KR101812477B1 - Deck block using concrete block and construction method thereof - Google Patents

Abstract

A concrete block (4) is formed in a deck block, wherein a groove (6) is formed at the edge of the concrete block (4) at regular intervals, and a panel (8) is formed on the concrete block (4) Shaped vertical through holes 10 and horizontal through holes 12 are formed at both ends of the panel 8 and vertical through holes 10 formed in the panel 8 A fixing pin 16 which is fitted in the groove portion 6 formed in the concrete block 4 and is installed such that the head portion 20 lies on a straight line with the vertical through hole 10, A connecting shaft 26 for fitting and connecting the head portion 20 of the through hole 12 and the head portion 20 of the fixing pin 16 is constructed so that a wooden panel 8 is installed on the upper portion of the concrete block 4 The slip prevention member 14 can be installed between the panels 8 to prevent the slip of the pedestrian There are effective.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a deck block using a concrete block,

The present invention relates to a deck block, and more particularly, to a deck block using a concrete block in which a panel made of wood is installed on a concrete block, and a construction method thereof.

Generally, in India or sidewalk block, various blocks are installed for the convenience of pedestrians and the clean environment of the city center.

At this time, most of the blocks are concrete blocks manufactured by curing concrete, or synthetic resin blocks manufactured by recycling waste tires and the like.

The concrete block has the advantages of low cost of production, high durability and high surface strength, so there is little fear of breakage. On the other hand, when the pedestrian falls down due to the characteristics of the concrete itself, the impact is transmitted as it is.

In addition, since the color and texture are monotonous, there is a limit that does not fit the trend of making the urban environment more beautiful.

The synthetic resin member block has the advantage of recycling waste tires and the like and absorbing shocks. However, the manufacturing cost is higher than that of the concrete block, and the use thereof is gradually decreasing because it can adversely affect the human body and the environment.

Therefore, it is required to develop a new type of block that is durable and environmentally friendly and can improve the urban environment.

Japanese Patent Application Laid-Open No. 10-1999-0088254, 'Composite construction material and method of construction thereof' Registration Practical Utility Model No. 20-0341881, 'Interior and Exterior Panel for Architectural Construction' Registration utility model No. 20-0455812, 'deck concrete coupling block' Japanese Patent Application Laid-Open No. 10-2006-0102816, 'Walking Guide Device for the Blind'

Accordingly, an object of the present invention is to provide a deck block which is eco-friendly and aesthetically pleasing by installing a panel made of wood on an upper part of a concrete block.

In the deck block, a concrete block 4 is formed. In the deck block, a groove 6 is formed at a predetermined interval on the upper surface 45 of the upper surface of the concrete block 4, Wherein a plurality of panels 8 are disposed on the panel 8 and the head portion 20 of the fixing pin 16 fitted to the groove portion 6 formed in the concrete block 4 among the plurality of panels 8 is extruded, A vertical through hole 10 and a horizontal through hole 12 are formed in the concrete block 4 and a horizontal through hole 12 is formed in the other panel 8. A fixing pin And a connection shaft 26 for fitting the fitting hole 22 of the head part 20 and the horizontal through hole 12 of the panel 8 into each other.

In the deck block, a concrete block 4 is formed. The concrete block 4 is integrally formed by placing a connecting member 28 at the edge of the concrete block 4, A horizontal through hole 12 is formed at both ends of the panel 8 so that the panel 8 is positioned between the hooks 30 of the connecting member 28 protruded to the upper portion of the panel 8, 8 of the panel 8 are positioned such that the horizontal through hole 12 of the panel 8 and the fitting hole 32 of the ring 30 are positioned on a straight line and the horizontal through hole 12 And a connecting shaft 26 for fitting the fitting hole 32 of the hook 30 into the fitting hole 32.

