KR101254501B1 - Method of finish construction using safety rail climbing system - Google Patents

Abstract

The present invention is not to proceed to the upper floor to complete a variety of finishing construction further construction by lifting and lowering the cage in accordance with the schedule of finishing construction using a safety rail climbing system capable of lifting and lowering the gangform or cage individually Disclosed is a finishing method using a safety rail climbing system for efficient operation of manpower and equipment.
The present invention is a safety rail climbing system installation step of installing a hydraulic device consisting of a shoe box, a rail and a gear box and a hydraulic motor installed on the outer wall of the constructed building, the cage is elevated according to the lifting and lowering of the rail by the hydraulic device Lifting construction step for carrying out the first finishing construction, the cage descends according to the lowering of the rail by the hydraulic device, and descending construction step for carrying out the second finishing construction, and repeating the lifting construction step and the falling construction step After finishing the finishing of all the floors, the rail is lowered to the lowest floor by the hydraulic system, and it is composed of the disassembly step of the safety rail climbing system that separates the cage and the rails. Since the cage is always fixed to the wall with shoes and rails, the risk of shaking and falling due to wind pressure is reduced. As a separate safety facility is unnecessary, it is possible to lift and lower the cage independently by the hydraulic motor, so that the finishing work can be performed on a large number of floors after finishing the frame work regardless of the schedule of the frame work. Efficient operation of manpower and equipment has the useful effect of reducing construction period and cost.

Description

Finishing method using safety rail climbing system {METHOD OF FINISH CONSTRUCTION USING SAFETY RAIL CLIMBING SYSTEM}

The present invention relates to a finish construction method using a safety rail climbing system, in particular, to complete the various finishing constructions further, and to proceed to the upper floor instead of finishing the construction using a safety rail climbing system capable of lifting and lowering the gangform or cage individually Climbing and lowering the cage according to the schedule of the construction relates to the method of finishing construction using a safety rail climbing system that can efficiently construct the operation of construction personnel and equipment.

As is well known, conventionally installed temporary construction materials include gondolas, working platforms, cages, etc., and most of the temporary construction materials for finishing construction were able to work after the construction of the framework was over 12 stories or after the construction of the framework was completed. As a result, the start time of the finishing work is delayed, resulting in an increase in the construction period.

In addition, as the gondola and walking platform have to work one by one for each type of construction, the construction period becomes longer, and additional safety facilities such as safety net must be installed at regular intervals. There is a problem of manpower, cost, and time.

In order to solve this problem, the cage is equipped with a safety scaffold at the bottom of the formwork used for framing, so that the cage is elevated together with the formwork being elevated for the next floor frame. The finishing work, which is relatively shorter than the construction work, can be done, but the cage is not elevated to the next floor until the work is moved up to the next floor after the construction work. There is a problem that the operation is made, in order to increase the weight of the formwork, and to prevent the cage from swinging from the strong wind, the cage is also fixed to the wall to be installed in the same way as the formwork, such as fixing bolts, every time the ascension of the formwork Disassembly and assembly Jung becomes doubled, there is a problem that increases the construction period of the frame construction.

The purpose of the present invention is to solve the problems and to reduce the wobble and risk caused by wind pressure without having to install a separate safety facility, and at the same time to be able to perform the finishing work of a plurality of floors regardless of the schedule of frame construction The safety rail climbing system that can lift and lower is used to lift and lower the cage according to the construction schedule separately from the construction schedule, and to provide a finishing method using the safety rail climbing system that can be finished.

The present invention is fixed to the shoe on the outer wall of the building constructed to achieve this object, close to the outer wall of the rail formed with a rake gear type projection on the outer wall to be supported by the shoe, the rack gear type projection of the rail A safety rail climbing system installation step of installing a hydraulic device comprising a gear box coupled to the gear box and a hydraulic motor for rotating the gears of the gear box, on the upper end of the shoe for raising and lowering the rail;

An elevating construction step of installing a cage having a safety scaffold for finishing work on the other side of the rail and lifting the cage according to the elevating of the rail by the hydraulic device;

As the cage descends in accordance with the descending of the rail by the hydraulic device and the falling construction step of performing the second finishing construction,

After completing the finishing construction of all the floor by repeating the lifting construction step and the lower construction step is to configure the safety rail climbing system dismantling step of separating the cage and the rail by lowering the rail to the lowest floor by the hydraulic device.

