 of the heavy weight coupling bracket The work is completed by seating the battery pack 20 on the flange portion 120 of the lower bracket 100 to be inserted.

As such, according to the wall bracket 10 of the present embodiment, the installation and separation of the battery pack 20 or the energy storage device as well as other heavy materials, which are manufactured in the form of wall, can be simplified. In particular, the load of the battery pack 20 is simultaneously distributed and supported by the lower and upper brackets 100 and 200, and the battery pack 20 is held by the upper bracket 200, so that the inclination of the battery pack is prevented even during an external impact. Since it can be prevented, the battery pack can be stably mounted on the wall.

10 is a front perspective view of the wall bracket according to another embodiment of the present invention, Figure 11 is a view showing a wall surface installation state of the battery pack 20 using the wall bracket of Figure 10.

Hereinafter, referring to FIGS. 10 and 11, a wall bracket 10 ′ according to another embodiment of the present invention will be described. This embodiment, except for the bridge bracket 400 in the above-described embodiment, except that the installation structure is changed, the rest of the configuration is the same. Therefore, the following description focuses on the installation structure of the present embodiment, and duplicate descriptions of the same configuration will be omitted.

In the present embodiment, unlike the above-described embodiment, first, the upper bracket 200 is fastened to the wall by fixing the bolts. Then, the heavy weight coupling bracket 300 and the lower bracket 100 are mounted on the bottom and bottom surfaces of the battery pack 20, respectively. Here, the flange 120 is attached to the bottom surface of the battery pack 20 so that the wall fixing part 110 of the lower bracket 100 faces downward with respect to the battery pack 20.

Then, the battery pack 20 is mounted on the upper bracket 200 as described above, and then the wall fixing part 110 of the lower bracket 100 is bolted to the wall to fix the installation work.

In this embodiment, it is not necessary to consider the dimensional tolerance for the position between the upper bracket 200 and the lower bracket 100 at all, and support the load distributed by using two brackets regardless of the size of the battery pack 20 There is an advantage to this.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

Meanwhile, when terms indicating directions such as up, down, left, right, before, and after are used in the present specification, these terms are merely for convenience of description, and according to the position of the object or the position of the observer, etc. It will be apparent to those skilled in the art that these may vary.

10: wall bracket 100: lower bracket
110: wall fixing part 120: flange
130: strength reinforcing plate 131: reverse corner
140: guide plate 200: upper bracket
210: hanger part 300: heavy object coupling bracket
310: lower portion of the coupling bracket 311: hanging space
320: upper portion of the coupling bracket 330: fastening portion
400: bridge bracket H: hole hole

Claims (12)

In the wall bracket for mounting a heavy object on the wall,
A lower bracket attached to a wall and provided to support the heavy object at a lower portion thereof;
An upper bracket attached to the wall at predetermined intervals from the lower bracket, the upper bracket having a hanger formed at least in a portion bent upwardly with respect to the ground;
A heavy weight coupling bracket provided to be coupled to and detached from a rear surface of the heavy weight at a predetermined assembly position, and mounted to the upper bracket by the hanger; And
One end portion is provided at the upper bracket, the other end is coupled to and detachable from the lower bracket, and at least one bridge bracket disposed to be perpendicular to the upper bracket and the lower bracket,
Any one of the upper bracket and the lower bracket is a right angle to the wall surface, the wall mounting bracket, characterized in that the guide plate which is provided in the surface contact with the side of the bridge bracket. delete The method of claim 1,
At least one of the upper bracket and the lower bracket is provided with a plurality of long holes at predetermined intervals along a vertical direction, so that the end of the bridge bracket is selectively bolted to any one of the plurality of long holes. Wall mounting bracket. The method of claim 1,
The bridge bracket is a wall bracket, characterized in that the two are spaced apart from each other by a predetermined interval. The method of claim 1,
The lower bracket,
A wall fixing part fixed to the wall; And
And a flange portion extending from the wall surface fixing portion perpendicular to the wall surface to support the lower portion of the heavy material. The method of claim 5,
The lower bracket,
It is provided in the form of a bent plate, the wall bracket, characterized in that it further comprises a strength reinforcing plate integrally coupled to the wall fixing portion and the flange portion. The method of claim 6,
The strength reinforcing plate is a wall bracket, characterized in that it has a reverse corner portion curved in the opposite direction with respect to the corner portion between the wall surface fixing portion and the flange portion. delete The method of claim 1,
The heavy material coupling bracket is
Wall mounting brackets, characterized in that the lower part has a step with the other part so as to fit from the top to the hanger. The method of claim 9,
The heavy material coupling bracket, the upper end is bent in the direction of the upper bracket so that one surface of the upper end is located on the same plane as the upper bracket. The method of claim 10,
The upper end of the heavy material coupling bracket is bent so that the end is directed downward,
The upper end of the upper bracket is bent to the wall hanging bracket, characterized in that located in front of the upper end of the heavy coupling bracket. An energy storage device comprising a wall mounting bracket according to any one of claims 1, 3 to 7, and 9 to 11.

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