KR20190080023A - Multipurpose automatic lifting system - Google Patents

Abstract

The present invention provides a multipurpose automatic lifting system, capable of safely and easily lifting a construction material without using a crane. According to the present invention, the multipurpose automatic lifting system comprises: a first fixture (10) individually fixed to an upper end of an outer wall; a first shoe (20) opened upward and downward and individually fixed to the first fixture (10); a second fixture (30) individually fixed to an outer wall; a second shoe (40) opened upward and downward and individually fixed to the second fixture (30); a first rail (50) and a second rail (60), ascending and descending by being connected to the first shoe (20) and the second shoe (40); a rotation shaft (70) horizontally installed in the first shoe (20); a sprocket (80) installed in the rotation shaft (70); a motor (90) rotating the rotation shaft (70); a chain (100) enabling the first rail (50) to ascend and descend; and a construction material support unit (110) supporting the lower part of the construction material (2) separated from the outer wall on which concrete is placed.

Description

[0001] Multipurpose automatic lifting system [0002]

The present invention relates to a multipurpose automatic lifting system for safely and easily lifting a building material without using a crane.

GANG FORM is mainly used in high-rise apartment buildings as a whole. It is made up of a cage (CAGE) for installation / dismantling of outside outer wall formwork and plastering / It refers to large formwork to use.

CAGE is a part of the gang form which is outside of the exterior wall formwork and consists of a work platform and a safety guardrail which are necessary for safe work such as mold installation / dismantling work and subsequent plastering / .

These gang forms are to be applied to prevent the degradation of the outer wall structure of apartment buildings and general buildings and to prevent safety accidents, and to continuously construct the skyscraper frame and subsequent finishing work with uniform quality.

Such gauze should be lifted upwards in order to continuously construct the upper part of the outer wall formed by the gangue after the concrete pouring and curing process.

At this time, the gangbang is generally lifted by one layer using a crane, and then fixed to the outer wall to form the upper outer wall.

At this time, when the gang-bang is lifted by the crane through the wire, there is a safety problem such that the center of gravity of the gang-bang does not fit or it is shaken to the left and right due to the effect of wind. In addition, since the lifting height of the gang form is controlled by adjusting the lifting height of the crane, it is very difficult to adjust the lifting height. Especially, when the distance from the crane is long, it becomes more difficult to control the lifting height. In addition, the movement of the gangbang which is lifted by the crane to the installation position is often carried out by manpower, which causes a problem of safety accidents. In addition, there is a problem that it is difficult to horizontally adjust the raised gantry so that the gantry can not be easily fixed.

Therefore, it is required to develop a multi-purpose automatic lifting system for safely and easily lifting construction materials such as gangbang without using a crane.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a multi-purpose automatic lifting system that can safely and easily lift a building material without using a crane.

Another object of the present invention is to provide a multi-purpose automatic lifting system for facilitating installation of building materials by facilitating lateral adjustment of building materials when fixing building materials.

It is another object of the present invention to provide a multipurpose automatic lifting system that facilitates separation of building materials from a poured exterior wall and facilitates close transfer of building materials to an exterior wall to be laid after lifting of building materials.

"자형태로 된 한쌍의 제 1 슈우(shoe)(20); 상기 제 1 고정구(10)의 직하방에 일정거리 이격되며 타설된 외벽에 각각 고정되는 한쌍의 제 2 고정구(30); 한쌍의 상기 제 2 고정구(30)에 각각 고정되며 상하로 개방되고 "

"자형태로 된 한쌍의 제 2 슈우(shoe)(40); 하나의 상기 제 1 슈우(20)와 그 하방에 위치한 상기 제 2 슈우(40)에 결합되어 승하강되는 제 1 레일(50); 나머지 하나의 상기 제 1 슈우(20)와 그 하방에 위치한 상기 제 2 슈우(40)에 결합되어 승하강되는 제 2 레일(60); 상기 제 1 레일(50)이 결합되는 상기 제 1 슈우(20)의 내부에 수평되게 설치되는 회전축(70); 상기 회전축(70)에 구비되는 스프라켓(80); 상기 회전축(70)을 회전시키는 모터(90); 상기 스프라켓(80)에 감겨 결합되고 일측단부가 상기 제 1 레일(50)에 고정되며, 상기 회전축(70)의 회전에 의해 상기 제 1 레일(50)이 승하강되도록 하는 체인(100); 상기 제 1 레일(50)과 상기 제 2 레일(60)을 서로 연결하고 상기 제 1 레일(50)과 상기 제 2 레일(60)의 외측으로 돌출되도록 고정되며, 상기 회전축(70)의 회전에 의한 상기 제 1 레일(50)과 상기 제 2 레일(60)의 동시 승강에 의해 승하강됨으로써 타설된 외벽으로부터 분리된 건축자재(2)의 하부를 지지하여 상부로 인양되도록 하는 건축자재 지지부(110);를 포함하여 이루어지는 것을 특징으로 한다. In order to accomplish the above object, the present invention provides a multipurpose automatic lifting system comprising: a pair of first fixtures (10) spaced apart from each other in a horizontal direction and fixed to upper portions of poured outer walls; Are fixed to a pair of the first fixing members 10,

