KR102342256B1 - Binding unit for mutual assembly of stone blocks - Google Patents

Abstract

The present invention is a stone block having a plurality of coupling holes perforated along positions spaced apart at equal intervals on the upper and lower surfaces, respectively; a coupling unit that is forcibly inserted into the coupling hole of the stone block and connects the stone blocks stacked up and down to each other and to be fixedly coupled; Including, wherein the coupling unit forms a cut-out in which one side is long cut up and down, and each of the upper and lower ends constitutes an upper tapered portion and a lower tapered portion each tapering, forming a threaded portion formed by the outer peripheral surface of the lower region, the upper region A portion of the outer peripheral surface of the side is cut to provide an elastic piece protruding in the outward direction,
When an earthquake-resistant prefabricated stone block is used to form the wall of a building in a prefabricated manner, the assembly process of the wall is easy and a strong bonding force can be maintained even after assembling. It relates to a binding unit for.

Description

Binding unit for mutual assembly of stone blocks

The present invention relates to an elastic ball coupling unit for mutually coupling seismic prefabricated stone blocks in the vertical or lateral directions, and in the construction of walls, prefabricated stone blocks constituting a prefabricated wall, particularly seismic prefabricated stone blocks, when assembling, When installing between prefabricated stone blocks and prefabricated stone blocks, such as in case of incorrect assembly or reassembly after assembly and installation, the insertion is processed with an insertion hole formed in the block for seismic resistance. It relates to a coupling unit for the mutual assembly of stone blocks.

During the construction of a building, wall construction is one of the important construction processes, and in particular, in order to prevent the collapse of a building in case of a natural disaster such as an earthquake, wall construction of a building according to an earthquake-resistant design is essential.

In the wall construction of such a building, the existing wall construction method by the wet construction method, in which the existing walls are constructed using reinforced concrete or mortar-treated using blocks or bricks, is being constructed.

The construction method by the wet construction method has been pointed out a problem of cost increase due to an increase in azeotrope due to severe material waste in the field, and problems in that the curing time of concrete or mortar is required and the amount of air is increased.

In addition, there is a significant difference in construction reliability and completeness according to the skill level of the workers, making it difficult to manage construction quality.

In addition, the wall of a building obtained by pouring concrete or undergoing a curing process such as mortar does not secure flexibility, so its impact resistance to withstand strong impact is weak, and it is also vulnerable to lateral pressure, so damage occurs frequently. It has a disadvantage in that it is difficult to secure seismic resistance suitable for the recent design and construction required.

In consideration of this point, recently, wall construction methods and construction structures to have seismic resistance have been publicly practiced, and are known, for example, by dry construction using blocks that are standardized and manufactured as ready-made products. There are cases where there is no difference in construction accuracy and reliability, and construction is carried out using safe seismic prefabricated blocks that can be applied to any building under construction without a separate design change.

For example, the present inventor discloses a production method for a block that has solved the above problems by the 'Seismic Prefabricated Exterior Block Unit Production Method', which is a Korean Patent Registration No. 10-1365486, previously applied to and registered with the Korean Intellectual Property Office by the inventor of the present application.

In addition, an earthquake-resistant prefabricated block that reduces air in wall construction by dry construction of ready-made members according to the disclosure of 'seismic prefabricated block unit', which was applied and registered by the inventor of the present application, Republic of Korea Patent Registration No. 10-1365487 unit is provided.

In addition, according to Korean Patent Registration No. 10-1365485, filed and registered by the inventor of the present application, 'a structure of an earthquake-resistant prefabricated block unit and a construction method of an earthquake-resistant wall using the same' are proposed, and the impact of lateral pressure, etc. inside the block unit structure Disclosed are a seismic prefabricated block unit structure with excellent seismic performance by providing an elastic body corresponding to the earthquake resistance, and a construction method of a seismic wall using the same.