In this way, the present invention is prevented from falling in triplicate, height level adjustment is possible, and because the cage is always fixed to the wall with a shoe and rail, so the risk of shaking and falling due to wind pressure is reduced to a separate safety facility. This eliminates the need for a hydraulic motor, allowing the cage to be lifted and lowered independently, allowing the finishing work to be performed on multiple floors, regardless of the schedule. It can be operated, which has a useful effect to reduce construction period and cost.

1 is a flow chart showing a specific embodiment of the finishing construction method using a safety rail climbing system according to the present invention.
Figure 2 is a perspective view showing the configuration of the safety rail climbing system according to the present invention.
Figure 3 is an exploded perspective view of the shoe, head, hydraulic device of the safety rail climbing system according to the present invention.
4 and 5 are explanatory views for explaining the implementation of the finishing method using the safety rail climbing system according to the present invention.

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

1 is a flowchart illustrating a specific embodiment of the finishing construction method using the safety rail climbing system according to the present invention.

As can be seen from this, the present invention is fixed to the shoe 20 to the building outer wall wall (1) of the construction, the rail 10 is formed on the surface of the rake gear type projections 11 in close proximity to the outer wall and the To be supported by the shoe 20, the gear box 41 is geared to the lag gear type projection 11 of the rail 10, and the hydraulic motor 42 for rotating the gear of the gear box 41 Safety rail climbing system installation step (S10) for installing the hydraulic device 40 is configured to the upper end of the shoe 20 for the lifting and lowering of the rail (10),

On the other side of the rail 10 is installed a cage (2) having a safety scaffold for finishing work according to the lifting of the rail 10 by the hydraulic device 40, the cage 2 is lifted and the first finishing construction Lifting construction step (S20) and to carry out,

In accordance with the descending of the rail 10 by the hydraulic device 40, the cage (2) is lowered and the falling construction step (S30) for performing the second finishing construction, and

After repeating the lifting construction step (S20) and descending construction step (S30) to finish the finishing of all the floors, the rail 10 is lowered to the lowest floor by the hydraulic device 40 to the cage (2) and the rail ( 10) can be configured to remove the safety rail climbing system disassembly step (S40).

To explain this in more detail for each component, the above-described safety rail climbing system, as shown in Figures 2 and 3, the rail (10) having a projection 11 continuously protruding at regular intervals on one surface )and;

A shoe (20) for supporting the rail (10) in close proximity to the wall (1) to prevent it from falling;

The shoe 20 is composed of a hydraulic device 40 which is installed on the upper end of the shoe 20 and is caught by the protrusion 11 of the rail 10 and the hydraulic motor 42 for rotating the gear. Is composed of a support part 21 fixed to the wall 1, and a head 30 formed on one side of the support part 21 to close and support the rail 10 to the wall 1 to prevent the fall. ,

As shown in FIG. 3, the head 30 has a “c” shaped open groove 31 formed at one side and rotatably installed at both sides of the open groove 31 so that the protrusion 11 protrudes. The arm 32 which adheres one surface of the rail 10 to the head 30 and the rotation downward of the open groove 31 by the fixing pin 34 are limited to the arm 32. When the rails 10 are in close contact with each other, the locking protrusions 33 protruding from the protrusions 11 and the protrusions 11 of the rails 10, and the arm 32 and the locking protrusions 33 are heads ( 30 is fixed to the fixing pin 34 is configured,

The rail 10 has a rack gear type protrusion 11 formed on one surface of the rail 10 in the form of an H beam, and a through hole 12 is formed on a side surface of the rail 10. One end is fixed to the side surface of the rail 10 so as to be rotatable based on the through hole 12, and one end of the other end is caught by the inside of the front beam of the rail 10 on which the protrusion 11 is formed. And the other surface adjacent to one surface of the other end and supported by the head 30 are simultaneously supported by the front beam of the rail 10 and the head 30, respectively, so as to prevent the falling of the rail 10. (13) is provided.

