KR102570002B1 - Reinforcement bar for fixing attachments to walls - Google Patents

Abstract

The present invention relates to a reinforcing rod for fixing a wall socket. According to the present invention, temporary fixation is performed by screwing on the outside of the wall, and when the fixing block is erected through bolt rotation and then moves forward, the fixing block adheres to the inner surface of the wall. Thus, a strong fixing force is exerted not only on the outside of the wall but also on the inside of the wall. Therefore, since solid fixation can be made inside and outside the wall, solid support is possible when the attachment using the reinforcing bar is fixed.

Description

Reinforcement bar for fixing attachments to walls}

The present invention relates to a reinforcing rod for fixing a wall socket, and more particularly, to a technology for firmly fixing it inside as well as outside a wall.

An outlet is used to supply power applied to buildings and homes to electric appliances, and is standardized to a predetermined size and is mainly used in a form of being installed partially embedded in a wall.

In general, an outlet is manufactured with a structure that includes a housing having a structure through which wires can flow in, an outlet terminal inserted into the housing and plugged in, and a plate fixedly coupled to the inlet of the housing in a state where the outlet terminal is fixedly supported. . Here, the plate is fixedly coupled to the housing by coupling means such as screws or bolts.

In addition, in order to install the outlet on the wall, a groove is dug in a certain part of the wall, wiring is performed through the groove, and the outlet is installed at the end of the wire. To install the outlet, a bracket and an outlet installed in the groove of the wall are used bolts are tightened.

However, even if the outlet is fixed to the bracket installed in the groove of the wall using screws or bolts, there is a problem in that the holding force is weak because the fastening is performed only outside the wall. Of course, if screws or bolts are combined inside the wall, more solid fixation is possible, but the size of the outlet is small, so it is impossible to insert tools through the grooves in the wall to tighten the screws.

Of course, in the case of an outlet, since it does not support a heavy object, it is not a big problem even if it is fixed through screwing only on the outside of the wall. However, in the case of a structure that is partially embedded in a wall and fixes an attachment, such as a set-top box, a wire box, an alarm device, and the like, a more robust fixing force must be secured.

On the other hand, as a prior art related to a device for fixing an attachment to a wall, there is Republic of Korea Patent Publication No. 10-2013-0020463 (February 27, 2013, 'wall outlet fixing device').

The present invention has been made to solve the problems of the prior art as described above, so that the fixing force can be exerted not only outside the wall but also inside the wall, so that even when a relatively heavy object is attached, it provides a technology that enables solid fixation Its purpose is to

Reinforcement bracket for fixing a wall socket according to the present invention for achieving the above object is exposed to the outside of the wall body and the bolt hole is formed; a bolt supporter extending to the rear of the main body, having a block shifting hole communicating with the bolt hole, and having a slot formed in the block shifting hole in an outward direction around the main body; a bolt rotatably seated in the block movement hole of the bolt support; and a fixing block that is screwed with the bolt and moves forward and backward along the slot portion of the bolt support when the bolt rotates.

According to the reinforcement bar for fixing the wall outlet according to the present invention, temporary fixation is made through screwing on the outside of the wall, and when the fixing block is erected through bolt rotation and then moves forward, the fixing block adheres to the inner surface of the wall to the outside of the wall. In addition, a strong fixing force is exerted even on the inside of the wall. That is, since solid fixation can be made inside and outside the wall, solid support is possible when the attachment using the reinforcing bar is fixed.

In particular, in the present invention, the rear part of the block moving hole formed in the bolt support has a stepped structure, so if the bolt is tightened a little more after the close contact part of the fixing block is in close contact with the wall, A part of the bolt undergoes elastic deformation in which a portion of the bolt is slightly bent downward due to the repulsive force, and the fixing block also undergoes elastic deformation. Due to the elastic deformation of these bolts and fixing blocks, the reinforcement bar is firmly fixed to the wall.

Latch protrusions having a latch structure are formed on the recessed surface, so that even when the fixing block is in close contact with the latch protrusion, the fixing block can move in one direction and is prevented from moving in the opposite direction, so that a more robust fixation state can be maintained.