A pair of second fasteners 30 which are respectively fixed to outer walls which are spaced apart from the first fastener 10 by a predetermined distance and which are placed on the outer wall of the pair of first shoe 20, Are respectively fixed to the second fixture (30)

A pair of second shoe 40 having a first shoe 40 and a first rail 50 joined to one of the first shoe 20 and the second shoe 40 located below the first shoe 40, A second rail 60 connected to the other one of the first shoe 20 and the second shoe 40 positioned below the second shoe 20 and raised and lowered, A sprocket 80 provided on the rotary shaft 70 and a motor 90 for rotating the rotary shaft 70. The sprocket 80 is wound on the sprocket 80, A chain 100 fixed at one end to the first rail 50 and moving up and down the first rail 50 by rotation of the rotation shaft 70, 2 rails 60 are connected to each other and fixed to protrude outwardly of the first and second rails 50 and 60, 50) and the second rail (60) to support the lower portion of the building material (2) separated from the poured outer wall by being lifted and lowered by the simultaneous lifting and lowering of the second rail (60) .

The building material supporting part 110 is provided on the upper part of the building material supporting part 110 and supports the lower ends of both side end parts of the building material 2 and separates the separated building material 2 from the installed outer wall, And a building material transferring unit 120 for transferring the building material 2 so as to be close to the outer wall to be laid.

The construction material conveyance unit 120 includes a pair of bolt joints 120a and 120b provided at both ends of the inside of the upper end of the building material support unit 110 and having a first through hole 121a penetrating in a direction perpendicular to the installed outer wall, A bolt 122 for building material which is inserted into the first through hole 121a of the bolt coupling part 121 and has a screw part 122a formed at a lower part thereof, A screw coupling hole 123a is formed on the upper inner side surface of the upper portion of the building material supporting portion 110 so as to be slidable in the direction of the slider 122 and coupled to the screw portion 122a of the building material transferring bolt 122, And a transfer plate (123) slidable in a direction perpendicular to the outer wall laid by the rotation of the transfer bolt (122).

The first rail 50 and the second rail 60 may be disposed between the first rail 50 and the second rail 60 and the building material support 110, A pair of first fixing brackets 131 for fixing the supporting parts 110 to each other, a pair of second fixing brackets 132 fixed to both outer lower ends of the building material supporting part 110, A pair of third fixing brackets 133 spaced a predetermined distance apart from the lower portion of the second fixing bracket 132 and fixed to the outer sides of the first rail 50 and the second rail 60, And a pair of support rods 134 that connect the third fixing brackets 133 to each other to support the outside of the building material supporting unit 110.

A pair of finishing plates 141 having a second through hole 141a formed in the center of the rail in the longitudinal direction of the first rail 50 and the second rail 60, A pair of vertical level adjusting bolts 142 inserted into the second through holes 141a of the first and second rails 141 and 141 and the pair of vertical level adjusting bolts 142 coupled to the first and second rails 50 and 60, As the bolt coupling hole 143a is formed and is raised and lowered by the rotation of the vertical level adjusting bolt 142, the vertical height of the first rail 50 and the second rail 60 is adjusted, A vertical level adjustment lift part 143 provided on the first shoe 20 and the second shoe 40 and having a protrusion 143b protruding from the vertical shank 120, A rail vertical level regulator 140 comprising a latch plate 144 which is hung on the first and second rails 50 and 60 to limit the descent of the first rail 50 and the second rail 60; And further comprising:

It is further characterized in that a conduction preventing frame 150 which is fixed to an outer upper end of the building material supporting part 110 and prevents the building material 2 supported by the building material supporting part 110 from being conducted to the outside is further provided .