Citing the content specified in the scope of rights by the Patent No. 10-1365485, "It is for constructing a wall with seismic performance in a dry type by laminating blocks, and exterior block,

and a core block inserted into the block hollow part and the semi-hollow part;

It is configured to include an elastic ball installed on the outer surface of the core block, the plurality of exterior blocks are stacked horizontally and vertically, and several layers are stacked with clogged joints, and the semi-hollow part of the exterior block is horizontally adjacent to that of the exterior block. Combines with the semi-hollow part to form a combined hollow part of the same shape and size as the block hollow part,

The core block is vertically penetrated and inserted between the connected hollow block part and the coupling hollow part, so that the elastic ball supports the inner wall of the block hollow part and the coupling hollow part by using an elastic force corresponding to the lateral pressure acting on the completed wall. Disclosed is a structure of a prefabricated block unit for earthquake resistance, characterized in that it has seismic resistance. (See Patent Publication)

In the case of the above patent having such a configuration, when the block is installed and constructed, the core block is inserted into the block hollow part or semi-hollow part of the exterior block, and between the four ears of the core block and the four ears of the block hollow part or semi-hollow part The elastic sphere is inserted into the formed elastic sphere insertion groove side to ensure seismic resistance.

Here, in the case of the elastic sphere, a compression elastic sphere having an internal elastic force to expand to the outside due to an internal compression force is adopted. It puts you in a situation where it is impossible to deal with the situation where you need to dismantle it.

In the prior patent, the elastic sphere insertion groove is formed by the space between the elastic sphere insertion groove formed in the four ears of the core block and the ear of the corresponding block hollow or semi-hollow part. The elastic ball having elastic force is forcibly inserted by the

That is, as described above, the elastic sphere forcibly inserted into the elastic sphere insertion groove exerts an elastic force to secure the impact resistance between the core block and the exterior block, thereby enabling earthquake resistance. should be dismantled

However, it is not easy to remove the elastic sphere from the elastic sphere insertion groove, and damage or damage to the core block or the exterior block may occur in the process of forcibly removing the elastic sphere.

Republic of Korea Patent Registration No. 10-1365486 (Announcement on February 21, 2014) Republic of Korea Patent Registration No. 10-1365487 (Announcement on February 14, 2014) Republic of Korea Patent Registration No. 10-1365485 (Announcement on February 21, 2014)

Therefore, the present invention has been devised to solve the above problems, and the object of the present invention is to secure the ease of assembly in the process of assembling an earthquake-resistant prefabricated stone block and to have a strong bonding force after assembling.

The present invention for achieving the above object,

A stone block having a plurality of coupling holes perforated along positions spaced apart at equal intervals on the upper and lower surfaces, respectively;

a coupling unit that is forcibly inserted into the coupling hole of the stone block and connects the stone blocks stacked up and down to each other and to be fixedly coupled;

It provides a coupling unit for the mutual assembly of stone blocks comprising a.

According to the present invention, when the wall of a building is prefabricated by using the prefabricated stone block for earthquake resistance, the assembly process of the wall is easy and strong bonding force can be maintained even after assembling, so that seismic resistance can be secured when an earthquake occurs. .

1 is a perspective view showing an example of a coupling unit applied to the present invention;
Figure 2 is a perspective view taken from an angle at which the elastic piece can be confirmed in the coupling unit of Figure 1 applied to the present invention;
3 is a view showing an example of inserting and fastening to the coupling hole punched in the stone block using the coupling unit applied to the present invention;
4 is a view showing a state in which the coupling unit is coupled using another stone block to the upper side of the stone block coupled to the upper surface by FIG.
5 is a view showing an example of side-bonding another stone block to the side of the stone block using a coupling unit applied to the present invention, unlike FIGS. 3 to 4;
Figure 6 is a schematic cross-sectional view showing the cross-sectional form of the stone blocks laminated and bonded according to the present invention;

The terms or words used in the present specification and claims are not to be construed as limited in their ordinary or dictionary meanings, and the inventor can appropriately define the concept of the term in order to best describe his invention. Based on this, it should be interpreted as meaning and concept consistent with the technical idea of the present invention. Accordingly, the embodiments described in the specification of the present invention and the configurations shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical spirit of the present invention. It should be understood that various possible equivalents and variations are possible or existent.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention proposes a configuration comprising a stone block 200 and a coupling unit 100 , wherein the coupling unit 100 is a configuration for interconnecting the stone block 200 and the stone block 200 .