The present invention also provides a method of constructing a concrete block 4 in which a concrete block 4 having a plurality of grooves 6 for fitting a fixing pin 16 to an upper surface 45 of a concrete block 4 is manufactured A step of disposing a concrete block 4 on which grooves 6 are formed and a plurality of panels 8 on an upper side of the concrete block 4 and a plurality of panels 8 disposed on the concrete block 4, (10) formed on both ends of the panel (8) in a state where the panel (8) and the non-skid member (14) are disposed on the concrete block (4) And the fitting hole 22 of the head portion 20 of the fixing pin 16 is inserted through the horizontal hole 22 formed in the panel 8 Aligning the horizontal through hole (12) of the panel (8) with the horizontal through hole of the non-slidable member (14) and the fixing pin Fixing the panel (8) and the non-skid member (14) to the concrete block (4) by fitting the connection shaft (26) into the fitting hole (22) of the head part (20) do.

The method of constructing a deck block according to the present invention includes placing a concrete member in a state where a connecting member is positioned along an outer circumferential surface of a top surface of a concrete block at the time of manufacturing the concrete block, 4) and a connecting member (28) are integrally formed; a step of installing a concrete block (4) provided with a connecting member (28) Disposing a panel (8) between the plurality of panels (8) disposed on the concrete block (4), installing a nonslip member (14) between the plurality of panels (8) The horizontal through hole 12 formed at the opposite ends of the panel 8 and the horizontal through hole of the non-slip member 14 and the connecting member 28 formed on both sides of the panel 8 in a state where the panel 8 and the non- The position of the panel 8 and the non-skid member 14 is adjusted so that the fitting hole 32 of the ring portion 30 is positioned on a straight line. And the connecting shaft 26 is inserted into the horizontal through hole 12 of the panel 8 and the horizontal through hole of the non-slip member 14 and the fitting hole 32 of the hook 30 of the connecting member 28 And fixing the panel (8) and the nonslip member (14) to the concrete block (4) by fitting them together.

The present invention has a simple structure in installing a panel made of wood on an upper part of a concrete block, and prevents a slip of a pedestrian by providing a non-slip member between the panels.

1 is a perspective view showing a configuration of a deck block using a concrete block according to a first embodiment of the present invention;
2 is an exploded view of a deck block according to a first embodiment of the present invention,
Fig. 3 is a cross sectional view of Fig. 1,
4 is a detailed view of the fixing pin of the present invention,
5 is a perspective view showing a configuration of a deck block according to a second embodiment of the present invention,
6 is a perspective view of a connecting member according to a second embodiment of the present invention;
FIG. 7 is a view showing a coupling structure between concrete blocks of the present invention,
8 is a flowchart illustrating a method of constructing a deck block using a concrete block according to the first embodiment of the present invention.
9 is a flowchart illustrating a method of constructing a deck block using a concrete block according to a second embodiment of the present invention.

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

FIG. 1 is a perspective view showing the construction of a deck block using a concrete block according to a first embodiment of the present invention, FIG. 2 is a partially exploded perspective view, and FIG. 3 is a sectional view thereof.

The deck block 2 of the present invention is provided with a concrete block 4 at the bottom and a plurality of grooves 6 at a predetermined interval on the upper surface 45 of the concrete block 4, A vertical through hole 10 and a horizontal through hole 12 are formed at both ends of the panel 8 in the lateral direction of the concrete block 4, The head portion 20 of the fixing pin 16 fitted in the groove portion 6 formed in the concrete block 4 is formed in a vertical through hole 10 formed in the vertical hole 8 in a straight line with the vertical through hole 10 So that the panel 8 is coupled to the concrete block 4 by fixing the connecting shaft 26 through the horizontal through hole 12 and the fitting hole 22 of the fixing pin 16, Structure.

It is a matter of course that the groove 6 is formed on the outer circumferential surface 45 of the upper surface of the concrete block 4 during the casting process, It may be installed on the inner circumferential surface 46.

That is, the panel 8 can be more firmly fixed to the concrete block 4 by forming the groove 6 in the inner circumferential surface 46 and fixing the panel 8 through the fixing pin.

The fixing pin 16 may be in the form of an eyebolt.

The fixing pin 16 is composed of a body portion 18 fitted to the groove portion 6 formed in the concrete block 4 and a head portion 20 forming the fitting hole 22, And the upper part of the head 20 is fixed to the vertical through hole 10 formed in the panel 8 after the body part 18 is fixed by fixing with the adhesive of the epoxy resin material through the vertical penetrating part of the panel 8 ).