In addition, as shown in FIG. 2, the hydraulic device 40 converts the hydraulic pressure supplied from the external hydraulic pump (not shown) through the hydraulic pipe 43 into rotational energy, and rotates according to the direction of the hydraulic supply. The changed hydraulic motor 42 and the gear and the rotating body of the hydraulic motor 42, the rotational force of the hydraulic motor 42 is decelerated by the gear ratio to amplify the rotational force, the final gear of the rail 10 Gear box 41 and the gear box 41 is coupled to the protrusion 11 to the lifting and lowering the rail 10 in accordance with the rotation direction of the hydraulic motor 42, and formed on one surface of the gear box 41 to the shoe ( 20 is composed of a fixing part 44 for fixing the gear box 41,

The fixing part 44 of the gearbox 41 may be inserted into the groove 36 formed on the upper surface of the head 30 of the shoe 20, and may be coupled by a coupling means such as a bold or a nut, and the gearbox 41. According to the gear ratio of the lifting speed and the lifting force can be adjusted, and the lifting and lowering at regular intervals, rather than being able to continuously lift and lower according to the rotation of the hydraulic motor (42).

This safety rail climbing system, as shown in FIGS. 4 and 5, always keeps the rail 10 in close contact with the arm 32 of the head 30.

① The gear and the lug type projection 11 of the rail 10 are always bite,

② The locking protrusion 33 of the head 30, which is limited to the downward rotation by the fixing pin 34, supports the lower end of the rack gear type protrusion 11 of the rail 10,

③ The drop preventing member 13 of the rail 10 is supported by the arm 32 of the head 30 to prevent falling in triplicate, so that the cage 2 fixed to the rail 10 is lifted, lowered, or finished. In addition, the risk of shaking or falling due to wind pressure can be minimized, so there is no need to install a separate safety facility.

The lifting speed and the lifting force can be adjusted according to the gear ratio of the gear box 41, and the lifting and lowering is not performed at regular intervals, but the lifting and lowering is possible continuously according to the rotation of the hydraulic motor 42. Even if there is an operator in the cage (2) fixed to the safety can be raised and lowered to increase the work efficiency, and even after the lifting is completed, if the height level of the cage (2) and the construction layer does not match, reverse the hydraulic motor (42) It is possible to finely adjust the level by rotating to minimize the gap between the cage (2) and the construction layer due to the level difference, it is possible to minimize the falling rate or falling accident by this gap to ensure safe construction Will be.

The present invention relates to a finishing construction method using such a safety rail climbing system, in the above-described safety rail climbing system installation step (S10) to install the safety rail climbing system in the building under construction, the rail 10 of the safety rail climbing system On the other side of the) to install the cage (2) with a safety scaffold for finishing work can be carried out the finishing work, the current planned finishing work on the current floor is completed, the lifting construction step (S20) for the next floor finishing work In and out by lifting the cage 2 independently by the hydraulic device 40 can perform the finishing work of the upper floor.

That is, the lifting construction step (S20) is supplied with hydraulic pressure from the outside and the hydraulic motor 42 is installed to be detachable to the shoe 20, and the projections 11 of the rail 10, the cage 2 is installed. The hydraulic pressure supplied by the above-described hydraulic device 40 composed of the gear box 41 is geared to the rotary motor through the hydraulic motor 42 to rotate the gear of the gear box 41 to rotate, As the elevating protrusions 11 of the gear 10 coupled to the rails, the cages 2 fixed together are lifted to enable finishing of the upper layer.

After completing the lifting of the cage 2 to the target layer to be finished in this way, the locking projection 33 of the head 30 is limited to the downward rotation by the fixing pin 34 is a rail (10) Support the lower end of the rack gear type projection 11, and the drop prevention member 13 of the rail 10 is supported by the arm 32 of the head 30, the fall prevention is possible since the removable hydraulic device 40 is It can be removed and moved to the upper shoe 20 to lift the cage 2 to the next layer.

Here, the cage 2 installed on the other surface of the rail 10 of the safety rail climbing system may be installed at a height of three to four floors so as to finish the three to four floors simultaneously.

Therefore, it is possible to simultaneously finish the construction of multiple floors by using the above-mentioned cage (2), which has a plurality of floors, with a shorter construction time than the frame construction, in which the frame is erected and the concrete is waited for drying. It can be carried out by repeating the lifting construction step (S20) up to the top floor under construction, or wait for the completion of the construction of the upper floor,

In addition to finishing the wall (1), if a situation in which various finishing operations such as window frame construction, chassis construction, glass construction, paint construction, etc. cannot be performed at the same time occurs, the above construction is not waited until the completion of the wall (1). The shoe 20 and the hydraulic device 40 are installed to be moved to the lower floor, and the above-mentioned cage 2 is lowered and lifted, and other kinds of finishing work can be performed.