1 is a perspective view for explaining a reinforcement for fixing a wall outlet according to an embodiment of the present invention.
Figure 2 is a perspective view of the reinforcement shown in Figure 1 viewed from another angle.
3 is a view for explaining a state in which the reinforcing bar shown in FIG. 1 is mounted on a wall;
Figure 4 is a view for explaining the process of the fixing block operating when the bolt is rotated in the state in which the reinforcing bar shown in Figure 1 is mounted on the wall.
Figure 5 is a view as viewed from the inside of the wall of the fixing block operation process when the bolt is rotated in the state in which the reinforcing rod shown in Figure 1 is mounted on the wall.
Figure 6 is a cross-sectional view showing a state when the fixing block starts to contact the wall in the process of mounting the reinforcement shown in Figure 1 on the wall.
Figure 7 is a cross-sectional view showing a state in which the bolt is continuously rotated after the fixing block of the reinforcement shown in Fig. 1 contacts the wall and the fixing block is pushed backward from the wall.
8 is an enlarged view of a portion of the depressed surface of FIG. 7;
9 is a view showing the state before and after the elastic deformation of the fixing block in FIGS. 6 and 7;

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, some configurations irrelevant to the gist of the present invention will be omitted or compressed, but the omitted configurations are not necessarily unnecessary in the present invention, and can be combined and used by those skilled in the art to which the present invention belongs. can

Figure 1 is a perspective view for explaining a reinforcing bar for fixing a wall outlet according to an embodiment of the present invention, Figure 2 is a perspective view of the reinforcing bar shown in Figure 1 viewed from another angle, Figure 3 is a reinforcement bar shown in Figure 1 is a wall It is a drawing to explain the state mounted on. As shown in FIGS. 1 to 3, the reinforcement 100 for fixing the wall outlet according to the embodiment of the present invention (hereinafter referred to as 'reinforcement') includes a main body 110, an entry part 120, and a bolt support 130 , It includes a bolt 150 and a fixing block 140.

The main body 110 is a portion exposed to the outside when the reinforcement bar 100 is mounted on the mounting hole 11 formed in the wall 10, and is manufactured in a substantially rectangular shape, and the inlet hole 112 for mounting the outlet inside this is formed In addition, since a plurality of screw holes 111 are formed around the main body 110, the reinforcing bar 100 is attached to the mounting hole 11 of the wall 10 as shown in FIG. When the screw is fastened, the reinforcing bar 100 is fixed to the wall 10. However, fastening using screws supports the reinforcing bar 100 only outside the wall 10, and in this embodiment, an additional configuration capable of supporting the reinforcing bar 100 even inside the wall 10 is provided.

Meanwhile, bolt holes 113 penetrating front and rear are formed in the upper and lower parts of the main body 110, and the bolt holes 113 communicate with the block moving holes 131 of the bolt support 130 to be described later. In addition, the through portion connecting the bolt hole 113 and the block movement hole 131 is formed to have an inner diameter smaller than the diameter of the head of the bolt 150, so that the bolt 150 is prevented from escaping backward.

The entry part 120 is the rear of the main body 110 (hereinafter, when the reinforcement 100 is mounted on the wall 10, the outer direction of the wall 10 is referred to as 'front', and the inner direction of the wall 10 is referred to as 'rear'). ') is formed in a protruding form along the circumference of the inlet hole 112. This entry part 120 is a part that comes into contact with the inner circumference of the mounting hole 11 when the reinforcement bar 100 is mounted on the wall 10.

The bolt support 130 is formed to extend rearward from the main body 110 and the entry portion 120, and a block movement hole 131 is formed on the inside in a form penetrating the front and rear. Here, the block movement hole 131 is connected to the bolt hole 113 formed in the main body 110 through a through portion where the inner diameter is narrowed. Referring to FIG. 6, the block movement hole 131 has an inner diameter approximately the same size as the outer diameter of the bolt 150, and the part adjacent to the bolt hole 113 has a coupling part of the fixing block 140 ( 141) has an inner diameter that is almost the same as the cylindrical outer diameter, and a part further to the left than that is formed with a recessed surface 136 that is more deeply recessed downward based on FIG. 6. The recessed surface 136 has the shape of a cylindrical inner diameter surface. A plurality of latch protrusions 137 are formed on the recessed surface 136 . The latch protrusion 137 has a structure in which one side has an inclined surface 137a and the other side has a vertical surface 137b. Therefore, while the lower edge of the fixing block 140 is in contact with the latch protrusion 137, the fixing block 140 can move in the direction of climbing the inclined surface 137a of the latch protrusion 137, but in the opposite direction. The fixing block 140 is caught on the vertical surface 137b of the latch protrusion 137 and cannot be moved. Therefore, when the lower edge of the fixing block 140 contacts the recessed surface 136, the fixing block 140 is prevented from being pushed backward (left direction in FIG. 6).