The fixing pins 16 may be installed at regular intervals between the panels 8 as shown in the figure and may be provided for each panel 8 in order to fix the panel 8 firmly.

It is a matter of course that only the horizontal through hole 12 is formed in the panel 8 in which the fixing pin 16 is not provided and the vertical through hole 10 is not formed.

Horizontal through holes 12 are formed at both ends of the panel 8 and the fixing pin 16 is inserted into the insertion hole 22 formed in the head portion 20 of the fixing pin 16 and the panel 8 in the vertical through-hole 10 of the panel 8 such that the horizontal through-hole 12 of the panel 8 is placed on a straight line.

Here, the vertical through holes 10 of the panel 8 may be formed to pass through the upper and lower portions of the panel 8, and only the lower portion of the panel 8, 20 can be seated.

In this case, the head portion 20 of the fixing pin 16 is not exposed to the outside in a state where the panel 8 is coupled to the concrete block 4, so that the appearance is good.

The horizontal through hole 12 of the panel 8 and the fitting hole 22 of the fixing pin 16 are positioned in a straight line so that the horizontal through hole 12 of the panel 8 And a plurality of panels 8 disposed above the concrete block 4 are connected and fixed by fitting the connecting shaft 26 so as to pass through the fitting hole 22 of the fixing pin 16 and the fitting hole 22 of the fixing pin 16.

Since the fixing pin 16 is fixed to the groove portion 6 of the concrete block 4, the panel 8 coupled to the fixing pin 16 by the connecting shaft 26 is also supported on the upper portion of the concrete block 4 So that it can be fixedly installed.

The insertion hole 22 formed in the head portion 20 of the fixing pin 16 is fixed to the fixing pin 16 provided in the groove 6 by connecting the connecting shaft 26 to the panel 8, If the size of the connecting shaft 26 is larger than the diameter of the connecting shaft 26, a clearance may be generated in a state in which the connecting shaft 26 is fitted, and as a result, the panel 8 may not be firmly fixed.

Also, if the size of the fitting hole 22 is made equal to the diameter of the connecting shaft 26 to minimize the clearance, fitting of the connecting shaft 26 may be difficult.

4, an elastic member 24 is formed in the fitting hole 22 formed in the head portion 20 of the fixing pin 16 so that the gap between the connecting shaft 26 and the fitting hole 22 The operation of the connecting shaft 26 can be facilitated by the elasticity of the elastic member 24 when the connecting shaft 26 is fitted into the fitting hole.

In the present invention, the non-slip member 14 may be provided between the panel 8 and the panel 8. [

When the deck block 2 is installed with the panel 8 made of wood, if the panel 8 is wet, there is a possibility that the pedestrian slides, so that the non-slip member 14 is installed between the panels 8 Slip can be prevented.

In a preferred embodiment, the non-slip member 14 of the rubber material may protrude above the installed panel 8 and the width of the non-slip member 14 may be increased to enhance the slip effect.

Here, the non-skid member 14 has horizontal through holes at both ends thereof, and the connecting shaft 26 is horizontally passed through the panel 8 in a state where the non-skid member 14 having the horizontal through- The hole 12 and the non-slip member 14 penetrate through the horizontal through-hole and the fitting hole 22 of the fixing pin 16 and are coupled together by one deck block 2.

The non-skid member 14 is connected to one side of the panel 8 and includes a vertical through hole 10 and a horizontal through hole 12 in one set in which the panel 8 and the non-skid member 14 are combined. And may be connected to the fixing pin 16 through the connection shaft 26 (see an enlarged view of FIG. 2).

5 to 6 show the configuration of the deck block 2 according to the second embodiment of the present invention.

The connecting member 28 is inserted into and integrated with the concrete block 4 by placing the connecting member 28 on the outer circumferential surface 45 of the upper surface of the concrete block 4 when the concrete is poured.

The connecting member 28 may be formed on the upper surface 45 of the concrete block 4 and may be provided on the inner surface 46 if necessary.

The panel 8 can be more firmly fixed to the concrete block 4 by fixing the panel 8 through the connecting member 28 by forming the connecting member 28 on the inner circumferential surface.