This lowering construction step (S30) removes the fixing pin 34 fixed to the lower end of the locking projection 33 of the head 30 of the safety rail climbing system, and downwards the anti-drop member 13 of the rail (10). When fully rotated and fixed with a pin or the like, the locking protrusion 33 of the head 30 can be rotated downward, and the drop preventing member 13 of the rail 10 is connected to the arm 32 of the head 30. When the hydraulic motor 42 is reversed, the rack gear-type protrusion 11 of the rail 10 held by the gear is lowered to lower the cage 2 to the lower floor, so that finishing construction can be performed on the lower floor. The removable hydraulic device 40 may be separated and moved to the lower shoe 20 to lift the cage 2 to the next lower floor.

Such ascending construction step (S20) and descending construction step (S30) by repeating the various types of finishing construction that can not be carried out at the same time can be repeatedly performed at the top floor under the frame construction, the cage installed at a height of 3 to 4 floors ( By 2) it is possible to carry out finishing work on multiple floors at the same time, enabling efficient operation of finishing construction personnel and equipment.

In addition, such as the lifting construction step (S20) and the lower construction step (S30) is that the lifting and lowering is made in the cage (2) unit by the hydraulic device 40 installed in each shoe 20 can be finished work Finish schedules, finish staff and equipment as soon as they are ready in small cages (2) without having to wait or prepare for the finish schedule, finishing staff and equipment to be able to build a floor. As a result, the construction work can be performed efficiently by the finishing construction personnel and equipment.

After completing the efficient construction in this way, the cage 2 can be immediately dismantled using a crane or the like from the floor completed through the safety rail climbing system dismantling step (S40), and the hydraulic device 40 is used. Of course, it can also be dismantled by lowering the cage (2) to the lowest layer.

As described above, the present invention is not limited to the above-described embodiments, but can be variously changed within the spirit and concept of the present invention.

1: wall 2: cage 10: rail
11: Protruding 12: Via 13: Fall prevention member
20: shoe 21: support part 22: tightening part
23: cone 24: anchor 30: head
31: Opening home 32: Female 33: Jamming protrusion
34: pin 35: support 36: groove
40: hydraulic device 41: gear box 42: hydraulic motor
43: Hydraulic pipe 44: Fixed government
S10: Installation of the safety rail climbing system
S20: step of construction
S30: Descent construction stage
S40: Safety rail climbing system dismantling step

Claims (5)

A gear box fixed to the outer wall of the constructed building, the rail having a lex gear type protrusion formed on one surface thereof to be close to the outer wall to be supported by the shoe, and geared to be coupled to the lex gear type protrusion of the rail; Installing a safety rail climbing system for installing a hydraulic device consisting of a hydraulic motor for rotating the gear of the gearbox on the top of the shoe for the lifting and lowering of the rail,
An elevating construction step of installing a cage having a safety scaffold for finishing work on the other side of the rail and lifting the cage according to the elevating of the rail by the hydraulic device;
As the cage descends in accordance with the descending of the rail by the hydraulic device and the falling construction step of performing the second finishing construction,
After completing the finishing construction of all floors by repeating the lifting and lowering construction steps, the safety rail climbing system is dismantled to separate the cage and the rails by lowering the rail to the lowest floor by the hydraulic device.
In the above-described safety rail climbing system installation step, the shoe is composed of a support fixed to the outer wall and a head formed on one side of the support to close and support the rail to the wall to prevent falling, the rail is H A rack gear type protrusion is formed on one side of the rail in the form of a beam, and a hole is formed on the side of the rail.
One side of the other end of the drop preventing member is supported on the front beam of the rail is formed with a projection is provided on the side of the rail is fixed to one end so that it can be rotated based on the through hole, the projection is formed, and the Finishing construction using a safety rail climbing system, characterized in that the other surface adjacent to one surface of the other end of the anti-drop member and supported by the head is simultaneously supported by the front beam and the head of the rail to prevent the rail from falling. Way. delete The method of claim 1,
The above-described lifting construction step is a finishing construction method using a safety rail climbing system characterized in that the lifting and lifting the cage lifting and installing the shoe and the hydraulic device to the upper floor. The method of claim 1,
The cage installed in the above-mentioned lifting construction stage is a finishing method using a safety rail climbing system, characterized in that the installation is 3 to 4 floors high. The method of claim 1,
The above-described descending construction step is installed to move the shoe and the hydraulic device to the lower floor and finishing construction method using a safety rail climbing system, characterized in that the lifting lowered cage.

Images