KR101905363B1 - Apparatus for using rectangle scaffold - Google Patents

Abstract

The present invention relates to a scaffold apparatus for construction, forming a frame by using a vertical scaffold and a horizontal scaffold. The scaffold apparatus comprises: a vertical scaffold disposed in the Z-axis direction; a horizontal scaffold disposed in the X-axis direction and the Y-axis direction; a connecting member fastened to a predetermined height of the vertical scaffold and connecting the horizontal scaffold to the vertical scaffold; a coupling member fastened between the horizontal scaffold and the connecting member and allowing the horizontal scaffold to be coupled to the connecting member; a wedge member fastened between the coupling member and the connecting member and fixing the coupling member and the connecting member to prevent the coupling member and the connecting member from being detached from each other; and a safety scaffold mounted on or coupled to the horizontal scaffold and supporting a worker.

Description

[0001] APPARATUS FOR USING RECTANGLE SCAFFOLD [0002]

The present invention relates to a construction scaffolding device.

A scaffold is used to construct the building. Conventional scaffolds use a circular frame to set up the skeleton, and a clamp to hold the circular frame.

However, various problems have been pointed out in the conventional scaffold. First, the circular frame is heavy and difficult to handle because it is made of steel. In addition, since steel is corroded, durability was also problematic. In addition, even if the clamp for fixing the circular frame is slightly loosened, the weight of the circular frame causes the scaffold to collapse, thus causing a safety accident.

Accordingly, the inventor of the present invention has studied for a long time to solve such a problem, developed through trial and error, and finally completed the present invention.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to disassemble and disassemble a system by rotating a horizontal scaffold in a rotating and disassembling manner, And to provide a scraping device for building which can be dismantled.

In addition, the present invention improves the strength due to the structure of vertical scaffolding and horizontal scaffolding, so that even when manufactured from aluminum, sufficient strength can be maintained and a lightweight construction scaffold can be provided.

In addition, the present invention can provide a construction scaffolding having a remarkably improved workability by using a unique connection member, a coupling member, and a wedge member to easily fasten a vertical scaffold and a horizontal scaffold

The present invention relates to a construction scaffold for forming a skeleton using a vertical scaffold and a horizontal scaffold,

A vertical scaffold disposed in the Z-axis direction;

Horizontal scaffolds arranged in the X-axis and Y-axis directions;

A connecting member fastened at a predetermined height of the vertical scaffold to connect the horizontal scaffold to the vertical scaffold;

An engaging member that is coupled between the horizontal scaffold and the connecting member to allow the horizontal scaffold to be coupled to the connecting member;

A wedge member which is fastened between the coupling member and the coupling member and fixes the coupling member and the coupling member so as not to be detached; And

And a safety foot mounted on and coupled to the horizontal scaffold to support the operator,

The vertical scaffold is an inner skeleton of which each side of the square has an ellipse toward the inner hollow, a larger diameter than the inner skeleton, a rectangular outer skeleton formed apart from the inner skeleton, Wherein at least one of the four sides of the outer skeleton includes a bolt fastening hole formed by cutting a central portion of the side by a predetermined length and a bolt fastening hole formed between the inner skeleton and the external skeleton, A bolt fastening hollow which is a hollow space with a large diameter is formed,

The horizontal scaffold includes an inner skeleton of a hollow rectangle, a larger outer diameter of the inner skeleton and a rectangular outer skeleton spaced apart from the inner skeleton, a support portion extending from the edge of the inner skeleton to connect and support the inner skeleton and the outer skeleton, A bolt fastening hole having a length shorter than the long side of the inner skeleton is formed at the center of both lateral sides of the outer skeleton and a bolt fastening hole is formed between the bolt fastening hole and the inner skeleton at a long side of the outer skeleton, And one of the short sides of the outer skeleton is formed with a foot fastening groove, which is an empty space twice as long as the thickness of the engaging portion of the safety foot,

The connecting member includes a square base having a predetermined thickness and a wing extending from each side of the base. The center of the base has a square inner hollow having a size corresponding to the diameter of the outer skeleton of the vertical scaffold, A wing hollow having a rectangular shape in which a wedge member is inserted is formed at the center of the wing portion,

