KR20100031425A - Working foot hold - Google Patents

Abstract

PURPOSE: A scaffold is provided to facilitate removal and transportation, improve strong durability, and be securely fixed to a support pipe. CONSTITUTION: A scaffold(100) comprises a main body, an end projection(11), fixing grooves(12), an anti-skid end projection(13), and vent holes(14). The main body is made of synthetic resin and is rectangular. The end projections are symmetrically formed to both ends of the main body. The fixing grooves are formed on the bottom of the main body at fixed intervals. The anti-skid protrusion is formed on the upper side of the main body. A vent hole is formed on the middle of the protrusion.

Description

Working foot hold

The present invention relates to a scaffold for work that is fixed to a temporary construction, such as scaffolding in construction or civil engineering, such as, in particular, to easily be mounted on indoor and outdoor scaffolding structures during construction of the interior and exterior materials of the building, while manufacturing the work scaffold as a synthetic resin material It guarantees solid durability and light weight, which makes it easy for workers to install and dismantle, and prevents accidents from falling off the work foot even in high winds on high floors, and prevents accidents while moving on the work foot. It relates to a working scaffold made to prevent the fall accident of the worker.

In general, work scaffolds mainly used in construction or civil engineering construction sites were mainly made of "c" shaped steel frames and galvanized steel scaffolding.

These conventional work scaffolds are widely used in indoor and outdoor scaffolding structures when constructing interior and exterior materials of buildings, but they have a heavy weight, resulting in economical loss due to heavy weight when installing work scaffolds, and increased workforce consumption. It was.

In addition, there are disadvantages that occur due to the material characteristics of the iron plate, such as repeatedly used repeatedly, the iron plate itself is often crushed, the repair and reuse when reused again.

And, the work scaffold (1) using the most steel as a material, as shown in Figure 1 to attach the perforated iron plate consisting of the frame (2) basically to the four sides of the frame, and to bear the load on the lower end Are welded at regular intervals, and the assembly parts are many, and the assembly parts are joined by welding, and the welding parts are separated by repeated impact due to long-term use and reuse. Problems that caused fire accidents were also inherent in the field.

Therefore, there is a demand for a new type of working scaffold 1 capable of ensuring the durability of the working scaffold 1 and safety due to impact while being light in weight.

On the other hand, the conventional work scaffold has been configured to be provided over the hook portion 4 of the work scaffold on a support pipe 3 mainly used for temporary construction such as scaffolding at a construction site.

Therefore, when the working scaffold 1 is not firmly installed on the support pipe 3, the work scaffold is separated from the support pipe 3, and thus a work for fixing the work scaffold is required. Increasing the length of the construction period due to the use of fixed materials, there is an inefficient problem that causes an increase in the construction cost.

In addition, in the case of continuously installing the temporary work to create a passage or a working space using the conventional working scaffold 1, a relatively wide gap occurs in the area where the working scaffold 1 abuts.

The gap (S) as described above provides the worker with anxiety, and the gap (S) to the worker who works below the soil or stones falling from the bottom of the worker's shoes, and tools and materials fall out and fall down. There was also the problem of safety damage.

In addition, the conventional work scaffold 1 has a rectangular structure having a predetermined width and length in accordance with the spacing of the support pipes 3 of temporary temporary construction, and the unit cost of the work scaffold 1 is expensive and heavy. The length is longer than the width to meet the cost.

Therefore, the weight and hook intervals applied to a single working scaffold form a relatively wide space, so that the spacing of the support pipes 3 of the temporary provisions is also large, so that the accident due to the poor temporary provisions of the temporary construction also occurs on the construction site. There was a problem that often happened.

In addition, in the continuous installation of the working scaffold 1, there is no binding configuration for connecting the two working scaffolds 1 to a portion where the working scaffolds 1 come into contact with each other, thus showing the firmness of the working scaffold 1. There were inherent structural limitations that could not be achieved.