In addition, a slot portion 132 is formed along the longitudinal direction of the block movement hole 131 on a side surface facing outward from the bolt support body 130 . Referring to the bolt supporter 130 installed on the top of the reinforcing bar 100 in FIG. 2, the slot portion 132 is formed on the upper side of the bolt supporter 130. In addition, one side of the rear side of the slot portion 132 of the bolt support body 130 is formed with an opening 133 cut in the inward direction of the main body 110. At this time, on the side of the slot portion 132 facing the portion where the opening portion 133 is formed, a locking step 134 for preventing rotation of the extension portion 143 of the fixing block 140 is formed. The locking jaw 134 constitutes a part of the side wall of one side of the slot portion 132 .

The bolt 150 enters through the bolt hole 113 of the body 110 and enters the block movement hole 131 of the bolt support 130.

The fixing block 140 is provided to fix the reinforcing rod 100 to the wall 10 from the inside of the wall 10 . This fixing block 140 is largely divided into a coupling part 141, an extension part 143 and a close contact part 144.

The coupling portion 141 has a cylindrical shape, and coupling holes 142 penetrating in front and rear are formed, and a screw thread is formed in the coupling hole 142, so that it is screwed with the bolt 150. The extension part 143 has a plate structure extending in one direction from the outer surface of the coupling part 141, and a cutout groove 143a is formed at an approximate center point of the extension part 143. At the end of the extension part 143, an inclined contact part 144, which is a part that comes into close contact with the inner surface of the wall 10, is formed.

The reinforcing bar 100 according to the embodiment of the present invention described above will be further embodied through the description of the reinforcing bar mounting process to be described with reference to FIGS. 6 to 9 below.

To install the reinforcement bar 100, a mounting hole 11 is first formed in the wall 10. The size of the mounting hole 11 should be smaller than the size of the outer circumference of the main body 110 and larger than the size of the outer circumference of the entry portion 120. Therefore, as shown in FIG. 1, after the bolt support 130 and the fixing block 140 of the reinforcement 100 face the inside of the wall 10, when the reinforcement 100 enters the mounting hole 11, FIG. As shown in 3, the bolt support 130, the fixing block 140, and the entry part 120 enter the mounting hole 11, and the main body 110 cannot enter the mounting hole 11, so the wall ( 10) It becomes exposed toward the outside. Here, when the reinforcing rod 100 enters the mounting hole 11, the extension 143 and the close contact 144 of the fixing block 140 should be in a state of lying sideways as shown in FIG.

As shown in FIG. 3, when the screwing operation is performed on the screw hole 111 of the body 110 using a screw (not shown) in a state where the reinforcing rod 100 enters the mounting hole 11 of the wall 10, The reinforcing bar 100 and the wall 10 are temporarily fixed.

Then, as shown in FIG. 4, by turning the head of the bolt 150 exposed to a portion of the inner region of the main body 110 using a screwdriver (or power tool), internal fixation using the fixing block 140 can be achieved. 4 and 5 are views of the fixing block 140 moving according to the rotation of the bolt 150 from different angles, but the wall 10 is not shown in FIGS. 4 and 5 so that the main configuration is clearly visible. It is not.

First, as shown in Figures 4 (a) and 5 (a), before the bolt 150 is rotated, the extension 143 and the close contact portion 144 of the fixing block 140 are in a side lying state. . That is, while the coupling portion 141 of the fixing block 140 is coupled to the end of the bolt 150, the extension portion 143 extending from the coupling portion 141 is the block moving hole 131 of the bolt support 130. ) It is possible to lay down through the opening 133 formed by cutting from the end to the side.

In this state, when the bolt 150 is rotated, the coupling part 141 rotates, and the extension part 143 and the contact part 144 are erected as shown in FIGS. 4(b) and 5(b).