The joining member includes a rectangular shaped body having a predetermined thickness, a pair of engagement pins extending from one of the long sides of the body, and a protrusion extending from the center of the other long side of the body, Shaped body hollow is formed,

The wedge member includes a first wedge having a diameter larger than the diameter of the first wedge, a first wedge having a diameter larger than the diameter of the first wedge, a second wedge having a diameter larger than the diameter of the first wedge, Wherein one end of each of the first wedge and the second wedge is formed with a step by a length obtained by subtracting the diameter of the second wedge from the first wedge, the end of the second wedge is formed by bending in the direction of the step,

The safety foot plate includes a foot plate having a rectangular hole formed with perforation holes for preventing slippage, and a fastening plate fastened to both ends of the foot plate to fasten the safety foot to the horizontal scaffold. The fastening plate has a ' And a coupling portion extending downward from a lower end of the main body,

The engagement pin of the engagement member is engaged with the horizontal scaffold in such a manner that it is inserted into the engagement member engagement groove of the horizontal scaffold,

The engaging member coupled to the horizontal scaffold is disposed on the wing portion of the connecting member with the protrusion of the engaging member fitted into the bolt fastening hole of the vertical scaffold,

The wedge member is coupled in such a manner as to penetrate through the hollow of the body of the coupling member and the blade hollow of the coupling member to fix the coupling member and the coupling member,

The length from the one side of the inner hollow of the connecting member to the inner one side of the wing hollow is the first length,

The length from the boundary between the body portion and the projection portion of the engagement member to the inner side of the hollow of the body is a second length,

The inner hollow of the connecting member and the body hollow of the coupling member are formed to have the same length and width but the first length is shorter than the second length so that the blade hollow of the connecting member and the body hollow of the coupling member are arranged to be offset from each other ,

The step portion of the wedge member extends across the boundary between the blade hollow of the connecting member and the body hollow of the engaging member,

Characterized in that the distal end of the bent second wedge of the wedge member protrudes through the inner hollow of the connecting member and then extends over the lower surface of the connecting member.

In the present invention, the horizontal scaffolds arranged in the Y-axis direction are arranged so that the footrest coupling grooves face upward,

Wherein one of the footrest fastening grooves is fitted together with the engaging portions of two adjacent safety footrests.

According to an aspect of the present invention, a horizontal scaffold to which a joining member is connected is vertically inserted into a bolt fastening hollow of a vertical scaffold, and then rotated by 90 degrees so as to fit the scaffold. The stability can be improved. On the contrary, when the scraper is dismantled, the operation can be easily performed by rotating the horizontal scaffold by 90 degrees.

In addition, by arranging the wing hollow of the connecting member and the hollow portion of the body of the engaging member to be partially shifted, a predetermined tension is generated in the wing member inserted in the hollow of the blade and the hollow of the body tube, There is an effect that can be done.

Meanwhile, the present invention has an effect of solving the problem of a ring type safety foot using a plate-type fastening plate to solve the problem that the conventional ring type safety foot is difficult to support a high load. In addition, at least one safety footrest supporting member that crosses the lower end of the safety footrest is installed, thereby supporting the high load and preventing the footrest from being shaken.

On the other hand, even if the effects are not explicitly mentioned here, the effect described in the following specification, which is expected by the technical features of the present invention, and its potential effects are treated as described in the specification of the present invention.

1 to 4 are views showing an embodiment of a constructional scaffolding apparatus of the present invention.
5 is a diagram showing an embodiment of the scaffolding frame of the present invention.
6 is a view showing an embodiment of the connecting member of the present invention.
7 is a view showing an embodiment of a joining member of the present invention.
8 is a view showing an embodiment of the wedge member of the present invention.
9 and 10 are views showing an embodiment of a safety footrest according to the present invention.
* The accompanying drawings illustrate examples of the present invention in order to facilitate understanding of the technical idea of the present invention, and thus the scope of the present invention is not limited thereto.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present invention.