As a result, at the construction site, it is easy to install and dismantle the working scaffolding 1, but it is convenient and securely fixed to the temporary construction materials such as the scaffolding without any additional fixing means, and the construction of the working scaffolding 1 with the structure of the temporary construction works It is a situation that a new type of work scaffold (1) is urgently required, such as being able to install and secure a durable and durable durability and safety even after installation.

The present invention is to solve such a conventional problem, the purpose of the synthetic resin scaffolding to be easily mounted on the temporary constructions, such as indoor and outdoor scaffolding structures during construction of interior and exterior materials of buildings in construction or civil engineering construction sites, etc. It is designed to be made of lightweight material such as to ensure robust durability while reducing the overall weight of the working scaffold so that workers can easily and securely fix the working scaffold to the supporting pipe of temporary temporary construction and install it continuously. It is to provide a working scaffold made easy to carry.

Another object of the present invention is to provide a continuous assembly structure that can be configured to increase the bonding force between the connection between the working scaffolding, as well as a rigid fixing force so that it is not easily separated by an external impact when assembling the support pipe of the temporary construction. It is to provide a working scaffold having.

Still another object of the present invention is to construct a working scaffold made of reinforced synthetic resin by injection molding, so that the warping scaffold does not occur due to shrinkage during molding and the working scaffold is not cut or bent due to an appropriate load or impact according to safety regulations. It is to provide a scaffold for work made to be lightweight, and to ensure durability and safety while maintaining a slim minimum thickness by appropriate weight configuration.

Still another object of the present invention is to insert the reinforcement into the working scaffold by insert molding after injection molding or injection molding after injection molding during the injection operation, even if the impact and load by a heavier weight is applied, durability and safety It is to provide a working scaffold configured to exert the work.

Still another object of the present invention is to provide a working scaffold configured in such a configuration that the working scaffold and the temporary temporary support pipe are assembled so that the fixed state assembled to the outside of the support pipe is not easily separated after being assembled.

It is still another object of the present invention, in order to prevent the safety accident by completely preventing the departure of the working scaffold even in a strong wind generated from a high floor, the support pipe and the working scaffold of the working scaffold and temporary temporary work and the working scaffold are fixed only by external operation and It is to provide a working scaffold having a locking device of a simple configuration made to be removable.

Still another object of the present invention is to provide a working scaffold configured to prevent a worker from falling by preventing slipping during movement on the working scaffold.

Another object of the present invention is to prevent slipping during movement on the working scaffolding, as well as to configure the upper and lower breathability of the working scaffolding to ensure a discharge passage of water and snow by rain, and can withstand external shocks well It is to provide a working scaffold that can be lightweight and solid durability by providing a reinforcing structure.

In order to achieve the above object, the working scaffold of the present invention has a main body formed of a synthetic resin that is formed to have a long rectangular shape, and end portions of two different main bodies can overlap each other by forming stepped upper and lower symmetric shapes. A plurality of fixing grooves are formed in the lateral direction at predetermined intervals on the bottom surface of the main body, and a plurality of anti-slip protrusions are formed on the top surface.

According to this basic configuration, while the stably installed by the fixing grooves are assembled in response to the support pipe of the temporary provisional part, the parts where the working footholds are placed so as to overlap each other by the stepped step, so that the gap of the connection part does not occur, of course, Working scaffold is continuously installed on the support pipe while maintaining the assembled state, so that the worker can work on the working scaffold with confidence.

According to a second embodiment of the present invention, the main body is formed in a rectangular shape so that both ends of the concave-convex shape in which the ends are shifted from each other are characterized in that the ends of two different main bodies can overlap each other.

According to this configuration, the working scaffolds can be continuously assembled with more firm coupling force by the uneven structure that is connected to the upper, lower, left, and right sides provided at the connection site while the working scaffold is connected without a gap, thereby increasing the bonding force between the working scaffolds. Of course, when assembling with the support pipe of the temporary installation, it is not easily separated by an external impact, etc., and exhibits a firm fixing force.