As the one end of the chain 100 is raised by the rotation of the sprocket 80, the descent of the other side of the chain 100 is smoothly performed when the first rail 50 and the second rail 60 are lifted And a cusp 160 fixed to the other end of the chain 100 is further provided.

In the multi-purpose automatic lifting system of the present invention constructed as above, the building material is lifted by the sprocket and the chain by the rotation of the motor without using a crane, so that the building material can be safely and easily lifted.

In addition, when the building material is fixed, lateral adjustment of the building material is facilitated, so that the horizontally adjusted building material can be installed when the building material is lifted and lifted, thereby facilitating the installation of the building material.

Further, it is possible to facilitate the separation of the building material from the poured outer wall and the close transfer of the building material to the outer wall to be laid after the lifting of the building material, thereby facilitating the disassembly of the building material and the installation of the lifted building material .

1 is a side view of a multipurpose automatic lifting system of the present invention.
FIG. 2 is a side view showing a state in which a gantry is installed in the multipurpose automatic lifting system of the present invention.
3 is a side view showing the operating state of the multipurpose automatic lifting system of the present invention.
4 is a plan view of a shoe of the multipurpose automatic lifting system of the present invention.
5 is a side view showing the structure of a construction material conveyance part of the multipurpose automatic lifting system of the present invention.
6 is a side view showing a rail vertical level adjusting unit of the multipurpose automatic lifting system of the present invention.

Hereinafter, a multi-purpose automatic lifting system of the present invention will be described in detail with reference to the drawings.

The term "building material" used in the description of the multipurpose automatic lifting system of the present invention refers to various forms such as gang form and euro form for putting in outer wall, ceiling, floor and the like, workbench or cage, The multipurpose automatic lifting system is used for multipurpose purposes by lifting these building materials.

Hereinafter, in the description of the present invention, a description has been given of a building material as a gang form.

FIG. 1 is a side view showing a multi-purpose automatic lifting system of the present invention, FIG. 2 is a side view showing a state in which a gantry is installed in the multi-purpose automatic lifting system of the present invention, and FIG. 5 is a side view showing the structure of a construction material conveying part of the multipurpose automatic lifting system of the present invention, and Fig. 6 is a side view showing the construction of a multipurpose automatic lifting system according to the present invention. Fig. Fig. 2 is a side view showing a rail vertical level adjustment unit of the system; Fig.

The multi-purpose automatic lifting system according to the present invention includes a first fixture 10, a first shoe 20, a second fixture 30, a second shoe 40, a first rail 50, A second rail 60, a rotation shaft 70, a sprocket 80, a motor 90, a chain 100, and a building material support unit 110.

The first fixing member 10 is fixed to the upper end of the outer wall of the first fixing member 10 by a predetermined distance in the horizontal direction.

The first fixture 10 is generally integrally embedded and buried when the outer wall 1 is poured, and the outer wall may be pierced after the outer wall is poured.

"자형태로 되며, 한쌍으로 된다. 4, the first shoe 20 is fixed to a pair of the first fixtures 10 and is opened up and down so that the rails can be inserted and raised. As shown in FIG. 4,

"And becomes a pair.

The second fixing member 30 is fixed to the outer wall of the first fixing member 10 and is paired with the first fixing member 10 by a predetermined distance.

Like the first fixing hole 10, the second fixing hole 30 is generally integrally embedded and buried at the time of pouring the outer wall, and the outer wall may be pierced after the outer wall is poured.

"자형태로 되며, 한쌍으로 된다. The second shoe 40 is fixed to a pair of the second fixtures 30 and is opened up and down like the first shoe 20,

"And becomes a pair.

The first rail 50 is coupled to one of the first shoe 20 and the second shoe 40 positioned below the first shoe 20 and is raised and lowered.

The second rail 60 is coupled to the other one of the first shoe 20 and the second shoe 40 located below the second shoe 20 and ascends and descends.

The first rail 50 and the second rail 60 are fixed to the first rail 50 when the first rail 50 is moved up and down, The supporting portion 110 is raised and lowered and the building material supporting portion 110 is coupled to the second rail 60 so that the second rail 60 also ascends and descends when the first rail 50 is lifted or lowered.