In the present specification, the scaffold for building can be used not only for temporary scaffolds used during construction but also for making skeletons of a frame or a building of a building by its unique stability. Therefore, in the following, the meaning of scaffolding and scaffolding for construction is interpreted to include not only temporary scaffolding but also the use of making a skeleton of a building frame or object. For example, a scaffold for building using a square frame can be interpreted as a frame structure for a building using a square frame.

1 to 4 are views showing an embodiment of a construction scaffolding apparatus according to the present invention.

1 to 4, the architectural scaffold 100 according to the present invention includes a vertical scaffold 200, a horizontal scaffold 300, a connecting member 400, a coupling member 500, a wedge member 600, A safety footrest 700, and a safety footrest support member 800.

The scraper 100 forms a skeleton through a vertical scaffold 200 arranged in the Z axis direction and a horizontal scaffold 300 arranged in the X axis and Y axis directions. The connecting member 400 is fastened to a predetermined height of the vertical scaffold 200 to connect the horizontal scaffold 300 to the vertical scaffold 200. The coupling member 500 is coupled between the horizontal scaffold 300 and the coupling member 400 so that the horizontal scaffold 300 is coupled to the coupling member 400. The wedge member 600 is fastened between the coupling member 500 and the coupling member 400 so that the coupling member 500 and the coupling member 400 are not separated from each other. The safety footplate 700 is mounted on and coupled to the horizontal scaffold 300 to support the operator. The safety foot support member 800 has a ring at both ends of the horizontal scaffold 300. [ The safety footrest supporting member 800 is mounted on the horizontal scaffold 300 at the lower center of the safety footplate 700 to more firmly support the load of the safety footplate 700. [ The safety footrest 700 of the present invention has the effect of solving the problem of the ring-type safety footrest by using a plate-like fastening plate to solve the problem that the safety footrest of the conventional ring type is difficult to support a high load. In addition, at least one safety footrest supporting member 800 across the lower end of the safety footrest is installed to support the high load and prevent the footrest from being shaken.

[Horizontal scaffold fastening method]

In the present invention, a horizontal scaffold is vertically inserted into a vertical scaffold, and then the horizontal scaffold is rotated horizontally by 90 degrees. This will be described in detail below.

The connecting member is fastened to a constant height of the vertical scaffold.

The engagement pin of the engagement member is inserted into the engagement member engagement groove of the horizontal scaffold and the engagement member is fastened to both ends of the horizontal scaffold.

The protrusions are inserted into the bolt fastening holes and the bolt fastening holes of the vertical scaffold while the protrusions of the fastening members fastened to the horizontal scaffold are vertically aligned. In this state, since the projecting part has a bolt fastening hollow and a clearance of vertical scaffolding, the horizontal scaffolding can freely move.

After the coupling member is placed on the connecting member, the horizontal scaffold is rotated by 90 degrees. The horizontal scaffold rotates and the engaging member fastened to the horizontal scaffold rotates together, so that the protrusion of the engaging member is fitted and fixed to the bolt fastening hollow of the vertical scaffold.

When the vertical scaffold is vertically inserted into the bolt fastening hollow of the vertical scaffold, and the horizontal scaffold is rotated by 90 degrees, the horizontal scaffold is not easily released after the scaffold assembly is assembled, and thus the stability of the scaffold can be improved. On the contrary, when the scraper is dismantled, the dismounting work can be easily performed by rotating the horizontal scaffold by 90 degrees.

Meanwhile, after the horizontal scaffold is rotated and fixed horizontally, the wedge member is inserted to penetrate through the hollow of the coupling member and the hollow of the coupling member, and then fixed again. At this time, the wing hollow of the connecting member and the hollow of the body of the joining member are partially shifted so that a predetermined tension is generated in the wing member inserted in the hollow of the blade and the hollow of the body tube so that the joining member and the joining member are joined firmly There is an effect that can be.

5 is a view showing a preferred embodiment of the cross section of the vertical scaffolding and the horizontal scaffold of the present invention.

As can be seen in FIG. 5, the vertical scaffold 200 is a square scaffold frame having a square outer scaffold.

The vertical scaffold 200 may include an inner skeleton 210, an outer skeleton 220, a support 230, a bolt fastening hole 240, a bolt fastening hollow 250, and a non-slip groove 260.