Since the bolt 150 and the coupling portion 141 are screwed together, a certain level of frictional force exists between the bolt 150 and the coupling portion 141 . Therefore, when the bolt 150 rotates, the coupling part 141 rotates together, so that the entire fixing block 140 rotates.

Therefore, as shown in FIGS. 4(b) and 5(b), when the bolt 150 rotates, the fixing block 140 rotates together, and the side of the extension 143 of the fixing block 140 is the bolt. When the support 130 reaches the locking jaw 134, the fixing block 140 does not rotate any more. After that, when the bolt 150 is additionally rotated, the extension part 143 of the fixing block 140 touches the locking jaw 134 so that only the bolt 150 rotates without further rotation. Therefore, when the bolt 150 rotates in the state of FIG. 5 (b), the fixing block 140 screwed to the bolt 150 does not rotate, but only moves in a straight line toward the head of the bolt 150.

That is, as shown in (c) of FIG. 5, the fixing block 140 moves toward the head of the bolt 150 according to the continuous rotation of the bolt 150. At this time, the extension part 143 is the bolt support ( 130) It moves along the longitudinal direction of the slot portion 132 formed on the upper surface. Of course, since one side of the extension part 143 maintains a state in close contact with one side of the slot part 132 starting from the locking jaw 134, rotation is impossible and only forward movement is possible.

6 and 7, when the bolt is additionally rotated in a state in which the contact portion 144 of the fixing block 140 is in close contact with the inner surface of the wall 10, the fixing block 140 is attached to the wall 10. It receives a repulsive force by the inner surface and is pushed in the rearward direction (leftward direction with reference to FIG. 7). At this time, the fixing block 140 undergoes elastic deformation in which the upper part of the incision 143a of the extension part 143 is bent to the left with reference to FIG. . Since the part with the smallest cross-sectional area of the extension part 143 of the fixing block 140 is the part where the incision groove 143a is formed, this part is deformed.

At the same time, when the fixing block 140 receives the repulsive force of the wall 10 in the rear direction (left direction with reference to FIG. 7) and is strongly pushed, the bolt 150 undergoes elastic deformation that is bent somewhat downward. When the bolt 150 is continuously rotated further, the bottom corner of the coupling part 141 of the fixing block 140 coupled to the bolt 150 is stepped on the rear part of the convex moving hole 131, and the recessed surface 136 ) will come into contact with

As the bolt 150 is bent, the coupling part 141 of the fixing block 140 descends downward, and the corner of the lower end of the coupling part 141 contacts the recessed surface 136 of the coupling part 141 in the process. The lower corner portion comes into contact with the latch protrusion 137. At this time, when the bolt 150 is further rotated, the fixing block 140 advances a little further while the lower edge part rides over the inclined surface 137a of the latch protrusion 137, and as a result, the close contact of the fixing block 140 ( 144) is in close contact with the wall 10 more strongly, and when the rotation of the bolt 150 is stopped, the lower corner of the coupling part 141 of the fixing block 140 is attached to the vertical surface 137b of the latch protrusion 137. It is caught and the fixing block 140 is prevented from being pushed in the rearward direction (leftward direction in FIG. 7). In this way, since the fixing block 140 is prevented from being pushed backward by the latch protrusions 137, the fixing block 140 can be maintained in close contact with the inner surface of the wall 10. Here, the corner portion of the lower end of the coupling part 141 of the fixing block 140 has an angular structure and can ride over the inclined surface 137a of the latch protrusion 137, but the vertical surface 137b of the latch protrusion 137 rides As a result, the fixing block 140 is prevented from being pushed backward from the recessed surface 136 because it cannot be crossed. In this way, since the fixing block 140 maintains a state in close contact with the wall 10, the fixation of the reinforcing bar 100 to the wall 10 does not loosen and maintains a solid fixation state.

In addition, even after the fixing block 140 is in close contact with the wall 10, as the bolt 150 continues to rotate, the fixing block 140 is pushed to the left with respect to FIG. 7 by the repulsive force of the wall 10, 7, the amount of bending of the bolt 150 is small so that the lowest end of the coupling part 141 of the fixing block 140 is not in close contact with the recessed surface 136. Even if it does not float, since the bolt 150 is already elastically deformed and is in a bent state, the fixing block 140 is brought into close contact with the wall 10 by the restoring force according to the elastic deformation of the bolt 150. Therefore, the reinforcing bar 100 is always fixed to the wall 10 in close contact without any play and is not loosened.