According to the third embodiment of the present invention, the bottom surface of the main body is formed with a plurality of grooves forming a grid-like shape, each of the grooves is characterized in that a plurality of ribs are formed on the inner edge.

This configuration can reduce the cost of the product due to the reduction of the injection material while pursuing the weight reduction in the injection molding of the working scaffold made of synthetic resin, and the ribs formed in the lattice grooves and its corners prevent heavy distortion during injection molding. It provides the advantage of performing the basic functions of a working scaffold that is not damaged by weight and impact.

According to the fourth embodiment of the present invention, two or more core materials are embedded in the main body in the horizontal and vertical directions, respectively.

The core material is inserted in the main body forming operation or press-molded by post-processing after the molding operation, it is possible to provide a more robust and safe when used in the work site where a large weight can be applied on the working scaffold.

According to a fifth embodiment of the present invention, the inlet of the fixing groove is characterized in that the engaging portion protruding inward is further formed.

The fixing groove of the main body is coupled to the support pipe of the structure, and is separated by the undercut-shaped engaging portion that can be formed during injection molding without a separate clamping means, so that the work foot is not separated after being joined to the support pipe. It is possible to increase the efficiency of installation work of temporary structures in building construction by providing convenience that can simplify the continuous installation and dismantling of working scaffold because no fastening work is required.

According to a sixth embodiment of the present invention, both sides of the fixing groove are attached to the hook and the locking clasp, characterized in that the opening and closing of the entrance of the fixing groove.

According to such a configuration, the work scaffold is artificially locked by providing an additional locking function when the work scaffold may be detached due to a strong wind or an external factor during construction of a high-rise building while preventing it from being separated by the catch groove of the fixing groove as described above. Except for the release, it is configured to prevent the separation naturally.

According to the seventh embodiment of the present invention, an anti-slip pad is attached to an upper surface of the main body.

Such a non-slip pad serves to prevent the occurrence of a safety accident by preventing a worker passing through the sliding rain water or snow accumulated on the working scaffold to prevent the worker to pass over it.

According to an eighth embodiment of the present invention, the upper surface of the main body is characterized in that a number of lattice-shaped grooves are continuously formed, and each groove has a bottom surface thereof penetrated downward.

According to this structure, the grating-shaped grooves can be prevented from slipping, and the soil is separated from the floor of the work shoes into the grooves and discharged. It provides the effect of keeping it.

According to the ninth embodiment of the present invention, the upper surface of the main body is provided with a central core material, and a plurality of reinforcing members are provided around the core material and are surrounded by cushion members such as rubber, and the upper surface is embedded at appropriate intervals. It is characterized in that it slightly protrudes from the upper surface of the scaffold.

 Since the reinforcing member having such a configuration is embedded in the entire working scaffold at the appropriate intervals, the reinforcing force of the working scaffold is increased to prevent warpage, and the slippage is prevented by the core and the cushion member slightly protruding from the upper surface of the scaffold. Even when an impact is applied, the shock is alleviated by the cushion member, thereby providing various advantages of preventing breakage of the working scaffold.

As described above, the working scaffold of the present invention can be easily mounted on temporary construction materials, such as indoor and outdoor scaffolding structures when constructing an interior or exterior material of a building in a construction or civil construction site, and to reduce the overall weight of the working scaffold while ensuring robust durability. Workers can easily and reliably fasten the working scaffold to the supporting pipe of the temporary construction, enabling the installation to be carried out continuously, and the dismantling work and transportation are very efficient.

In addition, the coupling force of the connection between the working scaffold is increased, it exhibits a firm holding force that is not easily separated by external impact, etc. when assembling with the support pipe of the temporary construction, as well as no distortion caused by shrinkage during molding.

And, by inserting the reinforcing material inside the working scaffolding can be durable and safe even if the impact and load by a heavier weight is applied, and the effect of not being easily separated after the fixed state assembled to the outside of the support pipe is assembled Will be exercised.

