KR101255244B1 - The lightweight lard structure that it is possible to assemble it - Google Patents

Abstract

The present invention relates to a light weight scaffold structure that can be assembled. More specifically, in order to facilitate the work where the operator can't reach, it is a temporary structure installed along the outer wall configuration around the building to make the weight light and increase safety. To a scaffold structure.
Ends on both sides are bent in one direction to form a seating groove for seating a bent connection jack, and the other side of the top plate is formed on both sides and the support plate formed with projections on both sides and surrounding the inside of the protrusion of the top plate By using a scaffold structure consisting of scaffolding pipes each formed of a lower plate formed on one surface, it is to provide a scaffolding structure that is structurally safer, lighter in weight, and superior in impact characteristics than conventional scaffolding pipes.

Description

The lightweight lard structure that it is possible to assemble it}

The present invention relates to a light weight scaffold structure that can be assembled. More specifically, in order to facilitate the work where the operator can't reach, it is a temporary structure installed along the outer wall configuration around the building to make the weight light and increase safety. To a scaffold structure.

Scaffolding is a temporary construction installed to work at high places during construction work, and is used as a scaffold for material transportation or worker's passage and work.In terms of materials, scaffolding, pipe scaffolding, external scaffolding and internal scaffolding It is divided into horizontal scaffolding, moon scaffolding, simple scaffolding, ladder scaffolding, construction scaffolding, double scaffolding, twin scaffolding, etc.

Such scaffolding should be firmly installed with suitable materials and methods according to the type, scale, and location of the construction so as to be convenient and safe for construction and supervision.

As the scaffold pipe according to the prior art, as shown in FIG. 9, the scaffold pipe 1 and the straight coupler 4 having a strength of 350 to 400 MPa and having passed the Korean standard KS F8002 are used. The scaffolding pipe 1 has a simple tube shape with an outer diameter of 48.6 mm, thicknesses of 2.9 mm and 2.4 mm, lengths of 1.8 m, 2.7 m, and 4.5 m, and a galvanized film 2 is formed on its outer surface.

At the end of the scaffolding pipe 1, a pin 3 is disposed in a hole penetrated in the radial direction so as to be pin-coupled with the coupler 4.

In addition, the coupler (4) used in place of the iron wire for fastening the scaffold pipe (1) in each of the two directions is formed in a straight and cross shape, the coupling groove of the cramp shape is coupled to the pin (3) of the scaffold pipe (1) (5) is formed in both ends, and the flange 6 of a circular jaw shape is formed in the middle.

The conventional scaffold pipe 1 and the coupler 4 formed as described above are inserted into the inner diameter of the end portion of the scaffold pipe 1 in the axial direction, and at the same time, the clamps are coupled to the pins 3 of the scaffold pipe 1. It is to be assembled by rotating the coupler (4) to be caught in the coupling groove (5) of the shape.

The scaffolding pipe 1 and the coupler 4 according to the prior art are used to form vertical portions of the scaffolding pipe 1, and other pipes forming the horizontal and diagonal portions of such scaffolding are orthogonal well known in the art. It is combined with clamps and swivel clamps.

As described above, since the weight of a conventional scaffold is 4.5m in length and is heavy to be handled by a worker with a physique of 14.6kg, there are many difficulties in handling the scaffold when the scaffold is assembled and dismantled.

Conventional scaffolding is a galvanized steel pipe, but relatively weak to moisture, and has a problem of corrosion when left in the building for a long time.

In addition, since a straight coupler is used when connecting the vertical direction, and an orthogonal clamp and a swivel clamp are used when connecting the horizontal portion and the diagonal direction, there is a complicated and difficult coupling of the clamps.

The present invention has been made to solve the above problems,

Ends on both sides are bent in one direction to form a seating groove for seating a bent connection jack, and the other side of the top plate is formed on both sides and the support plate formed with projections on both sides and surrounding the inside of the protrusion of the top plate It is an object of the present invention to provide a scaffold structure that is structurally safer, lighter in weight, and superior in impact characteristics than conventional scaffold pipes by using a scaffold structure composed of pipes each having a lower plate formed on one surface thereof.

In order to achieve the above object

A scaffolding structure comprising scaffolding pipes and connecting jacks for axially fastening the pipes to be installed along an outer wall configuration around a building,

Magnesium alloy material, but the connection jack is bent and formed by bending the ends of both sides of the connection jack and the pipe is bent and formed by bending the one side of both sides in the outward direction, the connection jack can be seated The seating groove is formed, and the other side of the upper plate is formed on both sides of the 'ㅗ' shaped support formed with protrusions on both sides and the lower plate formed on one side of the engaging portion surrounding the protrusions of the upper plate should be configured to be connected respectively. It is.