In addition, when the fixing block 140 presses the wall 10, since the wall 10 receives a repulsive force, elastic deformation occurs in the portion of the incision groove 143a having the smallest cross-sectional area in the fixing block 140, and the incision groove ( 143a) The fixing block 140 adheres to the wall 10 by the restoring force according to the elastic deformation in the portion. Therefore, the fixing of the reinforcing rod 100 to the wall 10 always maintains a close contact state and does not loosen.

In addition, the threaded connection between the coupling part 141 of the fixing block 140 and the bolt 150 is more mutually By being in close contact, loosening of the screws between the fixing block 140 and the bolt 150 is prevented. Since loosening of the screws of the fixing block 140 and the bolt 150 is prevented even when an external impact is applied, the tightness of the reinforcing bar 100 to the wall 10 is maintained well and does not come loose.

As described in detail above, the reinforcing bar 100 for fixing the wall socket according to the present invention is temporarily fixed through screwing from the outside of the wall 10, and after the fixing block 140 is erected through the rotation of the bolt 150 When moving forward, the fixing block 140 is in close contact with the inner surface of the wall 10, so that a solid fixing force is exerted not only on the outside of the wall 10 but also on the inside of the wall 10. That is, since solid fixation can be made inside and outside the wall 10, solid support is possible when the attachment using the reinforcing bar 100 is fixed.

In particular, in the present invention, since the block moving hole 131 is provided with a recessed surface 136 that forms an additional space by stepping, so that the elastic deformation of the bolt is possible, the restoring force due to the elastic deformation of the bolt moves the fixed block to the wall. It makes the fixation of the reinforcement more reliable by making it more closely.

Meanwhile, in the above description, the reinforcing rod 100 provided with the rectangular body 110 has been illustrated and described, but the shape of the body may have various shapes as needed.

In addition, although this embodiment shows an example in which the bolt support 130, the fixing block 140, and the bolt 150 are provided only on the upper and lower portions of the main body 110, respectively, the bolt support, the fixing block and Bolts can be variously modified in terms of formation position or number of formations.

The preferred embodiment of the present invention described above has been disclosed for illustrative purposes, and various modifications, changes and additions will be possible to those skilled in the art with ordinary knowledge of the present invention within the spirit and scope of the present invention, and such modifications and changes and additions should be considered to fall within the scope of the claims of the present invention.

10: wall
11 : installer
100: reinforcement
110: body
111: screw hole
112: inlet hole
113: bolt ball
120: entry part
130: bolt support
131: block movement hole
132: slot portion
133: opening
134: catch jaw
136: depressed surface
137: protrusion
140: fixed block
141: coupling part
142: coupling hole
143: extension
143a: cutting groove
144: close contact
150: bolt

Claims (5)

A body exposed to the outside of the wall and having a bolt hole formed therein;
a bolt supporter extending to the rear of the main body, having a block shifting hole communicating with the bolt hole, and having a slot formed in the block shifting hole in an outward direction around the main body;
a bolt rotatably seated in the block movement hole of the bolt support; and
A fixing block that is screwed with the bolt and moves forward and backward along the slot portion of the bolt support when the bolt rotates.
An opening portion cut from the block moving hole toward the inside of the main body is formed at the rear of the bolt support body, and a locking jaw for blocking rotation of the fixing block is formed on one side of the slot portion facing the opening portion. As it is,
The fixing block is a reinforcement rod for fixing a wall outlet, characterized in that it can be laid toward the inside of the body through the opening or built toward the outside around the body.
delete According to claim 1,
The fixing block includes a coupling portion coupled to the bolt, an extension portion extending from an outer surface of the coupling portion, and a contact portion provided at an end of the extension portion and in close contact with the inner surface of the wall,
Reinforcing bar for fixing a wall outlet, characterized in that the extension portion is formed with a groove-shaped cutout groove on one side of which is cut.
According to claim 3,
The block moving hole is a wall outlet fixing reinforcement, characterized in that the recessed surface is formed in the rear portion to form a recessed space.
According to claim 4,
Wall outlet fixing reinforcement, characterized in that the recessed surface is formed with a plurality of latch protrusions formed with an inclined surface on one side and a vertical surface on the other side.

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