6, a hook 30 for fitting the connecting shaft 26 is formed at an upper portion of the connecting member 28, and a leg portion 36 is formed at a lower portion in an oblique direction A support portion 38 protruding inwardly from the concrete block together with the leg portion 36 to prevent detachment of the concrete block from the inside of the leg portion 36, Thereby forming a concrete inflow hole 40 which induces a full inflow.

A plurality of the rings 30 are formed in the longitudinal direction on the connecting member 28, and a panel 8 is disposed between the rings 30.

The fitting hole 32 formed in the hook 30 is engaged with the connecting shaft 26 together with the through hole formed in the panel 8 to connect and fix the plurality of panels 8.

The elastic member 24 is formed in the fitting hole 32 formed in the ring portion 30 with the same structure as that of the elastic member 24 formed in the fitting hole 22 of the fixing pin 16 of the second embodiment (See FIG. 4), the fitting hole 32 provided with the elastic member 24 minimizes the gap with respect to the connecting shaft 26 when the connecting shaft 26 is fitted, so that the panel 8 is firmly fixed .

The lower portion of the hook 30 forms a leg portion 36 inclined in the oblique direction and is inclined in both directions to support the connecting member 28 from the concrete block 4 .

A support portion 38 is formed on one side of the leg portion 36 and is inclined in a direction opposite to the leg portion 36. The support portion 38 is staggered in a direction crossing the leg portion 36 and the support portion 38, The member 28 is held so as not to be separated upward.

The connecting member 28 may be formed of stainless steel as an embodiment of the present invention. In forming the supporting portion 38, one side of the leg 36 may be cut and then bent inward, And a concrete inflow hole 40 is formed at one side of the reinforcing member 36.

The connecting member 28 is integrally formed by pouring concrete in a state where the connecting member 28 is positioned on the upper surface 45 of the concrete block 4 when the concrete block 4 is manufactured. It is desirable that the interior space be filled with concrete without voids.

If the space between the legs 36 of the connecting member 28 is not filled up with the concrete, the durability of the concrete block 4 is lowered and the gap between the legs 36 and the supporting portion 38 and the concrete block 4 The connecting member 28 can be easily removed from the concrete block 4.

In the present invention, the concrete inflow hole 40 is formed at one side of the plate-like leg portion 36 so that the concrete can be fully filled into the space between the leg portions 36 when the concrete is poured, You can.

In the present invention, the non-slip member 14 may be provided between the panel 8 and the panel 8. [

In a preferred embodiment, the non-slip member 14 of the rubber material may protrude above the installed panel 8 and the width of the non-slip member 14 may be increased to enhance the slip effect.

Here, the non-slip member 14 is provided with horizontal through holes at both ends thereof, and the non-skid member 14 and the panel 8 having the horizontal through holes are disposed between the hook portions 30 of the connecting member 28 The insertion hole 32 of the ring portion 30 and the horizontal through hole 12 of the panel 8 and the horizontal through hole of the non-slip member 14 are coupled to each other using the connection shaft 26.

The non-skid member 14 is formed by being coupled to one side of the panel 8 like the non-skid member 14 of the first embodiment described above, A horizontal through hole 12 may be formed in the set and connected to the fitting hole 32 of the connecting member 28 through the connecting shaft 26 (see an enlarged view of FIG. 2).

7, the concrete blocks 4 may be horizontally disposed or vertically stacked by using one or more of the concrete blocks 4 depending on the installation place. The concrete blocks 4 A protrusion 44 is formed on the outer circumference of the upper surface of the concrete block 100 and a groove 42 is formed on the outer circumference of the lower surface of the concrete block 100 so that the protrusion 44 can be inserted. A connection groove 50 is formed.

When the plurality of concrete blocks 4 are stacked, the grooves 42 formed on the lower surface of the concrete block 4 may be formed at the lower side of the concrete block 4, So that the protrusion 130 formed on the upper surface of the concrete block can be inserted.

It is preferable that the upper surface of the concrete block 4 formed at the uppermost stage when the concrete block 4 is laminated is formed flat without forming the projecting portion 44. This is because the panel 8 is installed on the upper surface .