On the other hand, the working scaffold of the present invention because the ventilation structure is provided over the entire surface to prevent the safety accident by completely preventing the separation of the working scaffold even in the strong wind generated from a high floor, as well as the working scaffold and temporary temporary It is also provided with a locking device with a simple structure that can selectively lock and release the support pipe and the working scaffold by external manipulation so that the working scaffold can be selected and installed according to the construction site.

In addition, the present invention is to prevent the fall of the operator by preventing the slip during the movement on the working scaffold, in particular, to ensure the discharge passage of the water, snow by rain by the upper and lower ventilation structure of the working scaffold, By providing a reinforcement structure that can withstand external shocks, it can exert an excellent effect such as light weight and solid durability.

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

Figure 2 is an exploded perspective view showing the configuration and the continuous assembly state of the working scaffold according to an embodiment of the present invention, Figure 3 and Figure 4 shows a connection state of the working scaffold in accordance with an embodiment of the present invention Top view and cross section.

That is, the work scaffold 100 according to the present invention is configured in a rectangular plate shape similar to the conventional work scaffold, the material of the main body 10 is made of a synthetic resin, not made of a metal material.

Therefore, in the present embodiment, a description will be mainly given of the configuration in consideration of manufacturing the working scaffold 100 by injection molding with a mold.

First, the working scaffold 100 of the present invention has a main body 10 is formed in a long rectangular shape and the stepped end 11 is formed in which both ends are symmetrical up and down so that the ends of the two different main body 110 overlap each other It is configured to lose.

In addition, a plurality of fixing grooves 12 are formed on the bottom surface of the main body 10 at a predetermined interval in the lateral direction, and a plurality of anti-slip protrusions 13 are formed on the top surface thereof, and the protrusions 13 as necessary. It has a basic structure in which a plurality of vent holes 14 are formed in the middle of the.

The fixing groove 12 is formed at an appropriate interval corresponding to the interval of the support pipe 21 of the temporary construction 20, the anti-slip projection 13 is arranged in any shape that can perform the anti-slip function It is formed so as to, and can be molded integrally with the main body during injection molding of the working scaffold 100, the main body 10, and if necessary, a projection of different materials from the main body 10 attached to the upper surface of the main body 10 or fixed to the main body (10) It can be formed by inserting in injection molding.

The working scaffold 100 according to the first embodiment having such a configuration is arranged in the longitudinal direction of the structure when forming a narrow working passage, and in the case of installing a wider work area than the passage, such as a scaffold, 100 is laterally arranged on the support pipe 21.

Looking at the continuous assembling state of the work scaffold 100 as shown in Figures 2 to 4 stably installed by the fixing groove 12 is assembled in correspondence with the support pipe 21 of the temporary temporary work scaffold ( The portion where 100 is abutted is placed in a form overlapping each other by the step (11).

Therefore, a gap is not generated in the connection portion of the working scaffold 100 as in the prior art, and the working scaffold 100 is continuously installed on the support pipe 21 while maintaining a solid assembly state which is placed in a symmetrical form with each other. Will be able to pass or work on the working footrest 100 with confidence, of course, in particular, while carrying heavy loads can not be heard safely stepping on the working footrest 100 connection site.

On the other hand, Figure 5 is an exploded perspective view showing the configuration and continuous assembly state of the working scaffold 100 according to another embodiment of the present invention, Figure 6 and Figure 7 is a working scaffold 100 according to another embodiment of the present invention A top view and a side cross-sectional view of FIG. 5 showing an installation state of FIG. 5 shows a second embodiment of the present invention.

That is, the working scaffold 100 according to the second embodiment includes two main bodies 10 and 110 which are different from each other by being formed with a continuous concave-convex 15 having a shape in which the main body 10 is elongated in a rectangle so that both ends thereof are shifted from each other. The ends of the are configured to overlap each other.