The rotation shaft 70 is horizontally installed in parallel with the outer wall of the first shoe 20 to which the first rail 50 is coupled.

The sprocket 80 is provided on the rotary shaft 70 and is rotated by the rotation of the rotary shaft 70.

The motor (90) rotates the rotation shaft (70).

The chain 100 is wound around the sprocket 80 and fixed at one end thereof to the first rail 50 and moves up and down the first rail 50 by the rotation of the rotation shaft 70 . One end of the chain 100 is fixed to a chain fastener 51 provided on the first rail 50. The chain (100) raises the first rail (50) by the rotation of the sprocket (80) by the rotation of the rotating shaft (70).

The building material supporting portion 110 is fixed so as to connect the first rail 50 and the second rail 60 to each other and protrude to the outside of the first rail 50 and the second rail 60 . The building material supporting part 110 is lifted and lowered by the simultaneous lifting and lowering of the first rail 50 and the second rail 60 by the rotation of the rotary shaft 70 and thereby the building material 2 So as to be lifted up to the upper part.

The multi-purpose automatic lifting system of the present invention having the above-described structure operates as follows to salvage the building material.

When the rotary shaft 70 is rotated by operating the motor 90 in a state in which the building material 2 is spaced apart from the installed outer wall 1 and mounted on the building material supporting portion 110, The sprocket 80 is rotated. Since the chain 100 is coupled to the sprocket 80, one end of the chain 100 fixed to the first rail 50 is raised by the rotation of the sprocket 80. When one end of the chain 100 rises, the first rail 50 with one end of the chain 100 is lifted. Since the building material supporting part 110 is fixed to the first rail 50, the building material supporting part 110 is raised by the elevation of the first rail 50, The second rail 60 also ascends because the building material support 110 is fixed. As shown in FIG. 3 (a), the building material 2 mounted on the building material supporting portion 110 is lifted as the building material supporting portion 110 is raised.

When the building material 2 rises up to a certain height (usually raised to a height of one layer), the building material 2 mounted on the building material supporting part 110 is installed so as to form an outer wall to be laid.

When the building material 2 is installed, as shown in FIG. 3 (b), the outer wall is laid and after curing, an outer wall extended to the upper part of the laid outer wall is laid, The first shoe 20 and the second shoe 20 are mounted on the outer wall where the first fixing part 10 is installed and the first shoe 20 and the first shoe 20 The second rail 60 and the building material supporting portion 110 are lifted up by the lifted height of the lifted building material so that the building material 2 can be re-lifted as shown in FIG. 3 (c).

The building material 2 is lifted to the upper part by lifting the building material supporting part 110 in a state that the building material 2 is dismounted from the outer wall laid in the building material supporting part 110, It is preferable to dismantle the building material 2 at a position in contact with the lower end of the intermediate part working footboard of the building material 2 so that the intermediate part of the constructed building material 2 can be directly supported.

In order to smooth the lifting of the building material (2) in a state of dismantling the building material (2), the building material (2) is separated from the outer wall to be laid after the building material (2) It is preferable to make it close to the outer wall to be paved. As described above, the building material transfer unit 120 is provided to transfer the building material 2 so as to be spaced apart from the installed outer wall or close to the outer wall to be laid on the building material 2 spaced after the lifting .

The building material conveying part 120 is provided on the building material supporting part 110 and supports the lower ends of both side end parts of the building material 2 and separates the separated building material 2 from the installed outer wall, And to transfer the building material (2) so that the separated building material (2) is close to the outer wall to be laid.

5, the construction material conveyance unit 120 includes a bolt coupling unit 121, a building material conveyance bolt 122, and a conveyance plate 123.

The bolt connecting portion 121 is provided at both end portions of the inside of the upper end of the building material supporting portion 110 and has a first through hole 121a formed in a direction perpendicular to the installed outer wall.

The building material transferring bolt 122 is inserted into the first through hole 121a of the bolt coupling part 121 and has a screw part 122a formed at a lower part thereof.

The transfer plate 123 is coupled to the building material support 110 so as to be slidable in a direction perpendicular to the installed outer wall, A screwing hole 123a is formed to be engaged with the screw portion 122a of the bolt 122 and is slid in a direction perpendicular to the outer wall laid by the rotation of the bolt 122 for building material, 2 can be transferred.