A plurality of protrusions 44 and grooves 42 may be formed in each of the concrete blocks 4. When a plurality of the protrusions 44 and the grooves 42 are formed, 4 and the projections 44 and the grooves 42 respectively formed at one end and the other end of the concrete block 4 and the rear concrete block 4 connected to one side of the line concrete block 4 And the protrusions 44 and the grooves 42 formed at the other end of the line concrete block 4 are formed to be equal to each other.

This is because when the concrete blocks 4 are connected to each other on a horizontal line and a separate concrete block 4 is placed below a portion to which the respective concrete blocks 4 are connected, A groove 42 formed at the lower end of the concrete block 100 positioned in a horizontal line with the groove 42 formed at one lower end of the block 4, Each of the protrusions 44 formed on the upper portion of the concrete block 4 stacked on the lower side can be introduced.

Accordingly, a plurality of the concrete blocks 4 may be connected to each other on a horizontal line, or may be stacked in multiple layers. In order to increase the binding force in the case of stacking in multiple layers, the upper and lower concrete blocks 4 are placed in a zigzag Can be stacked.

The outer panel 60 is connected to one side or both sides or slopes of the concrete block 4 by using a fastening member 70.

At this time, a connection groove 50 is formed on one side or both sides or slopes of the concrete block 4 to which the external panel 60 is connected.

The concrete block 4 has been cured and cured to have a shape of an outer periphery thereof made of a concrete material. This is a factor that deteriorates the feel of the viewer. To prevent this, An outer panel 60 having a separate image or characters, numbers, figures and the like formed on both sides or slopes may be bound by a fastening member 70 bound to the connection groove 50 of the concrete block 4 do.

The adjacent two concrete blocks 4 are joined together by inserting the body connecting member 70 into the connecting groove 50 of the two concrete blocks 4 between the concrete blocks 4, that is, between the adjacent two concrete blocks 4, You may.

Hereinafter, a construction method of the deck block 2 using the concrete block 4 according to the embodiment of the present invention will be described with reference to FIG.

A concrete block 4 for constructing the deck block 2 is manufactured through curing, curing and curing processes. At this time, the upper surface 45 of the concrete block 4 is fitted with a fixing pin 16 A plurality of grooves 6 are formed.

The concrete block 4 having the groove portion 6 formed on the edge thereof is installed on the work paper to be installed on the deck block 2 and the groove portion 6 formed on the upper surface of the installed concrete block 4 is filled with an adhesive such as epoxy A plurality of panels 8 and a non-slip member 14 are arranged alternately in the longitudinal direction on the upper surface of the concrete block 4 in the first embodiment.

At this time, the groove portion 6 formed on the outer peripheral surface 45 of the concrete block 4 and the vertical through-hole 10 of the panel 8 formed with the vertical through holes 10 at both ends are arranged in a straight line in the vertical direction And the fixing pin 16 passes through the vertical through hole 10 formed at both ends of the panel 8 and is fitted into the groove 6 of the panel 8 immediately below.

The fixing pin 16 is composed of a body part 18 and a head part 20 formed with a fitting hole 22 so that the body part is inserted and fixed tightly by the epoxy resin filled in the groove part 6, The fitting hole 22 of the fixing pin 16 adjusts the fixing position of the fixing pin 16 so as to be aligned with the horizontal through hole 12 formed in the panel 8. [

The connecting shaft 26 is inserted from one side of the horizontal through hole 12 of the panel 8 and the horizontal through hole of the non-slip member 14 and the fitting hole 22 of the fixing pin 16 in a straight line A plurality of panels 8 and non-skid members 14 are fixed to the concrete block 4 by sequentially passing through the panel 8, the non-skid member 14 and the fixing pin 16, ) Is completed.

As described above, the deck block 2 provided with the panel 8 on the concrete block 4 is fastened to the concrete block 4 by the fastening member 70 passing through the connection groove 50 formed on the side surface of the concrete block 4 A plurality of deck blocks 2 are connected to form a pedestrian path.

The outer surface of the concrete block 4 may be joined to the outer panel 60 to enhance the appearance of the concrete block 4. The structure for coupling the outer panel 60 to the concrete block 4 may be formed by connecting the concrete block 4 And the fastening member 70 is inserted into the coupling groove 50 formed in the groove 50 and the outer panel 6 to be coupled therewith.