As a configuration for this, first, both ends of the main body 10 have the same shape as in the first embodiment, and form the step 11 of the symmetrical shape with each other, and the uneven 15 is formed at one step 11. .

In addition, a lower portion of the other step 111 of the other main body 110 is formed by fitting protrusions 112 that are fitted into and engaged with the recesses 16 of the unevenness 15, respectively, in the up, down, left, and right directions. It is configured to connect and assemble the working scaffold 100 as an uneven structure to cross each other.

According to such a configuration, the stepped portion 11 is formed on both ends of the working footrest 100 so that there is no gap at all at the connection portion, and at the same time, the concavities and convexities 15 and the fitting protrusions 112 which are coupled to the top, bottom, left and right sides. By the coupling structure, the working scaffold 100 will be able to be continuously assembled with more firm coupling force in the up, down, left and right directions.

Therefore, it is possible to increase the bonding force between the connection between the working footrest 100, as well as to exhibit a certain fixing force that is not easily separated by an external impact or the like during assembly with the support pipe 21 of the temporary provision.

On the other hand, Figures 8 to 10 is a bottom perspective view and a bottom view and a side cross-sectional view showing the reinforcement configuration of the bottom according to the working step 100 of the present invention, showing a third embodiment of the present invention.

The third embodiment is an example of the reinforcing structure of the working scaffold 100, and the bottom surface of the main body is formed with a plurality of grooves 30 forming a lattice shape.

A plurality of ribs 31 are formed at inner edges of the grooves 30, respectively.

The groove 30 maintains the weight of the entire work scaffold 100 to be manufactured to a predetermined thickness while maintaining the weight of the work scaffold 100 to achieve a light weight while having a solid reinforcement as a minimum material during injection molding. It is a configuration to remove.

Accordingly, in the injection molding of the working scaffold 100 of the present invention made of synthetic resin, the overall weight can be reduced to lower the cost of the product due to the reduction of the injection material, thereby providing a low cost working scaffold 100.

In addition, the grooves 30 and the plurality of ribs 31 formed at the corners thereof prevent warping during injection molding, thereby enabling to produce a large amount of work scaffold 100 having a uniform quality, and having a heavy weight on the upper surface. It will provide an advantage that can perform the basic function of a solid and safe working scaffold 100 that is not easily broken even in a severe shock.

In addition, according to the fourth embodiment of the present invention, as shown in FIG. 11 as an additional reinforcing structure, two or more core materials 40 are embedded in the main body 10 in the horizontal and vertical directions, respectively.

The core material 40 is made of a metal material and may be embedded in the working footrest 100 by insert molding during the injection molding operation of the main body 10 by using a rectangular circular metal rod or pipe, or for work after molding. To form the groove (not shown) for accommodating the core 40 in the lower portion of the main body 10 of the scaffold 100 to force the core 40 can be embedded.

The core 40 to provide such a reinforcing structure is to be used as a more solid and safe working scaffold 100 when used in the construction site where a large weight can be applied on the working scaffold 100.

Meanwhile, according to the fifth exemplary embodiment of the present invention, as shown in FIG. 12, an engaging portion 17 protruding inward is further formed at the inlet of the fixing groove 12.

The fixing groove 12 of the main body 10 is fitted to be coupled to the outside of the support pipe 21 of the temporary provision 30, it may be formed long over the entire fixing groove 12, shown in Figure 9 As such, it may be formed while maintaining a proper interval as a predetermined length.

According to the locking portion 17, the support scaffold 100 is fixed to the work platform 100 by the locking groove 12 by the locking portion 17 formed in the undercut shape formed during injection molding without a separate clamping means. Since it is not detached by the locking portion 17 after being mounted on the mounting, it is not necessary to perform additional fastening work, thereby providing convenience for continuous installation and dismantling of the working scaffold 100, thereby providing a temporary construction structure. Installation efficiency can be improved.