When the bolts 122 for building materials coupled to the bolt coupling part 121 are rotated forward or reverse, the position of the bolts 122 for transferring the building material is not changed and the bolts 122 The conveying plate 123 coupled to the conveying plate 123 is slid in a direction perpendicular to the outer wall so that the building material 2 can be transferred to the upper portion of the conveying plate 123. [

5, the first fixing bracket 131, the second fixing bracket 132, the third fixing bracket 133, and the supporting rods 132 are fixed to each other in order to stably fix the building material supporting portion 110. [ (134).

The first fixing bracket 131 is provided between the first rail 50 and the second rail 60 and the building material supporting portion 110 and is disposed between the first rail 50 and the second rail 60 and the building material supporting portion 110 are coupled to each other and are paired.

The second fixing bracket 132 is fixed to both sides of the outer bottom of the building material support 110 and is paired.

The third fixing bracket 133 is fixed to the outer side of the first rail 50 and the second rail 60 by a predetermined distance below the first fixing bracket 131 and is paired with each other.

The supporting rod 134 connects the second fixing bracket 132 and the third fixing bracket 133 to support the outer side of the building material supporting part 110 and becomes a pair.

Accordingly, the building material supporting portion 110 is formed in an equilateral triangle shape by the first rail 50, the second rail 60, and the support rod 134, so that the building material supporting portion 110 can be stably supported.

It is necessary to hoist the building material 2 mounted on the upper part of the building material supporting part 110 horizontally.

For this purpose, the vertical level of the first rail 50 and the second rail 60 is adjusted to horizontally align the building material 2 mounted on the upper part of the building material supporting part 110, The control unit 140 is used.

6, the rail vertical level adjuster 140 includes a finishing plate 141, a vertical level adjusting bolt 142, a vertical level adjusting elevator 143, and a latching plate 144 .

The finishing plates 141 are paired and the upper ends of the first rails 50 and the second rails 60 are respectively closed and the second through holes 141a are formed at the center in the longitudinal direction of the rails.

The vertical level adjusting bolts 142 are inserted into the second through holes 141a of the pair of finishing plates 141, respectively.

The vertical level adjusting elevator 143 is coupled to the first rail 50 and the second rail 60 and the bolt coupling hole 143a is formed along the longitudinal direction of the rail, And adjusts the height of the first rail (50) and the second rail (60) as they ascend and descend by the rotation of the bolt (142). In addition, the vertical level adjusting elevator 143 is provided with a protrusion 143b protruding from an inner end portion thereof.

The locking plate 144 is provided on the first shoe 20 and the second shoe 40 and is hooked on the protrusion 143b of the vertical level adjusting elevator 143, And serves to limit the descent of the second rail (60).

When the vertical level adjusting bolt 142 coupled to the second through hole 141a of the finishing plate 141 is rotated forward or backward, the position of the vertical level adjusting bolt 142 does not change, The vertical level adjusting elevator 143 coupled to the adjusting bolt 142 is raised and lowered. The first rail 50 and the second rail 60 are lowered due to their own weight when the vertical level adjusting elevator 143 rises. On the contrary, when the vertical level adjusting lift portion 143 is lowered, the vertical level adjusting lift portion 143 is lowered to push the latch plate 144, and the latch plate 144 is moved to the first shoe 20 So that the first rail 50 and the second rail 60 are raised.

The present invention is provided with a conduction preventing frame (150) for preventing the building material (2) from being conducted outside when lifting the building material (2).

The conduction preventing frame 150 is fixed to the outer upper end of the building material supporting portion 110 and prevents the building material 2 supported by the building material supporting portion 110 from being turned outward.

The present invention is characterized in that when one end of the chain 100 is lifted by the rotation of the sprocket 80 and the first rail 50 and the second rail 60 are lifted up, It is preferable to further include a cusp 160 fixed to the other end of the chain 100 for smooth descent.

Although the multipurpose automatic lifting system of the present invention exemplifies lifting gnomes, the lifting of various forms for pouring outer walls, ceilings, floors and the like, lifting of workbenches and cages for installing a foam, It goes without saying that it can also be applied to lifting.

The technical idea should not be interpreted as being limited to the above-described embodiment of the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, such modifications and changes are within the scope of protection of the present invention as long as it is obvious to those skilled in the art.