FIG. 9 illustrates a construction method of the deck block 2 using the concrete block 4 according to another embodiment of the present invention.

In the present invention, when the concrete block 4 is manufactured, the concrete block 4 is poured by placing the elongated connecting member 28 along the outer circumferential surface 45 and / or the inner circumferential surface 46 of the upper surface of the concrete block 4, ).

The concrete block 4 on which the connecting member 28 is installed on the upper surface of the concrete block 4 is installed on the construction paper to be installed on the deck block 2. The concrete block 4 is formed on the upper part of the installed concrete block 4 The panel 8 having the horizontal through holes 12 is arranged between the annular portions 30 of the connecting member 28. [

At this time, a rubber non-slip member 14 having horizontal through holes 12 is provided between the panels 8 to prevent the pedestrian from slipping.

The structure of the rubber material non-skid member 14 having the horizontal through hole 12 formed therein and the horizontal through hole 12 is similar to that of the panel 8 and the non-skid member 14 Structure.

A leg portion 36 and a support portion 38 are formed on the lower portion of the connecting member 28 so as to be fixed so as not to be easily detached from the concrete block 4 and to be inserted into the concrete block 4, Can be filled into the connecting member 28 through the plurality of concrete inflow holes 40 formed in the leg portion 36 so that the rigidity of the concrete block is enhanced and the connecting member 28 is not easily released .

The protrusions 30 are formed on the upper portion of the connecting member 28 at predetermined intervals and the panel 8 and the non-slip member 14 are installed between the annular portions 30 formed at regular intervals. .

The horizontal through hole 12 formed at both ends of the panel 8 and the horizontal through hole 12 of the non-skid member 14 and the fitting hole 32 of the connecting member 28 are positioned in a straight line The horizontal through holes 12 of the panel 8 and the non-slip member 14 and the fitting holes 32 of the connecting member 28 are connected and fixed by the connecting shaft 26, 8 and the non-slip member 14 are fixed.

The connecting member 28 is integrated with the concrete block 4 so that the ring 8 of the connecting member 28 and the non-slip member 14 are connected and fixed to each other, The panel 8 is fixedly installed.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the scope of claims and equivalents thereof.

(2) - Deck block (4) - Concrete block
(6) - groove (8) - panel
(10) - Vertical through hole (12) - Horizontal through hole
(14) - Non-skid member (16) - Fixing pin
(18) - body portion (20) - head portion
(22) - Fit (24) - Elastic member
(26) - connecting shaft (28) - connecting member
(30) -circle portion (32) -through hole
(36) - leg (38) - support
(40) - Concrete inflow hole (42) - Groove
(44) - protrusions (45) - outer circumferential surface
(46) - inner peripheral surface (50) - connecting groove
(60) - outer panel (70) - fastening member

Claims (11)