In the stone block 200, as shown in FIGS. 3 to 6, coupling holes 210 are respectively perforated at positions that are spaced at regular equal intervals to the upper and lower surfaces, and are equally spaced apart from both sides of the stone block 200, respectively. The coupling holes 210 are configured to be perforated, respectively.

In this way, the coupling holes 210 are configured to be perforated on the upper and lower surfaces and both sides of the stone block 200, respectively, and the stone block 200 is connected vertically by the coupling unit 100, which is an element of the present invention, or Alternatively, it is connected in the lateral direction and the wall can be freely constructed.

1 is a perspective view showing a coupling unit 100 applied to the present invention.

As shown in Fig. 1, the present invention provides a coupling unit 100 for interconnecting the top and bottom or side surfaces between the stone block 200 and the stone block 200.

Such a coupling unit 100 forms a cutout 110 in which one side is long cut up and down, and a screw portion 120 is formed on the outer peripheral surface of the lower end.

In addition, the upper and lower portions of the coupling unit 100 form an upper tapered portion 130 and a lower tapered portion 140 that are respectively tapered.

A coupling groove 131 is formed in a position opposite to the end side of the upper tapered part 130 of the coupling unit 100 .

The coupling groove 131 is inserted into the coupling hole 210 punched in the stone block 200 to have a strong coupling force after the coupling unit 100 is inserted into the coupling recess 131 using a separate tool. It is a configuration that can rotate the coupling unit 100 in the fastened state.

That is, when the coupling unit 100 is rotated clockwise while being inserted into the coupling groove 131 using a tool with a flat end shape, such as a separate tool, the screw part formed as the outer peripheral surface of the central lower end of the coupling unit 100 120 digs into the coupling hole 210 of the stone block 200 and taps the inner circumferential surface of the coupling hole 210 to have a shape in which it is inserted.

In this way, when the coupling unit 100 is forcibly coupled by tapping the coupling hole 210 of the stone block 200 using a tool, the upper side of the coupling unit 100 protrudes as shown in FIG. will take shape

On the other hand, a through hole 132 that passes through the upper outer circumferential surface of the coupling unit 100 in the horizontal direction may be drilled, and the through hole 132 is inserted using a separate tool in the form of a round bar, etc., and then the coupling unit By rotating 100, the inner peripheral surface of the coupling hole 210 of the stone block 200 can be inserted and coupled by tapping.

As such, by using a separate tool such as a coupling groove 131 formed on the upper end side of the upper tapered portion 130 of the coupling unit 100 or a through hole 132 penetrating the upper outer circumferential surface of the coupling unit 100, etc. To rotate, the lower side of the coupling unit 100 toward the coupling hole 210 side of the stone block 200 is in contact with the inner circumferential surface of the through hole 132 so that tapping processing and insertion and fixing are easily possible.

On the other hand, a portion of the outer peripheral surface of the upper side of the coupling unit 100 is cut off to constitute an elastic piece 150 protruding outward.

The upper region of the coupling unit 100 is to be understood as a region for being forcibly inserted and coupled to the coupling hole 210 of the other stone block 200 to be connected.

That is, in the case of connecting the stone block 200 and the stone block 200 up and down, the lower region of the coupling unit 100 is tapped as described above, and the coupling hole of the stone block 200 located at the lower side ( The upper area of the coupling unit 100 is forced as it is in any one of the coupling holes 210 that is screwed to 210 and is punched to the lower side of the upper stone block 200 that is coupled to the upper side. It can be inserted and fixed.

At this time, since the elastic piece 150 is provided on the outer circumferential surface of the upper region of the coupling unit 100 as described above, the inner circumferential surface of the coupling hole 210 of the upper stone block 200 and the elastic piece ( 150) maintains a close state and the upper region of the stone block 200 and the coupling unit 100 coupled to the upper side by the phenomenon of digging into the inner circumferential surface of the coupling hole 210 does not easily fall out.