The inner skeleton 210 has a center of each side of the square drawn in an ellipse toward the inner hollow 205. The inner skeleton 210 has an effect of enhancing the resistance against external pressure as compared with a square inner skeleton.

The outer skeleton 220 is larger in diameter than the inner skeleton 210 and spaced apart from the inner skeleton. The support portion 230 extends from the edge of the inner skeleton to connect and support the inner skeleton 210 and the outer skeleton 220.

At least one of the four sides of the outer skeleton is formed with a bolt fastening hole 240 formed by cutting a center portion of the side by a predetermined length. A bolt fastening hollow 250 is formed on the side where the bolt fastening hole 240 is formed. The bolt fastening hollow 250 is a hollow space having a larger diameter than the diameter of the bolt fastening hole between the inner skeleton 210 and the outer skeleton 220. The protrusion of the coupling member can be fastened to the bolt fastening hollow 250. The anti-slip grooves 260 are formed along the outer surface of the outer skeleton 220 by a concave-depressed groove to prevent slippage.

The horizontal scaffold 300 includes an inner skeleton 310, an outer skeleton 320, a support portion 330, a bolt fastening hole 340, a coupling member coupling groove 350, a slip prevention groove 360, ).

The inner skeleton 310 has a hollow rectangular skeleton and an inner hollow 305 is formed therein. The outer skeleton 320 is a larger diameter than the inner skeleton 310 and is a rectangular structure formed apart from the inner skeleton. The support portion 330 extends from the edge of the inner skeleton to connect and support the inner skeleton 310 and the outer skeleton 320.

The bolt fastening hole 340 is formed at the center of both long sides of the outer skeleton 320. The diameter of the bolt fastening hole 340 is shorter than the long side of the inner skeleton.

The engaging member engaging groove 350 is formed between the bolt fastening hole 340 and the inner skeleton 310 and is formed in a rectangular shape surrounded by the long side of the outer skeleton 320, It is an empty space.

The anti-slip grooves 360 are formed in the short sides of the outer skeleton by concave grooves to prevent slippage.

The foot fastening groove 370 is formed in one of the short sides of the external skeleton and is an empty space twice as long as the thickness of the joint portion of the safety foot.

6 is a view showing a preferred embodiment of the connecting member of the present invention.

6, the connecting member 400 includes a base 410, an inner protrusion 420, a wing portion 430, and a wing hollow 440. As shown in FIG.

The base 410 has a square shape with a predetermined thickness. A square inner hollow 405 having a size corresponding to the diameter of the outer skeleton of the vertical scaffold is formed at the center of the base so that a vertical scaffold can be inserted. The inner protrusion 420 protrudes from the inner surface of the base 410 toward the inner hollow. The inner protrusion 420 may be formed in a thicker shape at the distal end and may be formed in a T-shape as a whole.

The wing portion 430 is formed extending from each side of the base 410. At the center of the wing portion 430, a rectangular wing hollow 440 into which the wedge member is inserted is formed.

The length from the one side of the inner hollow 405 of the connecting member 400 to one inner side of the wing hollow 440 is formed as the first length D1. In a preferred embodiment, the first length D1 may be 6 mm.

7 is a view showing a preferred embodiment of the joining member of the present invention.

7, the engaging member 500 includes a body 510, an engaging pin 520, and a protrusion 530. As shown in FIG.

The body portion 510 has a rectangular shape with a predetermined thickness. At the center of the body 510 is formed a rectangular body 505 into which a wedge member is inserted.

The coupling pins 520 extend from one of the long sides of the body 510 and are formed as a pair. The engaging pin 520 is inserted and fixed in the engaging member engaging groove 350 of the horizontal scaffold 300.

The protrusion 530 is formed to extend from the center of the other long side of the body 510. The protrusion 530 may have a thicker end portion and may be formed in a T-shape as a whole. Since the T-shaped protruding portion 530 is inserted into the bolt fastening hollow of the vertical scaffold and is not released into the bolt fastening hole, the fixing force is further increased. The protrusion 530 is inserted into the bolt tightening hollow 250 of the vertical scaffold 200.