When using the lightweight scaffolding structure can be assembled according to the present invention, the weight is significantly reduced compared to the conventional scaffolding structure is made of magnesium material, thereby making it easier for the operator to handle the scaffold, moisture and corrosion than conventional It has strong resistance to the structure, and it has excellent impact characteristics by fitting the top plate and the bottom plate structurally, and depending on the use, if the connecting jack is inserted into the seating groove of the top plate, it can be used as the structure of the conventional scaffolding pipe. It is an invention about the thing.

1 is a front view showing the present invention scaffolding structure
Figure 2 is a front view showing the decomposition of the present invention scaffolding structure
Figure 3 is a front view showing the assembly of the present invention scaffolding structure
Figure 4 is a perspective view showing the connection of the present inventors scaffolding structure
5 is a front view showing another embodiment of the scaffold structure of the configuration of the present invention
Figure 6 is a perspective view of the connection of Figure 6
7 is a front view showing another embodiment of the connection jack of the configuration of the present invention
8 is a perspective view showing another embodiment of the fastener of the configuration of the present invention
Figure 9 is a side view showing a coupling relationship of the prior art

The present invention will be described in detail with reference to the drawings.

As shown in FIGS. 1 to 4

A scaffolding structure comprising scaffolding pipes and connecting jacks for axially fastening the pipes to be installed along an outer wall configuration around a building,

Magnesium alloy material, but the connection jack is bent and formed by the ends of both sides of the connecting jack 300 and the pipe 10 is bent and formed by bending the one side of both sides in the outward direction, the connection A seating groove 112 is formed on which the jack 300 can be seated, and the upper plate 100 having a 'ㅗ' shaped support 110 having protrusions 111 formed on both sides thereof is formed at both sides thereof. The lower plate 200 formed on one surface of the engaging portion 210 surrounding the protrusion 111 of the upper plate 100 is configured to be connected to each other.

Forming a groove in the support 110 configured in the top plate 100 should be configured to be fastened to the fastener 400 is fitted over the grooves on both sides when connecting the top plate 100.

When explaining the top plate 100 of the pipe 10,

One side of both sides is bent in an outward direction to be bent, but a seating groove 120 is formed to allow the connection jack 300 to be seated, and the other side has a 'ㅗ' shaped support having protrusions 111 formed on both sides ( 110 is configured on both sides. In addition, in order to couple the fastener 400 of the 'H' shape to the support 110 formed in the upper plate 100, the grooves 130 having a 'ㅓ' shape and a 'ㅏ' shape, respectively, are provided on both sides of the support 110. It must be formed.

In addition, the support 110 formed with the 'ㅓ' shape and the 'ㅏ' shape 130 is formed with a protrusion bundle 150 and a fitting groove 140 to increase the binding force when the plurality of pipes 10 are connected. It should be.

When describing the lower plate 200 of the pipe 10,

The engaging portion 210 surrounding the inner protruding portion 111 of the support 110 formed on the other surface of the upper plate 100 is bent in an inward direction in which the upper plate 100 is bent and formed on both sides, and the protruding portion ( 111 is to be able to fit the engaging portion 210.

Here, as shown in FIGS. 5 and 6, the auxiliary support 110a and the auxiliary catching portion 210a respectively configured on the upper plate 100 and the lower plate 200 of the pipe 10 have a plurality of insides of the pipe 10. It should be possible to construct. This is to increase the durability of the pipe 10 by configuring a plurality of support 110 and the engaging portion 210 in the space generated inside when the upper plate 100 and the lower plate 200 is coupled to the pipe 10.

When explaining the connection jack 300,

The ends of both sides should be bent and bent to one side to be fitted into the seating groove 120 formed in the upper plate 100. As shown in FIG. 8, according to the use of the pipe 10, the ends of the connection jacks 300 may be variously bent and used.

When explaining the fastener 400,

The upper plate 100 and the lower plate 200 of the pipe 10 may be coupled to each other to form a plurality of completed pipe 10, in which case formed on the upper plate for the connection of the pipe 10 is configured 'H' shape and 'ㅏ' shape of the fastener 400 of the 'H' shape that can be fitted into the groove 130 is fitted to be coupled to extend the length of the pipe (10). As shown in FIG. 8, the fastener 400 may be molded in various ways such as an 'H' shape, a 'ㅗ' shape, and a '+' shape according to the use of the pipe 10.

Referring to the operation of the present invention assembleable lightweight scaffold structure configured as described above are as follows.

The connection jack 300, the pipe 10 and the fastener 400 of the present invention should be formed of a magnesium material, respectively. This is about 5 times lighter than the existing steel scaffolding structure, which makes it easier for the user to work, and has a strong resistance to moisture and corrosion than before.

First, the upper plate 100 and the lower plate 200 for constituting the pipe 10 are configured to be fitted, respectively, on the inner protrusion 111 of the support 110 formed on both sides of the upper plate 100 on both sides. It is bent in the inward direction connected with the upper plate 100 is bent by engaging the engaging portion 210 is formed to be a pipe (10).