In addition, the lower area or upper area of the coupling unit 100 is inserted into the coupling hole 210 of the stone block 200 by the cutout 110 formed by cutting one side of the coupling unit 100 long. In this state, it is inserted forcibly and acts as a tension to maintain a solid coupling state between the coupling unit 100 and the stone block 200 .

According to the above-described configuration of the present invention, as shown in the drawings, when the stone blocks 200 are connected in the vertical or lateral direction to form a wall, a coupling hole drilled in the upper surface or any one side of the stone block 200 First, the lower region of the coupling unit 100 is inserted and fastened to the (210) side.

That is, as described above, the outer peripheral surface of the lower region of the coupling unit 100 is composed of a screw portion 120 having a threaded shape, and the end side of the upper tapered portion 130 corresponding to the upper end side of the coupling unit 100 has a coupling groove ( 131) is formed, and after coupling a separate cross-shaped tool with the coupling groove 131, the screw part 120 is inserted into the coupling hole 210 of the stone block 200 to be coupled to the coupling hole 210. The inner circumferential surface is forcibly tapped and can be fastened.

On the other hand, the coupling unit 100 forms a cutout 110 that is long cut in one side, so that the inner diameter of the stone block 200 must be reduced in the process of being inserted into the coupling hole 210 side. It is preferable that the outer diameter of the unit 100 is relatively larger than the inner diameter of the coupling hole 210 of the stone block 200 .

Therefore, in the process of inserting the coupling unit 100 to the coupling hole 210 side of the stone block 200, the inner diameter is reduced by the cutout 110 of the coupling unit 100, and the inner diameter of the coupling hole 210 is strong. can be adhered to.

That is, since the coupling unit 100 has a tension force to expand in the outer circumferential direction by the restoring force of the coupling unit 100 as a whole by the cutout 110 of the coupling unit 100, the stone block 200 is naturally coupled. Close contact with the inner circumferential surface of the ball 210 is possible, and when the coupling unit 100 is rotated clockwise in this state, the coupling hole ( 210) The inner circumferential surface is tapped and has a shape to be screwed with the coupling unit 100 .

After the lower region of the coupling unit 100 is fixed to the stone block 200 (for example, a stone block located at the lower side or a stone block located to be connected in the lateral direction) by this process, the coupling unit 100 The upper region of the other stone block 200 is forcibly inserted into the coupling hole 210 and coupled.

Also in this process, as described above, by the elastic piece 150 provided on the outer peripheral surface of the upper region of the coupling unit 100, it is possible to firmly maintain the fastening state between the stone block 200 and the upper region of the coupling unit 100. .

In this way, the stone block 200 and the stone block 200 are stacked up and down to form a wall, or the stone block 200 is laterally connected in consideration of the wall thickness and then the stone block 200 is connected in the connected state. ) can be stacked in the upward direction, connected, and constructed, so that wall workability and stability can be secured.

In addition, since the interconnection state between the stone blocks 200 is respectively connected up and down or left and right by the coupling unit 100 having a tension force, it is a very useful invention that can ensure seismic resistance when an earthquake occurs.

100; coupling unit 110; incision
120; thread 130; upper taper part
131; coupling groove 132; through hole
140; lower tapered part 150; elastic piece
200; stone block 210; joiner

Claims (3)

A stone block having a plurality of coupling holes perforated along positions spaced apart at equal intervals on the upper and lower surfaces, respectively;
a coupling unit that is forcibly inserted into the coupling hole of the stone block and connects the stone blocks stacked up and down to each other and to be fixedly coupled;
including,
The coupling unit is
An incision in which one side is long incised up and down;
The upper and lower ends of the coupling unit each have an upper tapered portion and a lower tapered portion configured to be tapered;
a coupling groove in which an upper portion is cut in a position opposite to an end side of the upper tapered portion;
a screw portion formed on an outer peripheral surface of the lower region of the coupling unit;
an elastic piece which is partially cut to one side of the outer peripheral surface of the upper region of the coupling unit and protrudes outward;
A coupling unit for the mutual assembly of stone blocks, including those provided.


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