The length from the boundary line between the body 510 and the protrusion 530 of the coupling member 500 to the inner side of the body hollow 505 is formed to be the second length D2. In a preferred embodiment, the second length D2 may be 8 mm.

8 is a view showing a preferred embodiment of the wedge member of the present invention.

8, the wedge member 600 may include a head portion 610, a first wedge 620, a second wedge 630, and a step portion 640.

The head portion 610 is formed to have a larger diameter than the hollow of the body so that the wedge member 600 can be caught in the hollow of the body. The first wedge 620 is formed to extend from the lower end of the head portion 610 to a diameter allowing passage through the hollow of the body.

The second wedge 630 is formed to extend from the end of the first wedge 620 to a diameter smaller than the diameter of the first wedge.

A step 640 is formed on one side of the first wedge and the second wedge by a length obtained by subtracting the diameter of the second wedge from the first wedge, and the other side of the first wedge and the second wedge is connected in a straight line without a step . The distal end of the second wedge 630 is formed by bending toward the step 640.

[Fixing method of wedge member]

The engaging pin 520 of the engaging member 500 is engaged with the horizontal scaffold 300 in such a manner that it is inserted into the engaging member engaging groove of the horizontal scaffold 300. [ The engaging member 500 coupled to the horizontal scaffold 300 is disposed on the wing portion of the connecting member 400 with the protruding portion 530 of the engaging member fitted into the bolt fastening hole of the vertical scaffold 200. [

The wedge member 600 is engaged through the body hollow 505 of the coupling member and the blade hollow 440 of the coupling member to fix the coupling member and the coupling member.

The length from the one side of the inner hollow of the connecting member to the inner one side of the wing hollow is the first length D1 and the length from the boundary between the body portion and the protruding portion of the engaging member to the inner one side of the body hollow is the second length D2, to be.

The wing hollow 440 of the connecting member and the body hollow 505 of the joining member are formed to have the same length and width but the first length is shorter than the second length so that the wing hollow 440 The body bores 505 of the member are arranged slightly shifted from each other (preferably about 2 mm).

The step portion 640 of the wedge member extends over the boundary between the wing hollow of the connecting member and the body of the engaging member and the distal end of the bent second wedge 630 of the wedge member protrudes through the wing hollow of the connecting member And the rear surface of the rear connecting member.

The wedge member 600 extends through the wing hollow 440 of the connecting member and the body hollow 505 of the coupling member and then extends over the boundary where the step portion 640 is displaced and the distal end of the second wedge 630 Is fixed on the lower surface of the connecting member in such a manner as to be engaged with each other.

In other embodiments, the first length may be longer than the second length.

9 and 10 show a preferred embodiment of the safety footrest according to the present invention.

9 and 10, the safety footrest 700 includes a footrest 710 and a fastening plate 720. As shown in FIG.

The pedestal portion 710 has a perforated hole for preventing slipping on a rectangular plate. The fastening plate 720 is fastened to both ends of the foot plate 710 to fix the foot plate to the horizontal scaffold. The fastening plate 720 includes a main body 721 having a "C" shape and a coupling portion 723 extending downward from a lower end of the main body. Since the fastening plate 720 has a long elongated plate shape, the fastening plate 720 can support a higher load than the annular safety footrest.

[How to fix the safety footrest]

The horizontal scaffold 300 disposed in the Y-axis direction is disposed so that the footrest coupling groove 370 faces upward. The two footrest engaging portions 723 of the two adjacent footrest engaging portions are fitted together in one footrest engaging groove 370. Since the fastening plate 720 has a long elongated plate shape, the fastening plate 720 can support a higher load than the annular safety footrest. In addition, at least one safety footrest supporting member that crosses the lower end of the safety footrest is installed, thereby supporting the high load and preventing the footrest from being shaken.

The scope of protection of the present invention is not limited to the description and the expression of the embodiments explicitly described in the foregoing. It is again to be understood that the present invention is not limited by the modifications or substitutions that are obvious to those skilled in the art.