(1) Building materials (2) First fixture (10)
The first shoe 20, the second fastener 30, the second shoe 40,
The first rail 50, the second rail 60, the rotary shaft 70,
Sprocket (80) Motor (90) Chain (100)
The construction material supporting part 110, the building material conveying part 120, the first through hole 121a,
Bolt connection part (121) Screw part (122a) Construction material conveying bolt (122)
Screw 123a transfer plate 123 first fixing bracket 131,
The second fixing bracket 132, the third fixing bracket 133, the support rod 134,
The vertical level adjuster 140, the second through-hole 141a, the finishing plate 141,
Vertical level adjusting bolt 142 Bolt fitting hole 143a Projection 143b
The vertical level adjusting elevator 143, the latch plate 144,
The central (160)

Claims (7)

A pair of first fixtures spaced apart from each other in the horizontal direction and fixed to upper portions of the poured outer wall;
A pair of first fixing members fixed to the pair of first fixing members,

A pair of first shoe in a "shape "
A pair of second fasteners spaced a predetermined distance from the first fastener and fixed to the outer wall;
And is fixed to a pair of the second fixtures,

A pair of second shoe in the shape of a letter;
A first rail coupled to one of the first shoe and the second shoe located below the first shoe and raised and lowered;
A second rail coupled to the other one of the first shoe and the second shoe located below the first shoe and raised and lowered;
A rotating shaft horizontally installed inside the first shoe to which the first rail is coupled;
A sprocket provided on the rotating shaft;
A motor for rotating the rotating shaft;
A chain wound around the sprocket and having one end fixed to the first rail and having the first rail elevated and lowered by rotation of the rotation shaft;
The first rail and the second rail are connected to each other and fixed to protrude outwardly of the first rail and the second rail, and by the simultaneous lifting and lowering of the first rail and the second rail by the rotation of the rotation shaft And a building material support unit supporting the lower portion of the building material separated from the poured outer wall by being lifted and lowered, thereby lifting the building material upward. The method according to claim 1,
A supporting member provided on an upper portion of the building material supporting portion to support the lower ends of both end portions of the building material and to separate the separated building material from the installed outer wall or to transfer the building material spaced apart after the lifting to the outer wall to be paved And a material transferring unit for transferring the material to the object. The building material conveying device according to claim 2,
A pair of bolt coupling portions provided at both end portions of the inside of the upper end of the building material supporting portion and having a first through hole formed in a direction perpendicular to the installed outer wall,
A bolt for inserting a building material inserted into the first through hole of the bolt coupling portion and having a threaded portion formed at a lower portion thereof,
A screw coupling hole coupled to the building material supporting portion so as to be slidable in a direction perpendicular to the installed outer wall and coupled to the screw portion of the bolt for conveying the building material is formed on the upper inner side surface, And a transfer plate slidably moved in a direction perpendicular to the inserted outer wall. The method according to claim 1,
A pair of first fixing brackets provided between the first rails and the second rails and the building material supporting portions and coupling the outside of the first rails and the second rails with the building material supporting portions,
A pair of second fixing brackets fixed to both outer lower ends of the building material supporting portion,
A pair of third fixing brackets spaced a predetermined distance below the first fixing bracket and fixed to the outer sides of the first and second rails respectively,
Further comprising a pair of support rods for connecting the second fixing bracket and the third fixing bracket to each other to support the outside of the building material supporting portion. The method according to claim 1,
A pair of finishing plates for finishing the upper ends of the first and second rails and forming a second through hole in a longitudinal direction of the rail,
A pair of vertical level adjusting bolts inserted into the second through holes of the finishing plate,
The bolts are coupled to the first and second rails, respectively. The bolt coupling holes are formed along the longitudinal direction of the rails, and the elevating and lowering heights of the first and second rails A vertical level adjusting elevator having protrusions protruding from an inner end portion thereof,
And a rail vertical level adjuster which is provided at each of the first shoe and is engaged with a protrusion of the vertical level adjusting elevator to limit the descent of the first rail and the second rail. Multipurpose automatic lifting system. The method according to claim 1,
Further comprising a conduction preventing frame which is fixed to an outer upper end of the building material supporting portion and prevents the building material supported by the building material supporting portion from being conducted to the outside. The method according to claim 1,
And a center which is fixed to the other end of the chain for smooth descent of the other side of the chain when the first rail and the second rail are lifted by the rise of one end of the chain by the sprocket rotation Multi-purpose automatic lifting system.

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