In addition, according to the sixth exemplary embodiment of the present invention, as shown in FIG. 13, the locking pins 18 and the locking clasps 50 are attached to both side surfaces of the fixing grooves 12 to provide an entrance of the fixing grooves 12. It is configured to open and close.

The locking clasp 50 is made of a metal material, made of an arc shape, one side is hinged to the side wall of the main body 10 and the other side is made of a hook (51) shape. In addition, a locking pin 18 is formed on the side wall of the main body 10 to catch the hook 51 of the locking latch 50.

According to such a lock configuration, in particular, by a double locking configuration of the locking clasp 50 and the locking pin 18 while being prevented from being separated by the locking portion 17 of the fixing groove 12 as described above, especially during the construction of high-rise buildings If there is a risk that the working scaffold 100 may be detached due to external or external factors, the working scaffold 100 is not naturally unlocked without providing an artificial locking so that the working scaffold 100 is not artificially unlocked. It is very effective in preventing safety accidents caused by separation / falling.

On the other hand, Figures 14 and 15 is an exploded perspective view and a perspective view showing the configuration of the anti-slip of the upper surface according to the working scaffold 100 of the present invention, Figure 16 is an anti-slip reinforcement of the upper surface according to the working scaffold 100 of the present invention As a perspective view and enlarged cross-sectional view showing the structure, it shows a non-slip configuration applied to the working step 100 of the present invention.

First, as shown in FIG. 14, according to the seventh embodiment of the present invention, an anti-slip pad 60 is attached to an upper surface of the main body 10.

The anti-slip pad 60 cuts the fabric material having a well-known anti-slip function into a shape corresponding to the upper surface of the main body of the working scaffold 100 and attaches and fixes it by an adhesive member (not shown) attached to the rear surface. This prevents slipping when the car passes over the scaffold.

Preferably, the upper surface of the main body 10 is formed with a bit deeper than the thickness of the non-slip pad 60 to form the pad attaching portion 19 to attach the anti-slip pad 60 to the upper surface of the main body 10. Its edge is constructed so that it is not lifted.

In addition, the anti-slip pad 60 can be deformed at any time corresponding to the pattern of the upper surface of the working footrest 100, of course, can be configured to be mixed and arranged in combination with the anti-slip projection 13 of the embodiment. to be.

According to the non-slip pad 60, when rain water or snow accumulates on the work scaffold 100, and moisture remains, it is possible to reliably prevent a worker who passes on the work surface from slipping at a building construction site due to sliding. It is effective to prevent the occurrence of safety accidents.

On the other hand, according to the eighth embodiment of the present invention, there is provided another non-slip means.

That is, as shown in Fig. 15, the upper surface of the main body 10 is formed with a number of lattice-shaped grooves 70 continuously, each groove 70 is composed of the bottom surface penetrates to the lower side.

The grid-shaped groove 70 serves to reduce the weight of the main body 10 produced by injection molding, and at the same time friction with the bottom of the work shoes by the partition wall 71 formed between the grooves has a non-slip function Will be done.

In addition, it is possible to prevent slipping by the lattice groove 70, to allow the soil to be separated from the bottom of the work shoes into the groove 70, and discharged through the discharge hole 72 formed in the bottom of the groove 70 Rainwater is discharged immediately without being accumulated, so that the top surface of the main body 10 is always kept clean even during a long construction period, thereby providing an effect of continuously maintaining the function of the working scaffold 100.

In addition, according to the ninth embodiment of the present invention, the center core 81 is embedded in the upper surface of the main body 10, and the core member 81 is surrounded by a plurality of cushion members 82 such as rubber. The reinforcing member 80 is provided with the appropriate intervals while the upper surface is configured to project slightly than the upper surface of the body (10).

Therefore, as shown in FIG. 16, since the reinforcing member 80 is embedded in the entire working scaffold 100 at appropriate intervals, the reinforcing force of the working scaffold 100 is increased to prevent warpage, and the main body 10 is prevented. Various advantages of preventing the damage of the work footrest 100 by preventing the slip by the cushion member 82 even if the external shock is applied by the core member 81 and the cushion member 82 slightly protruding from the upper surface. Will be provided.