Claims (2)

A construction scaffold for forming a skeleton using a vertical scaffold and a horizontal scaffold,
A vertical scaffold disposed in the Z-axis direction;
Horizontal scaffolds arranged in the X-axis and Y-axis directions;
A connecting member fastened at a predetermined height of the vertical scaffold to connect the horizontal scaffold to the vertical scaffold;
An engaging member that is coupled between the horizontal scaffold and the connecting member to allow the horizontal scaffold to be coupled to the connecting member;
A wedge member which is fastened between the coupling member and the coupling member and fixes the coupling member and the coupling member so as not to be detached; And
And a safety foot mounted on and coupled to the horizontal scaffold to support the operator,
The vertical scaffold is an inner skeleton that is depressed with ellipse toward the inner hollow at the center of each side of the square, an outer skeleton having a larger diameter than the inner skeleton, a square outer skeleton spaced apart from the inner skeleton, Wherein at least one of the four sides of the outer skeleton includes a bolt fastening hole formed by cutting a central portion of the side by a predetermined length and a bolt fastening hole formed between the inner skeleton and the external skeleton, A bolt fastening hollow which is a hollow space with a large diameter is formed,
The horizontal scaffold includes an inner skeleton of a hollow rectangle, a larger outer diameter of the inner skeleton and a rectangular outer skeleton spaced apart from the inner skeleton, a support portion extending from the edge of the inner skeleton to connect and support the inner skeleton and the outer skeleton, A bolt fastening hole having a length shorter than the long side of the inner skeleton is formed at the center of both lateral sides of the outer skeleton and a bolt fastening hole is formed between the bolt fastening hole and the inner skeleton at a long side of the outer skeleton, And one of the short sides of the outer skeleton is formed with a foot fastening groove, which is an empty space twice as long as the thickness of the engaging portion of the safety foot,
The connecting member includes a square base having a predetermined thickness and a wing extending from each side of the base. The center of the base has a square inner hollow having a size corresponding to the diameter of the outer skeleton of the vertical scaffold, A wing hollow having a rectangular shape in which a wedge member is inserted is formed at the center of the wing portion,
The joining member includes a rectangular shaped body having a predetermined thickness, a pair of engagement pins extending from one of the long sides of the body, and a protrusion extending from the center of the other long side of the body, Shaped body hollow is formed,
The wedge member includes a first wedge having a diameter larger than the diameter of the first wedge, a first wedge having a diameter larger than the diameter of the first wedge, a second wedge having a diameter larger than the diameter of the first wedge, Wherein one end of each of the first wedge and the second wedge is formed with a step by a length obtained by subtracting the diameter of the second wedge from the first wedge, and the distal end of the second wedge is formed by bending toward the step,
The safety foot plate includes a foot plate having a rectangular hole formed with perforation holes for preventing slippage, and a fastening plate fastened to both ends of the foot plate to fasten the safety foot to the horizontal scaffold. The fastening plate has a ' And a coupling portion extending downward from a lower end of the main body,
The engagement pin of the engagement member is engaged with the horizontal scaffold in such a manner that it is inserted into the engagement member engagement groove of the horizontal scaffold,
The engaging member coupled to the horizontal scaffold is disposed on the wing portion of the connecting member in a state where the projection portion of the engaging member is inserted into the bolt fastening hole of the vertical scaffold in the vertical direction,
The wedge member is coupled in such a manner as to penetrate through the hollow of the body of the coupling member and the blade hollow of the coupling member to fix the coupling member and the coupling member,
The length from the one side of the inner hollow of the connecting member to the inner one side of the wing hollow is the first length,
The length from the boundary between the body portion and the projection portion of the engagement member to the inner side of the hollow of the body is a second length,
The inner hollow of the connecting member and the body hollow of the coupling member are formed to have the same length and width but the first length is shorter than the second length so that the blade hollow of the connecting member and the body hollow of the coupling member are arranged to be offset from each other ,
The step portion of the wedge member extends across the boundary between the blade hollow of the connecting member and the body hollow of the engaging member,
Wherein a distal end of the bent second wedge of the wedge member protrudes through the inner hollow of the connecting member and then extends over the lower surface of the connecting member. The method according to claim 1,
The horizontal scaffolds arranged in the Y-axis direction are arranged so that the foot plate coupling grooves face upward,
Wherein one of the footrest fastening grooves is fitted together with the engaging portions of two adjacent safety footrests.

Images