When the pipe 10 made by combining the upper plate 100 and the lower plate 200 as described above extends in the longitudinal direction, the pipe 10 is provided with a plurality of fittings formed on one side of the upper plate 100 of one pipe 10. When fitting the protruding bundle 150 formed on the other side of the other pipe 10 to the groove 140, and fitting the connecting jack 300 to the seating groove 120 formed on the outer side of the upper plate 100, a plurality of pipes It is possible to extend (10) in the longitudinal direction.

In this case, when the 'H' shape fastener 400 is inserted into the 'ㅏ' shape and the 'ㅓ' shape grooves 130 formed on one side and the other side of the upper plate 100, a plurality of pipes 10 are connected. It extends the binding force when extending in the longitudinal direction.

And the upper plate 100 so as to block the fastener 400 on one side and the other side to prevent the departure of the fastener 400 when the plurality of pipes 10 extend in the longitudinal direction around the fastener 400 The support 110 will be configured to connect the fixing plate 500 on one side and the other side.

In another embodiment of the pipe 10 may be coupled to the pipe 10 in the axial direction, at this time both sides to the seating groove portion 120 is bent in the outward direction bent to the upper plate 100 of the pipe 10 The end of the bent in one direction to be bent to form a connecting jack 300 bent to form the pipe 10 to be fastened in the axial direction.

As shown in FIG. 7, the connection jack 300 as described above may be bent and molded by bending at one end of both sides, but may be variously bent and molded according to the use of the pipe 10.

As shown in FIGS. 5 and 6, at least one auxiliary support 110a and an auxiliary catching portion 210a formed at the upper plate 100 and the lower plate 200 of the pipe 10 may be at least one inside of the pipe 10. It is possible to increase the durability of the pipe 10 when combining the upper plate 100 and the lower plate 200 by configuring a plurality.

When the light weight scaffold structure can be used as described above, it is made of magnesium material so that the weight is considerably reduced compared to the conventional scaffold structure, and thus, the operator is easy to work on the scaffold, and thus it is easier to work with moisture and corrosion than before. Strong resistance to the structure, by using the upper plate 100 and the lower plate 200 is structurally excellent impact characteristics, depending on the use of the connecting jack 300 to the mounting groove 120 of the upper plate 100 In this case, the present invention relates to a structure that can be used in the same structure as an existing scaffolding structure.

1 scaffolding pipe 2 plating film 3 pin
4: coupler 5: coupling groove 6: flange
10: pipe
100: top plate 110: support 110a: auxiliary support
111: protrusion 120: seating groove 130: groove
140: fitting groove 150: bundle of protrusions
200: lower plate 210: locking portion 210a: auxiliary locking portion
300: connection jack
400: fastener
500: fixed plate

Claims (7)

A scaffolding structure comprising scaffolding pipes and connecting jacks for axially fastening the pipes to be installed along an outer wall configuration around a building,
Molded of magnesium alloy,
The connecting jack is a connecting jack bent and formed by bending the ends of both sides in one direction;
The pipe is bent in one side of the both sides are bent in the outward direction is formed, the seating groove portion is formed to be the connection jack is seated, the other surface is formed on both sides of the upper plate 'ㅗ' shaped support formed with protrusions on both sides ; And a lower plate formed on one surface of a catching portion surrounding the protrusion of the upper plate. Lightweight scaffoldings, which can be assembled, characterized in that they are each configured to be connected
The method of claim 1,
Forming a groove in the support plate formed on the top plate when connecting the top plate fasteners are assembled, characterized in that the fastener is fitted over the grooves on both sides.
The method of claim 2,
When the upper plate is connected, the support groove has a 'ㅓ' shape and a 'ㅏ' shape of the grooves connected to both sides, and the fasteners connected to the support grooves that are grounded for connection of the pipe have a cross-section 'H' shape. Lightweight scaffolding assembly, characterized in that it includes
3. The method according to claim 2 or 3,
Lightweight scaffolding structure that can be assembled, characterized in that the fixing plate is covered and fixed so as not to escape the fastener when the plurality of pipes connected around the fastener
3. The method according to claim 2 or 3,
Scaffolding structure for lightweight safety system, characterized in that the support of the upper plate is formed with a protrusion bundle and a fitting groove to increase the binding force when configuring a plurality of pipe connections
The method of claim 1,
Assembled light weight scaffolding structure comprising a plurality of protruding auxiliary support to the bottom of the upper plate of the pipe and the auxiliary catching portion to which the auxiliary support is fitted corresponding to the upper portion of the lower plate.
The method of claim 1,
The connection jack is a lightweight scaffolding structure, characterized in that the bending is formed to be connected to the ground connected in accordance with the connection direction of the scaffolding pipe

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