The working scaffold 100 shown in FIG. 16 is configured to be mixed with the lattice groove 70 applied in the eighth embodiment and is used as a double anti-slip function of the lattice groove 70 and the reinforcing member 80. It is to provide a double excellent effect that can provide the reinforcement and solid durability of the scaffold 100.

1 is a perspective view showing the configuration of a conventional general work scaffold.

Figure 2 is an exploded perspective view showing the configuration and the continuous assembly state of the working step according to an embodiment of the present invention.

3 and 4 are a plan view and a cross-sectional view of Figure 2 showing a connection state of the working scaffold according to an embodiment of the present invention.

Figure 5 is an exploded perspective view showing the configuration and the continuous assembly state of the working step according to another embodiment of the present invention.

6 and 7 are a plan view and a side cross-sectional view of Figure 5 showing the installation state of the working scaffold according to another embodiment of the present invention.

8 to 10 is a bottom perspective view and a bottom and side cross-sectional view showing the reinforcement configuration of the bottom surface according to the working scaffold of the present invention.

11 is a perspective view showing the configuration of a working scaffold according to another embodiment of the present invention.

Figure 12 is an enlarged cross-sectional view of the main portion of Figure 11 showing the configuration of the fixing groove according to the working scaffold of the present invention.

Figure 13 is an enlarged view showing the main part of the locking configuration of the fixing groove according to the working step of the present invention.

Figure 14 and Figure 15 is an exploded perspective view and perspective view showing the configuration of the anti-slip of the upper surface according to the working step of the present invention.

Figure 16 is a perspective view and enlarged cross-sectional view showing a non-slip reinforcement structure of the upper surface according to the working scaffold of the present invention.

<Brief description of symbols for the main parts of the drawings>

10: main body 11, 111: step

12: fixing groove 13: non-slip projection

14: vent hole 15: irregularities

16: groove 17: locking portion

18: locking pin 20: temporary provision

21: support pipe 30,70: (lattice) groove

31: rib 40,81: heartwood

50: lock latch 51: hook

60: slip pad 71: partition wall

72 discharge hole 80 reinforcing member

82: cushion member 100: scaffold for work

Claims (10)

The main body formed of a synthetic resin is formed in a long rectangular shape, the bottom surface of the main body is formed with a plurality of fixing grooves in the lateral direction at regular intervals, the upper surface is characterized by a plurality of non-slip projections are formed . The method of claim 1, Stepped to the two ends of the main body is a step of the upper and lower symmetrical form is formed so that the end of the two different main body can overlap each other. The method of claim 1, The main body is formed in a rectangular elongated working scaffold, characterized in that the end of the two different main body is formed of a continuous concave-convex shape of the two ends are shifted from each other. The method of claim 1, The base of the main body has a plurality of grooves are formed to form a grid-like shape, the working scaffold, characterized in that a plurality of ribs are formed on the inner edge of each groove. The method of claim 1, The scaffold for work, characterized in that two or more core materials are embedded in the main body in the horizontal and vertical directions, respectively. The method of claim 1, Working footrest, characterized in that the inlet of the fixing groove is further formed a locking portion protruding inward. The method of claim 1, Both sides of the fixing groove is a working pin characterized in that the locking pin and the locking latch is attached to open and close the entrance of the fixing groove. The method of claim 1, A working scaffold, characterized in that the non-slip pad is attached to the upper surface of the main body. The method of claim 1, The upper surface of the main body is a scaffold for successive grooves are formed, each groove is characterized in that the bottom surface is penetrated downward. The method of claim 1, The upper surface of the main body is built in the center, the core member is provided with a plurality of reinforcing members are wrapped around the core member is embedded at a suitable interval while the upper surface is protruded slightly than the upper surface of the scaffold for work Scaffolding.

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