In the deck block,
A concrete block 4 is formed on the upper surface of the concrete block 4 and a groove 6 is formed at a predetermined interval on the upper surface 45 of the concrete block 4,
A plurality of panels 8 are disposed on the concrete block 4 and a head portion of the fixing pin 16 fitted to the groove portion 6 formed in the concrete block 4 among the plurality of panels 8 A vertical through hole 10 and a horizontal through hole 12 are formed in the panel 8 to which the external panel 20 is extruded and a horizontal through hole 12 is formed in the other panel 8,
A concrete block (4) fixing pin (16) fixed to a groove portion (6) A connecting shaft (26) for fitting a fitting hole (22) of a head part (20) and a horizontal through - hole (12) Wherein the deck block is formed of a concrete block.
In the deck block,
A concrete block 4 is formed at the edge of the concrete block 4. The concrete member 4 is integrally formed with a connecting member 28 positioned at the edge of the concrete block 4,
The panel 8 is disposed between the annular portions 30 of the connecting member 28 protruded to the upper portion of the concrete block 4. Horizontal through holes 12 are formed at both ends of the panel 8 And the panel 8 is positioned such that the horizontal through hole 12 of the panel 8 and the fitting hole 32 of the hook 30 are positioned on a straight line,
And a connecting shaft (26) for fitting the horizontal through hole (12) of the panel (8) in a straight line and the fitting hole (32) of the hook (30). Deck block.
3. The method according to claim 1 or 2,
Wherein a non-slip member (14) made of a rubber material is provided between the panels (8) and is fitted to the connection shaft (26).
3. The method according to claim 1 or 2,
The concrete block 4 is formed with a protrusion 44 at its upper portion and a recess 42 corresponding to the protrusion 44 at a lower portion thereof to fit the protrusion 44 and the recess 42, Wherein a concrete block (4) stacked on top of the concrete block (4) is in a flat state without an overhang (44).
The method according to claim 1,
Characterized in that the fixing pin (16) is fixed to the groove (6) of the concrete block (4) by an adhesive of an epoxy resin material.
3. The method of claim 2,
A leg portion 36 is formed in an outer oblique direction at both ends of the lower portion of the connecting member 28 and a supporting portion 38 is protrudingly formed at one side of the leg portion 36 in a direction crossing the leg portion 36 A plurality of concrete inflow holes 40 are formed at one side of the legs 36 to guide the other installed concrete of the concrete to fill the inside of the connecting member 28 A deck block using a concrete block. In a method of constructing a deck block,
A method for manufacturing a concrete block (4), comprising the steps of: preparing a concrete block (4) having a plurality of grooves (6) for fitting a fixing pin (16)
Disposing a concrete block (4) on which grooves (6) are formed on a work paper and disposing a plurality of panels (8) on the concrete block;
Installing a non-slip member (14) between a plurality of panels (8) disposed on a concrete block (4)
The grooves 6 formed in the concrete block 4 through the vertical through holes 10 formed at both ends of the panel 8 in a state where the panel 8 and the non-slip member 14 are disposed on the concrete block 4 (12) of the panel (8) so that the fitting hole (22) of the head part (20) of the fixing pin (16) is aligned with the horizontal through hole Wow,
The connecting shaft 26 is fitted to the horizontal through hole 12 of the panel 8 and the fitting hole 22 of the horizontal through hole of the non-slip member 14 and the head portion 20 of the fixing pin 16, (8) and the non-skid member (14) to the concrete block (4).
In a method of constructing a deck block,
The concrete block 4 and the connecting member 28 are integrally manufactured by placing the concrete while the connecting member 28 is positioned along the outer circumferential surface 45 of the upper face of the concrete block 4 at the time of manufacturing the concrete block 4 Step,
Disposing a concrete block (4) provided with a connecting member (28) on an installation site and disposing a panel (8) between rings (30) of a connecting member (28) protruded to the upper part of the concrete block (4)
Installing a non-slip member (14) between a plurality of panels (8) disposed on a concrete block (4)
The horizontal through hole 12 formed at the both ends of the panel 8 and the horizontal through hole of the non-slip member 14 and the horizontal through hole 12 formed at the both ends of the panel 8 in the state where the panel 8 and the non- Fixing the position of the panel (8) and the non-skid member (14) such that the fitting hole (32) of the hook (30) of the connecting member (28)
The connecting shaft 26 is fitted to the horizontal through hole 12 of the panel 8 and the horizontal through hole of the non-slip member 14 and the fitting hole 32 of the hook 30 of the connecting member 28, (8) and the non-skid member (14) to the concrete block (4).
9. The method according to claim 7 or 8,
The concrete block 4 has a plurality of protrusions 44 formed at the upper portion and a recess 42 at the lower portion corresponding to the protrusions 44 to form the protrusions 44 and the recesses 42 Wherein a plurality of concrete blocks (4) stacked on top of each other are arranged in a flat state with no protrusions (44) in the upper part of the deck block (4).
8. The method of claim 7,
Wherein the fixing pin (16) fitted to the groove (6) of the concrete block (4) is fixed with an adhesive of epoxy resin material.
9. The method of claim 8,
A concrete inflow hole 40 is formed at one side of a leg portion 36 formed below the connecting member 28 at the time of manufacturing the concrete block 4 so that the concrete is filled inside the connecting member 28 when the concrete is poured, So that the connecting member (28) does not escape from the concrete block (4) while increasing the strength of the concrete block (4).

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